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Revision as of 06:35, 11 October 2018

InterLab

Interlab Study


It is a good opportunity for our team to participate in the project which aims to improve the measurement tools available to both the iGEM community and the synthetic biology community as a whole. And we are glad to cooperate with many other teams from around the world to solve the same problem in synthetic biology. This year's iGEM InterLab study is about could we use CFU/ml to replace the absorbance in fluorescence/od measurement.

To accomplish the goals, we use measure the fluorescence and absorbance with SpectraMax i3x plate reader. In additionally we need to get the competent DH5α and transforme the plasmids into cells. And this wiki will present the workflow and the results we get. We separate the wiki into 3 segments , and the first part is transformation of the plasmids into DH5α.


Transformation


According to the requirements of iGEM, we transformed all the parts (BBa_R0040, BBa_I20270, BBa_J364000, BBa_J364001, BBa_J364002, BBa_J364007, BBa_J364008, BBa_J364009) into competent DH5α. And we successfully get sufficient colonies in all the plates. Therefore we select 2 colonies in each plate to cultivate them In LB medium containing chloramphenicol for overnight with 37℃, 220rpm.


Calibration 1: OD600 Reference point - LUDOX


Through this calibration, we could transform the absorbance (Abs600 ) data from plate reader into a comparable OD 600 measurement in the spectrophotometer, which will help a lot during the following experiments. By doing so, we get the data following.


LUDOX CL-X

H2O

Replicate 1

0.056

0.039

Replicate 2

0.059

0.039

Replicate 3

0.058

0.040

Replicate 4

0.056

0.040

Arith. Mean

0.057

0.040

Corrected Abs600

0.018

Reference OD600

0.063

OD600/Abs600

3.549

Table 1: We get the ratiometric conversion factor of 3.549 in our plate reader after measuring the wells adding 100ul Ludox and water.


Calibration 2: Particle Standard Curve - Microsphere


Because the monodisperse silica microspheres are similar to the cells in size and optical characteristics during measuring the absorbance in 600nm. It is necessary to construct the particle standard curve and in this way we could change the absorbance into estimated cells.



Number of Particles

2.35E+08

1.18E+08

5.88E+07

2.94E+07

1.47E+07

7.35E+06

3.68E+06

1.84E+06

9.19E+05

4.60E+05

2.30E+05

0

Replicate 1

0.542

0.347

0.202

0.124

0.080

0.059

0.050

0.047

0.043

0.041

0.040

0.042

Replicate 2

0.531

0.344

0.187

0.116

0.077

0.057

0.048

0.042

0.041

0.041

0.040

0.038

Replicate 3

0.794

0.319

0.177

0.105

0.076

0.062

0.049

0.046

0.043

0.042

0.040

0.039

Replicate 4

0.609

0.314

0.193

0.106

0.076

0.057

0.048

0.046

0.043

0.042

0.040

0.042

Arith. Mean

0.619

0.331

0.190

0.113

0.077

0.059

0.049

0.045

0.043

0.042

0.040

0.040

Arith. Std.Dev.

0.122

0.017

0.011

0.009

0.002

0.002

0.001

0.002

0.001

0.001

0.000

0.002

Arith. Net Mean

0.579

0.291

0.150

0.073

0.037

0.019

0.009

0.005

0.002

0.001

0.000

Table 2 :the raw data we get after diluting a series of monodisperse silica microspheres in the 96 cell well plates.




Figure 1:The Particle Standard Curve with monodisperse silica microspheres (log scale)



Figure 2 : The Particle Standard Curve with monodisperse silica microspheres (line scale)




The standard curve are straight line at line scale but not at log scale. It may caused by along with the increasing dilution factor, the instrumental error and pipetting error could bring more huge effect in data and it will present more dramatically in log scale.


Calibration 3: Fluorescence standard curve – Fluorescein


We also need to measure a standard curve for fluorescence of Fluorescein which can be used to correct our cell-based readings to an equivalent Fluorescein concentration. Following the instructions, we could obtain following results for the serial dilution of Fluorescein in phosphate buffered saline


Fluorescein uM

10.00

5

2.5

1.25

0.625

0.313

0.156

0.078

0.039

0.0195

0.0098

0

Replicate 1

4.833E+04

2.670E+04

2.013E+04

1.019E+04

4.769E+03

2.687E+03

1.385E+03

6.670E+02

3.450E+02

1.630E+02

6.800E+01

2.000E+00

Replicate 2

4.477E+04

3.233E+04

1.903E+04

1.032E+04

4.521E+03

2.770E+03

1.147E+03

5.660E+02

2.560E+02

1.950E+02

1.200E+02

4.000E+00

Replicate 3

4.932E+04

3.348E+04

2.032E+04

1.298E+04

6.118E+03

2.550E+03

1.468E+03

5.660E+02

2.710E+02

1.730E+02

7.900E+01

5.000E+00

Replicate 4

4.846E+04

3.634E+04

2.116E+04

1.180E+04

4.451E+03

3.568E+03

1.445E+03

7.330E+02

3.010E+02

1.310E+02

6.800E+01

8.000E+00

Arith. Mean

4.772E+04

3.221E+04

2.016E+04

1.132E+04

4.965E+03

2.894E+03

1.361E+03

6.330E+02

2.933E+02

1.655E+02

8.375E+01

4.750E+00

Arith. Std.Dev.

2.012E+03

4.042E+03

8.766E+02

1.323E+03

7.808E+02

4.586E+02

1.471E+02

8.192E+01

3.925E+01

2.660E+01

2.472E+01

2.500E+00

Arith. Net Mean

4.771E+04

3.221E+04

2.016E+04

1.132E+04

4.960E+03

2.889E+03

1.357E+03

6.283E+02

2.885E+02

1.608E+02

7.900E+01

Table 3: The raw data after measuring the fluorescence (excitation light: 485 nm, emission light 530nm) in plate reader.


Figure 3 : The fluorescein standard curve in line scale (excitation light:485nm, emission light 530nm)


Figure 4 : The fluorescein standard curve in log scale (excitation light:485nm, emission light 530nm)


The standard curve are straight line in both the line and log scale. So the standard curve may be credible after we use it in following experiment and the analyzing results.



Cell measurement


The fourth segment is the results of absorbance 600nm and fluorescence of transformed cells. According to the protocol we get the data and comparing them with the results in CFU/ml to get our conclusion whether CFU/ml could replace the absorbance in fluorescence/od in laboratory works.


Fluorescence Raw Readings:

Hour 0:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

LB + Chlor (blank)

Colony 1, Replicate 1

8136

12501

16278

14892

9048

11885

11704

10121

9438

Colony 1, Replicate 2

8934

12193

15878

14098

8884

12074

11650

10111

9750

Colony 1, Replicate 3

8658

12142

15435

14105

8925

12015

11719

9945

9940

Colony 1, Replicate 4

8898

12121

16042

13753

9422

12022

11406

10105

9443

Colony 2, Replicate 1

8838

12257

14105

15215

9315

13763

14827

9855

9797

Colony 2, Replicate 2

8420

12662

13753

15391

9273

13825

15043

9858

9515

Colony 2, Replicate 3

8517

12629

15215

14978

9463

13933

14695

9483

9337

Colony 2, Replicate 4

8113

12936

15391

15182

9035

14550

15303

10083

9624


Hour 6:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

LB + Chlor (blank)

Colony 1, Replicate 1

0.2

0.23

0.121

0.216

0.271

0.204

0.251

0.236

0.044

Colony 1, Replicate 2

0.194

0.243

0.124

0.22

0.267

0.195

0.235

0.241

0.046

Colony 1, Replicate 3

0.185

0.242

0.126

0.23

0.259

0.182

0.243

0.241

0.041

Colony 1, Replicate 4

0.196

0.238

0.125

0.235

0.258

0.198

0.232

0.231

0.041

Colony 2, Replicate 1

0.226

0.265

0.121

0.24

0.283

0.185

0.241

0.233

0.043

Colony 2, Replicate 2

0.222

0.253

0.123

0.26

0.302

0.196

0.231

0.231

0.043

Colony 2, Replicate 3

0.226

0.252

0.124

0.244

0.289

0.226

0.233

0.225

0.043

Colony 2, Replicate 4

0.218

0.261

0.125

0.246

0.296

0.222

0.231

0.226

0.044


Abs600 Raw Readings:

Hour 0:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

LB + Chlor (blank)

Colony 1, Replicate 1

0.062

0.049

0.051

0.052

0.056

0.047

0.06

0.055

0.041

Colony 1, Replicate 2

0.06

0.047

0.052

0.052

0.057

0.048

0.063

0.051

0.04

Colony 1, Replicate 3

0.063

0.048

0.051

0.053

0.056

0.048

0.07

0.052

0.042

Colony 1, Replicate 4

0.07

0.049

0.056

0.052

0.058

0.048

0.067

0.051

0.044

Colony 2, Replicate 1

0.067

0.053

0.055

0.058

0.059

0.046

0.066

0.046

0.041

Colony 2, Replicate 2

0.066

0.052

0.051

0.062

0.06

0.049

0.069

0.055

0.043

Colony 2, Replicate 3

0.069

0.054

0.053

0.053

0.059

0.048

0.063

0.047

0.042

Colony 2, Replicate 4

0.067

0.053

0.051

0.051

0.059

0.048

0.064

0.049

0.041


Hour 6:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

LB + Chlor (blank)

Colony 1, Replicate 1

10832

26586

11469

36302

11679

65637

31750

16588

9903

Colony 1, Replicate 2

11396

27771

12384

36210

12366

57468

32740

17149

10228

Colony 1, Replicate 3

11623

27875

12080

37821

12440

53989

32033

17207

10542

Colony 1, Replicate 4

11544

28119

12230

35304

12461

56895

31155

17143

10570

Colony 2, Replicate 1

11754

30339

11623

33540

15737

67747

31675

15916

10791

Colony 2, Replicate 2

12659

34078

11544

35802

13098

65635

34026

16744

10459

Colony 2, Replicate 3

12801

33879

11754

37368

12987

65949

34497

17233

10963

Colony 2, Replicate 4

12642

33499

12659

38675

13067

67308

35003

16936

10695


Table 4: The raw data we get from the plate reader after measuring the samples from 0h and 6h during cultivation of the transformed cells.


After synthesis the raw data that we get from the calibration protocol and cell measurement protocol, there are also some forms after analyzing. (for easily to compare the difference between the devices, there are some diagrams only present after cultivating 6h, because we think some data getting from samples in 0h is less valuable)


Unit Scaling Factors:

OD600 / Abs600

3.55

uM Fluorescein / a.u.

1.25E-04

Table 5: The unit scaling factors of our standard curve in calibration experiment.


 

Net Abs 600

Hour 0:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

0.021

0.008

0.010

0.011

0.015

0.006

0.019

0.014

Colony 1, Replicate 2

0.020

0.007

0.012

0.012

0.017

0.008

0.023

0.011

Colony 1, Replicate 3

0.021

0.006

0.009

0.011

0.014

0.006

0.028

0.010

Colony 1, Replicate 4

0.026

0.005

0.012

0.008

0.014

0.004

0.023

0.007

Colony 2, Replicate 1

0.026

0.012

0.014

0.017

0.018

0.005

0.025

0.005

Colony 2, Replicate 2

0.023

0.009

0.008

0.019

0.017

0.006

0.026

0.012

Colony 2, Replicate 3

0.027

0.012

0.011

0.011

0.017

0.006

0.021

0.005

Colony 2, Replicate 4

0.026

0.012

0.010

0.010

0.018

0.007

0.023

0.008


Hour 6:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

0.156

0.186

0.077

0.172

0.227

0.160

0.207

0.192

Colony 1, Replicate 2

0.148

0.197

0.078

0.174

0.221

0.149

0.189

0.195

Colony 1, Replicate 3

0.144

0.201

0.085

0.189

0.218

0.141

0.202

0.200

Colony 1, Replicate 4

0.155

0.197

0.084

0.194

0.217

0.157

0.191

0.190

Colony 2, Replicate 1

0.183

0.222

0.078

0.197

0.240

0.142

0.198

0.190

Colony 2, Replicate 2

0.179

0.210

0.080

0.217

0.259

0.153

0.188

0.188

Colony 2, Replicate 3

0.183

0.209

0.081

0.201

0.246

0.183

0.190

0.182

Colony 2, Replicate 4

0.174

0.217

0.081

0.202

0.252

0.178

0.187

0.182


Table 6: The net absorbance 600nm.


Figure 5 : The net absorbance in 600nm of transformed cells after 6h cultivation.


Net Fluorescein a.u.

Hour 0:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

-1302.00

3063.00

6840.00

5454.00

-390.00

2447.00

2266.00

683.00

Colony 1, Replicate 2

-816.00

2443.00

6128.00

4348.00

-866.00

2324.00

1900.00

361.00

Colony 1, Replicate 3

-1282.00

2202.00

5495.00

4165.00

-1015.00

2075.00

1779.00

5.00

Colony 1, Replicate 4

-545.00

2678.00

6599.00

4310.00

-21.00

2579.00

1963.00

662.00

Colony 2, Replicate 1

-959.00

2460.00

4308.00

5418.00

-482.00

3966.00

5030.00

58.00

Colony 2, Replicate 2

-1095.00

3147.00

4238.00

5876.00

-242.00

4310.00

5528.00

343.00

Colony 2, Replicate 3

-820.00

3292.00

5878.00

5641.00

126.00

4596.00

5358.00

146.00

Colony 2, Replicate 4

-1511.00

3312.00

5767.00

5558.00

-589.00

4926.00

5679.00

459.00


Hour 6:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

929.00

16683.00

1566.00

26399.00

1776.00

55734.00

21847.00

6685.00

Colony 1, Replicate 2

1168.00

17543.00

2156.00

25982.00

2138.00

47240.00

22512.00

6921.00

Colony 1, Replicate 3

1081.00

17333.00

1538.00

27279.00

1898.00

43447.00

21491.00

6665.00

Colony 1, Replicate 4

974.00

17549.00

1660.00

24734.00

1891.00

46325.00

20585.00

6573.00

Colony 2, Replicate 1

963.00

19548.00

832.00

22749.00

4946.00

56956.00

20884.00

5125.00

Colony 2, Replicate 2

2200.00

23619.00

1085.00

25343.00

2639.00

55176.00

23567.00

6285.00

Colony 2, Replicate 3

1838.00

22916.00

791.00

26405.00

2024.00

54986.00

23534.00

6270.00

Colony 2, Replicate 4

1947.00

22804.00

1964.00

27980.00

2372.00

56613.00

24308.00

6241.00

Table 7: The net Fluorescence data


Figure 6 : The net fluorescein of transformed cells after 6h cultivation (excitation light:485nm, emission light 530nm)


uM Fluorescein/OD

Hour 0:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

-2.180

13.460

24.047

17.431

-0.914

14.338

4.193

1.715

Colony 1, Replicate 2

-1.434

12.269

17.953

12.738

-1.791

10.213

2.904

1.154

Colony 1, Replicate 3

-2.146

12.902

21.465

13.311

-2.549

12.158

2.234

0.018

Colony 1, Replicate 4

-0.737

18.829

19.333

18.940

-0.053

22.667

3.000

3.325

Colony 2, Replicate 1

-1.297

7.207

10.818

11.204

-0.941

27.886

7.073

0.408

Colony 2, Replicate 2

-1.674

12.293

18.624

10.872

-0.500

25.254

7.475

1.005

Colony 2, Replicate 3

-1.068

9.644

18.786

18.029

0.261

26.929

8.970

1.027

Colony 2, Replicate 4

-2.043

9.703

20.274

19.540

-1.150

24.740

8.680

2.017


Hour 6:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

0.209

3.153

0.715

5.396

0.275

12.246

3.710

1.224

Colony 1, Replicate 2

0.277

3.131

0.972

5.250

0.340

11.146

4.187

1.248

Colony 1, Replicate 3

0.264

3.032

0.636

5.074

0.306

10.833

3.740

1.172

Colony 1, Replicate 4

0.221

3.132

0.695

4.482

0.306

10.373

3.789

1.216

Colony 2, Replicate 1

0.185

3.096

0.375

4.060

0.725

14.101

3.708

0.948

Colony 2, Replicate 2

0.432

3.954

0.477

4.106

0.358

12.678

4.407

1.175

Colony 2, Replicate 3

0.353

3.855

0.343

4.618

0.289

10.563

4.355

1.211

Colony 2, Replicate 4

0.393

3.694

0.852

4.870

0.331

11.181

4.570

1.206

Table 8: The um fluorescence/OD data


Figure 7 : The ratio of fluorescein/OD in 0h (excitation light:485nm, emission light 530nm)


Figure 8 : The ratio of fluorescein/OD after cultivation for 6h (excitation light:485nm, emission light 530nm)



Discussion: According to the net fluorescence per od value, the order of the strengths of the different promoters is estimated based on the average of two colonies in each group. The conclusion is that "device 4">"device 5">"device1" approximately equal to "positive control" >"device 2">"device 6">"device 3">"negative control". The results of the comparison with the official RFP were basically the same, while the positive and negative controls and the repetition of the two colonies indicated that the results were credible.



Unit Scaling Factors:

Particles / Abs600

4.00E+08

MEFL / a.u.

7.51E+08

Table 9 : The unit scaling factors of our standard curve in calibration experiment.


MEFL / particle

Hour 0:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

-1.17E+05

7.20E+05

1.29E+06

9.32E+05

-4.89E+04

7.67E+05

2.24E+05

9.17E+04

Colony 1, Replicate 2

-7.67E+04

6.56E+05

9.60E+05

6.81E+05

-9.58E+04

5.46E+05

1.55E+05

6.17E+04

Colony 1, Replicate 3

-1.15E+05

6.90E+05

1.15E+06

7.12E+05

-1.36E+05

6.50E+05

1.19E+05

9.40E+02

Colony 1, Replicate 4

-3.94E+04

1.01E+06

1.03E+06

1.01E+06

-2.82E+03

1.21E+06

1.60E+05

1.78E+05

Colony 2, Replicate 1

-6.93E+04

3.85E+05

5.78E+05

5.99E+05

-5.03E+04

1.49E+06

3.78E+05

2.18E+04

Colony 2, Replicate 2

-8.95E+04

6.57E+05

9.96E+05

5.81E+05

-2.68E+04

1.35E+06

4.00E+05

5.37E+04

Colony 2, Replicate 3

-5.71E+04

5.16E+05

1.00E+06

9.64E+05

1.39E+04

1.44E+06

4.80E+05

5.49E+04

Colony 2, Replicate 4

-1.09E+05

5.19E+05

1.08E+06

1.04E+06

-6.15E+04

1.32E+06

4.64E+05

1.08E+05


Hour 6:

Neg. Control

Pos. Control

Device 1

Device 2

Device 3

Device 4

Device 5

Device 6

Colony 1, Replicate 1

1.12E+04

1.69E+05

3.82E+04

2.89E+05

1.47E+04

6.55E+05

1.98E+05

6.55E+04

Colony 1, Replicate 2

1.48E+04

1.67E+05

5.20E+04

2.81E+05

1.82E+04

5.96E+05

2.24E+05

6.67E+04

Colony 1, Replicate 3

1.41E+04

1.62E+05

3.40E+04

2.71E+05

1.64E+04

5.79E+05

2.00E+05

6.26E+04

Colony 1, Replicate 4

1.18E+04

1.67E+05

3.71E+04

2.40E+05

1.64E+04

5.55E+05

2.03E+05

6.50E+04

Colony 2, Replicate 1

9.89E+03

1.66E+05

2.01E+04

2.17E+05

3.87E+04

7.54E+05

1.98E+05

5.07E+04

Colony 2, Replicate 2

2.31E+04

2.11E+05

2.55E+04

2.20E+05

1.92E+04

6.78E+05

2.36E+05

6.28E+04

Colony 2, Replicate 3

1.89E+04

2.06E+05

1.84E+04

2.47E+05

1.55E+04

5.65E+05

2.33E+05

6.48E+04

Colony 2, Replicate 4

2.10E+04

1.98E+05

4.56E+04

2.60E+05

1.77E+04

5.98E+05

2.44E+05

6.45E+04


Table 10: MEFL/particle


Figure 9 : The ratio of fluorescein/particle in 0h (excitation light:485nm, emission light 530nm)


Figure 10 : The ratio of fluorescein/particle after cultivation for 6h (excitation light:485nm, emission light 530nm)


Discussion : MEFL/particle also show the same results that device 4 have the stongest promotor and device 3 have the weakest promotor. And the decreasing promotor strength is "device 4">"device 5">"device1" approximately equal to "positive control" >"device 2">"device 6">"device 3">"negative control", which corresopnd to the results in flourescence per od .



CFU/ml data in Neg.Control and Pos.Control.

We dilute the neg.control and pos.control into the absorbance into 0.1, and we finish the following dilution according to the protocol. The protocol is easy to understand and there presents the data we record during experiment.




Neg.Control Relplicate 1

Neg.Control Relplicate 2

Neg.Control Relplicate 3

Pos.Control Relplicate 1

Pos.Control Relplicate 2

Pos.Control Relplicate 3

LB+Cam

0.148

0.154

0.153

0.142

0.158

0.145

0.042

0.157

0.165

0.159

0.143

0.135

0.139

0.041

Table 11: The original absorbance of neg.control and pos.control after dilution in plate reader


Colony numbers

Final Dilution Factor

Neg.Control Relplicate 1

Neg.Control Relplicate 2

Neg.Control Relplicate 3

Pos.Control Relplicate 1

Pos.Control Relplicate 2

Pos.Control Relplicate 3

8*10^4

542

2300

1992

285

404

261

8*10^5

174

211

143

25

40

46

8*10^6

33

9

35

5

3

1

Final Dilution Factor

Neg.Control Relplicate 1

Neg.Control Relplicate 2

Neg.Control Relplicate 3

Pos.Control Relplicate 1

Pos.Control Relplicate 2

Pos.Control Relplicate 3

8*10^4

992

1488

660

267

209

221

8*10^5

140

288

79

16

22

22

8*10^6

8

53

16

2

13

1

Final CFU/ml

Neg.Control Relplicate 1

Neg.Control Relplicate 2

Neg.Control Relplicate 3

Pos.Control Relplicate 1

Pos.Control Relplicate 2

Pos.Control Relplicate 3

colony 1

2.01E+08

1.69E+08

1.97E+08

2.28E+07

3.20E+07

2.88E+07

colony 2

1.12E+08

3.27E+08

3.92E+07

2.14E+07

1.67E+07

1.77E+07


Table 12: The colony numbers in plates


Figure 11 : The colony numbers per milliliter in 0.1 absorbance culture (600nm)


we selectively choose some data to calculate the final CFU/ml . The selective standard is according to the plate colony numbers which is between 30-300. After analyzing the final CFU/ml in the negative and positive control, we found that although the origin absorance are similar, there are some difference between the CFU/ml. we are not sure whether there exists pipetting errors during dilution process . But all the data we got shows that the expressing GFP consistantly in Pos.Control may affect the growth of bacteria .



Final conclusion


We could conclude that there are some relationships between the fluorescence/OD and fluorescence per particle, So it is definitely that we could use particle of cells to replace the Absorbance of cells. However, there is no obvious relationship between the particles of cells and the CFU/ml in culture. Because CFU/ml presents the numbers of survival cells and the bacteria which have relatively strong vitality. Compared with positive control, negative control obviously have a higher chance to express antibiotic resistant gene instead of the unnecessary GFP. So when transformed cells grow on the plates, there are more chances to survival in the antibiotic plates for cells who express more less unnecessary proteins. Of course, there may exists some pipetting errors during dilution process, but the data we obtain from the experiment show that we may can’t normalize colony-forming units (CFUs) instead of OD during fluorescence measurements.


Figure 9 : The ratio of fluorescein/particle in 0h (excitation light:485nm, emission light 530nm)

Figure 10 : The ratio of fluorescein/particle after cultivation for 6h (excitation light:485nm, emission light 530nm)

Figure 11 : The colony numbers per milliliter in 0.1 absorbance culture (600nm)