Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | MADE_03499 |
Symbol | |
ID | 6777418 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Alteromonas macleodii 'Deep ecotype' |
Kingdom | Bacteria |
Replicon accession | NC_011138 |
Strand | + |
Start bp | 3775770 |
End bp | 3779105 |
Gene Length | 3336 bp |
Protein Length | 1111 aa |
Translation table | 11 |
GC content | 48% |
IMG OID | 642756947 |
Product | amidohydrolase |
Protein accession | YP_002127785 |
Protein GI | 196158296 |
COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG1228] Imidazolonepropionase and related amidohydrolases |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 3 |
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 | ATGATAACGA CAAAGAAAAG CCTACTAGCA GTTACGCTAG TAAGCGCTCT TGGCTTGGGC ATGGCGCCGG CCTCTTACGC ACAAAACGAC AGTGAAGAAA AAACCGAATA CGAACTCGAT AACTGGGACG TCAGTAACCC ACCTTATGCG TTAAACGAAG TCACCATCAA AACAAACGAA ACCACATGGT CTAGCTTAGA CGTTGCGCCA AATGGCGAGT TTATGGTTTT CGACATGCTT GGCGACCTTT ATAAAGTAAA CATGAACGGT GGTGATGCCA CGCCACTTAC CCAAGATTTT GCGTGGAATA TTCACCCGTC TATTTCTCCT GACGGCAAAC ACATTGCGTT TATCTCGGAC AAAGACGGTC TAAGCAACGT ATGGGTAATG GACATTGACG GCAGTAATCT TCGTCAAGTA ACTAAAGAAA AAAGCAATCT TATCCACTCT CCTAAATGGA GCCCTGACGG CGAATACCTA GTGGTTACCA AAGGCATCAT GTCTAGCCGC AGCATTCCCG CGGGCGAGAT TTGGATGTAT CATAAATCCG GCGGCGATGG CCTGCAAATT AAAGCCCGCA ACAGCGGTAA ACGCGACCAA CAAAACATTG CCGACCCTGT ATTTTCGCAT GACGGTAAGT ACATCTACTT TACAGAAAAC ACCGTGCCAG GCGCACGTTT TGAATATAAC CGCGACCCGT TAGAAGGCAT TTTTGCTATC ACTCGCTACG ACCGCGAAAC GGGCGAAGAG AGCCGCTATA TCAGTGGTAC AGGCGGTGCC GTAGTCCCTA CGCCTTCGCC TGACGGTAAA TACATCGCTT TTGTGCGTCG CGTTAAAGAC AGAACGGGGC TTTTCCTTAA AGAGATAAAA ACCGGCGTAG AAACGCCGCT TACCCTCGAA CTAGAGCGAG ACATGCAGGA AGGGTTTGGC TCTGAAGGCT ACTTTGCCTA TTTCGACTGG ATGCCGGATA GCAGCGAAAT CGTATATTGG ACAGGCGGTA AATTCCACAC TATCGATATC GAAGATAAAA TCACACGCAC CATGGATATC ACTGTTGAAG GCACCGTGAA ATACGCTGAC GCTCTGCGCT TTGACGTAGA CGTAGCCCCT GATGAATTTG ATGTGCGCAT GATTCGCTGG TCTCAAATGT CGCCTAACGG TAAAACTGTA CTCTTTCAAG CGCTAGGTAA ACTTTACGTG CGCGACGTTA AGTCTGGCAA AATTAAGCGC CTGACCAAGC AAAACGACCA CGACGAGTAC TACCCTCGTT TTTCTAACGA CGGTAAGAAG ATTGTTTACA CCACGTGGGA CGACCAAGAT TTAGGTACGG TACGCGTAGT ATCAGCCCGT GGTGGTAAAG GAAAGGTTAT TACCCAGCAG CCCGGTCATT ACATTGAGCC TTCGTTCTCG GCCGATGGCG AAAAAGTGGT ATTCCGCAAA TTTACCGGCG GCTTTCTGCT AGACCCGACC TACTCGGTCG AGCCAGGTAT TTACGTTGCC GACCTTGAAG AAGATTCTGT AAGTAAGGTG ACAGACAATG GCTACAACGC CCACTTCGCG GGTGGCGACG ACCGCGTATA TTTCACAGAA TCTGCCGGCG GCGAAGCGTA TTATGAAACG CAACTTTCAA GCGTTAATTT GCAAGGTAAT GACAAGCGTA CGCATCTATA CGGCGCAAAT AAAGTAAGTG AGTACAAACT TTCGCACGAT AAAAAATGGG TTGCGTTTGT ATATCAATTT AAAACTTACG TGGCACCGTT TGTAGAAAAT GGTAAGCGCA TTACCATTGG TCCGAACATG ACCTCGCTAC CGGTAACACA GCTTTCAAGT CGAGCTGGTG AATACCTTAC TTGGTCACCA GACAATAAAA CCCTTAGCTG GTTTAACGGC CCGACACTTT TCAGCCGTTC ACTCGATGAA GCCTTTGCCT TTTTAGACGG TGCACCTGAA ACCTTGCCTG AACCGGTAGC TGAAGGTATG GATTTGTCGT TTACCACCAA GGCCGACAAG CCTTCAGGAT ACAAAGCCTT GGTTGGCGGT AAAGTGGTAA CCATGCGCGA TGCTGACAAT ACCCAGGAAG TCATTGAAAA TGGCGTTGTA CTTATTAAAG ACAACCGTAT TGAAGCGGTA GGTAAGCGTG GCGATATAGC TATTCCTGGT GACGCTATGC AGATAGACAC CTCGGGTAAA ACCATTATTC CTGGGCTCGT TGATGCGCAC GCCCATGGTT CACAAGGTCG TAATGAGATA ATTCCTCAGC AAAACTGGAG TCAGTTCTCC AACGTGTCGT TCGGTGTAAC CACCATTCAC GACCCATCAA ACGACACCAC GGAAATTTTT GCTGCAGCAG AGCTTCAGCG CAAAGGTAAA ATTGTTGCGC CGCGTATCTA CTCTACCGGT ACTATCTTGT ACGGTGCAGA AGGACTGGGT TACAAAGCTA TCATCAACGA CTACGAAGAT GCTTATTTCC ACGTAGAGCG CTTAAAAGAA GCCGGTGCTA TATCGGTGAA AAGCTATAAT CAACCTCGCC GTGATCAGCG CCAACAGGTA CTTTGGGCAG CTAAAAATCA AGCGATGATG GTGGTGCCTG AAGGGGGCGG TAAGCTTCAG CAAAACCTAA CCATGCTGGT AGACGGTCAC ACCGGTCTTG AGCACAGCAT TCCGGTTGAA AAAGGCTATA GCGATGTTAC TCAGCTATGG AAAGCCACAG AGTTTGGCTA TACCCCTACC TTTGTTGTGT CGTACGGCGG CATGATGGGT GAAGAATATT GGTACGATAA AACGGAAGTG TGGAAGAACC CGCGTCTATT GCGCTATACC CCTTCTACTA TTTTAGACAA ACGCGCTATT CGCAGACCGA CCGCGCCAGA AAACCAATAC AACCACCAAA ACGTCGCCAG CTACGCTAAA GAACTCCGAG ATAATGGGGT CAGTGTACAT ATTGGCGCTC ACGGACAGCG TGAAGGCCTA GCTGCACACT GGGAACTGTG GATCATGGAA CAAGGTGGCT TTACGCCTTG GGAAGCGCTG CGCGGCGGGA CTATTGATGG TGCTAAGCAC TTAGGCATGG GCAAAGACCT TGGTAGTATC GAAAAAGGGA AGCTTGCTGA CCTAGTGGTG ATTGATGGCG ATGTATTAAG CGACATTAGA AAGAGTGAGT ACGTTGAGTA CACGGTGTTA AACGGCCGTG TTTACGAGTC TGCCACCATG AACGAAGTGG GCAGTAAAGA AAAACGCGAA CCTTTCTTCT TTGAGCAAGA TAACGCGACC TTTATGCCAC AGCAAACCGC GGATGAAGTG GAGGCGAAAG CCCACCACTA TCACTGGGAG CATTAA
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Protein sequence | MITTKKSLLA VTLVSALGLG MAPASYAQND SEEKTEYELD NWDVSNPPYA LNEVTIKTNE TTWSSLDVAP NGEFMVFDML GDLYKVNMNG GDATPLTQDF AWNIHPSISP DGKHIAFISD KDGLSNVWVM DIDGSNLRQV TKEKSNLIHS PKWSPDGEYL VVTKGIMSSR SIPAGEIWMY HKSGGDGLQI KARNSGKRDQ QNIADPVFSH DGKYIYFTEN TVPGARFEYN RDPLEGIFAI TRYDRETGEE SRYISGTGGA VVPTPSPDGK YIAFVRRVKD RTGLFLKEIK TGVETPLTLE LERDMQEGFG SEGYFAYFDW MPDSSEIVYW TGGKFHTIDI EDKITRTMDI TVEGTVKYAD ALRFDVDVAP DEFDVRMIRW SQMSPNGKTV LFQALGKLYV RDVKSGKIKR LTKQNDHDEY YPRFSNDGKK IVYTTWDDQD LGTVRVVSAR GGKGKVITQQ PGHYIEPSFS ADGEKVVFRK FTGGFLLDPT YSVEPGIYVA DLEEDSVSKV TDNGYNAHFA GGDDRVYFTE SAGGEAYYET QLSSVNLQGN DKRTHLYGAN KVSEYKLSHD KKWVAFVYQF KTYVAPFVEN GKRITIGPNM TSLPVTQLSS RAGEYLTWSP DNKTLSWFNG PTLFSRSLDE AFAFLDGAPE TLPEPVAEGM DLSFTTKADK PSGYKALVGG KVVTMRDADN TQEVIENGVV LIKDNRIEAV GKRGDIAIPG DAMQIDTSGK TIIPGLVDAH AHGSQGRNEI IPQQNWSQFS NVSFGVTTIH DPSNDTTEIF AAAELQRKGK IVAPRIYSTG TILYGAEGLG YKAIINDYED AYFHVERLKE AGAISVKSYN QPRRDQRQQV LWAAKNQAMM VVPEGGGKLQ QNLTMLVDGH TGLEHSIPVE KGYSDVTQLW KATEFGYTPT FVVSYGGMMG EEYWYDKTEV WKNPRLLRYT PSTILDKRAI RRPTAPENQY NHQNVASYAK ELRDNGVSVH IGAHGQREGL AAHWELWIME QGGFTPWEAL RGGTIDGAKH LGMGKDLGSI EKGKLADLVV IDGDVLSDIR KSEYVEYTVL NGRVYESATM NEVGSKEKRE PFFFEQDNAT FMPQQTADEV EAKAHHYHWE H
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