Difference between revisions of "Part:BBa K2275010"
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[[File:SDS-PAGE_result_of_GlnA_and_GudB.png|220px||centre]] | [[File:SDS-PAGE_result_of_GlnA_and_GudB.png|220px||centre]] | ||
We can see that the glnA and gudB both expressed in E. coli at the same time. Next, we want to test if the Biobrick can function to convert ammonium to glutamine, so we add different ammonium concentration and use kit to detect the glutamine concentration. | We can see that the glnA and gudB both expressed in E. coli at the same time. Next, we want to test if the Biobrick can function to convert ammonium to glutamine, so we add different ammonium concentration and use kit to detect the glutamine concentration. | ||
− | [[File:Functional_test_of_glnA-gudB.png| | + | [[File:Functional_test_of_glnA-gudB.png|450px||centre]] |
The figure above is the functional test result. When merely adding ammonium, the concentration of glutamine is very low. However, if both harboring the plasmid and adding ammonium, the concentration if glutamine is higher.The second and third bar can show the ability of converting ammonium to glutamine. | The figure above is the functional test result. When merely adding ammonium, the concentration of glutamine is very low. However, if both harboring the plasmid and adding ammonium, the concentration if glutamine is higher.The second and third bar can show the ability of converting ammonium to glutamine. | ||
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<partinfo>BBa_K2275010 parameters</partinfo> | <partinfo>BBa_K2275010 parameters</partinfo> | ||
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+ | |||
+ | ===Information contributed by NFLS_Nanjing (2022)=== | ||
+ | Part information is collated here to help future users of the BioBrick registry. | ||
+ | |||
+ | Metadata: | ||
+ | *'''Group:''' NFLS_Nanjing (2022) | ||
+ | *'''Author:''' Wenxin Mao | ||
+ | *'''Summary:''' Added information collated from existing scientific studies | ||
+ | |||
+ | Biology and usage: | ||
+ | |||
+ | The gene glnA encodes the GS enzyme, which is very critical for synthesizing the L-glutamine inside the organisms. The GS enzyme not only provides the glutamine for the bacteria, but also functions as a nitrogen source, promoting the carbon and nitrogen metabolism. | ||
+ | |||
+ | |||
+ | Experimental approach: | ||
+ | |||
+ | 1. Follow the instruction of the kit to extract the glnA gene from the fluid of C.glutamicum. | ||
+ | |||
+ | 2. Amplify the gene glnA by PCR. The two primes are 5’-AAGCTTTCAATGAGGAGTCACCGTGGCGTTTG-3’ and 5’-GAGCTCCGGCTAGCTAAGTGAATTAGCAGTCG-3’.(The underlined part are the Restriction Enzyme cutting sites, HindⅢ and Sac I) Condition: 94℃ 5 min;94℃ 30 s,62.5℃ 30s,72℃ 3 min,30 cycles ;72℃ 10 min. | ||
+ | |||
+ | 3. Objective gene recovery | ||
+ | |||
+ | 4. Construct pCES-GOG plasmid as the vector of glnAY405F, odhIT15A, gdh | ||
+ | |||
+ | 5. Synthesize strong promoter PH36 to clone and overexpress glnAY405F to promote the transformation of L-glutamate to L-glutamine. It will also prevent the negative effect of adenylation that restricts the GS enzyme. | ||
+ | |||
+ | |||
+ | ===References=== | ||
+ | * High-Level Production of the Natural Blue Pigment Indigoidine from Metabolically Engineered Corynebacterium glutamicum for Sustainable Fabric Dyes |
Latest revision as of 14:45, 18 September 2022
PIacI-B0034-K2275004 (glnA-gudB)
We combined the gudB and glnA gene into pSB1C3 backbone. By SDS-PAGE method, we test the expression of both proteins as well. The gel image shows below, where "WC" indicates whole cell, "S" for supernatant, "P" for pellet, and "C" indicates the control of sample without plasmid.
We can see that the glnA and gudB both expressed in E. coli at the same time. Next, we want to test if the Biobrick can function to convert ammonium to glutamine, so we add different ammonium concentration and use kit to detect the glutamine concentration.
The figure above is the functional test result. When merely adding ammonium, the concentration of glutamine is very low. However, if both harboring the plasmid and adding ammonium, the concentration if glutamine is higher.The second and third bar can show the ability of converting ammonium to glutamine. Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 675
Illegal BamHI site found at 1309 - 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 322
Illegal NgoMIV site found at 1088
Illegal NgoMIV site found at 2454
Illegal AgeI site found at 578
Illegal AgeI site found at 2891 - 1000INCOMPATIBLE WITH RFC[1000]Illegal SapI.rc site found at 1481
Information contributed by NFLS_Nanjing (2022)
Part information is collated here to help future users of the BioBrick registry.
Metadata:
- Group: NFLS_Nanjing (2022)
- Author: Wenxin Mao
- Summary: Added information collated from existing scientific studies
Biology and usage:
The gene glnA encodes the GS enzyme, which is very critical for synthesizing the L-glutamine inside the organisms. The GS enzyme not only provides the glutamine for the bacteria, but also functions as a nitrogen source, promoting the carbon and nitrogen metabolism.
Experimental approach:
1. Follow the instruction of the kit to extract the glnA gene from the fluid of C.glutamicum.
2. Amplify the gene glnA by PCR. The two primes are 5’-AAGCTTTCAATGAGGAGTCACCGTGGCGTTTG-3’ and 5’-GAGCTCCGGCTAGCTAAGTGAATTAGCAGTCG-3’.(The underlined part are the Restriction Enzyme cutting sites, HindⅢ and Sac I) Condition: 94℃ 5 min;94℃ 30 s,62.5℃ 30s,72℃ 3 min,30 cycles ;72℃ 10 min.
3. Objective gene recovery
4. Construct pCES-GOG plasmid as the vector of glnAY405F, odhIT15A, gdh
5. Synthesize strong promoter PH36 to clone and overexpress glnAY405F to promote the transformation of L-glutamate to L-glutamine. It will also prevent the negative effect of adenylation that restricts the GS enzyme.
References
- High-Level Production of the Natural Blue Pigment Indigoidine from Metabolically Engineered Corynebacterium glutamicum for Sustainable Fabric Dyes