Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | SeAg_B4625 |
Symbol | |
ID | 6793497 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Salmonella enterica subsp. enterica serovar Agona str. SL483 |
Kingdom | Bacteria |
Replicon accession | NC_011149 |
Strand | - |
Start bp | 4522015 |
End bp | 4525341 |
Gene Length | 3327 bp |
Protein Length | 1108 aa |
Translation table | 11 |
GC content | 57% |
IMG OID | 642778699 |
Product | hypothetical protein |
Protein accession | YP_002149264 |
Protein GI | 197248122 |
COG category | [M] Cell wall/membrane/envelope biogenesis |
COG ID | [COG3264] Small-conductance mechanosensitive channel |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 0.288253 |
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 | GTGCGCCTGA TTATCGCTTT TCTGATGGCC TGGTGCCTCA GCACGGGGGC GTTCGCCGCA ACGGCCCCCG ACGCCAAACA AATCACGCAG GAACTGGAGC AGGCAAAAGC GGCGAAGCCC GCTCAGCCGG AAGCCGTTGA GGCGCTCCAG ACTGCGTTAA ACGCGCTTGA AGAGCGAAAA GGCTCGCTTG AGCGCGCGAA ACAATATCAA CACGTTATTG ATAATTTCCC TAAGCTATCC GCCACCTTGC GCGCCCAGTT GAATAATCTG CGCGATGAAC CTCGCAGCGT ACCGCCAGAG ATGTCCACCG AAGCGTTAAA TCAGGAGATC TTGCAGGTTA GCAGCCAGCT ACTGGATAAA ACCCGCGAGG CGCAACAGGA GCAGGAGCGC GTCAGGGAGA TCGCCGACTC GCTCAGCCAG CTTCCCCAAC AGCAAAACGA CGCCCGCCGC CAGCTTAATG AGATTGAGCG ACGACTCGGC GCCGCAGGCG GAAGTGCCGC GCTTAGCCAG GCGCAAAGTC TCAGTATGCA GGCGGAGTCC GCCAAACTAA AAGCGTTAGT CGACGAACTG GAGTTGGCGC AACTGTCCGC CAACAACCGG CAGGAACTGG CTCGTCTGCG TTCCGAGCTG GCGGAAAAAC AGAGTCAGCA ATTGGATGCG TATCTTCAGG CGCTGCGCAA TCAGCTCAAC AGCCTGCGTC AACGTGAAGC GGAACGCGCG CTGGAAAGCA CTGAGCTGCT GGCGGAAAAC AGCGCCGGTT TGCCGGAAGG CATCGTCGAA CAATTTAAAG TCAACCGCGA GCTGTCACAG GCGCTCAATC AACAAGCGCA GCGGATGGAT CTGGTCGCCT CGCAGCAGCG ACAGGCCACC AGCCAAACGT TACAGGTGCG CCAGGCGCTC AATACGCTGC GGGAGCAGTC GCAATGGCTT GGCGTGTCCA ACATGCTTGG CGAAGCGCTG CGCGCGCAGG TCGCCCGTCT GCCAGAGATG CCTAAACCGC AGCAGCTTGA TACGGAAATG GCGCAGCTAC GCGTTCACCG TATGCGCTAT GAAGAGTTAC TCAATAAGCA GCCGCAGCTA CGGCAAATAC GTCAGGCCAA TGGACAGCCG CTGACCGCCG AGCAAAACCA GATTCTTGAC GCCCAGCTTC GCACTCAGCG CGAGCTGCTC AACTCGTTGT TACAGGGCGG CGATACGCTG ATCCTGGAGC TGACCAAACT GAAAGTCTCC AACAGCCAAC TGGAGGATGC GCTTAAAGAG GTTAATGAAG CGACCCACCG TTATCTGTTC TGGACCGCTG ACGTTAGCCC GCTATCGCTC TCCTGGCCTG TTGATTTGGT TCAGGATTTA CGTCGGCTTA TCTCATTAGA TACGTTTAAT CAGTTAGGTA AAGCCAGCAT CATGATGCTG ACCAGCAAAG AGACGCTGCT GCCGTTATTC GGCGCGCTGG CGCTGGTCGG GTTTAGCCTC TATTCACGCC AACACTTCAA CCGGTTCCTT GAGCGCTCGG CCTCGCGCGT CGGGAAAGTC ACCCAGGATC ACTTCTCGCT GACGCTGCGA ACGGTGTTCT GGTCGATTCT GGTCGCCTCG CCGCTGCCCG TCTTGTGGGC GACGCTCGGC TATGGTCTGC AGGAAGCCTG GCCGTATCCG CTGGCCGTCG CCATCGGCGA TGGCGTGACG GCGACAGTAC CGCTGTTGTG GGTAGTCATG ATTTGCGCCG CGTTTGCCCG CCCTAATGGC CTGTTTGTGG CGCATTTCGG CTGGCCGCGA AACCGGGTAG CGAAAGCGAT GCGCTACTAC CTGATGAGCA TTGGGCTGAT CGTGCCGCTC ATCATGGCAG TGATCATGTT TGATAATCTT AACGATCGGG AGTTTTCCGG CTCGTTGGGC CGCCTTTGCT TCATCCTGAT ATGCGGCGCG CTGGCGCTGG TCACGCTGAG TCTGAAAAAA GCGGGCATCC CGCTCTATCT TGATAAAGAA GGCAACGGCG ACAACATGGT CAACAGCCTG CTGTGGAATA TGCTGATGGG CGCGCCGCTT ATCGCGATTC TGGCGGCGGC GGTGGGTTAT CTGGCCACGG CGCAGGCGCT ACTGGCGAGA CTGGAAACCT CGGTCGCCAT CTGGTTCCTG TTGCTGGTCA TCTATCACGT CATTCGCCGC TGGATGCTGA TCCAACGACG CCGACTGGCT TTTGACCGCG CCAAACATCG TCGGGCGGAA ATGCTGGCGC AGCGCGCGCG CGGCGAAGAA GAACCGGCGC ACTCCTCCAG CCTGGAAGGC GCGGTCGACA TCGATGAAAG TGAAATCGAT CTTGACGCTA TTAGCGCTCA GTCGCTGCGT CTGGTCCGCT CAATTCTGAT GCTTATCGCC CTGCTATCGG TAATTGTACT GTGGTCGGAA ATCCACTCGG CATTCGGCTT CCTGGAGAAT ATTTCGCTGT GGGATGTCAC CTCTACGGTG CAAGGCGTGG AAAGCCTGGA GCCGATTACC CTCGGGGCGG TGCTCATTGC GATTCTGGTC TTTATCATCA CCACGCAGTT GGTGCGTAAT CTGCCTGCGC TGCTGGAACT GGCGTTATTA CAGCATCTCG ATTTAACGCC TGGTACCGGT TACGCCATCA CGACCATCAC CAAATATCTG TTAATGCTGA TTGGCGGACT GGTCGGTTTC TCGATGATCG GCATTGAGTG GTCGAAGCTA CAATGGCTGG TTGCCGCGCT CGGCGTTGGG CTTGGTTTTG GCCTGCAAGA AATTTTCGCT AACTTTATCT CCGGCCTGAT TATTTTGTTT GAAAAGCCGA TTCGTATCGG CGATACGGTG ACCATTCGCG ATCTCACCGG CAGCGTGACC AAAATCAATA CCCGCGCCAC CACCATCAGC GACTGGGATC GTAAAGAGAT TATCGTGCCG AATAAAGCCT TTATCACCGA ACAGTTTATC AACTGGTCGC TGTCTGACTC CGTTACGCGC GTGGTGTTAA CCATCCCGGC GCCAGCGGAT GCCAATAGCG AAGAGGTGAC GCAAATTCTG CTGACGGCGG CGCAGCGCTG TTCTTTGGTG CTGGACAACC CGCCGCCTGA AATCTTTCTG GTGGATCTCC AGCAGGGTAT TCAAATTTTC GAACTGCGTA TCTATGCCGC GGAAATGGGA CACCGTATGC CATTACGCCA TGAGATCCAC CAATTGATTC TGGCGGGCTT CCGCGAGCAC GGTATTGATA TGCCGTTTCC GCCGTTCCAG ATGCGTCTGG AGAGCCTCGG CGGTAAACAA ACGGGGAGAA CGTTAACGTC AGCGGGTAAA ACCAGCCGCC CGGCGGGCAG TTTGTAA
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Protein sequence | MRLIIAFLMA WCLSTGAFAA TAPDAKQITQ ELEQAKAAKP AQPEAVEALQ TALNALEERK GSLERAKQYQ HVIDNFPKLS ATLRAQLNNL RDEPRSVPPE MSTEALNQEI LQVSSQLLDK TREAQQEQER VREIADSLSQ LPQQQNDARR QLNEIERRLG AAGGSAALSQ AQSLSMQAES AKLKALVDEL ELAQLSANNR QELARLRSEL AEKQSQQLDA YLQALRNQLN SLRQREAERA LESTELLAEN SAGLPEGIVE QFKVNRELSQ ALNQQAQRMD LVASQQRQAT SQTLQVRQAL NTLREQSQWL GVSNMLGEAL RAQVARLPEM PKPQQLDTEM AQLRVHRMRY EELLNKQPQL RQIRQANGQP LTAEQNQILD AQLRTQRELL NSLLQGGDTL ILELTKLKVS NSQLEDALKE VNEATHRYLF WTADVSPLSL SWPVDLVQDL RRLISLDTFN QLGKASIMML TSKETLLPLF GALALVGFSL YSRQHFNRFL ERSASRVGKV TQDHFSLTLR TVFWSILVAS PLPVLWATLG YGLQEAWPYP LAVAIGDGVT ATVPLLWVVM ICAAFARPNG LFVAHFGWPR NRVAKAMRYY LMSIGLIVPL IMAVIMFDNL NDREFSGSLG RLCFILICGA LALVTLSLKK AGIPLYLDKE GNGDNMVNSL LWNMLMGAPL IAILAAAVGY LATAQALLAR LETSVAIWFL LLVIYHVIRR WMLIQRRRLA FDRAKHRRAE MLAQRARGEE EPAHSSSLEG AVDIDESEID LDAISAQSLR LVRSILMLIA LLSVIVLWSE IHSAFGFLEN ISLWDVTSTV QGVESLEPIT LGAVLIAILV FIITTQLVRN LPALLELALL QHLDLTPGTG YAITTITKYL LMLIGGLVGF SMIGIEWSKL QWLVAALGVG LGFGLQEIFA NFISGLIILF EKPIRIGDTV TIRDLTGSVT KINTRATTIS DWDRKEIIVP NKAFITEQFI NWSLSDSVTR VVLTIPAPAD ANSEEVTQIL LTAAQRCSLV LDNPPPEIFL VDLQQGIQIF ELRIYAAEMG HRMPLRHEIH QLILAGFREH GIDMPFPPFQ MRLESLGGKQ TGRTLTSAGK TSRPAGSL
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