Revision as of 16:09, 16 October 2018

Cultivation (Cultivation of E. coli ER2566 colonies for IPTG induction)
IPTG Induction (To test the O.D. levels of E. coli ER2566 to induce)Condition: O.D. = 0.5, 1.3
sample

Leucocyclicin Q + pTXB1

August 7

Expression

SDS-PAGE (To check the protein production after induction)
sample

Leucocyclicin Q + pTXB1

August 8

None

August 9

None

August 10

None

August 11

Cloning

Amplify the insert gene (Pfu PCR)
Electrophoresis (To check PCR products)
sample

Enterocin B
Enterocin 96
Duracin TW49M

August 12

Cloning

Digestion of PCR products (Including insert and backbone pTXB1)
Ligation of digestion products (Ligase the DNA fragment into backbone pTXB1)
Transformation of ligation products (Transform into E. coli DH5α)
sample

Enterocin B + pTXB1
Enterocin 96 + pTXB1
Duracin TW49M + pTXB1

Growth curve

Observe the growth of Bacillus subtilis in different temperature, pH, salinityCondition:
1.Temp: 37°C , pH:7 , salinity: 0.17M
2.Temp: 30°C , pH:9 , salinity: 0.5M
3.Temp: 25°C , pH:5 , salinity: 0.25M

August 13

Cloning

Taq PCR (PCR of ligation products to amplify insert gene)
Electrophoresis (To check PCR products)
sample

Enterocin B + pTXB1
Enterocin 96 + pTXB1
Duracin TW49M + pTXB1

Cloning gene of Curcumin biosensor

Digesting pet30a backbone and ligating it with αS1-casein, GS linker and T7 promoter.
sample

pet30a backbone
gene segment of αS1-casein
GS linker and T7 promoter

August 14

Cloning

Cultivation
Miniprep (Purify Plasmid)
Sample

Enterocin B + pTXB1
Enterocin 96 + pTXB1
Duracin TW49M + pTXB1

Expression

Transformation (Transform correct plasmid into E. coli ER2566)to test different cultivation temperature

August 15

Cloning

Sequencing plasmid
Sample

Enterocin B + pTXB1
Enterocin 96 + pTXB1
Duracin TW49M + pTXB1

Expression

Cultivation (Cultivation of E. coli ER2566 colonies for IPTG induction)
IPTG Induction (To test the temperature of cultivation after induction)Condition: temp = 37, 30, 13.5°C

Expression

Transforming the ligation product of the Curcumin biosensor into E. coli BL21 DE3 Cultivating the culture and inducing it with IPTG.
Sample

fresh colony of E. coli BL21 DE3 carrying the backbone pet30a containing αS1-casei and GS linker gene from an overnight plate

August 16

Expression

SDS-PAGE (To check the protein production after induction)Check different temperature
IPTG Induction (To test the concentration of IPTG)Condition: concentration = 200, 400, 600, 800, 1000μM

August 17

Expression

SDS-PAGE (To check the protein production after induction) -> Check different IPTG concentration

Chip Production

Processing the chips with Mua , EtOH , and EDC+NHS mixture, then adding αS1-casein on chips.
Sample

αS1-casein protein

August 18

Transformation

Transforming backbone ptxB1 into Bacillus subtilis ER2566 to produce protein as our negative control in verifying the function of our target peptide.
Transforming backbone ptxB1 containing bacteriocin gene into Bacillus subtilis ER2566 to produce our target protein as a biostimulator.
Sample

backbone ptxB1 mini
backbone ptxB1 containing Enterocin B gene mini
backbone ptxB1 containing Enterocin 96 gene mini
backbone ptxB1 containing Leucocyclicin Q gene mini

Cultivation

Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis ER2566 at 37°C carrying the backbone ptxB1 to produce protein as our negative control in verifying the function of our target peptide.
Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis ER2566 at 37°C carrying the backbone ptxB1 containing bacteriocin gene to produce our target protein as a biostimulator.
Sample

Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 from an overnight plate
Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Enterocin B gene from an overnight plate
Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Enterocin 96 gene from an overnight plate
Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Leucocyclicin Q gene from an overnight plate

IPTG Induction

Inducting Bacillus subtilis ER2566 carrying the backbone ptxB1 after cultivating at 37°C to produce protein as our negative control in verifying the function of our target peptide
Inducting Bacillus subtilis ER2566 carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C to produce our target protein as a biostimulator.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Enterocin B gene
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Enterocin 96 gene
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Leucocyclicin Q gene

August 19

Cloning

Digestion of PCR products (Including insert and backbone pET30a)
Ligation of digestion products (Ligase the DNA fragment into backbone pET30a)
Sample(8/17)

Enterocin B + pET30a
Enterocin 96 + pET30a
Bovicin HJ50 + pET30a
Duracin TW49M + pET30a
Lacticin Z + pET30a
Leucocyclicin Q + pET30a

Sonication

Breaking Bacillus subtilis ER2566 carrying the backbone ptxB1 and ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Enterocin B gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Enterocin 96 gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG

Protein quantification & SDS-PAGE

Quantificating the protein expressing the backbone ptxB1 and ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.
Sample

Protein expressing the backbone ptxB1 induced by IPTG
Protein expressing the backbone ptxB1 containing Enterocin B gene induced by IPTG
Protein expressing the backbone ptxB1 containing Enterocin 96 gene induced by IPTG
Protein expressing the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG

Biosensor Measurement 1- Electrochemical Impedance Spectroscopy

August 20

Cloning

Transformation of ligation products (Transform into E. coli DH5α)
Taq PCR (PCR of ligation products to amplify insert gene)
Electrophoresis (To check PCR products)
Sample

Enterocin B + pET30a
Enterocin 96 + pET30a
Bovicin HJ50 + pET30a
Duracin TW49M + pET30a
Lacticin Z + pET30a
Leucocyclicin Q + pET30a

August 21

Cloning

Cultivation
Miniprep (Purify Plasmid)
Sample

Enterocin B + pET30a
Enterocin 96 + pET30a
Bovicin HJ50 + pET30a
Duracin TW49M + pET30a
Lacticin Z + pET30a
Leucocyclicin Q + pET30a

August 22

Cloning

Sequencing plasmid
Sample

Enterocin B + pET30a
Enterocin 96 + pET30a
Bovicin HJ50 + pET30a
Duracin TW49M + pET30a
Lacticin Z + pET30a
Leucocyclicin Q + pET30a

Biosensor Measurement 2- Differential Pulse Voltammetry

August 23

None

August 24

Transformation

Transforming backbone ptxB1 containing bacteriocin gene into Bacillus subtilis ER2566 to produce our target protein as a biostimulator.
Sample

backbone ptxB1 containing Bovicin HJ50 gene mini
backbone ptxB1 containing Durancin gene mini

Cultivation

Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis ER2566 at 37°C carrying the backbone ptxB1 containing bacteriocin gene to produce our target protein as a biostimulator.
Sample

Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Bovicin HJ50 gene from an overnight plate
Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Durancin gene from an overnight plate

IPTG Induction

Inducting Bacillus subtilis ER2566 carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C to produce our target protein as a biostimulator.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 containing Bovicin HJ50 gene
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Durancin gene

August 25

Sonication

Breaking Bacillus subtilis ER2566 carrying the backbone ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Durancin gene induced by IPTG

Protein quantification & SDS-PAGE

Quantificating the protein expressing the backbone ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.
Sample

Protein expressing the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG
Protein expressing the backbone ptxB1 containing Durancin gene induced by IPTG

August 26

None

August 27

None

August 28

None

August 29

None

August 30

None

August 31

None

September 1

None

September 2

September 3

None

September 4

None

September 5

None

September 6

Transformation

Transforming backbone ptxB1 containing Lacticin Z gene into Bacillus subtilis ER2566 to produce our target protein as a biostimulator.
Sample

backbone ptxB1 containing Lacticin Z gene mini

Cultivation

Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis ER2566 at 37°C carrying the backbone ptxB1 containing Lacticin Z gene to produce our target protein as a biostimulator.
Sample

Fresh colony of Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Lacticin Z gene from an overnight plate

IPTG Induction

Inducting Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Lacticin Z gene after cultivating at 37°C to produce our target protein as a biostimulator.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 containing Lacticin Z gene

September 7

Sonication

Breaking Bacillus subtilis ER2566 carrying the backbone ptxB1 containing Lacticin Z gene after cultivating to harvest the protein by sonication.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 containing Lacticin Z gene induced by IPTG

Protein quantification & SDS-PAGE

Quantificating the protein expressing the backbone ptxB1 containing Lacticin Z gene by Bradford method and running SDS-PAGE to check the protein expression.
Sample

Protein expressing the backbone ptxB1 containing Lacticin Z gene induced by IPTG

September 8

None

September 9

None

September 10

None

September 11

None

September 12

None

September 13

None

September 14

None

September 15

None

September 16

None

September 17

None

September 18

None

September 19

None

September 20

None

September 21

None

September 22

None

September 23

None

September 24

None

September 25

None

September 26

None

September 27

None

September 28

None

September 29

None

September 30

None

October 1

None

October 2

None

October 3

None

October 4

None

October 5

Transformation

Transforming backbone ptxB1 into Bacillus subtilis Rosetta Gami to produce protein as our negative control in verifying the function of our target peptide.
Transforming backbone ptxB1 containing bacteriocin gene into Bacillus subtilis Rosetta-gami to produce our target protein as a biostimulator.
Sample

backbone ptxB1 mini
backbone ptxB1 containing Enterocin B gene mini
backbone ptxB1 containing Enterocin 96 gene mini
backbone ptxB1 containing Bovicin HJ50 gene mini
backbone ptxB1 containing Durancin gene mini
backbone ptxB1 containing Lacticin Z gene mini
backbone ptxB1 containing Leucocyclicin Q gene mini

October 6

Cultivation

Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis Rosetta Gami at 37°C carrying the backbone ptxB1 to produce protein as our negative control in verifying the function of our target peptide.
Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis Rosetta-gami at 37°C carrying the backbone ptxB1 containing bacteriocin gene produce our target protein as a biostimulator.
Sample

Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 from an overnight plate
Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Enterocin B gene from an overnight plate
Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Enterocin 96 gene from an overnight plate
Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Leucocyclicin Q gene from an overnight plate

IPTG Induction

Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis Rosetta Gami at 37°C carrying the backbone ptxB1 to produce protein as our negative control in verifying the function of our target peptide.
Inducting Bacillus subtilis Rosetta-gami carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C produce our target protein as a biostimulator.
Sample

Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 from an overnight plate
Culture of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Enterocin B gene
Culture of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Enterocin 96 gene
Culture of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Leucocyclicin Q gene

October 7

Cultivation

Cultivate the E. coli ER2566 at 37°Ccultivating Bacillus subtilis Rosetta-gami at 37°C carrying the backbone ptxB1 containing bacteriocin gene produce our target protein as a biostimulator.
Sample

Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Bovicin HJ50 gene from an overnight plate
Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Durancin gene from an overnight plate
Fresh colony of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Lacticin Z gene from an overnight plate

IPTG Induction

Inducting Bacillus subtilis Rosetta-gami carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C produce our target protein as a biostimulator.
Sample

Culture of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Bovicin HJ50 gene
Culture of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Durancin gene
Culture of Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing Lacticin Z gene

Sonication

Breaking Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 and ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Enterocin B gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Enterocin 96 gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG

Protein quantification & SDS-PAGE

Quantificating the protein expressing the backbone ptxB1 and ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.
Sample

Protein expressing the backbone ptxB1 induced by IPTG
Protein expressing the backbone ptxB1 containing Enterocin B gene induced by IPTG
Protein expressing the backbone ptxB1 containing Enterocin 96 gene induced by IPTG
Protein expressing the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG

October 8

Sonication

Breaking Bacillus subtilis Rosetta Gami carrying the backbone ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.
Sample

Culture of Bacillus subtilis carrying the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Durancin gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Lacticin Z gene induced by IPTG
Culture of Bacillus subtilis carrying the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG

Protein quantification & SDS-PAGE

Quantificating the protein expressing the backbone ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.
Sample

Protein expressing the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG
Protein expressing the backbone ptxB1 containing Durancin gene induced by IPTG
Protein expressing the backbone ptxB1 containing Lacticin Z gene induced by IPTG
Protein expressing the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG

October 9

None

October 10

None

October 11

None

October 12

None

October 13

None

October 14

None

October 15

None

October 16

None

October 17

None

October 18

None

October 19

None

@@ Line 713: / Line 713: @@
              <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Enterocin A</li>
                        <li class="list">Enterocin B</li>
                        <li class="list">Enterocin 96</li>
@@ Line 720: / Line 719: @@
                        <li class="list">Lacticin Z</li>
                        <li class="list">Leucocyclicin Q</li>
-                      <li class="list">Subtilosin</li>
                   </ul>
          </ul>
@@ Line 732: / Line 730: @@
          <p class="note-title">Growth curve exp</p>
          <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-             <li class="list">Observe the growth population of Bacillis subtilis in different temperature Condition: 37°C, 32°C, 27°C</li>
+             <li class="list">Observe the growth population of <i>Bacillus subtilis</i> in different temperature Condition: 37°C, 32°C, 27°C</li>
          </ul>
       </article>
@@ Line 757: / Line 755: @@
          <p class="note-title">Growth curve exp</p>
          <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-             <li class="list">Observe the growth population of Bacillis subtilis in different pH Condition: pH = 4, 5, 6, 7, 8</li>
+             <li class="list">Observe the growth population of <i><i>Bacillus subtilis</i></i> in different pH Condition: pH = 4, 5, 6, 7, 8</li>
          </ul>
       </article>
@@ Line 795: / Line 793: @@
          <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-             <li class="list">repared competent cell E. coli ER2566</li>
+             <li class="list">repared competent cell <i>E. coli</i> ER2566</li>
             </ul>
         <p class="note-title">Growth curve exp</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Observe the growth population of Bacillis subtilis in different salinity Condition: 0.17M, 0.25M, 0.5M, 0.75M, 1.0M</li>
+                <li class="list">Observe the growth population of <i>Bacillus subtilis</i> in different salinity Condition: 0.17M, 0.25M, 0.5M, 0.75M, 1.0M</li>
-               <li class="list">Sample</li>
             </ul>
       </article>
@@ Line 836: / Line 833: @@
         <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Transformation of ligation products (Transform into E. coli DH5α)</li>
+                <li class="list">Transformation of ligation products (Transform into <i>E. coli</i> DH5α)</li>
                 <li class="list">Taq PCR (PCR of ligation products to amplify insert gene)</li>
                 <li class="list">Electrophoresis (To check PCR products)</li>
@@ Line 865: / Line 862: @@
         <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">PurposeL: Sequencing plasmid</li>
+                <li class="list">Sequencing plasmid</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
@@ Line 876: / Line 873: @@
       <article id="July-21" class="note-item">
          <h2>July 21</h2><hr>
-        <p class="note-title">Cultivation</p>
+        <p class="note-title">None</p>
       </article>
@@ Line 898: / Line 895: @@
         <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Transformation of ligation products (Transform into E. coli DH5α)</li>
+                <li class="list">Transformation of ligation products (Transform into <i>E. coli</i> DH5α)</li>
                 <li class="list">Taq PCR (PCR of ligation products to amplify insert gene)</li>
                 <li class="list">Electrophoresis (To check PCR products)</li>
@@ Line 952: / Line 949: @@
         <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Transformation (Transform correct plasmid into E. coli ER2566)</li>
+                <li class="list">Transformation (Transform correct plasmid into <i>E. coli</i> ER2566)</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
                          <li class="list">Leucocyclicin Q + pTXB1</li>
@@ Line 994: / Line 991: @@
         <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Transformation (Transform correct plasmid into E. coli ER2566)</li>
+                <li class="list">Transformation (Transform correct plasmid into <i>E. coli</i> ER2566)</li>
                 <li class="list">sample</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
@@ Line 1,007: / Line 1,004: @@
          <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Cultivation (Cultivation of E. coli ER2566 colonies for IPTG induction)</li>
+                <li class="list">Cultivation (Cultivation of <i>E. coli</i> ER2566 colonies for IPTG induction)</li>
-                <li class="list">Purepose: IPTG Induction (To test the OD levels of E. coli ER2566 to induce)Condition: OD = 0.5, 1.3</li>
+                <li class="list">IPTG Induction (To test the O.D. levels of <i>E. coli</i> ER2566 to induce)Condition: O.D. = 0.5, 1.3</li>
                 <li class="list">sample</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
@@ Line 1,019: / Line 1,016: @@
          <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: SDS PAGE (To check the protein production after induction)</li>
+                <li class="list">SDS-PAGE (To check the protein production after induction)</li>
                 <li class="list">sample</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
@@ Line 1,042: / Line 1,039: @@
          <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Amplify the insert gene (Pfu PCR)</li>
+                <li class="list">Amplify the insert gene (Pfu PCR)</li>
-                <li class="list">Purepose: Electrophoresis (To check PCR products)</li>
+                <li class="list">Electrophoresis (To check PCR products)</li>
                 <li class="list">sample</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                        <li class="list">Enterocin A</li>
                          <li class="list">Enterocin B</li>
                          <li class="list">Enterocin 96 </li>
                          <li class="list">Duracin TW49M </li>
-                        <li class="list">Subtilosin</li>
                      </ul>
             </ul>
@@ Line 1,058: / Line 1,053: @@
          <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Digestion of PCR products (Including insert and backbone pTXB1)</li>
+                <li class="list">Digestion of PCR products (Including insert and backbone pTXB1)</li>
-                <li class="list">Purepose: Ligation of digestion products (Ligase the DNA fragment into backbone pTXB1)</li>
+                <li class="list">Ligation of digestion products (Ligase the DNA fragment into backbone pTXB1)</li>
-                <li class="list">Purepose: Transformation of ligation products (Transform into E. coli DH5α)</li>
+                <li class="list">Transformation of ligation products (Transform into <i>E. coli</i> DH5α)</li>
                 <li class="list">sample</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                        <li class="list">Enterocin A + pTXB1</li>
                          <li class="list">Enterocin B + pTXB1</li>
                          <li class="list">Enterocin 96  + pTXB1</li>
                          <li class="list">Duracin TW49M  + pTXB1</li>
-                        <li class="list">Subtilosin + pTXB1</li>
                      </ul>
             </ul>
          <p class="note-title">Growth curve</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Observe the growth of Bacillus subtilis in different temperature, pH, salinityCondition:</li>
+                <li class="list">Observe the growth of <i><i>Bacillus subtilis</i></i> in different temperature, pH, salinityCondition:</li>
                 <li class="list">1.Temp: 37°C , pH:7 , salinity: 0.17M</li>
                 <li class="list">2.Temp: 30°C , pH:9 , salinity: 0.5M</li>
@@ Line 1,082: / Line 1,075: @@
          <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Taq PCR (PCR of ligation products to amplify insert gene)</li>
+                <li class="list">Taq PCR (PCR of ligation products to amplify insert gene)</li>
-                <li class="list">Purepose: Electrophoresis (To check PCR products)</li>
+                <li class="list">Electrophoresis (To check PCR products)</li>
                 <li class="list">sample</li>
                      <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                        <li class="list">Enterocin A + pTXB1</li>
                          <li class="list">Enterocin B + pTXB1</li>
                          <li class="list">Enterocin 96  + pTXB1</li>
                          <li class="list">Duracin TW49M  + pTXB1</li>
-                         <li class="list">Subtilosin + pTXB1</li>
+                    </ul>
+           </ul>
+        <p class="note-title">Cloning gene of Curcumin biosensor</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Digesting pet30a backbone and ligating it with αS1-casein, GS linker and T7 promoter.</li>
+               <li class="list">sample</li>
+                    <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                        <li class="list">pet30a backbone</li>
+                        <li class="list">gene segment of αS1-casein</li>
+                         <li class="list">GS linker and T7 promoter</li>
                      </ul>
             </ul>
@@ Line 1,104: / Line 1,105: @@
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                        <li class="list">Enterocin A + pTXB1</li>
                          <li class="list">Enterocin B + pTXB1</li>
                          <li class="list">Enterocin 96  + pTXB1</li>
                          <li class="list">Duracin TW49M  + pTXB1</li>
-                        <li class="list">Subtilosin + pTXB1</li>
                   </ul>
             </ul>
          <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Transformation (Transform correct plasmid into E. coli ER2566)to test different cultivation temperature</li>
+                <li class="list">Transformation (Transform correct plasmid into <i>E. coli</i> ER2566)to test different cultivation temperature</li>
          </ul>
       </article>
@@ Line 1,121: / Line 1,120: @@
         <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Sequencing plasmid</li>
+                <li class="list">Sequencing plasmid</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                        <li class="list">Enterocin A + pTXB1</li>
                          <li class="list">Enterocin B + pTXB1</li>
                          <li class="list">Enterocin 96  + pTXB1</li>
                          <li class="list">Duracin TW49M  + pTXB1</li>
-                        <li class="list">Subtilosin + pTXB1</li>
                   </ul>
          </ul>
@@ Line 1,134: / Line 1,131: @@
         <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Cultivation (Cultivation of E. coli ER2566 colonies for IPTG induction)</li>
+                <li class="list">Cultivation (Cultivation of <i>E. coli</i> ER2566 colonies for IPTG induction)</li>
-                <li class="list">Purepose: IPTG Induction (To test the temperature of cultivation after induction)Condition: temp = 37, 30, 13.5°C</li>
+                <li class="list">IPTG Induction (To test the temperature of cultivation after induction)Condition: temp = 37, 30, 13.5°C</li>
+        </ul>
+        <p class="note-title">Expression</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Transforming the ligation product of the Curcumin biosensor into <i>E. coli</i> BL21 DE3 Cultivating the culture and inducing it with IPTG.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                        <li class="list">fresh colony of <i>E. coli</i> BL21 DE3 carrying the backbone pet30a containing αS1-casei and GS linker gene from an overnight plate</li>
          </ul>
       </article>
@@ Line 1,143: / Line 1,147: @@
         <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: SDS PAGE (To check the protein production after induction)Check different temperature</li>
+                <li class="list">SDS-PAGE (To check the protein production after induction)Check different temperature</li>
-                <li class="list">Purepose: IPTG Induction (To test the concentration of IPTG)Condition: concentration = 200, 400, 600, 800, 1000μM</li>
+                <li class="list">IPTG Induction (To test the concentration of IPTG)Condition: concentration = 200, 400, 600, 800, 1000μM</li>
          </ul>
       </article>
@@ Line 1,152: / Line 1,156: @@
             <p class="note-title">Expression</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: SDS PAGE (To check the protein production after induction)Check different IPTG concentration</li>
+                <li class="list">SDS-PAGE (To check the protein production after induction) -> Check different IPTG concentration</li>
+           </ul>
+           <p class="note-title">Chip Production</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Processing the chips with Mua , EtOH , and EDC+NHS mixture, then adding αS1-casein on chips.</li>
                 <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                        <li class="list">αS1-casein protein</li>
             </ul>
       </article>
@@ Line 1,159: / Line 1,170: @@
       <article id="August-18" class="note-item">
          <h2>August 18</h2><hr>
-        <p class="note-title">SDS-PAGE</p>
+        <p class="note-title">Transformation</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Transforming backbone ptxB1 into <i><i>Bacillus subtilis</i></i> ER2566 to produce protein as our negative control in verifying the function of our target peptide.</li>
+               <li class="list">Transforming backbone ptxB1 containing bacteriocin gene into <i><i>Bacillus subtilis</i></i> ER2566 to produce our target protein as a biostimulator.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">backbone ptxB1 mini</li>
+                      <li class="list">backbone ptxB1 containing Enterocin B gene mini</li>
+                      <li class="list">backbone ptxB1 containing Enterocin 96 gene mini</li>
+                      <li class="list">backbone ptxB1 containing Leucocyclicin Q gene mini</li>
+                 </ul>
+        <p class="note-title">Cultivation</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> ER2566 at 37°C carrying the backbone ptxB1 to produce protein as our negative control in verifying the function of our target peptide.</li>
+               <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> ER2566 at 37°C carrying the backbone ptxB1 containing bacteriocin gene to produce our target protein as a biostimulator.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 from an overnight plate</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Enterocin B gene from an overnight plate</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Enterocin 96 gene from an overnight plate</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Leucocyclicin Q gene from an overnight plate</li>
+                 </ul>
+        <p class="note-title">IPTG Induction</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Inducting <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 after cultivating at 37°C to produce protein as our negative control in verifying the function of our target peptide</li>
+               <li class="list">Inducting <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C to produce our target protein as a biostimulator.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Enterocin B gene</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Enterocin 96 gene</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Leucocyclicin Q gene</li>
+                 </ul>
       </article>
@@ Line 1,166: / Line 1,209: @@
          <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Digestion of PCR products (Including insert and backbone pET30a)</li>
+                <li class="list">Digestion of PCR products (Including insert and backbone pET30a)</li>
-                <li class="list">Purepose: Ligation of digestion products (Ligase the DNA fragment into backbone pET30a)</li>
+                <li class="list">Ligation of digestion products (Ligase the DNA fragment into backbone pET30a)</li>
                 <li class="list">Sample(8/17)</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Enterocin A + pET30a</li>
                        <li class="list">Enterocin B + pET30a</li>
                        <li class="list">Enterocin 96 + pET30a</li>
@@ Line 1,177: / Line 1,219: @@
                        <li class="list">Lacticin Z + pET30a</li>
                        <li class="list">Leucocyclicin Q + pET30a</li>
-                      <li class="list">Subtilosin + pET30a</li>
                   </ul>
          </ul>
+        <p class="note-title">Sonication</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Breaking <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 and ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 induced by IPTG</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Enterocin B gene induced by IPTG </li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Enterocin 96 gene induced by IPTG </li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG </li>
+                 </ul>
+        </ul>
+        <p class="note-title">Protein quantification & SDS-PAGE</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Quantificating the protein expressing the backbone ptxB1 and ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">Protein expressing the backbone ptxB1 induced by IPTG</li>
+                      <li class="list">Protein expressing the backbone ptxB1 containing Enterocin B gene induced by IPTG </li>
+                      <li class="list">Protein expressing the backbone ptxB1 containing Enterocin 96 gene induced by IPTG </li>
+                      <li class="list">Protein expressing the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG </li>
+                 </ul>
+        </ul>
+        <p class="note-title">Biosensor Measurement 1- Electrochemical Impedance Spectroscopy</p>
       </article>
@@ Line 1,186: / Line 1,250: @@
         <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Transformation of ligation products (Transform into E. coli DH5α)</li>
+                <li class="list">Transformation of ligation products (Transform into <i>E. coli</i> DH5α)</li>
-                <li class="list">Purepose: Taq PCR (PCR of ligation products to amplify insert gene)</li>
+                <li class="list">Taq PCR (PCR of ligation products to amplify insert gene)</li>
-                <li class="list">Purepose: Electrophoresis (To check PCR products)</li>
+                <li class="list">Electrophoresis (To check PCR products)</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Enterocin A + pET30a</li>
                        <li class="list">Enterocin B + pET30a</li>
                        <li class="list">Enterocin 96 + pET30a</li>
@@ Line 1,198: / Line 1,261: @@
                        <li class="list">Lacticin Z + pET30a</li>
                        <li class="list">Leucocyclicin Q + pET30a</li>
-                      <li class="list">Subtilosin + pET30a</li>
                   </ul>
          </ul>
@@ Line 1,207: / Line 1,269: @@
         <p class="note-title">Cloning</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Purepose: Cultivation</li>
+                <li class="list">Cultivation</li>
-                <li class="list">Purepose: Miniprep (Purify Plasmid)</li>
+                <li class="list">Miniprep (Purify Plasmid)</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Enterocin A + pET30a</li>
                        <li class="list">Enterocin B + pET30a</li>
                        <li class="list">Enterocin 96 + pET30a</li>
@@ Line 1,218: / Line 1,279: @@
                        <li class="list">Lacticin Z + pET30a</li>
                        <li class="list">Leucocyclicin Q + pET30a</li>
-                      <li class="list">Subtilosin + pET30a</li>
                   </ul>
       </article>
@@ Line 1,229: / Line 1,289: @@
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Enterocin A + pET30a</li>
                        <li class="list">Enterocin B + pET30a</li>
                        <li class="list">Enterocin 96 + pET30a</li>
@@ Line 1,236: / Line 1,295: @@
                        <li class="list">Lacticin Z + pET30a</li>
                        <li class="list">Leucocyclicin Q + pET30a</li>
-                      <li class="list">Subtilosin + pET30a</li>
                   </ul>
          </ul>
+        <p class="note-title">Biosensor Measurement 2- Differential Pulse Voltammetry</p>
       </article>
       <article id="August-23" class="note-item">
          <h2>August 23</h2><hr>
-        <p class="note-title">Protein purification(8/22-8/23)</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">Cultivation and IPTG induction</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/20</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/20</li>
-                 </ul>
-               <li class="list">Add 1000μM IPTG and test OD<sub>600</sub> </li>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/23</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/23</li>
-                 </ul>
-        </ul>
       </article>
       <article id="August-24" class="note-item">
          <h2>August 24</h2><hr>
-       <p class="note-title">Protein purification(8/23-8/24)</p>
+              <p class="note-title">Transformation</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Transforming backbone ptxB1 containing bacteriocin gene into <i><i>Bacillus subtilis</i></i> ER2566 to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-lectin-his</li>
+                       <li class="list">backbone ptxB1 containing Bovicin HJ50 gene mini</li>
+                      <li class="list">backbone ptxB1 containing Durancin gene mini</li>
                   </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
+         <p class="note-title">Cultivation</p>
-         </ul>
-       <p class="note-title">Cultivation and IPTG induction</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
+                <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> ER2566 at 37°C carrying the backbone ptxB1 containing bacteriocin gene to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Sf1a-his A<sup>r</sup> 8/20</li>
+                       <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Bovicin HJ50 gene from an overnight plate</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/20</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Durancin gene from an overnight plate</li>
-                 </ul>
+                  </ul>
-               <li class="list">Refresh to approximately OD<sub>600</sub> 0.7</li>
+         <p class="note-title">IPTG Induction</p>
-               <li class="list">Add 1000μM IPTG and test OD<sub>600</sub></li>
-               <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his: 0.966</li>
-                      <li class="list">Sf1a-lectin-his: 1.363</li>
-                  </ul>
-               <li class="list">Certification, and add 2mL binding buffer and 200μM PMSF for sonication. Repeat three times.</li>
-         </ul>
-       <p class="note-title">Sonication</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Inducting <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Sf1a-his A<sup>r</sup> 8/24</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Bovicin HJ50 gene</li>
-                       <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/24</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Durancin gene</li>
                   </ul>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample</li>
-               <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his(8/22-8/23)</li>
-               </ul>
-        </ul>
       </article>
       <article id="August-25" class="note-item">
          <h2>August 25</h2><hr>
-       <p class="note-title">Protein purification(8/24-8/25)</p>
+               <p class="note-title">Sonication</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Breaking <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-lectin-his</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG </li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Durancin gene induced by IPTG </li>
                   </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
          </ul>
-       <p class="note-title">SDS-PAGE</p>
+        <p class="note-title">Protein quantification & SDS-PAGE</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Check the purification protein.</li>
+                <li class="list">Quantificating the protein expressing the backbone ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.</li>
                 <li class="list">Sample</li>
-               <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-lectin-his(8/23-8/24)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG </li>
-               </ul>
+                      <li class="list">Protein expressing the backbone ptxB1 containing Durancin gene induced by IPTG </li>
+                 </ul>
          </ul>
       </article>
@@ Line 1,345: / Line 1,357: @@
       <article id="August-26" class="note-item">
          <h2>August 26</h2><hr>
-        <p class="note-title">Cultivation</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/15</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/15</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/15</li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup> 8/15</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup> 8/24</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/24</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Protein purification</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup> 8/17</li>
-                      <li class="list">OAIP-his A<sup>r</sup> 8/17</li>
-                 </ul>
-        </ul>
-       <p class="note-title">IPTG induction</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Induce the mass protein expression for SDS-PAGE.</li>
-               <li class="list">The protein would form inclusion body. Therefore, it was devided into two parts, the urea and control.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/26</li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup> 8/26</li>
-                 </ul>
-               <li class="list">Add 500μM IPTG</li>
-               <li class="list">Take the following samples to go on the experience first. The others storage in 4℃ refrigerator.</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26</li>
-                 </ul>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the protein in pellet or in solution.</li>
-               <li class="list">Sample</li>
-               <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26(with urea)</li>
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26(with urea)</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26</li>
-               </ul>
-               <li class="list">Sonication and the supernatant is loading sample1</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">10 seconds on, 40 seconds off and repeat six times.</li>
-                 </ul>
-               <li class="list">Add binding buffer (with/without urea) again and the solution is loading sample 2</li>
-               <li class="list">Sonication again and the supernatant is loading sample 3</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">10 seconds on, 40 seconds off and repeat six times.</li>
-                 </ul>
-               <li class="list">Add binding buffer (with/without urea) again and the solution is loading sample4</li>
-               <li class="list">Loading sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his (with urea) 1~4</li>
-                      <li class="list">Hv1a-his 1~4</li>
-                      <li class="list">Hv1a-lectin-his (with urea) 1~4</li>
-                      <li class="list">Hv1a-lectin-his 1~4</li>
-                 </ul>
-        </ul>
-       <p class="note-title">IPTG induction</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Induce the mass protein expression for SDS-PAGE.</li>
-               <li class="list">The protein would form inclusion body. Therefore, it was devided into two parts, the urea and control.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/26</li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup> 8/26</li>
-                 </ul>
-               <li class="list">Add 500μM IPTG and test OD<sub>600</sub> to approximately 1.050</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the protein in pellet or in solution.</li>
-               <li class="list">Sample</li>
-               <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26(with urea)</li>
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26(with urea)</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/26</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/26(with urea)</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/26</li>
-                      <li class="list">OAIPlectin-his A<sup>r</sup> 8/26(with urea)</li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup> 8/26</li>
-               </ul>
-               <li class="list">Certificate the sample, add binding buffer (with/without urea), PMSF</li>
-               <li class="list">Sonication and the supernatant is loading sample1</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">10 seconds on, 40 seconds off and repeat six times.</li>
-                 </ul>
-               <li class="list">Add binding buffer (with/without urea) again and the solution is loading sample 2</li>
-               <li class="list">Sonication again and the supernatant is loading sample 3</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">10 seconds on, 40 seconds off and repeat six times.</li>
-                 </ul>
-               <li class="list">Add binding buffer (with/without urea) again and the solution is loading sample4</li>
-               <li class="list">Loading sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his (with urea) 1~4</li>
-                      <li class="list">Hv1a-his 1~4</li>
-                      <li class="list">Hv1a-lectin-his (with urea) 1~4</li>
-                      <li class="list">Hv1a-lectin-his 1~4</li>
-                      <li class="list">Sf1a-lectin-his (with urea) 1~4</li>
-                      <li class="list">Sf1a-lectin-his 1~4</li>
-                      <li class="list">OAIPlectin-his (with urea) 1~4</li>
-                      <li class="list">OAIP-lectin-his 1~4</li>
-                 </ul>
-        </ul>
       </article>
       <article id="August-27" class="note-item">
          <h2>August 27</h2><hr>
-        <p class="note-title">Cultivation</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> </li>
-                      <li class="list">Hv1a-lectin-his  A<sup>r</sup> </li>
-                 </ul>
-        </ul>
       </article>
       <article id="August-28" class="note-item">
          <h2>August 28</h2><hr>
-        <p class="note-title">Protein purification</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample(8/27)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample(8/28)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup> 8/17</li>
-                 </ul>
-        </ul>
       </article>
       <article id="August-29" class="note-item">
          <h2>August 29</h2><hr>
-        <p class="note-title">Protein purification</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample(8/28)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his</li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample(8/29)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup> 8/17</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> 8/15</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/15</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/15</li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup> 8/15</li>
-                 </ul>
-        </ul>
       </article>
       <article id="August-30" class="note-item">
          <h2>August 30</h2><hr>
-        <p class="note-title">IPTG induction</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Induce the mass protein expression for SDS-PAGE.</li>
-               <li class="list">The protein would form inclusion body. Therefore, it was devided into two parts, the urea and control.</li>
-               <li class="list">Sample</li>
-               <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup> 8/29</li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup> 8/29</li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup> 8/29</li>
-               </ul>
-               <li class="list">Refresh to approximately OD<sub>600</sub> 0.6</li>
-               <li class="list">Add 500μM IPTG and cultivate for 4hr</li>
-        </ul>
-       <p class="note-title">Protein purification</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample(8/30)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample(8/29)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">PCR</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">amplify the insert gene</li>
-               <li class="list">Sample(8/30)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Electrophoresis</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Electrophoresis of PCR product</li>
-               <li class="list">Sample(8/30 PCR product)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Digestion</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Digest min for transformation</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his digestion EP</li>
-                      <li class="list">Hv1a-lectin-his digestion ES</li>
-                      <li class="list">Sf1a-his digestion EP</li>
-                      <li class="list">Sf1a-lectin-his digestion ES</li>
-                      <li class="list">OAIP-his digestion EP</li>
-                      <li class="list">OAIP-lectin-his digestion ES</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Transformation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Transformation PSB1C3 to DH5α</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Trans PSB1C3 8/30</li>
-                      <li class="list">Trans PSB1C3 8/30</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Urea test</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check whether protein in inclusion body or not.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-his + Urea</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-his + Urea</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-his + Urea</li>
-                 </ul>
-        </ul>
       </article>
       <article id="August-31" class="note-item">
          <h2>August 31</h2><hr>
-        <p class="note-title">Ligation</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Ligase insert gene into the pSB1C3</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Transformation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Transformation of ligated product to DH5α</li>
-               <li class="list">Sample(8/31 Ligation product)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Dialysis and refolding</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Dialysis and refolding for insoluble protein</li>
-               <li class="list">Sample(8/8)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his (8/30)</li>
-                      <li class="list">Sf1a-lectin-his(8/30)</li>
-                      <li class="list">OAIP-lectin-his(8/30)</li>
-                      <li class="list">Hv1a-his(8/28)</li>
-                 </ul>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample(8/30)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                 </ul>
-        </ul>
       </article>
@@ Line 1,756: / Line 1,389: @@
       <article id="September-1" class="note-item">
          <h2>September 1</h2><hr>
-        <p class="note-title">Protein purification</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample(8/30)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">OAIP-lectin-his</li>
-                      <li class="list">Hv1a-his</li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample(8/30)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">OAIP-lectin-his</li>
-                      <li class="list">Hv1a-his</li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> </li>
-                      <li class="list">Hv1a-lectin-his  A<sup>r</sup> </li>
-                      <li class="list">OAIP-his A<sup>r</sup> </li>
-                      <li class="list">Sf1a-his A<sup>r</sup> </li>
-                 </ul>
-        </ul>
-       <p class="note-title">IPTG Induction</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Prepare for the purify the protein from sample <i>BL21-Rosetta-gami</i> colonies.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> </li>
-                      <li class="list">OAIP-his A<sup>r</sup> </li>
-                      <li class="list">Sf1a-his A<sup>r</sup> </li>
-                 </ul>
-               <li class="list">Add IPTG 500μM and test OD<sub>600</sub> after 4hr.</li>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup> </li>
-                      <li class="list">OAIP-his A<sup>r</sup> </li>
-                      <li class="list">Sf1a-his A<sup>r</sup> </li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample <i>BL21-Rosetta-gami</i> colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-2" class="note-item">
          <h2>September 2</h2><hr>
-       <p class="note-title">Protein purification</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">Protein quantification Braford method</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Dialysis and refolding</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Dialysis and refolding for insoluble protein</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-3" class="note-item">
          <h2>September 3</h2><hr>
-        <p class="note-title">Protein purification</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">Protein quantification Braford method</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-                 <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Concentrate protein</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Increase the concentration of protein</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-4" class="note-item">
          <h2>September 4</h2><hr>
-         <p class="note-title">Protein purification</p>
+         <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
       </article>
       <article id="September-5" class="note-item">
          <h2>September 5</h2><hr>
-        <p class="note-title">IPTG Induction</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+     </article>
-               <li class="list">Prepare for the purify the protein from sample <i>BL21-Rosetta-gami</i> colonies.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Add IPTG 500μM and test OD<sub>600</sub> after 4hr.</li>
-        </ul>
-       <p class="note-title">Sonication</p>
+     <article id="September-6" class="note-item">
+        <h2>September 6</h2><hr>
+                     <p class="note-title">Transformation</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Transforming backbone ptxB1 containing Lacticin Z gene into <i><i>Bacillus subtilis</i></i> ER2566 to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-his</li>
+                       <li class="list">backbone ptxB1 containing Lacticin Z gene mini</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
                   </ul>
-         </ul>
+         <p class="note-title">Cultivation</p>
-       <p class="note-title">Protein purification</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">The buffer contains the urea</li>
+                <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> ER2566 at 37°C carrying the backbone ptxB1 containing Lacticin Z gene to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-his</li>
+                       <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Lacticin Z gene from an overnight plate</li>
-                      <li class="list">Hv1a-lectin-his</li>
+                 </ul>
-                 </ul>
+        <p class="note-title">IPTG Induction</p>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">UV test</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Test degradation rate</li>
+                <li class="list">Inducting <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Lacticin Z gene after cultivating at 37°C to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-his</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Lacticin Z gene</li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
                   </ul>
-        </ul>
-       <p class="note-title">Concentrate protein</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Increase the concentration of protein</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Protein quantification Braford method</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-     </article>
-     <article id="September-6" class="note-item">
-        <h2>September 6</h2><hr>
-       <p class="note-title">Protein purification</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">Protein quantification Braford method</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-7" class="note-item">
          <h2>September 7</h2><hr>
-       <p class="note-title">Protein purification</p>
+        <p class="note-title">Sonication</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">The buffer contains the urea</li>
+                <li class="list">Breaking <i><i>Bacillus subtilis</i></i> ER2566 carrying the backbone ptxB1 containing Lacticin Z gene after cultivating to harvest the protein by sonication.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
+                     <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Lacticin Z gene induced by IPTG </li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
                   </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
          </ul>
+        <p class="note-title">Protein quantification & SDS-PAGE</p>
-       <p class="note-title">SDS-PAGE</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Check the purification protein.</li>
+                <li class="list">Quantificating the protein expressing the backbone ptxB1 containing Lacticin Z gene by Bradford method and running SDS-PAGE to check the protein expression.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
+                     <li class="list">Protein expressing the backbone ptxB1 containing Lacticin Z gene induced by IPTG </li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">UV test</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Test degradation rate</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Protein quantification Braford method</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
                   </ul>
          </ul>
@@ Line 2,111: / Line 1,458: @@
       <article id="September-8" class="note-item">
          <h2>September 8</h2><hr>
-        <p class="note-title">Protein purification</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Cultivation and IPTG induction</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Cultivation of sample BL21-Rosetta-gami colonies for protein purification.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Refresh to approximately OD<sub>600</sub> 0.7</li>
-               <li class="list">Add 1000μM IPTG and test OD<sub>600</sub> </li>
-                  <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his:0.772</li>
-                      <li class="list">Hv1a-lectin-his:0.631</li>
-                      <li class="list">Sf1a-his:0.567</li>
-                      <li class="list">Sf1a-lectin-his:0.78</li>
-                      <li class="list">OAIP-his:0.851</li>
-                      <li class="list">OAIP-lectin-his:0.819</li>
-                 </ul>
-              <li class="list">Certification, and add 2mL binding buffer and 200μM PMSF for sonication. Repeat three times.</li>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Sonication</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
-       <p class="note-title">Protein purification</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-9" class="note-item">
          <h2>September 9</h2><hr>
-        <p class="note-title">Protein purification</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">The buffer contains the urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-               <li class="list">Collect：<br>pass through solution, wash through solution(W1~3), elution solution(E1~10), filtered NaCl solution, and filtered ddH<sub>2</sub>O solution.</li>
-        </ul>
-       <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
@@ Line 2,248: / Line 1,473: @@
          <p class="note-title">None</p>
       </article>
       <article id="September-11" class="note-item">
          <h2>September 11</h2><hr>
-        <p class="note-title">Dialysis protein</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Dialysis and refolding for insoluble protein</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his  E1-E3</li>
-                      <li class="list">Hv1a-lectin-his  E1-E5</li>
-                      <li class="list">Sf1a-his  E1-E5</li>
-                      <li class="list">Sf1a-lectin-his E1-E4</li>
-                      <li class="list">OAIP-his  E1-E3</li>
-                      <li class="list">OAIP-lectin-his  E1-E2</li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-12" class="note-item">
          <h2>September 12</h2><hr>
-        <p class="note-title">Protein quantification Braford method</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
@@ Line 2,285: / Line 1,488: @@
          <p class="note-title">None</p>
       </article>
       <article id="September-14" class="note-item">
          <h2>September 14</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-15" class="note-item">
          <h2>September 15</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-16" class="note-item">
          <h2>September 16</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-17" class="note-item">
          <h2>September 17</h2><hr>
-        <p class="note-title">Dialysis protein</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Dialysis and refolding for insoluble protein</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his  E2-E3</li>
-                      <li class="list">Hv1a-lectin-his  E1-E6</li>
-                      <li class="list">Sf1a-his  E1-E4</li>
-                      <li class="list">Sf1a-lectin-his E2-E4</li>
-                      <li class="list">OAIP-his  E2-E4</li>
-                      <li class="list">OAIP-lectin-his  E2-E3</li>
-                 </ul>
-        </ul>
       </article>
@@ Line 2,318: / Line 1,513: @@
          <p class="note-title">None</p>
       </article>
       <article id="September-19" class="note-item">
          <h2>September 19</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-20" class="note-item">
          <h2>September 20</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-21" class="note-item">
          <h2>September 21</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-22" class="note-item">
          <h2>September 22</h2><hr>
-       <p class="note-title">Protein quantification Braford method</p>
+          <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-23" class="note-item">
          <h2>September 23</h2><hr>
-       <p class="note-title">Dialysis protein</p>
+          <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Remove urea</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his E1-E3</li>
-                      <li class="list">Hv1a-lectin-his E1-E6</li>
-                      <li class="list">Sf1a-his E1-E4</li>
-                      <li class="list">Sf1a-lectin-his E1-E6</li>
-                      <li class="list">OAIP-his E1-E3</li>
-                      <li class="list">OAIP-lectin-his E1-E6</li>
-                 </ul>
-        </ul>
-               <p class="note-title">SDS-PAGE</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein again</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his </li>
-                      <li class="list">Hv1a-lectin-his (no β-me)</li>
-                      <li class="list">Sf1a-his </li>
-                      <li class="list">Sf1a-lectin-his (no β-me)</li>
-                      <li class="list">OAIP-his </li>
-                      <li class="list">OAIP-lectin-his (no β-me)</li>
-                 </ul>
-        </ul>
-               <p class="note-title">Electrophoresis</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Electrophoresis of composite parts again</li>
-               <li class="list">Sample(8/30 PCR product)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-24" class="note-item">
          <h2>September 24</h2><hr>
-               <p class="note-title">Electrophoresis</p>
+          <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Electrophoresis of composite parts again</li>
-               <li class="list">Sample(8/30 PCR product)</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-25" class="note-item">
          <h2>September 25</h2><hr>
-       <p class="note-title">Protein quantification Braford method</p>
+          <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                      <li class="list">OAIP-lectin-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
@@ Line 2,430: / Line 1,553: @@
          <p class="note-title">None</p>
       </article>
       <article id="September-27" class="note-item">
          <h2>September 27</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-28" class="note-item">
          <h2>September 28</h2><hr>
-        <p class="note-title">Protein quantification Braford method</p>
+        <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his A<sup>r</sup></li>
-                      <li class="list">Hv1a-lectin-his A<sup>r</sup></li>
-                      <li class="list">Sf1a-his A<sup>r</sup></li>
-                      <li class="list">OAIP-his A<sup>r</sup></li>
-                 </ul>
-        </ul>
       </article>
       <article id="September-29" class="note-item">
          <h2>September 29</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="September-30" class="note-item">
          <h2>September 30</h2><hr>
@@ Line 2,462: / Line 1,580: @@
          <p class="note-title">None</p>
       </article>
       <article id="October-2" class="note-item">
          <h2>October 2</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-3" class="note-item">
          <h2>October 3</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-4" class="note-item">
          <h2>October 4</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-5" class="note-item">
          <h2>October 5</h2><hr>
-        <p class="note-title">Cultivation</p>
+        <p class="note-title">Transformation</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">For larva test</li>
+                <li class="list">Transforming backbone ptxB1 into <i><i>Bacillus subtilis</i></i> Rosetta Gami to produce protein as our negative control in verifying the function of our target peptide.</li>
+               <li class="list">Transforming backbone ptxB1 containing bacteriocin gene into <i><i>Bacillus subtilis</i></i> Rosetta-gami to produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a-GS linker-lectin  A<sup>r</sup> </li>
+                       <li class="list">backbone ptxB1 mini</li>
+                      <li class="list">backbone ptxB1 containing Enterocin B gene mini</li>
+                      <li class="list">backbone ptxB1 containing Enterocin 96 gene mini</li>
+                      <li class="list">backbone ptxB1 containing Bovicin HJ50 gene mini</li>
+                      <li class="list">backbone ptxB1 containing Durancin gene mini</li>
+                      <li class="list">backbone ptxB1 containing Lacticin Z gene mini</li>
+                      <li class="list">backbone ptxB1 containing Leucocyclicin Q gene mini</li>
                   </ul>
          </ul>
@@ Line 2,488: / Line 1,617: @@
       <article id="October-6" class="note-item">
          <h2>October 6</h2><hr>
-         <p class="note-title">None</p>
+         <p class="note-title">Cultivation</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> Rosetta Gami at 37°C carrying the backbone ptxB1 to produce protein as our negative control in verifying the function of our target peptide.</li>
+               <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> Rosetta-gami at 37°C carrying the backbone ptxB1 containing bacteriocin gene produce our target protein as a biostimulator.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 from an overnight plate</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Enterocin B gene from an overnight plate</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Enterocin 96 gene from an overnight plate</li>
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Leucocyclicin Q gene from an overnight plate</li>
+                 </ul>
+        </ul>
+        <p class="note-title">IPTG Induction</p>
+           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> Rosetta Gami at 37°C carrying the backbone ptxB1 to produce protein as our negative control in verifying the function of our target peptide.</li>
+               <li class="list">Inducting <i><i>Bacillus subtilis</i></i> Rosetta-gami carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C produce our target protein as a biostimulator.</li>
+               <li class="list">Sample</li>
+                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+                      <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 from an overnight plate</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Enterocin B gene</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Enterocin 96 gene</li>
+                      <li class="list">Culture of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Leucocyclicin Q gene</li>
+                 </ul>
+        </ul>
       </article>
       <article id="October-7" class="note-item">
          <h2>October 7</h2><hr>
-         <p class="note-title">None</p>
+         <p class="note-title">Cultivation</p>
-     </article>
-     <article id="October-8" class="note-item">
-        <h2>October 8</h2><hr>
-       <p class="note-title">Protein quantification Braford method</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+              <li class="list">Cultivate the <i>E. coli</i> ER2566 at 37°Ccultivating <i><i>Bacillus subtilis</i></i> Rosetta-gami at 37°C carrying the backbone ptxB1 containing bacteriocin gene produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">HLG-1</li>
+                       <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Bovicin HJ50 gene from an overnight plate</li>
-                      <li class="list">HLG-2</li>
+                       <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Durancin gene from an overnight plate</li>
-                      <li class="list">Hv1a-his </li>
+                       <li class="list">Fresh colony of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Lacticin Z gene from an overnight plate</li>
-                       <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his </li>
-                      <li class="list">Sf1a-lectin-his</li>
-                       <li class="list">OAIP-his </li>
-                      <li class="list">OAIP-lectin-his </li>
-                      <li class="list">BL</li>
-                      <li class="list">RG</li>
                   </ul>
          </ul>
+        <p class="note-title">IPTG Induction</p>
-         <p class="note-title">Protein quantification Braford method</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Inducting <i><i>Bacillus subtilis</i></i> Rosetta-gami carrying the backbone ptxB1 containing bacteriocin gene after cultivating at 37°C produce our target protein as a biostimulator.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">HLG-1</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Bovicin HJ50 gene</li>
-                      <li class="list">Hv1a-his </li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Durancin gene</li>
-                      <li class="list">Hv1a-lectin-his</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing Lacticin Z gene</li>
-                       <li class="list">Sf1a-his </li>
-                      <li class="list">Sf1a-lectin-his</li>
-                       <li class="list">OAIP-his </li>
-                      <li class="list">OAIP-lectin-his </li>
                   </ul>
          </ul>
-     </article>
+         <p class="note-title">Sonication</p>
-     <article id="October-9" class="note-item">
-         <h2>October 9</h2><hr>
-        <p class="note-title">None</p>
-     </article>
-     <article id="October-10" class="note-item">
-        <h2>October 10</h2><hr>
-        <p class="note-title">None</p>
-     </article>
-     <article id="October-11" class="note-item">
-        <h2>October 11</h2><hr>
-       <p class="note-title">Protein quantification Braford method</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Breaking <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 and ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">HLG-1</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 induced by IPTG </li>
-                      <li class="list">Hv1a-his </li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Enterocin B gene induced by IPTG</li>
-                       <li class="list">Hv1a-lectin-his</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Enterocin 96 gene induced by IPTG</li>
-                      <li class="list">Sf1a-his </li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG</li>
-                       <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his </li>
-                       <li class="list">OAIP-lectin-his </li>
-                      <li class="list">RG</li>
                   </ul>
          </ul>
+        <p class="note-title">Protein quantification & SDS-PAGE</p>
-         <p class="note-title">SDS-PAGE</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                <li class="list">Check the purification protein.</li>
+                <li class="list">Quantificating the protein expressing the backbone ptxB1 and ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">Hv1a(sonication)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 induced by IPTG</li>
-                       <li class="list">Hv1a(purification)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Enterocin B gene induced by IPTG </li>
-                       <li class="list">Sf1a(sonication)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Enterocin 96 gene induced by IPTG </li>
-                       <li class="list">Sf1a(purification)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG </li>
-                      <li class="list">OAIP(sonication)</li>
-                      <li class="list">OAIP(purification)</li>
                   </ul>
          </ul>
+     </article>
-        <p class="note-title">Protein quantification Braford method</p>
+     <article id="October-8" class="note-item">
+        <h2>October 8</h2><hr>
+        <p class="note-title">Sonication</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Breaking <i><i>Bacillus subtilis</i></i> Rosetta Gami carrying the backbone ptxB1 containing bacteriocin gene after cultivating to harvest the protein by sonication.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">HLG</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG</li>
-                      <li class="list">Hv1a-his </li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Durancin gene induced by IPTG</li>
-                       <li class="list">Hv1a-lectin-his</li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Lacticin Z gene induced by IPTG</li>
-                      <li class="list">Sf1a-his </li>
+                       <li class="list">Culture of <i><i>Bacillus subtilis</i></i> carrying the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG</li>
-                       <li class="list">Sf1a-lectin-his</li>
-                       <li class="list">OAIP-his </li>
-                      <li class="list">OAIP-lectin-his </li>
                   </ul>
          </ul>
+        <p class="note-title">Protein quantification & SDS-PAGE</p>
-          <p class="note-title">Protein quantification Braford method</p>
             <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
+               <li class="list">Quantificating the protein expressing the backbone ptxB1 containing bacteriocin gene by Bradford method and running SDS-PAGE to check the protein expression.</li>
                 <li class="list">Sample</li>
                   <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                       <li class="list">HLG(purification)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Bovicin HJ50 gene induced by IPTG </li>
-                       <li class="list">Hv1a-his(purification) </li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Durancin gene induced by IPTG </li>
-                       <li class="list">Hv1a-lectin-his(purification)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Lacticin Z gene induced by IPTG </li>
-                       <li class="list">Sf1a-his(purification)</li>
+                       <li class="list">Protein expressing the backbone ptxB1 containing Leucocyclicin Q gene induced by IPTG </li>
-                      <li class="list">Sf1a-lectin-his(purification)</li>
+                 </ul>
-                      <li class="list">OAIP-his(purification) </li>
-                      <li class="list">OAIP-lectin-his(purification) </li>
-                      <li class="list">Hv1a-his(sonication)</li>
-                      <li class="list">OAIP-his(sonication) </li>
-                      <li class="list">OAIP-lectin-his(sonication) </li>
-                      <li class="list">HGL-his(sonication) </li>
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                      </ul>
          </ul>
+     </article>
+     <article id="October-9" class="note-item">
+        <h2>October 9</h2><hr>
+        <p class="note-title">None</p>
+     </article>
+     <article id="October-10" class="note-item">
+        <h2>October 10</h2><hr>
+        <p class="note-title">None</p>
+     </article>
+     <article id="October-11" class="note-item">
+        <h2>October 11</h2><hr>
+       <p class="note-title">None</p>
       </article>
@@ Line 2,607: / Line 1,733: @@
          <p class="note-title">None</p>
       </article>
       <article id="October-13" class="note-item">
          <h2>October 13</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-14" class="note-item">
          <h2>October 14</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-15" class="note-item">
          <h2>October 15</h2><hr>
-         <p class="note-title">SDS-PAGE</p>
+         <p class="note-title">None</p>
-           <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-               <li class="list">Check the purification protein.</li>
-               <li class="list">Sample</li>
-                 <ul style="list-style-image:none;list-style-type: disc;padding-left:12px;">
-                      <li class="list">Hv1a-his</li>
-                      <li class="list">Hv1a-lectin-his</li>
-                      <li class="list">Sf1a-his</li>
-                      <li class="list">Sf1a-lectin-his</li>
-                      <li class="list">OAIP-his</li>
-                      <li class="list">OAIP-lectin-his</li>
-                 </ul>
-        </ul>
       </article>
@@ Line 2,636: / Line 1,753: @@
          <p class="note-title">None</p>
       </article>
       <article id="October-17" class="note-item">
          <h2>October 17</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-18" class="note-item">
          <h2>October 18</h2><hr>
          <p class="note-title">None</p>
       </article>
       <article id="October-19" class="note-item">
          <h2>October 19</h2><hr>

Sun	Mon	Tue	Wed	Thu	Fri	Sat
1	2	3	4	5	6	7
8	9	10	11	12	13	14
15	16	17	18	19	20	21
22	23	24	25	26	27	28
29	30	31

Sun	Mon	Tue	Wed	Thu	Fri	Sat
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5	6	7	8	9	10	11
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2	3	4	5	6	7	8
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7	8	9	10	11	12	13
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28	29	30	31

Difference between revisions of "Team:NCTU Formosa/Notebook"

Revision as of 16:09, 16 October 2018

Wet Lab

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