Difference between revisions of "Team:Nanjing-China/Basic Part"

Revision as of 05:01, 27 September 2018

Nanjing-China2018

PARTS

Basic_parts
Part name	Short Description	Long Description:
BBa_K2740002	CR1 nifB	CR1 nifB encodes nitrogen fixation protein NifB that is essential for biosynthesis of the active-site nitrogenase cofactor. If the CR1 nifB was deleted, the nitrogen fixation would not happen.
BBa_K2740003	CR1 nifH	CR1 nifH encodes nitrogenase reductase NifH, which is an electron donor to the molybdenum-iron (MoFe) protein, contributing to the electron transport in the nitrogen fixation system.
BBa_K2740004	CR1 nifD	CR1 nifD encodes the subunit alpha (NifD) of the molybdenum-iron (MoFe) protein.
BBa_K2740005	CR1 nifK	CR1 nifK encodes the subunit beta (NifK) of the molybdenum-iron protein. Together with NifD, they form a α2β2 heterotetramer.
BBa_K2740006	CR1 nifE	CR1 nifE encodes the cofactor NifE for the maturation of functional molybdenum-iron protein.
BBa_K2740007	CR1 nifN	CR1 nifN encodes the cofactor NifN for the maturation of functional molybdenum-iron protein.
BBa_K2740008	CR1 nifX	CR1 nifX encodes nitrogen fixation protein NifX that favors the insertion of molybdenum-iron protein cofactors into nitrogenase.
BBa_K2740009	CR1 HesA	CR1 HesA encodes a NAD/FAD-binding protein, HesA, which is involved in molybdopterin and thiamine biosynthesis. It plays an important role in nitrogen fixation and is responsive to the availability of molybdenum.
BBa_K2740010	CR1 nifV	CR1 nifV encodes homocitrate synthase NifV that enables the synthesis of the homocitrate moiety of the molybdenum-iron protein cofactor.

Address

Life Science Department
#163 Xianlin Blvd, Qixia District
Nanjing University
Nanjing, Jiangsu Province
P.R. of China
Zip: 210046

Email

nanjing_china@163.com

Social media

Twitter button:
iGEM Nanjing-China@nanjing_china

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      </tr>
      <tr>
-     <td width="20%">Part number</td>
+     <td width="20%">Part name</td>
-    <td width="30%">Part name</td>
+     <td width="30%">Short Description</td>
-    <td width="50%">Natural function of part</td>
+     <td width="50%">Long Description:</td>
-    </tr>
-    <tr>
-    <td width="20%">BBa_K2740001</td>
-     <td width="30%"><em>CR1 Pnif</em></td>
-     <td width="50%">CR1 Pnif is  a σ70 (σA)-dependent promoter located upstream of CR1 nifB(BBa_K2740002), which is negatively regulated in response to oxygen and fixed nitrogen.</td>
      </tr>
       <tr>
      <td width="20%">BBa_K2740002</td>
-     <td width="30%"><em>CR1 nifB</em></td>
+     <td width="30%">CR1 <em>nifB</em></td>
-     <td width="50%">CR1 nifB is essential for nitrogen fixation. If the CR1 nifB was deleted, acetylene reduction have not been detected, which meant the nitrogen fixation not happened.</td>
+     <td width="50%">CR1 <em>nifB</em> encodes nitrogen fixation protein NifB that is essential for biosynthesis of the active-site nitrogenase cofactor. If the CR1 <em>nifB</em> was deleted, the nitrogen fixation would not happen.</td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740003</td>
-     <td width="30%"><em>CR1 nifH</em></td>
+     <td width="30%">CR1 <em>nifH</em></td>
-     <td width="50%">This part codes Fe protein which is an electron donor to the MoFe protein attributing to the electron delivery in the nitrogen fixation system.</td>
+     <td width="50%">CR1 <em>nifH</em> encodes nitrogenase reductase NifH, which is an electron donor to the molybdenum-iron (MoFe) protein, contributing to the electron transport in the nitrogen fixation system.</td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740004</td>
-     <td width="30%"><em>CR1 nifD</em></td>
+     <td width="30%">CR1 <em>nifD</em></td>
-     <td width="50%">CR1 nifD codes MoFe protein which is an α2β2  heterotetramer together with CR1 nifK(BBa_K2740004). And the enzyme is responsible for fixing-nitrogen.</td>
+     <td width="50%">CR1 <em>nifD</em> encodes the subunit alpha (NifD) of the molybdenum-iron (MoFe) protein.</td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740005</td>
-     <td width="30%"><em>CR1 nifK</em></td>
+     <td width="30%">CR1<em> nifK</em></td>
-     <td width="50%"> CR1 nifK codes MoFe protein which is an α2β2  heterotetramer together with CR1 nifD(BBa_K2740003). And the enzyme encoded by CR1 nifK is essential for fixing-fixation.</td>
+     <td width="50%"><p align="left">CR1 <em>nifK</em> encodes the subunit beta (NifK) of the molybdenum-iron protein. Together with NifD, they form a α2β2 heterotetramer. </p></td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740006</td>
-     <td width="30%"><em>CR1 nifE</em></td>
+     <td width="30%">CR1 <em>nifE</em></td>
-     <td width="50%">CR1 nifE  contributes to the synthesis and insertion of FeMo-co into nitrogenase together with CR1 nifN. And the FeMo-co in the nitrogenase is quite for maintain its function.</td>
+     <td width="50%"> CR1 <em>nifE</em> encodes the cofactor NifE for the maturation of functional molybdenum-iron protein.</td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740007</td>
-     <td width="30%"><em>CR1 nifN</em></td>
+     <td width="30%">CR1 <em>nifN</em></td>
-     <td width="50%"> CR1 nifN  contributes to the synthesis and insertion of FeMo-co into nitrogenase. </td>
+     <td width="50%"> CR1 <em>nifN</em> encodes the cofactor NifN for the maturation of functional molybdenum-iron protein. </td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740008</td>
-     <td width="30%"><em>CR1 nifX</em></td>
+     <td width="30%">CR1 <em>nifX</em></td>
-     <td width="50%"> CR1 nifX  contributes to the synthesis and insertion of FeMo-co into nitrogenase</td>
+     <td width="50%"> CR1 <em>nifX</em> encodes nitrogen fixation protein NifX that favors the insertion of molybdenum-iron protein cofactors into nitrogenase.</td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740009</td>
-     <td width="30%"><em>CR1 HesA</em></td>
+     <td width="30%">CR1 <em>HesA</em></td>
-     <td width="50%"> CR1 hesA  The gene hesA encodes a NAD/FAD-binding protein involved in molybdopterin and thiamine biosynthesis.</td>
+     <td width="50%"> CR1 <em>HesA</em> encodes a NAD/FAD-binding protein, HesA, which is involved in molybdopterin and thiamine biosynthesis. It plays an important role in nitrogen fixation and is responsive to the availability of molybdenum.</td>
      </tr>
      <tr>
      <td width="20%">BBa_K2740010</td>
-     <td width="30%"><em>CR1 nifV</em></td>
+     <td width="30%">CR1 <em>nifV</em></td>
-     <td width="50%">CR1 nifV  contributes to synthesizing the homocitrate moiety of FeMo-co which is essential for the nitrogen fixation.</td>
+     <td width="50%">CR1 <em>nifV</em> encodes homocitrate synthase NifV that enables the synthesis of the homocitrate moiety of the molybdenum-iron protein cofactor.</td>
-    </tr>
-     <tr>
-    <td width="20%">BBa_K2740011</td>
-    <td width="30%"><em>CR1 Tnif</em></td>
-    <td width="50%">CR1 Tnif is a specific terminator for the whole nif gene cluster.</td>
      </tr>
      </table>