| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Gmet_2860 |
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| Symbol | |
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| ID | 3741167 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Geobacter metallireducens GS-15 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007517 |
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| Strand | + |
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| Start bp | 3238976 |
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| End bp | 3240643 |
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| Gene Length | 1668 bp |
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| Protein Length | 555 aa |
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| Translation table | 11 |
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| GC content | 60% |
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| IMG OID | 637780146 |
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| Product | sulfate adenylyltransferase subunit 1 |
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| Protein accession | YP_385803 |
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| Protein GI | 78224056 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG2895] GTPases - Sulfate adenylate transferase subunit 1 |
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| TIGRFAM ID | [TIGR00231] small GTP-binding protein domain
[TIGR02034] sulfate adenylyltransferase, large subunit |
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Plasmid Coverage information |
| Num covering plasmid clones | 27 |
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| Plasmid unclonability p-value | 0.737389 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | 27 |
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| Fosmid unclonability p-value | 0.000171805 |
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| Fosmid Hitchhiker | Yes |
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| Fosmid clonability | hitchhiker |
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Sequence |
| Gene sequence | ATGGCACATC AATCGGAACT GATCGAAAAG GATATCCTCG CCTATCTCAA AAGCCAGGAG
GAGAAATCGC TGCTCCGCTT CATCACCTGC GGCAGCGTTG ATGACGGCAA GAGCACCCTC
ATCGGACGGC TTCTCTGGGA CTCCAAGATG ATTTTCGAGG ACCAGTTGGC TGCTTTGGAA
GCCGACAGCA AAAAGGTCGG AACTCAAGGG GGCGCTATCG ACTATGCTCT GCTGCTGGAC
GGACTGCAGG CGGAGCGGGA GCAGGGGATC ACCATCGACG TGGCCTACCG CTTCTTCTCC
ACCGACCGGC GCAAGTTTAT CGTCGCCGAC ACCCCCGGCC ATGAGCAGTA CACCCGCAAT
ATGGTGACCG GCGCCTCCAC CGCCCAAGTG GCAGTAATCC TTGTGGACGC CCGCAAGGGG
CTCCTGACCC AGACGCGGCG CCACAGCTAC CTGGTCTCCC TCGTGGGAAT CCGCCACATT
GTCCTCGCCG TGAACAAGAT GGACCTCATC GACTTCGACG AACAACGGTT CGCCACGGTC
GTGGGCGACT ACCAGGAGTT CGCTGCCCCC CTCGGGTTCG CCTCCATCAC CGCGATCCCC
ATTTCGGCAC TGAACGGCGA CAACGTCATC GAGCCGAGCA ACAGCACCCC TTGGTACCAG
GGTCCTACCC TCATGAGCTA CCTGGAAACC GTGCAGGTCG CCGAAGAGCG CGCGACGGAA
CCGTTCCGGT TTCCGGTACA GTGGGTGAAC CGTCCACACC TCGATTTTCG CGGTTTTTGC
GGCACCATTG CCGCAGGCAC CGTCCGTCCG GGTGATGAAG TGCGAGTCGC CGCCTCTGGC
CTCACCAGCC GTGTGGCGCG GATCGTCACT ATGGGCGGCG ACCTGCCGGA GGCGGTGGCC
GGTCAGGCAG TGACTCTCAC CCTCTCTGAC GAAATAGATA TCAGCCGAGG CGACATGCTG
ACAGCAACCG ATATGCCGCC GCGTCTCTCT CGACACCCAG AGGCCCACAT GGTCTGGCTC
CATGACACTC CACTAGTGCC GGGGCAGATC TACCTCGTCA AGACTGCCAG CGCCGTGACC
CCCGGCCGCG TCACCCGCGT CCAGTATGCG GTTGACGTTA ACACTCTTGA ACAGAGACAG
GTGCCGACGC TGGCACTCAA CGGCATCGGC GTGGTTCGGC TGGAACTGGA CCGCGCTGTG
GCCTTCGACC CCTACCGCCA GAATCGTGAA ACAGGTAGTT TTATCCTTAT TGACCGGTTC
AGCAATGCCA CCGTGGCAGC AGGCATGGTA ATCGCTGCTG CCCCGCTGGA GTCACCAGAT
ACTCAACCGG CGGAAACCAG TACCAACGAA GGTTCATGCC TCTCCAAGCG ATTTATCCTG
CAAGACAGTA CCGTCATTGG CGCGGATATG GGGGTTGCTG ACTTAACACG GGAATGGGGG
CCGATTGAGC TCGAGGTCTC CGCGAGTTTC ATCGATCATC TCGCCAAAGG GAACCGCGTC
CTCTTCCGGC TTCGGGACGT GGGGCAACTG GAACCAGTTG CCCGGATGGC CTACGATCAC
AACCTTGTCT TTGAGTTCGG CCGGGACCAG GATCGAGTCA ACGTGATTCT TTTCAAAAGT
TGGCCTGAAC CGTGCCCCAA AGATTTCGAC GAGCGTGGTG GTCTTTAG
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| Protein sequence | MAHQSELIEK DILAYLKSQE EKSLLRFITC GSVDDGKSTL IGRLLWDSKM IFEDQLAALE
ADSKKVGTQG GAIDYALLLD GLQAEREQGI TIDVAYRFFS TDRRKFIVAD TPGHEQYTRN
MVTGASTAQV AVILVDARKG LLTQTRRHSY LVSLVGIRHI VLAVNKMDLI DFDEQRFATV
VGDYQEFAAP LGFASITAIP ISALNGDNVI EPSNSTPWYQ GPTLMSYLET VQVAEERATE
PFRFPVQWVN RPHLDFRGFC GTIAAGTVRP GDEVRVAASG LTSRVARIVT MGGDLPEAVA
GQAVTLTLSD EIDISRGDML TATDMPPRLS RHPEAHMVWL HDTPLVPGQI YLVKTASAVT
PGRVTRVQYA VDVNTLEQRQ VPTLALNGIG VVRLELDRAV AFDPYRQNRE TGSFILIDRF
SNATVAAGMV IAAAPLESPD TQPAETSTNE GSCLSKRFIL QDSTVIGADM GVADLTREWG
PIELEVSASF IDHLAKGNRV LFRLRDVGQL EPVARMAYDH NLVFEFGRDQ DRVNVILFKS
WPEPCPKDFD ERGGL
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