Difference between revisions of "Part:BBa K2740013"
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<p align="left">Nitrogenase  is a complex enzyme system consisting of nine protein components. Additionally,  to maintain stoichiometry of these protein components is an essential  requirement for nitrogenase biosynthesis and activity. However, there is only  one copy of each structure gene present  in the nif gene cluster. Therefore, cloning each of these nif genes and setting  as independent part can facilitate the regulation of balancing expression  ratios from the transcription and/or translation level(s) when they are heterogeneously expressed in non-diazotrophic hosts.</p>
 
<p align="left">Nitrogenase  is a complex enzyme system consisting of nine protein components. Additionally,  to maintain stoichiometry of these protein components is an essential  requirement for nitrogenase biosynthesis and activity. However, there is only  one copy of each structure gene present  in the nif gene cluster. Therefore, cloning each of these nif genes and setting  as independent part can facilitate the regulation of balancing expression  ratios from the transcription and/or translation level(s) when they are heterogeneously expressed in non-diazotrophic hosts.</p>
 +
<h2>Molecular modeling of nifH</h2>
 +
<p align="left">To  learn more about the molecular structure of nitrogenase reductase NifH encoded  by nifH, we use Swiss-Model to get the molecular model of nitrogenase reductase  NifH.</p>
 +
[[File:T--Nanjing-China--nifH-structure.png|800px|thumb|center]]
 +
<h2>Confirmation of Expression of nifH</h2>
 +
<p align="left">To  verify the expression of nitrogenase gene, we conducted Real-time Quantitative  PCR(QPCR) to detect the transcription level of <em>nif</em> gene cluster in engineered <em>E.  coli</em>, using 16S DNA as an internal reference. The result provided the  relative expression level of each <em>nif</em>H  in our constructed <em>E. coli </em>strain. </p>
 +
[[File:T--Nanjing-China--nifH-1.png|800px|thumb|center]]<br/>
 +
[[File:T--Nanjing-China--nifH-2.png|800px|thumb|center]]
 +
<p><em>&nbsp;</em></p>
 +
<p>From the results of qPCR, we know the nifH  gene in engineered <em>E. coli relatively  highly expressed.</em></p>
 +
<p><em>&nbsp;</em></p>
 +
<div>
 +
  <h2>Usage</h2>
 +
</div>
 +
<p>In our this year&rsquo;s project, we intends to  establish a sound and ideal whole-cell photocatalytic nitrogen fixation system.  We use the engineered <em>E. coli</em> cells to express nitrogenase and in-situ  synthesize of CdS semiconductors in the biohybrid system. Instead of  ATP-hydrolysis, such system is able to photocatalytic N2(nitrogen) to  NH3(ammonia). The biohybrid system based on engineered E. coli cells with  biosynthesis inorganic materials will likely become an alternative approach for  the convenient utilization of solar energy. So, certainly we need not only a  powerful solar power transition system but also a strong nitrogen fixation  system to improve the efficiency of our whole-cell photocatalytic nitrogen  fixation system. According to the above requirements, we choose a different nif  gene cluster from <em>Paenibacillus polymyxa</em> CR1 to test its expression  level.</p>
 +
<p>&nbsp;</p>
 +
<p align="left">&nbsp;</p>

Revision as of 03:10, 8 October 2018


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.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal SapI.rc site found at 718


Parameter of Protein

Number of amino acids: 288

Molecular weight: 31494.95

Theoretical pI: 4.78

Amino acid composition:
Ala (A)  26    9.0%
Arg (R)  13    4.5%
Asn (N)  15   5.2%
Asp (D)  14   4.9%
Cys (C)   6    2.1%
Gln (Q)  13    4.5%
Glu (E)  28    9.7%
Gly (G)  28    9.7%
His (H)   4    1.4%
Ile (I)    22   7.6%
Leu (L)  27    9.4%
Lys (K)  14    4.9%
Met (M)  11   3.8%
Phe (F)   8     2.8%
Pro (P)   8     2.8%
Ser (S)   9     3.1%
Thr (T)  17    5.9%
Trp (W)  0     0.0%
Tyr (Y)   8    2.8%
Val (V)   17   5.9%
Pyl (O)   0     0.0%
Sec (U)   0    0.0%

 (B)   0         0.0%
(Z)   0       0.0%
(X)   0         0.0%

 

Total number of negatively charged residues (Asp + Glu): 42
Total number of positively charged residues (Arg + Lys): 27

Atomic composition:

Carbon      C          1372
Hydrogen    H         2213
Nitrogen    N            377
Oxygen      O          435
Sulfur      S              17

Formula: C1372H2213N377O435S17
Total number of atoms: 4414

Extinction coefficients:

This protein does not contain any Trp residues. Experience shows that
this could result in more than 10% error in the computed extinction coefficient.

Extinction coefficients are in units of  M-1 cm-1, at 280 nm measured in water.

Ext. coefficient    12295
Abs 0.1% (=1 g/l)   0.390, assuming all pairs of Cys residues form cystines

 

Ext. coefficient    11920
Abs 0.1% (=1 g/l)   0.378, assuming all Cys residues are reduced

Estimated half-life:

The N-terminal of the sequence considered is M (Met).

The estimated half-life is: 30 hours (mammalian reticulocytes, in vitro).
>20 hours (yeast, in vivo).
>10 hours (Escherichia coli, in vivo).

 

Instability index:

The instability index (II) is computed to be 39.05
This classifies the protein as stable.

 

Aliphatic index: 92.50

Grand average of hydropathicity (GRAVY): -0.161

Design Notes

Nitrogenase is a complex enzyme system consisting of nine protein components. Additionally, to maintain stoichiometry of these protein components is an essential requirement for nitrogenase biosynthesis and activity. However, there is only one copy of each structure gene present in the nif gene cluster. Therefore, cloning each of these nif genes and setting as independent part can facilitate the regulation of balancing expression ratios from the transcription and/or translation level(s) when they are heterogeneously expressed in non-diazotrophic hosts.

Molecular modeling of nifH

To learn more about the molecular structure of nitrogenase reductase NifH encoded by nifH, we use Swiss-Model to get the molecular model of nitrogenase reductase NifH.

T--Nanjing-China--nifH-structure.png

Confirmation of Expression of nifH

To verify the expression of nitrogenase gene, we conducted Real-time Quantitative PCR(QPCR) to detect the transcription level of nif gene cluster in engineered E. coli, using 16S DNA as an internal reference. The result provided the relative expression level of each nifH in our constructed E. coli strain.

T--Nanjing-China--nifH-1.png

T--Nanjing-China--nifH-2.png

 

From the results of qPCR, we know the nifH gene in engineered E. coli relatively highly expressed.

 

Usage

In our this year’s project, we intends to establish a sound and ideal whole-cell photocatalytic nitrogen fixation system. We use the engineered E. coli cells to express nitrogenase and in-situ synthesize of CdS semiconductors in the biohybrid system. Instead of ATP-hydrolysis, such system is able to photocatalytic N2(nitrogen) to NH3(ammonia). The biohybrid system based on engineered E. coli cells with biosynthesis inorganic materials will likely become an alternative approach for the convenient utilization of solar energy. So, certainly we need not only a powerful solar power transition system but also a strong nitrogen fixation system to improve the efficiency of our whole-cell photocatalytic nitrogen fixation system. According to the above requirements, we choose a different nif gene cluster from Paenibacillus polymyxa CR1 to test its expression level.