Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | GM21_1375 |
Symbol | |
ID | 8136703 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Geobacter sp. M21 |
Kingdom | Bacteria |
Replicon accession | NC_012918 |
Strand | + |
Start bp | 1620786 |
End bp | 1624034 |
Gene Length | 3249 bp |
Protein Length | 1082 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 644868989 |
Product | methylmalonyl-CoA mutase, large subunit |
Protein accession | YP_003021192 |
Protein GI | 253700003 |
COG category | [E] Amino acid transport and metabolism [I] Lipid transport and metabolism |
COG ID | [COG1703] Putative periplasmic protein kinase ArgK and related GTPases of G3E family [COG1884] Methylmalonyl-CoA mutase, N-terminal domain/subunit |
TIGRFAM ID | [TIGR00640] methylmalonyl-CoA mutase C-terminal domain [TIGR00641] methylmalonyl-CoA mutase N-terminal domain |
|
|
Plasmid Coverage information |
Num covering plasmid clones | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
| |
Fosmid Coverage information |
Num covering fosmid clones | 57 |
Fosmid unclonability p-value | 0.0491198 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
| |
Sequence |
Gene sequence | ATGCACACCG CAGCCGCGGC ACCCTACAAA ACCAAGAACA AGATCCGTTT CGTCACGGCC ACGAGCCTCT TCGACGGCCA TGACGCTTCC ACCAACATCA TCCGACGGAT GCTCCAGGCC TCGGGGGCCG AGGTGATCCA CCTAGGGCAC AACCGCTCGG TGGAGGCGAT CGTAAGCGCT GCCATCCAGG AGGACGCCCA GGGGATCGCG GTCAGCTGCT ACCAGGGGGG ACACGTCCCC TTCTTCAAGT ACATCCGCGA TCTGCTGAAG GAGCGGGGCG CGGAGCAGGT CAAGGTATTC GGCGGAGGGG GCGGGGTGAT CGTCCCGGAA GAGATAAAGG AGATCGAGAG CTACGGGGTC AGCAAGATAT TCTCCCCCGA GGACGGCCGA CGCATGGGGC TGCAGGGGAT GATCAACTAC ATGCTGGAGC TTTGCGACTT CCACGTGGAG CGCGATCTGC AAGCGGAGAT CGAACGGCTC AAGGGGCGGG ACGTGCGCGC CGTGAACGCC CTGATCACAC TCGCCGAGCA GGCCGTCCAC GATCATAACG AGGGGTATGG GCTGGTGCGC GAGACCATAC GCGGCATGGG GCGCGAGGTG CCGACGCTGG GCATTACCGG GACCGGCGGC GCCGGCAAGA GCTCCATCAC CGATGAGCTG GTGCGCCGCT TCATCAGGGA CTTCCCGGAG AAAAGCGTGG CCATTCTCGC CGTCGACCCT TCCCGCCAGA GGACCGGCGG GGCGCTTCTG GGCGACCGCA TCAGGATGAA CTCCATCAAC ACCGACCGGG TCTACATGCG CTCGCTCGCA ACGCGCGACT CCCGCTCGGA GCTCTCGGCC GCCATAAGCG ACGCCATCGA CGTGGTCCGG GCGGCAGGCT TCGACCTGAT CATCGTGGAG ACCTCCGGGA TCGGGCAGGG GGATGCGGGG GTGGTCGAGA TCTGCGACGT CTCGCTCTAC GTCATGACCT GCGAGTTCGG CGCGCCGACG CAGCTGGAGA AGATCGACAT GCTCGACTTC GCCGACCTGG TCGCGCTCAA CAAGTTCGAG AGGAAGGGGG CCGAGGACGC GCTTCGAAAC GTGCGCAAGC AGTACCGCCG CAACCGGGAC CTCTTCGAGG TGACCGACGA GGAGCTCCCG ATCTTCGGCA CCATCGCCTC GCAGTTCAAC GACCCCGGCA CCAACGTCCT CTACCTGGCG GTCCTGAATC GCTTCAACGA GAAGAAGGAG CTCAAGTGGC GCTCGCAGAT GGCGGCGCCC GAAGGGGACA GCCTGAAGCA GTACATCATC CCGCCGGACC GGATCCATTA CCTGGGGGAG ATCGTACAGA CCGCGCGCAG CTACAGAAAG AACGTGGAGA GCCAGTCCAA GATCGCGCGG AGCCTGTTTC AGCTCAAGGG GGCGAGGGCG CAGGTGACGG GGGAGGCGGC GCAGGCGGAG CTGGACCGGT TGATAGAGAG CACGGACGCA GAACTGCAGG AGGAGCCCAG GCGCATCGTC GACGGGTGGC CGGAGCTTAA AGCAAGCTAC AAGCTGGACG CGCTGGTGAC CCGGGTGCGC GACAAGGAAA TAAGGACCGA GCTTTTCACC ACCTCCCTCT CCGGTTCCCG CATCCCCAGG GTCTGCGTCC CCGATTACGA GGAATGGGGG GAGATCGTCA AGTGGAGCCT GAAGGAGAAT CTTCCCGGGT ACTTCCCCTA CACGGCGGGG GTCTTCCCGT TCAAGCGGGC GGAGGAGGAC CCGAAGCGCC AGTTCGCAGG CGAGGGGACA CCGGAGCGGA CCAACCGCCG CTTTCATTAC CTCTGCCAGG ACGACGGCGC CAAAAGGCTC TCGACCGCCT TCGACAGCGT GACCCTGTAC GGCGAGGACC CGGACTACCC GCCCGACGTC TACGGCAAGG TAGGGGAGAG CGGGGTCTCG ATCTGCACCG TCGAGGACGT GCAAAAGCTC TACGCCGGGT TCGACCTCTG CGCCCCCTCC ACCAGCGTCT CCATCACCAT CAACGGCCCC GCGCCGATGA TGCTCGCCAT GTTCTTCAAC GCCGCAATAG AGCAGCAGGT GGAGAAGTTC CGGAAGGAGC AGGGGCGCGA GCCGTCGGCG CCGGAGTACC AGGGGATAAA GTCTTGCACC CTGCAGACCG TGCGCGGCAC GGTGCAGGCG GACATCCTCA AGGAGGACCA GGGGCAGAAC ACCTGCATAT TCTCCACCGA GTTCGCCCTG AAGATGATGG GGGACATCCA GCAGTACTTC ATCGAGCAGC AGGTGAGAAA CTACTACTCC GTTTCCATCA GCGGCTACCA CATCGCCGAA GCGGGGGCGA ACCCCATCTC GCAGCTCGCC TTCACCCTCT CCAACGGTTT CACCTACGTC GAGTACTACC TCTCGCGCGG GATGCATATC GACGACTTCG CCCCCAACCT CTCCTACTTC TTCTCCAACG GCCTCGATCC CGAGTACACG GTGATAGGGC GGGTGGCGCG GAGGATCTGG GCCGTGGTGA TGCGGGAGAA GTACGGCGCC AACGATCGGA GCCAAAAGCT CAAGTACCAC ATCCAAACGA GCGGCCGCTC GCTGCACGCG CAGGAGATGG ACTTCAACGA CATCCGCACC ACGCTGCAGG CGCTCATGGC CATCTACGAC AACTGCAACT CGCTGCACAC AAACGCCTAC GACGAGGCGG TGACGACCCC CACCGAGGAG TCGGTGCGCA GGGCCATGGC GGTGCAGATG ATCATCACCA AGGAGCTTGG GCTCGCCAGA AACGAGAACC CGCTTCAGGG GGCGTTCATC ATCGACGAGT TGACCGACCT GGTGGAGGAG GCCGTCCTGG CCGAGTTCGA GAAGATCGAC CAGCGCGGAG GGGTGCTGGG GGCCATGGAG ACCCAGTATC AGCGGAGCAA GATCCAGGAC GAATCGATGC TCTACGAGCA CAAGAAGCAC TCGGGAGAAC TCCCCATCGT CGGGGTCAAC ACCTTCTTGA ACCCCCGCGC GGGTGAGGAG GGGTACCAGG TCCCGGGTGA ACTGGCGCGC GCAACCCAAG AGGAGAAGGA ACAGCAGATC AAGAACCTGC GCGCCTTCCA GGAGCGGAAC AAGGAAAAGG CGCCGCTCGC CCTGAAGCGC CTCCAGGAGG TGGCGGTCTC CGGCGGCAAC ATCTTCGGGG AGCTGATGGA GACGGTCAAG GTCGCCTCCT TGGGGCAGAT CACCCGCGCG CTGTACCAGG TGGGGGGGGA ATACCGGCGC AATATGTAA
|
Protein sequence | MHTAAAAPYK TKNKIRFVTA TSLFDGHDAS TNIIRRMLQA SGAEVIHLGH NRSVEAIVSA AIQEDAQGIA VSCYQGGHVP FFKYIRDLLK ERGAEQVKVF GGGGGVIVPE EIKEIESYGV SKIFSPEDGR RMGLQGMINY MLELCDFHVE RDLQAEIERL KGRDVRAVNA LITLAEQAVH DHNEGYGLVR ETIRGMGREV PTLGITGTGG AGKSSITDEL VRRFIRDFPE KSVAILAVDP SRQRTGGALL GDRIRMNSIN TDRVYMRSLA TRDSRSELSA AISDAIDVVR AAGFDLIIVE TSGIGQGDAG VVEICDVSLY VMTCEFGAPT QLEKIDMLDF ADLVALNKFE RKGAEDALRN VRKQYRRNRD LFEVTDEELP IFGTIASQFN DPGTNVLYLA VLNRFNEKKE LKWRSQMAAP EGDSLKQYII PPDRIHYLGE IVQTARSYRK NVESQSKIAR SLFQLKGARA QVTGEAAQAE LDRLIESTDA ELQEEPRRIV DGWPELKASY KLDALVTRVR DKEIRTELFT TSLSGSRIPR VCVPDYEEWG EIVKWSLKEN LPGYFPYTAG VFPFKRAEED PKRQFAGEGT PERTNRRFHY LCQDDGAKRL STAFDSVTLY GEDPDYPPDV YGKVGESGVS ICTVEDVQKL YAGFDLCAPS TSVSITINGP APMMLAMFFN AAIEQQVEKF RKEQGREPSA PEYQGIKSCT LQTVRGTVQA DILKEDQGQN TCIFSTEFAL KMMGDIQQYF IEQQVRNYYS VSISGYHIAE AGANPISQLA FTLSNGFTYV EYYLSRGMHI DDFAPNLSYF FSNGLDPEYT VIGRVARRIW AVVMREKYGA NDRSQKLKYH IQTSGRSLHA QEMDFNDIRT TLQALMAIYD NCNSLHTNAY DEAVTTPTEE SVRRAMAVQM IITKELGLAR NENPLQGAFI IDELTDLVEE AVLAEFEKID QRGGVLGAME TQYQRSKIQD ESMLYEHKKH SGELPIVGVN TFLNPRAGEE GYQVPGELAR ATQEEKEQQI KNLRAFQERN KEKAPLALKR LQEVAVSGGN IFGELMETVK VASLGQITRA LYQVGGEYRR NM
|
| |