Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | MCA2628 |
Symbol | |
ID | 3103637 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Methylococcus capsulatus str. Bath |
Kingdom | Bacteria |
Replicon accession | NC_002977 |
Strand | - |
Start bp | 2815013 |
End bp | 2816662 |
Gene Length | 1650 bp |
Protein Length | 549 aa |
Translation table | 11 |
GC content | 66% |
IMG OID | 637171762 |
Product | bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein |
Protein accession | YP_115032 |
Protein GI | 53803219 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG2895] GTPases - Sulfate adenylate transferase subunit 1 |
TIGRFAM ID | [TIGR00231] small GTP-binding protein domain [TIGR02034] sulfate adenylyltransferase, large subunit |
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Plasmid Coverage information |
Num covering plasmid clones | 14 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGTCACACC AATCCGACCT CATCGGCACC GACATCCACG CATACCTGGC CCAGCACGAG CGGAAGGAGC TCTTGCGGCT CCTCACCTGT GGCAGCGTCG ACGACGGCAA GAGCACCCTG ATCGGGCGGC TGCTGCACGA TTCCCAGATG ATCTACGAGG ACCAGCTCAG TGCGGTGCGG CGCGACAGCG TCAAATCCGG CACCACCGGC GGCGAACTCG ACTTGGCCCT GTTGGTCGAC GGCCTGCAGG CCGAGCGCGA GCAGGGCATC ACCATCGACG TCGCCTACCG CTATTTCTCC ACGACCCAGC GCAAGTTCAT CATCGCCGAC ACCCCTGGCC ATGAGCAGTA CACCCGCAAC ATGGCCACCG GCGCCTCCAC CTGTGACCTG GCCATCATCC TGATCGACGC CCGCTACGGA GTGCAAGTGC AGACCCGCCG CCACAGCTAC ATCGTGTCGC TCCTGGGGAT CAGGCATGTC CTGGTCGCCA TCAACAAGAT GGATCTGGTG GACCATAGCG AAGCCGTGTT CGACCGTATC CGCGCCGACT ACCTCGCCTT CGCCGACAAG CTCGAGCTGC ACGACGTGCG CTTCATCCCG ATCTCCGCCT TGAACGGCGA CAACGTGGTG CACAGGAGCG CAGCCATGCC CTGGTACGGC GGACCGTCCC TGATCGAGCT GCTCAACACT CTCGAGATCG CCCAGGACCG CAACTTCGAC GATCCGCGCT TCCCGGTGCA GTACGTCAAC CGCCCCCATC TCGATTTCCG CGGCTACAGC GGCACCGTCG CCGCCGGGGT GTTCAGGCCG GGCGATCCGG TCCTGGTGCT GCCGGCCAAG ACCCGCAGCC GGATCCAGTC CATCGTCACC TATGATGGCG AATTGGAGGC CGCCTTTCCG CCCCAGGCCG TCACCCTCAC GCTGGAGGAC GAGATCGACG TCAGCCGCGG CGACCTCCTG GTGCATCCGG ACCGCTTGCC GTACCTCGAC AGTCGCTTCG AGGCCCACGT CGTGTGGATG ACCGAAGCCC CGCTGATTCC GGGGAAGCAA TACCTCCTCA AACACGCCAC CCGGACCCTC TCCGGCTCGG TGGCCGCCAT CCGCCACCGC ATCGACGTCA ACACCCTGGA GCGGCACCCG GCCGGCCAGC TCAATCTCAA CGAGATCGGT TTGTGCGAGC TGGCCTTGAG CGCGCCGCTG GCGTTCGATC CCTATGCCCG CTGCAAGGGG ACCGGCGCTT TCATCGTCAT CGACCGGCTG ACCAACGTCA CGGTCGGGGC GGGCATGATC GCAGGGCCCG TCCAGGGCGA AACCGGCTTC CGCAAGGTCA CCGCCGAGGA GCGCGCCGCC CGCTTCGGCC AGAAGGCCGT CACCGTCTGG CTCACCGGAC CCCAGCGTCA TGAGATGGCC TATCGGCTTG AGCGGGCCCT GTTCGACATC GGCCATCCGG CGACGGTGCT CGAGGACGAA GGTTTCGGTG CCGAGCTGAT CCGGGCGGCG CAACTCGTCA ACCATGCCGG GCTGATCTGT TTGTGCCCGC TGATGCATGC CGATTTCGGT GCGGGGGAGG GACGGCTGAT GCTGTCGGTG GAGGGTCGGG ATGTGGCCGA CCTCATCGAG GATCTGCGCC GGCAGGGCGT TCTGTCCTGA
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Protein sequence | MSHQSDLIGT DIHAYLAQHE RKELLRLLTC GSVDDGKSTL IGRLLHDSQM IYEDQLSAVR RDSVKSGTTG GELDLALLVD GLQAEREQGI TIDVAYRYFS TTQRKFIIAD TPGHEQYTRN MATGASTCDL AIILIDARYG VQVQTRRHSY IVSLLGIRHV LVAINKMDLV DHSEAVFDRI RADYLAFADK LELHDVRFIP ISALNGDNVV HRSAAMPWYG GPSLIELLNT LEIAQDRNFD DPRFPVQYVN RPHLDFRGYS GTVAAGVFRP GDPVLVLPAK TRSRIQSIVT YDGELEAAFP PQAVTLTLED EIDVSRGDLL VHPDRLPYLD SRFEAHVVWM TEAPLIPGKQ YLLKHATRTL SGSVAAIRHR IDVNTLERHP AGQLNLNEIG LCELALSAPL AFDPYARCKG TGAFIVIDRL TNVTVGAGMI AGPVQGETGF RKVTAEERAA RFGQKAVTVW LTGPQRHEMA YRLERALFDI GHPATVLEDE GFGAELIRAA QLVNHAGLIC LCPLMHADFG AGEGRLMLSV EGRDVADLIE DLRRQGVLS
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