Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Mboo_0100 |
Symbol | |
ID | 5411094 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Candidatus Methanoregula boonei 6A8 |
Kingdom | Archaea |
Replicon accession | NC_009712 |
Strand | + |
Start bp | 89083 |
End bp | 90642 |
Gene Length | 1560 bp |
Protein Length | 519 aa |
Translation table | 11 |
GC content | 62% |
IMG OID | 640867315 |
Product | AMP-dependent synthetase and ligase |
Protein accession | YP_001403267 |
Protein GI | 154149649 |
COG category | [I] Lipid transport and metabolism [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG0318] Acyl-CoA synthetases (AMP-forming)/AMP-acid ligases II |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 20 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 45 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGTCCAACG TTACCACCCT TCTTGATGCC AAAAGCGTTC CCGAGGCCAA GGCTGCACTC GTCTGCCCGT TGCGCAACGA GACATACAGT TACCGGGAAC TCAGGGACGA GATGAACCGG ATTGGGTGCG GCCTTTCCGG TCTGGGAATA CAAAAGGGGG ACCGTGTCTG CATCTACCTT GACAGTTCTC CCGAATACCT GATCAGCTAT TTTGCGATCT GGCGGATCGG TGCGGTTGCT GTCCCGGCCA ACAGCGTGTA CCAGGCAGAA GAACTGCTGC ACGTGGTCAG GGATGCCGGT GCCCGTGCAA TTATCACAGA TATTCGGGGT GCACCGGTGG CAGGGGCAGT GCAGGAGAAG GCCCCGGGCC TTGCGCATAT TATCTGTGTG GCCGGTCCCG GAAACACCGA TGCCATGCCC GGGGATGCTG TTGCCTGGTC GTCCTTTCCT GCGGTCCCGG CATCGGTGCG GGCGGCCAAC TGCGCGATGG ACGATCTCTG CCATATCCAG TACACCGCCG GGACCACCGG GAAGCCCAAG GGCGCAATGC TCTCGCACGG CAACTGGATG ACGGCGCTCG ATGCGGAACG CGAGGCCCTC CGGCTCCGGC CGGACGATGT GTATCTCGGG ATCTACCCGA TGGGGCACGT GGGGCTCTCG TGGGGGCTTG CGGTGCTCCG GGCCGGGGGA ACGTTTGTGA TGATGGAGCG TTTCAACCCC GCCGAGTACC TCGCGCTTGC CGGGCGGTAC AAGGTAACTG TGCTCGCCGG TATGCCACCG GTGATCCACA CGCTCGTCCA TGCAGAGCCG GGAATCGAAG AACACCTCCG GACCGTCCGG GTGATCATCT CGGGCGGGGG CCAGCTGCTT CCCTCGGTCT GGGCGGCGTT CGACAAACGG TTCCACATCC CGGTGGCCAA CTCCTACGGC CTCTCCGAGA CGATCGTGAT CGGATCGGGC ACCACCACCC TGCCGGAGTA CCCGCACCTC ACGAAGAATT ACCAGAGCGT AGGGGTTGCG GTCGGGTACA CCGAGGTCAG GATCGTGGAC GTGGACGACC CGGAAAAGGA GCTGGGGCCC GGGGAGGCCG GGGAGATTGC CCTTCGCGGG CCTTCGGTTG CAAAAGGCTA CTGGAACCTG CCCGAGGCTA CTGCGACTGT GTTCCGGCAT GACGGCTGGT TTTTGACCGG GGATATCGGG TACATCGATG AGGAGGGTAT CCTCTACATC ACCGACCGGA AAAAGGACAT GATCATCATG TCGGGCTGGA AGATCTACCC GACAGAGGTG GAGAATGTGA TTGTCCAGCA CCCGGCCGTT GCGGACGTGG CAGTCTTCGG TGTCCCGGAC GAGCGCCGGG GGGAATCCCC GGTAGCGGCG GTGGTCTTAA AAGCCGGAGC CGCGCTTGCA GAACCGGAGT TCGAGACATT CTGCCGGCAG CACCTTGCCG GGTACAAGGT TCCGCGGACA CTGGTCATTG TCGATGATCT CCCCCGGGTG CACGGCTGGA AACTCCTGCG CCGGACCCTG CGGGAAAAAT TTGGGAAAAT GCCAGCCTGA
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Protein sequence | MSNVTTLLDA KSVPEAKAAL VCPLRNETYS YRELRDEMNR IGCGLSGLGI QKGDRVCIYL DSSPEYLISY FAIWRIGAVA VPANSVYQAE ELLHVVRDAG ARAIITDIRG APVAGAVQEK APGLAHIICV AGPGNTDAMP GDAVAWSSFP AVPASVRAAN CAMDDLCHIQ YTAGTTGKPK GAMLSHGNWM TALDAEREAL RLRPDDVYLG IYPMGHVGLS WGLAVLRAGG TFVMMERFNP AEYLALAGRY KVTVLAGMPP VIHTLVHAEP GIEEHLRTVR VIISGGGQLL PSVWAAFDKR FHIPVANSYG LSETIVIGSG TTTLPEYPHL TKNYQSVGVA VGYTEVRIVD VDDPEKELGP GEAGEIALRG PSVAKGYWNL PEATATVFRH DGWFLTGDIG YIDEEGILYI TDRKKDMIIM SGWKIYPTEV ENVIVQHPAV ADVAVFGVPD ERRGESPVAA VVLKAGAALA EPEFETFCRQ HLAGYKVPRT LVIVDDLPRV HGWKLLRRTL REKFGKMPA
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