Difference between revisions of "Part:BBa K1958000"

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HyaE is a subunit of hydrogenase 1 (Hyd-1) from Escherichia coli genome. The hya operon, which contains gene for the two HYD1 structual subunits and four additional genes (HyaA-F) was mapped at 22min on the E.coli chromosome. And hyaE is the fifth gene of hya operon, sharing the first few base pairs with hyaD and the last few base pairs with hyaF. HyaE is a hydrogenase maturase. It is important to note that hyaE is not required for the assembly of standard O2-sensitive hydrogenases (Hyd-2 and others) and are apparently only involved in the assembly of O2-tolerant respiratory enzymes.
 
HyaE is a subunit of hydrogenase 1 (Hyd-1) from Escherichia coli genome. The hya operon, which contains gene for the two HYD1 structual subunits and four additional genes (HyaA-F) was mapped at 22min on the E.coli chromosome. And hyaE is the fifth gene of hya operon, sharing the first few base pairs with hyaD and the last few base pairs with hyaF. HyaE is a hydrogenase maturase. It is important to note that hyaE is not required for the assembly of standard O2-sensitive hydrogenases (Hyd-2 and others) and are apparently only involved in the assembly of O2-tolerant respiratory enzymes.
  
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===Usage and Biology===
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This part HyaD encodes for the fourth subunit of hydrogenase 1 in E.coli.
+
  
[[File:Nanjing-China Hydrogenase Operon.png]]
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<h1>'''Contribution'''</h1>
 +
<ul>
 +
<li>'''Group:''' Nanjing-China
 +
<li>'''Author:''' Members of Nanjing-China
 +
<li>'''Summary:''' We cloned and characterised HyaE, the fifth gene of Hydrogenase 1 gene cluster in E.coli and sent it to the registry as a biobrick. Our biobrick
 +
can be found here [[Part:BBa_K1958000]].
 +
</ul>
  
Figure 1. The Hya operon on the genome of E.coli.
+
<h1>Usage and Biology</h1>
 +
<p>This part HyaE encodes for the fifth gene of Hydrogenase 1 gene cluster in E.coli. </p>
  
== Results ==
+
[[File:Nanjing-China Hydrogenase Operon.png|800px|thumb|center|Figure 1. The Hya operon on the genome of E.coli.]]
  
First the recombinant plasmid with genes encoding E.coli hydrogenase 1 was constructed. This enzyme is encoded by hya operon where lie in all six genes named hyaABCDEF (BBa_K1958001, BBa_K1958002, BBa_K1958003, BBa_K1958004, BBa_K1958000, BBa_K1958006) on the genome of E.coli. The sequence was PCR amplified according to the sequence from our vessel E.coli strain BL21(DE3). We have completed the plasmid pET28a with hya cluster promoted by a T7 promoter. The following figure shows the result of enzyme digestion assay of recombinant plasmid in which our target gene cluster displayed a band around 5.5kb, which indicated successful hydrogenase expression.
+
<h1>Characterisation of HyaE</h1>
  
[[File:Nanjing-China Subclone.png]]
+
<p>First the recombinant plasmid with genes encoding E.coli Hydrogenase 1 was constructed. This enzyme is encoded by hya operon consisting of six genes named hyaABCDEF (BBa_K1958001, BBa_K1958002, BBa_K1958003, BBa_K1958004, BBa_K1958000, BBa_K1958006) on the genome of E.coli. The sequence was PCR amplified according to the sequence from our vessel E.coli strain BL21(DE3). We have completed the plasmid pET28a with hya cluster promoted by a T7 promoter. The following figure shows the result of enzyme digestion assay of recombinant plasmid in which our target gene cluster displayed a band around 5.5kb, which indicated successful hydrogenase expression.</p>
Figure 2. Enzyme digestion assay of recombinant plasmid, showing the band hyaA-F. (B) SDS-PAGE analysis of recombinant E.coli, showing the band of purified HyaA and overexpressed hydrogenase in recombinant strain.
+
  
To detect induced expression of Ec-Hyd1 we performed SDS-PAGE assay. Note that only the small subunit HyaA had a His-tag for purification on this plasmid. The purified subunit ran as the reference for hydrogenase. The assay showed that recombinant strain overexpressed hydrogenase compared to E.coli with empty pET28a plasmids.
+
[[File:Nanjing-China Subclone.png|800px|thumb|center|Figure 2. Enzyme digestion assay of recombinant plasmid, showing the band hyaA-F. (B) SDS-PAGE analysis of recombinant E.coli, showing the band of purified HyaA and overexpressed hydrogenase in recombinant strain.]]
  
[[File:Nanjing-China Qualitative.png]]
+
<p>To detect induced expression of Ec-Hyd1 we performed an SDS-PAGE assay. Note that only the small subunit HyaA had a His-tag for purification on this plasmid. The purified subunit ran as the reference for hydrogenase. The assay showed that recombinant strain overexpressed hydrogenase compared to E.coli with empty pET28a plasmids.</p>
Figure 3. Qualitative test of hydrogenase under anaerobic conditions.
+
  
We determined that our enzyme is effective using both qualitative and quantitative tests under anaerobic condition. Solutions for reaction were flushed with nitrogen and then reaction cells were vacuumed and sealed tight. The qualitative test was done after 20h of anaerobic culture (Figure 3A). We found that the recombinant strain overexpresses hydrogenase produces more bubbles than control group. We assumed that this was because more hydrogen evolves in experiment group. WO3 is a redox dye which determines the existence of reduction force in the environment with a color change to blue, compared to its original green. Again in 20h of anaerobic culture (Figure 3B), the WO3 powders displayed a darker color in the recombinant strain than that of native E.coli strain. We assumed that recombinant strain has created more reduction force than native E.coli strain.
+
[[File:Nanjing-China Qualitative.png|800px|thumb|center|Figure 3. Qualitative test of hydrogenase under anaerobic conditions.]]
  
[[File:Nanjing-China Quantitative.png]]
+
<p>We determined that our enzyme is effective using both qualitative and quantitative tests under anaerobic condition. Solutions for reaction were flushed with nitrogen and then reaction cells were vacuumed and sealed tight. The qualitative test was done after 20h of anaerobic culture (Figure 3A). We found that the recombinant strain overexpresses hydrogenase produces more bubbles than control group. We assumed that this was because more hydrogen evolves in experiment group. WO3 is a redox dye which determines the existence of reduction force in the environment with a color change to blue, compared to its original green. Again in 20h of anaerobic culture (Figure 3B), the WO3 powders displayed a darker color in the recombinant strain than that of native E.coli strain. We assumed that recombinant strain has created more reduction force than native E.coli strain.</p>
Figure 4. Gas chromatography quantitative test of hydrogenase under anaerobic conditions.
+
  
To measure the exact quantity of hydrogen produced in 20h of anaerobic culture, a gas chromatography (GC) test on samples taken from reaction flask headspace was done accordingly later. Nitrogen was the gas carrier and bulk H2 was run as the reference, which showed a peak at approximately 1.4 minute. According to our result, the control group produced 0.58% hydrogen in headspace under 1.96% oxygen proportion which marked the level of native fermentation of E.coli. The recombinant group obviously produced more hydrogen which made up 1.25% in the headspace under 2.06% oxygen level. This is double the production of native fermentation which thus proves that our enzyme is effective under anaerobic conditions.
+
[[File:Nanjing-China Quantitative.png|800px|thumb|center|Figure 4. Gas chromatography quantitative test of hydrogenase under anaerobic conditions.]]
 +
 
 +
<p>To measure the exact quantity of hydrogen produced in 20h of anaerobic culture, a gas chromatography (GC) test on samples taken from reaction flask headspace was done accordingly later. Nitrogen was the gas carrier and bulk H2 ran as the reference, which showed a peak at approximately 1.4 minute. According to our result, the control group produced 0.58% hydrogen in headspace under 1.96% oxygen proportion which marked the level of native fermentation of E.coli. The recombinant group obviously produced more hydrogen which made up 1.25% in the headspace under 2.06% oxygen level. This doubles the production of native fermentation, indicating that our enzyme is effective under anaerobic conditions.</p>
  
 
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Revision as of 16:14, 22 October 2016


HyaE -> E. coli

HyaE is a subunit of hydrogenase 1 (Hyd-1) from Escherichia coli genome. The hya operon, which contains gene for the two HYD1 structual subunits and four additional genes (HyaA-F) was mapped at 22min on the E.coli chromosome. And hyaE is the fifth gene of hya operon, sharing the first few base pairs with hyaD and the last few base pairs with hyaF. HyaE is a hydrogenase maturase. It is important to note that hyaE is not required for the assembly of standard O2-sensitive hydrogenases (Hyd-2 and others) and are apparently only involved in the assembly of O2-tolerant respiratory enzymes.


Contribution

  • Group: Nanjing-China
  • Author: Members of Nanjing-China
  • Summary: We cloned and characterised HyaE, the fifth gene of Hydrogenase 1 gene cluster in E.coli and sent it to the registry as a biobrick. Our biobrick can be found here Part:BBa_K1958000.

Usage and Biology

This part HyaE encodes for the fifth gene of Hydrogenase 1 gene cluster in E.coli.

Figure 1. The Hya operon on the genome of E.coli.

Characterisation of HyaE

First the recombinant plasmid with genes encoding E.coli Hydrogenase 1 was constructed. This enzyme is encoded by hya operon consisting of six genes named hyaABCDEF (BBa_K1958001, BBa_K1958002, BBa_K1958003, BBa_K1958004, BBa_K1958000, BBa_K1958006) on the genome of E.coli. The sequence was PCR amplified according to the sequence from our vessel E.coli strain BL21(DE3). We have completed the plasmid pET28a with hya cluster promoted by a T7 promoter. The following figure shows the result of enzyme digestion assay of recombinant plasmid in which our target gene cluster displayed a band around 5.5kb, which indicated successful hydrogenase expression.

Figure 2. Enzyme digestion assay of recombinant plasmid, showing the band hyaA-F. (B) SDS-PAGE analysis of recombinant E.coli, showing the band of purified HyaA and overexpressed hydrogenase in recombinant strain.

To detect induced expression of Ec-Hyd1 we performed an SDS-PAGE assay. Note that only the small subunit HyaA had a His-tag for purification on this plasmid. The purified subunit ran as the reference for hydrogenase. The assay showed that recombinant strain overexpressed hydrogenase compared to E.coli with empty pET28a plasmids.

Figure 3. Qualitative test of hydrogenase under anaerobic conditions.

We determined that our enzyme is effective using both qualitative and quantitative tests under anaerobic condition. Solutions for reaction were flushed with nitrogen and then reaction cells were vacuumed and sealed tight. The qualitative test was done after 20h of anaerobic culture (Figure 3A). We found that the recombinant strain overexpresses hydrogenase produces more bubbles than control group. We assumed that this was because more hydrogen evolves in experiment group. WO3 is a redox dye which determines the existence of reduction force in the environment with a color change to blue, compared to its original green. Again in 20h of anaerobic culture (Figure 3B), the WO3 powders displayed a darker color in the recombinant strain than that of native E.coli strain. We assumed that recombinant strain has created more reduction force than native E.coli strain.

Figure 4. Gas chromatography quantitative test of hydrogenase under anaerobic conditions.

To measure the exact quantity of hydrogen produced in 20h of anaerobic culture, a gas chromatography (GC) test on samples taken from reaction flask headspace was done accordingly later. Nitrogen was the gas carrier and bulk H2 ran as the reference, which showed a peak at approximately 1.4 minute. According to our result, the control group produced 0.58% hydrogen in headspace under 1.96% oxygen proportion which marked the level of native fermentation of E.coli. The recombinant group obviously produced more hydrogen which made up 1.25% in the headspace under 2.06% oxygen level. This doubles the production of native fermentation, indicating that our enzyme is effective under anaerobic conditions.

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
    COMPATIBLE WITH RFC[1000]