Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | MADE_03458 |
Symbol | |
ID | 6776918 |
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 | 3731068 |
End bp | 3732669 |
Gene Length | 1602 bp |
Protein Length | 533 aa |
Translation table | 11 |
GC content | 49% |
IMG OID | 642756906 |
Product | cold-active serine alkaline protease |
Protein accession | YP_002127744 |
Protein GI | 196158255 |
COG category | [O] Posttranslational modification, protein turnover, chaperones |
COG ID | [COG1404] Subtilisin-like serine proteases |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 4 |
Plasmid unclonability p-value | 0.0416206 |
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 | ATGGGTAATT CTGCAATGGC TGCCGGCGAA GGGCTGGTAA AAGTGAAAGA AAAACCTCAA TCTTTGAAGC AAGCAATAGG CAAACGTCTA ACGGTTGACC GTTTGGTAAC TACCGAACAA CAGCGCTACA TCATTAAGTT CAAAGACGAA ATGGTAAGCG AAACGGTTGA GGTGAGTGCA TTAAAAGGTA AAGGTCAAAT CTCAAGTGCC AAAGTAAAAG GTAAAAAGCC TTTCGATATC GCATCTGCAA AGTCAGAGGT TCGCAAAGCC GGCGGCGCTA TCAAAAAAGA GCTTAAAAAG CACAAAATGG TAGCGGCGAC CATGAGTAAG TCGGCGCTCA ACAAGCTTCG CAACAATCCT AACGTAGAAA GTATTGAGGT TGACGTACGT CGTAAGCCTA TGGCGCAAAC TACGCCTTAC GGCTACACCA TGGTACAGGC AAACCAGTTC GGCCAGTCAG ATACCACGGC GCGCAAAGTA TGTATTATCG ATACTGGCTA TAATCTAGGT CACCCAGACC TTCCGGGCAC AAACGATGGT GTAACAGGTC AGGCAAACAA TAGTGCCGTA GGTAACTGGT ACAACGATGG TAACGGTCAC GGTACCCACG TAGCGGGCAC CATTGCAGCA TACGATAATA ACGAAGGTGT GGTAGGTGTA TACCCGGGTG TTAACATGCA CATCGTTAAG ATTTTTAACG ATAATGGTCA GTGGACCTAT GCCTCTGACC TTATCGATGC CATTACCCAG TGTCAGGATG CAGGCTCAAA TGTGGTTAAC ATGAGCTTAG GTGGCGGCAG CTCTTCAACC ACCGAGCGCA ATGCAATGCA AAGCTTTACC GATGCAGGCA TGTTGCTAGT GGCTGCGGCG GGTAACGACG GCAATAGTGC AAAATCATAC CCAGCGTCTT ACGATGCAGT TATGTCGGTA GCGGCGGTAG ACTCAAATGA AAATCGTGCA AGCTACAGCC AATATAACGA CCAAGTGGAA ATTGCGGCAC CGGGCAGTGC GGTCCAGTCG ACATACCCTA CTAACACCTA TGCTTCTTTA AGCGGTACAT CAATGGCAAC GCCACACGTA GCTGGTGGTG CAGCACTAGT ATGGAGCTAC TTCCCGCAGT GTTCAAACAA CCAAATTCGT AGTGCACTTA ATGCAACGGC AGAAGATAAA GGCAGTGCGG GTCGTGATAA CTTCTACGGT TATGGCTTAA TGCAGCTTGC TGATGCCTAC AACTACCTTA ACACCAACGG TTGTGCCGGT GGCGGTACTG GTGGCGGTGG CGGCTCTGAG CCTGGCGTAG AACCAGTATC AGGTCAGCTA ACCGGCCTTT CAGGTACGCG CAGAAACTGG GACCGCTACA CTTGGACGAT TCCTGAAGGT GTAACGCAGA TGACTATTCG TACCTCTGGT GGTTCAGGCG ATGCCGATCT ATACGTGAAG TTTGGCTCAC AGCCAGAAAC GAATAGCTAT GATTGTCGTC CTTATCAAAA TGGCAACAGC GAAGTATGTA CATTCGACGC GCCAGCGTCA GGCACATGGC ACATTGGTAT TCGCGCTTAT TCGTCATACA GCGGTGTGAC ACTATCATAC TCATATGAGT AA
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Protein sequence | MGNSAMAAGE GLVKVKEKPQ SLKQAIGKRL TVDRLVTTEQ QRYIIKFKDE MVSETVEVSA LKGKGQISSA KVKGKKPFDI ASAKSEVRKA GGAIKKELKK HKMVAATMSK SALNKLRNNP NVESIEVDVR RKPMAQTTPY GYTMVQANQF GQSDTTARKV CIIDTGYNLG HPDLPGTNDG VTGQANNSAV GNWYNDGNGH GTHVAGTIAA YDNNEGVVGV YPGVNMHIVK IFNDNGQWTY ASDLIDAITQ CQDAGSNVVN MSLGGGSSST TERNAMQSFT DAGMLLVAAA GNDGNSAKSY PASYDAVMSV AAVDSNENRA SYSQYNDQVE IAAPGSAVQS TYPTNTYASL SGTSMATPHV AGGAALVWSY FPQCSNNQIR SALNATAEDK GSAGRDNFYG YGLMQLADAY NYLNTNGCAG GGTGGGGGSE PGVEPVSGQL TGLSGTRRNW DRYTWTIPEG VTQMTIRTSG GSGDADLYVK FGSQPETNSY DCRPYQNGNS EVCTFDAPAS GTWHIGIRAY SSYSGVTLSY SYE
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