Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Ent638_2681 |
Symbol | |
ID | 5114648 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Enterobacter sp. 638 |
Kingdom | Bacteria |
Replicon accession | NC_009436 |
Strand | + |
Start bp | 2885427 |
End bp | 2888780 |
Gene Length | 3354 bp |
Protein Length | 1117 aa |
Translation table | 11 |
GC content | 53% |
IMG OID | 640492869 |
Product | putative sensor protein |
Protein accession | YP_001177398 |
Protein GI | 146312324 |
COG category | [T] Signal transduction mechanisms |
COG ID | [COG3447] Predicted integral membrane sensor domain |
TIGRFAM ID | [TIGR00229] PAS domain S-box [TIGR00254] diguanylate cyclase (GGDEF) domain |
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Plasmid Coverage information |
Num covering plasmid clones | 13 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 11 |
Fosmid unclonability p-value | 0.968854 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGCGTCCC TGGATAAAGC GGTAATGAAT AAACAATACC AGCGCGTTTT GGTTACTACC CCACATCCAG TCCTACGGCT TGTCAGTCTT GGTCTGGTAA CGTTCATATT TACCCTTTTC TCGCTCGAAC TGACTCGATT CGGAACGTTG CTGGCACCGT TGTGGTTCCC GACCTCAATC ATGATGGTCG CGTTTTACCG CCATGCCGGA AAAATGTGGC CGGGTATTGC CCTCGCCTGT TCCCTGGGGA ATATTCTCGC TACAGGATTA TTGTTCAGCT GGGATTCGCT TAACGTCTTG TACCCCACGA TAAATGCTAT CGAAGCATTT GTGGGCGCGC TGCTGCTGCG TAAAATGTTG CCCTGGTATA ACCCCTTAAA AAATCTTGGC GACTGGATAC GTCTGGCGAT CGGCAGCGCC GCGATCCCGC CGTTGCTGGG TGGTGTGCTG GCCTGGCTTT TAGTTCCCAG CGAGGAGCCA CTGCGTAACT TTCTGGTGTG GGTATTATCG GAATCTATTG GTGCGCTGGC GCTTGTCCCG CTAGGACTGC TTTTCAAACC GCACTATTTA CTGCGCCATC GCAACCCAAA ACTGCTGCTT GAAACGCTCG TCACCATGGC GGTCACGCTG GTGCTGTGTT GGGTTGCGAT TACATTCCTT CCGTGGCCGT TTACCTGCGT CATCGTATTG CTGATGTGGA GTGCCGTACG CCTCCCGCGG CTCGAAGCGT TCCTTGTTTT TCTGGTCACG GTAATGATGG TGTCATTGAT GATGGCGACC AATCCGACCC CCATGACCAC TCAAAATAGC GGTGTCATGC TTAACGCACC GTGGTTGCCG TTCCTGATGA TGCTGCTTCC CGCGAACGTC ATGACTATGG TGATGTACGC CTTTCGTGCC GAACGTAAGC ACATCACCGA AAGTGAAGAA CGTTTTCGCA ATGCCATGGA ATATTCGGCG ATTGGTATGG CGCTGGTCGG GATTGATGGC CAGTGGCTGC AGACCAACAA AGCCCTTTGT GAGTTTCTTG GCTATTCCCA GACCGAACTG CAGTCCCTCA CGTTTCAGCA ACTGACCTGG CCTGAAGATT TACATACCGA TCTTGAGAGC CTGGAGCAAC TGGCGCGCGG TGACATTAAC AGCTACTCGC TGGAGAAGCG CTATTACACC CGTAACGGTG AAGTCGTATG GGCGCTGCTG ACCGTCTCGG TTGTGCGTCA TACGGACGGG TCACCGCTCT ATTTTATTGC GCAAATCGAA GACATTAATG ACCTCAAACA CACCGAATGG GTGAATAAGC GCCTGATGGA GCGTATTACG CTGGCGAACG AAGCGGGCGG CATTGGTATC TGGGAATGGG ACCTGCAGCC TGACGTCATC AGTTGGGACA AACGTATGTT CGAGATGTAC GAAATTCCGG CGCACATCAA GCCGACCTGG CAGCTCTGGA ACGACAGTAT TATTCCCGAA GATCGCGCGT ACGCCGAACA GGTTATTCGC GATTCGCTGA TGGCCCGAGT GCCCTTTAAG CTTGAGTTCC GCATCCGCGT GAAAGAAGGC GTGCGTCATA TCCGTTCCCT GGCGAATCGG GTGCTGAACA AGCAAGGCGA AGTCGAACGG CTGCTCGGCA TTAATATGGA CATGACCGAA GTTAAGGAAC TTAACGAAGC ATTGTTCCAG GAAAAAGAGC GTCTGCACAT CACGCTCGAC TCCATCGGTG AAGCGGTACT CTGTACTGAT GTTGATATGC ACGTCACCTT TATGAACCCC GTTGCCGAGA AAATGAGCGG CTGGACGCAG CAAGAAGCGA TGGGTCAGCC GATTTTGAGC GTGTTACACA TTACGTTCAG CGAAAACGGT CCGCCGATGG AAAACATTCA CAGCGGCGAT ATGTCACGTT CCGACATTAA TCAGGATGTC GTGCTGCACA GCCGCACCGG CGGAACGTTC GATATTCATT ACAGTATTAC CCCATTAAGC ACGCTGGACG GACAAAACAT CGGTTCCGTT CTGGTCATTC AGGATGTCAC CGAGTCACGT AAAATGCTGC GCCAGCTCAG CTACAGCGCC TCGCATGACG GCCTCACTCA CCTCGCTAAC CGCGTCAGTT TTGAAAGCCA TTTAAAGCGC CTTCTGCAAA CCGTGCATGA CACGCATCAA CGCCACGCGC TGGTGTTTAT CGATCTCGAT CGCTTCAAAG CGGTGAACGA TACTGCAGGA CACGCCGCGG GCGATGCGCT CCTGCGCGAA CTCTCATCAC TGATGCTCAG CATGCTGCGC TCCAGCGACG TGTTAGCGCG TCTGGGTGGC GATGAATTTG GTCTGCTGCT TCCGGACTGC AACGTGGAAA GTTCGCGCTA CATTGCCGGG CGTATCATTC ACGCCATCAA CGATTACCAG TTCATGTGGG AAGGTCGTCT GCATCGCATC GGTGCCAGCG CCGGGATTAC GCTGCTTGAT GACAGCAACT ATCAGGTTGC GGAAGTGATG TCTCAGGCCG ACATCGCCTG CTACGCGTCC AAGAATAATG GTCGTGGCGT GGTGACGGTG TACGAACCAC AGCAGGAACG TATTCACAGC GCGCGGGGCA TGATGTCGCT GGATGAGCAG TGGCATATGA TCAAAGACAA TCAGTTGCTG ATGACGGGCC GTAGCGTAGC CTCTCCGCGC ATCCCGGAAA GCAGTAACTT CTGGCTCATC TCCCTGCGAC TGTGGACCAG CCAAGGCGAC GTTGTAGAAG AACAGGCGTT CCGCTCAGGT CTGATGGAGC CAGATCTGTT ACATGCGTTG GATCGCCGCA TCTTCCAGAC ATTTTTCCGC ACCTACGCCA CGCAAGTCGC TACTAAGGGA ATGGGTGTGG CGCTGCCGCT CTCGGCTGAA GGGCTGTCCA GCACGACGCT GGTGAGCGAA CTGCTCGATT TACTGGAAAA AAGTCCTCTG CAGGGACGCT TGCTGCATCT GGTTATTCCG GTAGAAACCC TGCAAAACCA GGACGTTCAC ATTCAGAATG GATTACAAAA ACTCCGTCTG GCGGGATGCC GAATTGTGCT GTGTCACGTC GGGCGCAATA TGGATGTGTT TAATCATCTC ACCCCGCACA TGGCTGATTA TCTGTTGTTG GATCCTGAAC TGGTCACCAA CGTTCACGGT AACCTGATGG ACGAAATGAT GGTTTCTATC ATTCAGGGCC ACGCCCAACG ACTCGGCATG AAAACCATCG CTGGGCCAAG TAACCAGCCG TTGATGATGG ATACGCTTTC CGGAATTGGT ATCGATTATA TCTACGGCGA CTGCATTGCC GAGCCGCAGC CGCTAGAAAT TCTGCTCAAT ACCAGCTATT TCGCGATCAA TTAG
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Protein sequence | MASLDKAVMN KQYQRVLVTT PHPVLRLVSL GLVTFIFTLF SLELTRFGTL LAPLWFPTSI MMVAFYRHAG KMWPGIALAC SLGNILATGL LFSWDSLNVL YPTINAIEAF VGALLLRKML PWYNPLKNLG DWIRLAIGSA AIPPLLGGVL AWLLVPSEEP LRNFLVWVLS ESIGALALVP LGLLFKPHYL LRHRNPKLLL ETLVTMAVTL VLCWVAITFL PWPFTCVIVL LMWSAVRLPR LEAFLVFLVT VMMVSLMMAT NPTPMTTQNS GVMLNAPWLP FLMMLLPANV MTMVMYAFRA ERKHITESEE RFRNAMEYSA IGMALVGIDG QWLQTNKALC EFLGYSQTEL QSLTFQQLTW PEDLHTDLES LEQLARGDIN SYSLEKRYYT RNGEVVWALL TVSVVRHTDG SPLYFIAQIE DINDLKHTEW VNKRLMERIT LANEAGGIGI WEWDLQPDVI SWDKRMFEMY EIPAHIKPTW QLWNDSIIPE DRAYAEQVIR DSLMARVPFK LEFRIRVKEG VRHIRSLANR VLNKQGEVER LLGINMDMTE VKELNEALFQ EKERLHITLD SIGEAVLCTD VDMHVTFMNP VAEKMSGWTQ QEAMGQPILS VLHITFSENG PPMENIHSGD MSRSDINQDV VLHSRTGGTF DIHYSITPLS TLDGQNIGSV LVIQDVTESR KMLRQLSYSA SHDGLTHLAN RVSFESHLKR LLQTVHDTHQ RHALVFIDLD RFKAVNDTAG HAAGDALLRE LSSLMLSMLR SSDVLARLGG DEFGLLLPDC NVESSRYIAG RIIHAINDYQ FMWEGRLHRI GASAGITLLD DSNYQVAEVM SQADIACYAS KNNGRGVVTV YEPQQERIHS ARGMMSLDEQ WHMIKDNQLL MTGRSVASPR IPESSNFWLI SLRLWTSQGD VVEEQAFRSG LMEPDLLHAL DRRIFQTFFR TYATQVATKG MGVALPLSAE GLSSTTLVSE LLDLLEKSPL QGRLLHLVIP VETLQNQDVH IQNGLQKLRL AGCRIVLCHV GRNMDVFNHL TPHMADYLLL DPELVTNVHG NLMDEMMVSI IQGHAQRLGM KTIAGPSNQP LMMDTLSGIG IDYIYGDCIA EPQPLEILLN TSYFAIN
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