| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | MADE_02610 |
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| Symbol | |
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| ID | 6775286 |
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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 | Alteromonas macleodii 'Deep ecotype' |
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| Kingdom | Bacteria |
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| Replicon accession | NC_011138 |
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| Strand | + |
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| Start bp | 2831341 |
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| End bp | 2834313 |
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| Gene Length | 2973 bp |
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| Protein Length | 990 aa |
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| Translation table | 11 |
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| GC content | 46% |
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| IMG OID | 642756051 |
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| Product | bifunctional glutamine-synthetase adenylyltransferase/deadenyltransferase |
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| Protein accession | YP_002126900 |
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| Protein GI | 196157411 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones
[T] Signal transduction mechanisms |
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| COG ID | [COG1391] Glutamine synthetase adenylyltransferase |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 4 |
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| Plasmid unclonability p-value | 1 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGCCAACAG ACAACGAAAA TAGCATGACA AACGTAGAAC AAGCAGAAAA GTACTGGCAG
CAGTTCTTAA CAGCACCTGC ACTTACCGAC GACGACAAAG CCATAGCAAA GCAACATCAT
GACGTGCTGT TAACCGCGTT TGCCCGTTCT TCTTTCCTAG CTGAAACAAT TATACAAAAG
CCTTCGTTTG TTTCCCGTAC TGTTGAGCAA ACAGTTGAGC AAACAGTTGA ACAAACAACC
GAACAAGATA GCGATGAGCA GTTGCAAAAA AATGTCGACA AAGAAGCCTC CTCTCCTTGG
GTGGCGATGT ATCGCTCTGC GCTCGATATA ACGCTTGAAA CTGTAAAAAC TGAAGATGAC
CTTTTAAAAG CATTACGTGA ATACAGAAAT CAAGAAATGG CCCGCGTTAC CTTTCTTGAT
GTGTTAAACA AACAGGATAT CAGCACATCA TTAGAACGGG TTTCAGCGTT GGCAGATGTG
TTACTTACGG GCGCATACCA CTGGATTTAT CAACATTTGG CCATTCGCTA TGGCACGCCA
CAAAACAACG GCGAAGATAT GCACATGTAT ATTTTAGGCA TGGGCAAACT AGGCGGAAAG
GAACTGAATT TCTCATCAGA CATCGACTTA ATTTTTAGCT ACCCTGAAAA AGGTGAAACC
CAAGGCGGTC GAAAGAGCAT AGAGCACCAA CAGTTTTTCA CTAAACTAGC GCAAAAGCTT
ATTCAAGCGC TGAACAAAAT TACTAACGAT GGACAGGTTT ACCGGGTTGA TATGCGCCTT
CGCCCGTTTG GAGATTCAGG CCCACTGGTA ATGCACTTCG CTGCACTTGA AGACTACTAC
CAGGACCAAG GGCGCCACTG GGAACGCTTT GCTATGGTAA AGGCCCGGGT GATCAACGAC
GACAACTCTG AAGATGTAAA ATGGCTAAAT AGTATTTTAC ACCCCTTCAC CTTCAGGCGT
TACCTCGACT TCACCACCCT TGATGCCCTT CGCAATATGA AAAAGTTGAT AGCGACCGAG
ATTCGCCGAC GCCGTCTTAA CAATAATATC AAGCTGGGTG CTGGCGGCAT TCGTGAAGTG
GAGTTTTTTG CCCAAAGTTT CCAACTGATT CATGGCGGTA GAGAGCCAGC TCTACAAAGT
AAGTCTTTAC TGCGCACGTT AGACGCGCTG ACTGAGCTAG ATATTGTGGA AAAGGATGTA
ACAGAACAGC TGAAACACGA CTACCTTTTC CTTAGAAAAG TAGAGCACAC CCTTCAGCAG
TGCCAAGACC GGCAAACTCA AACCTTGCCA GATAGCGCAT GGCAGCAAGC CGCCTTGATT
GAGGTAATGG GTTTTGATTC CTATAGCACT TTTTTAAACC AGCTAGATGC AACCATGGCG
CGCATTCACG GTCACTTCAA TGAACTTGTG GAGGAATCAC AAGACAGCCA TTCCGACGAA
GATCAGCTTT TTATTGCATG CCAAGACGCT TGGCGGCTTT CTTTGCAAGA GGAAGAATTT
GCAGAGACCT TTAGCGAGCA TTTATCTAGC AAGGACATTA CAGGCGTTTA TCCAATTCTT
GTCGCGTTTA AAGACAAACA GCGTAACTAT CGAATCGGTC AAAAAGGAGA AGATACATTA
AACAAACTGC TTCCCGAGAT TTTGTACGTG CTGATAAATC AACATCCCAA TCACATCTCG
CAGGTCTTAA AGCGTTTACT GGGCGTGATT GAAGCCATCA CTGGGCGTAC CACTTATCTC
GACCTTTTAC TCGAAAACCC AGATGTACTT AAGCAGCTGG TTAAGCTTTG CGAGCGCAGT
GACTGGATTG CGCAAGAAAT CAAACGCTTC CCGTTGCTGC TTGATGAATT GTTGACGCCT
TTGTATTTAG GTCAACAAAA TACCGATATT CATACCAGCA AAAAGGAATA CCAGCTTGAA
CTGCGCGAAA CCATGCTGCG CATAGAGCAA GATGACGTTG AAATGCTTAT GGACGGGCTG
CGCCAGTTTA AGCTCTGCCA GCAACTGCGT ATTGCAGCCA GTGATATAAG CGAGTCGCTC
CCGGTAAATA ATGTCAGCGA TAAGCTTACC GTTCTGGCTG AAGTGATACT TGAACACGTA
GTAAATGCTG CGTGGATGCA AATGCGCCAA CGCTATGGTG TGCCGTCACA CCTTGAAGGT
AACGACAAAG GCTTTGCGGT CATAGGGTAT GGCAAGCTTG GTGGTTATGA ACTCGGGTAT
GGCTCGGACT TAGATCTGGT CTTTTTACAC AACGCCCCTC GGGGTATTAG CACCGACGGT
AATAAGTCAC TTGAAGCGCA GCAGTTTTAT ATCAAATTAG CGCAGCGCAT CATGCATTTA
CTCAACACGA AAACCCTGTT TGGCCAACTT TATGAAACCG ATTTGCGCCT GCGCCCCTCC
GGCAACGCCG GTTTGCTTTG TTGCCATATA GATGGCTTTG AGAAGTACCA AACCGAAGAA
GCGTGGACGT GGGAGCACCA GGCACTAGTT AGAGCAAGAG CAATATGCGG CGATGTTGGA
TTGCTAAAAG ATTTTACTCG AGTTCGACAT ACAATATTGA GCCAAGTAAG AGACTCAAAA
TCACTGGCGA CAGACGTATG CAAAATGCGC TTAAAAATGC GCGAACACCT GCTTTCTAAA
AACAATGACA AAGTCGACTT AAAGCAATGT GTAGGCGGTA TTACCGACAT TGAATTTATG
GCGCAGTATT TAGTGTTGGC CAACGCGCAG TCGGCAGATA GCATGACGAC CTACCCGGAC
AACCTTCGCA TTTTTGATAC TGCGGTTAAA GCCCGTATTA TCGACCCATC TACGGCGAGT
AAGCTGCAAA AAGCGTATTT AAAACTGCGA GAGCAATATC ATCATTTAAC CCTTGCAGAC
ACTAAATACG CCGACCAAAG CGAAGAGTTA GACGCTATAC GTGAGCAGGT TAGACAGCAT
TGGGACACTC TCTTTGGCAC ATGCAGCGAA TAA
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| Protein sequence | MPTDNENSMT NVEQAEKYWQ QFLTAPALTD DDKAIAKQHH DVLLTAFARS SFLAETIIQK
PSFVSRTVEQ TVEQTVEQTT EQDSDEQLQK NVDKEASSPW VAMYRSALDI TLETVKTEDD
LLKALREYRN QEMARVTFLD VLNKQDISTS LERVSALADV LLTGAYHWIY QHLAIRYGTP
QNNGEDMHMY ILGMGKLGGK ELNFSSDIDL IFSYPEKGET QGGRKSIEHQ QFFTKLAQKL
IQALNKITND GQVYRVDMRL RPFGDSGPLV MHFAALEDYY QDQGRHWERF AMVKARVIND
DNSEDVKWLN SILHPFTFRR YLDFTTLDAL RNMKKLIATE IRRRRLNNNI KLGAGGIREV
EFFAQSFQLI HGGREPALQS KSLLRTLDAL TELDIVEKDV TEQLKHDYLF LRKVEHTLQQ
CQDRQTQTLP DSAWQQAALI EVMGFDSYST FLNQLDATMA RIHGHFNELV EESQDSHSDE
DQLFIACQDA WRLSLQEEEF AETFSEHLSS KDITGVYPIL VAFKDKQRNY RIGQKGEDTL
NKLLPEILYV LINQHPNHIS QVLKRLLGVI EAITGRTTYL DLLLENPDVL KQLVKLCERS
DWIAQEIKRF PLLLDELLTP LYLGQQNTDI HTSKKEYQLE LRETMLRIEQ DDVEMLMDGL
RQFKLCQQLR IAASDISESL PVNNVSDKLT VLAEVILEHV VNAAWMQMRQ RYGVPSHLEG
NDKGFAVIGY GKLGGYELGY GSDLDLVFLH NAPRGISTDG NKSLEAQQFY IKLAQRIMHL
LNTKTLFGQL YETDLRLRPS GNAGLLCCHI DGFEKYQTEE AWTWEHQALV RARAICGDVG
LLKDFTRVRH TILSQVRDSK SLATDVCKMR LKMREHLLSK NNDKVDLKQC VGGITDIEFM
AQYLVLANAQ SADSMTTYPD NLRIFDTAVK ARIIDPSTAS KLQKAYLKLR EQYHHLTLAD
TKYADQSEEL DAIREQVRQH WDTLFGTCSE
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