Definition Escherichia coli str. K-12 substr. MG1655 chromosome, complete genome.
Accession NC_000913
Length 4,639,675

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The map label for this gene is yeeJ

Identifier: 145698281

GI number:

Start: 2042962

End: 2050038

Strand: Direct

Name: yeeJ

Synonym: b1978

Alternate gene names: NA

Gene position: NA

Preceding gene: 90111364

Following gene: 16129925

Centisome position: NA

GC content: NA

Gene sequence:

>7077_bases
ATGGCTACGAAGAAGAGAAGTGGAGAAGAAATAAATGACCGACAAATATTATGCGGGATGGGAATTAAACTACGCCGCTT
AACTGCGGGTATCTGTCTGATAACTCAACTTGCGTTCCCTATGGCTGCGGCAGCACAAGGTGTGGTAAACGCCGCAACCC
AACAACCAGTTCCTGCACAAATTGCCATTGCAAATGCCAATACGGTGCCCTACACCCTTGGAGCGTTGGAATCGGCCCAA
AGCGTTGCCGAACGTTTCGGTATTTCGGTGGCTGAGTTACGCAAACTCAACCAGTTTCGTACGTTTGCTCGAGGTTTTGA
TAATGTCCGCCAGGGTGATGAACTGGATGTCCCGGCACAAGTTAGTGAAAAAAAATTAACCCCGCCGCCGGGTAATAGCA
GTGACAACCTCGAGCAACAGATAGCCAGTACTTCACAGCAAATCGGGTCTCTGCTCGCCGAAGATATGAACAGCGAGCAA
GCGGCAAATATGGCGCGTGGATGGGCCTCTTCTCAGGCTTCAGGCGCAATGACAGACTGGTTAAGCCGCTTCGGTACCGC
AAGAATCACGCTGGGCGTGGATGAAGATTTTAGCCTGAAGAACTCCCAGTTCGATTTTCTCCATCCGTGGTATGAAACGC
CTGATAATCTCTTTTTCAGTCAGCATACTCTCCATCGTACTGACGAGCGTACGCAGATTAACAACGGCTTAGGTTGGCGT
CATTTCACTCCCACATGGATGTCGGGCATCAACTTCTTTTTCGACCACGATCTTAGCCGTTACCACTCCCGCGCCGGCAT
TGGCGCGGAGTACTGGCGCGACTATCTAAAATTAAGCAGTAACGGCTATTTGCGACTGACCAACTGGCGCAGCGCACCTG
AACTGGACAACGATTATGAAGCACGCCCGGCCAATGGCTGGGATGTACGCGCAGAAAGCTGGCTACCCGCCTGGCCGCAC
CTTGGCGGTAAACTGGTCTATGAACAGTATTATGGCGATGAAGTGGCCCTGTTCGATAAAGACGATCGGCAAAGTAATCC
TCATGCCATAACCGCTGGACTTAACTATACCCCCTTCCCGCTGATGACCTTCAGCGCGGAGCAACGCCAGGGTAAACAGG
GCGAAAATGACACCCGTTTTGCCGTCGATTTTACCTGGCAACCTGGCAGCGCAATGCAGAAACAGCTTGACCCGAATGAA
GTCGCTGCACGGCGTAGCCTTGCAGGCAGCCGTTATGATCTGGTGGATCGCAACAACAATATCGTTCTGGAATATCGCAA
AAAAGAACTGGTTCGCCTGACCCTGACAGACCCCGTGACAGGGAAGTCAGGAGAAGTGAAATCACTGGTTTCGTCGCTAC
AAACCAAATATGCCCTGAAAGGCTATAACGTCGAAGCCACCGCACTGGAAGCTGCCGGTGGCAAAGTGGTCACAACGGGT
AAAGATATTCTGGTTACCCTGCCGGCTTACCGGTTCACCAGTACGCCAGAAACCGATAACACCTGGCCGATTGAAGTCAC
CGCCGAAGATGTCAAAGGCAATTTGTCGAATCGTGAACAGAGCATGGTGGTCGTTCAGGCACCTACGCTAAGCCAGAAAG
ATTCCTCGGTATCGTTAAGTACCCAAACATTGAACGCGGATTCCCATTCAACCGCCACACTGACTTTTATTGCGCATGAT
GCAGCAGGTAATCCTGTTGTCGGGCTGGTGCTCTCGACGCGTCACGAAGGTGTTCAGGACATCACCCTTTCTGACTGGAA
AGATAATGGTGACGGAAGCTATACCCAGATCCTGACCACAGGAGCGATGTCTGGCACGCTGACGCTGATGCCACAGCTGA
ATGGTGTGGATGCGGCTAAAGCCCCCGCCGTGGTGAATATCATTTCTGTTTCGTCATCCCGAACTCACTCGTCAATTAAG
ATTGATAAGGACCGTTATCTCTCCGGCAATCCTATCGAGGTGACGGTAGAACTGAGAGATGAAAATGACAAACCTGTTAA
GGAACAAAAACAGCAACTGAATAACGCAGTCAGCATCGACAACGTGAAACCAGGAGTCACTACAGACTGGAAAGAAACCG
CAGATGGCGTCTATAAGGCGACCTATACCGCCTATACCAAAGGCAGTGGACTTACTGCGAAGCTATTAATGCAAAACTGG
AATGAAGATTTGCATACCGCTGGATTTATCATCGACGCCAACCCGCAGTCAGCGAAAATTGCGACATTATCTGCCAGCAA
TAATGGTGTGCTCGCCAATGAGAATGCAGCAAACACCGTCTCGGTCAATGTCGCTGATGAAGGAAGCAACCCAATCAATG
ATCATACCGTCACGTTTGCGGTATTAAGCGGATCGGCAACTTCCTTCAACAATCAAAACACCGCAAAAACGGATGTTAAT
GGTCTGGCGACTTTTGATCTGAAAAGTAGTAAGCAGGAAGACAACACGGTTGAAGTCACCCTTGAAAATGGCGTGAAACA
AACGTTAATCGTCAGTTTTGTCGGCGACTCGAGTACTGCGCAGGTTGATCTGCAGAAGTCGAAAAATGAAGTGGTTGCTG
ACGGCAATGACAGCGTCACAATGACCGCGACCGTCCGGGATGCAAAAGGCAACCTGCTCAATGACGTCATGGTCACTTTC
AATGTTAATTCAGCAGAGGCGAAACTGAGCCAAACCGAAGTGAATAGCCACGACGGGATCGCCACAGCTACGCTGACCAG
TTTGAAAAATGGTGATTATAGGGTTACGGCCTCTGTGAGCTCTGGTTCCCAGGCTAATCAACAGGTGAATTTTATCGGTG
ATCAAAGTACTGCTGCCCTGACCCTCAGTGTGCCTTCAGGTGATATCACCGTCACCAACACAGCTCCGCAATATATGACT
GCAACCTTGCAGGATAAAAATGGCAACCCACTAAAAGATAAAGAAATCACCTTCTCTGTGCCAAACGACGTCGCAAGTAA
GTTCTCGATTAGCAACGGAGGAAAAGGCATGACGGATAGTAACGGGGTTGCAATCGCCTCCCTGACCGGCACGTTAGCGG
GCACGCATATGATCATGGCTCGTCTGGCTAACAGCAATGTCAGCGATGCACAGCCAATGACGTTTGTGGCGGATAAAGAC
AGAGCGGTTGTCGTTTTGCAAACATCGAAAGCGGAAATCATTGGGAATGGCGTGGATGAGACAACTCTGACAGCAACAGT
GAAAGATCCGTCGAATCATCCGGTGGCGGGGATAACGGTAAACTTCACCATGCCACAGGACGTTGCGGCAAACTTTACCC
TTGAAAATAACGGTATTGCCATCACTCAGGCCAATGGGGAAGCGCATGTCACGCTGAAAGGTAAAAAAGCGGGCACGCAT
ACGGTTACCGCAACGCTGGGTAATAACAATACCAGTGATTCGCAGCCGGTAACATTTGTGGCGGACAAAGCCTCGGCTCA
GGTTGTCCTGCAGATATCAAAAGATGAGATCACAGGTAATGGCGTCGATAGCGCAACGCTAACTGCAACGGTTAAAGATC
AGTTCGACAATGAGGTGAATAATCTTCCGGTAACATTCAGCTCAGCCTCTTCAGGACTCACCCTGACCCCGGGAGTAAGT
AATACCAACGAGTCTGGCATCGCGCAGGCCACTCTCGCAGGCGTTGCCTTTGGTGAGAAGACGGTTACTGCATCACTGGC
TAATAATGGTGCCAGCGACAACAAAACTGTGCATTTTATTGGCGACACAGCGGCGGCAAAAATTATCGAGTTGGCGCCTG
TCCCAGACAGCATAATCGCCGGTACCCCGCAGAACAGCTCCGGCAGCGTCATCACCGCCACAGTCGTTGATAATAATGGC
TTTCCGGTGAAAGGTGTGACTGTGAACTTCACCAGCAACGCAGCGACAGCCGAAATGACGAACGGCGGTCAAGCCGTGAC
GAACGAACAGGGTAAGGCTACCGTCACTTATACCAATACCCGCTCCTCGATAGAATCAGGAGCGAGACCGGATACCGTTG
AGGCCAGTCTGGAAAATGGTAGCTCCACGCTTAGCACATCAATTAATGTCAACGCTGATGCGTCTACGGCACATCTCACC
TTGCTACAGGCACTTTTTGATACAGTCTCCGCAGGCGAGACAACCAGTCTGTATATTGAGGTGAAGGATAATTACGGCAA
CGGTGTCCCCCAGCAGGAGGTAACCCTCAGCGTTTCACCAAGTGAAGGCGTGACCCCCAGTAATAACGCTATATATACTA
CCAACCACGACGGCAATTTTTACGCAAGCTTTACCGCTACAAAAGCCGGGGTTTATCAATTGACGGCAACCCTCGAAAAT
GGCGATTCGATGCAACAAACAGTGACCTATGTGCCGAACGTCGCGAATGCTGAAATCACGCTGGCAGCCTCGAAGGATCC
GGTGATTGCCGACAATAACGATCTCACGACACTAACAGCAACAGTCGCTGATACAGAGGGCAATGCGATAGCCAACACTG
AGGTAACATTTACTCTGCCGGAAGATGTGAAGGCGAACTTCACGCTGAGCGATGGCGGTAAAGTGATTACTGATGCTGAA
GGCAAAGCGAAAGTCACGCTGAAAGGTACAAAAGCAGGCGCTCATACTGTTACAGCATCGATGACTGGCGGTAAGAGTGA
GCAGTTGGTGGTGAACTTTATTGCGGATACGCTCACTGCGCAGGTTAATCTTAACGTTACCGAGGACAATTTTATCGCTA
ATAACGTCGGGATGACCAGGCTGCAGGCAACAGTGACTGATGGAAACGGCAACCCGTTAGCCAATGAGGCGGTGACATTC
ACGCTACCGGCAGATGTGAGCGCAAGCTTTACTCTCGGACAAGGCGGTTCCGCCATTACTGATATCAACGGCAAGGCTGA
AGTTACACTGAGCGGTACAAAATCCGGCACCTACCCCGTGACAGTTAGCGTGAACAATTATGGTGTCAGTGATACGAAAC
AGGTGACTTTGATTGCCGATGCTGGTACCGCAAAACTAGCCTCCTTAACCTCTGTATACTCATTCGTCGTCAGCACGACC
GAGGGCGCAACCATGACGGCAAGCGTCACTGACGCTAACGGCAACCCGGTAGAAGGCATAAAAGTTAATTTCCGCGGAAC
CTCCGTCACGCTAAGCAGCACCAGCGTTGAAACGGATGATCGGGGTTTCGCTGAAATTCTTGTGACAAGCACCGAGGTCG
GACTGAAAACAGTTTCAGCCTCTCTGGCAGATAAACCTACTGAAGTCATCTCGCGATTACTGAATGCCAGTGCAGATGTT
AATTCTGCGACGATTACCAGTCTGGAGATACCGGAAGGTCAGGTAATGGTCGCACAAGACGTAGCAGTTAAAGCTCACGT
TAACGACCAGTTTGGCAACCCGGTTGCGCATCAACCCGTGACATTCAGTGCAGAGCCATCCTCGCAAATGATCATCAGCC
AGAATACGGTCTCTACTAATACGCAGGGTGTAGCCGAGGTCACCATGACGCCCGAAAGAAACGGTTCGTATATGGTGAAA
GCATCCCTGCCGAATGGAGCCTCACTTGAGAAACAACTGGAGGCTATTGATGAAAAACTGACACTCACGGCGTCCAGTCC
GCTTATCGGTGTCTATGCCCCTACAGGCGCTACTCTGACGGCAACGCTAACCTCTGCAAATGGCACTCCAGTGGAGGGTC
AGGTCATCAACTTTAGCGTAACGCCAGAAGGGGCGACGTTAAGTGGCGGAAAAGTGAGAACTAACTCTTCAGGTCAGGCT
CCAGTCGTTTTGACCAGCAATAAAGTCGGTACATATACGGTGACTGCATCTTTCCATAACGGCGTAACAATACAGACACA
GACAACCGTGAAAGTCACTGGCAACTCAAGCACCGCCCATGTTGCTAGCTTTATCGCTGATCCATCGACTATCGCCGCCA
CCAACACTGATTTAAGTACCTTAAAGGCAACGGTTGAGGATGGCAGTGGTAACCTGATCGAAGGTCTCACTGTGTACTTC
GCCTTAAAAAGCGGCTCTGCCACATTAACGTCATTAACAGCGGTGACCGATCAAAACGGAATCGCGACAACAAGCGTGAA
AGGAGCGATGACAGGTAGCGTCACGGTAAGCGCAGTCACGACCGCTGGTGGAATGCAAACAGTAGATATAACGCTGGTGG
CTGGCCCGGCAGACACCTCGCAGTCCGTCCTTAAGAGCAATCGGTCATCACTGAAAGGGGACTATACCGATAGTGCTGAA
TTACGTCTTGTTCTGCACGATATATCAGGCAATCCGATCAAAGTTTCTGAAGGGATGGAATTTGTGCAATCAGGTACTAA
CGTGCCCTATATAAAAATTAGCGCAATTGATTACAGTCTAAATATCAACGGTGATTACAAAGCCACTGTTACAGGAGGCG
GAGAGGGTATCGCAACGCTGATCCCTGTATTGAATGGTGTTCATCAAGCTGGTCTGAGTACCACAATACAATTCACTCGC
GCAGAAGACAAAATAATGAGCGGTACAGTATCAGTCAATGGTACTGACCTACCGACAACTACATTCCCTTCGCAGGGGTT
CACCGGGGCGTATTATCAGTTGAATAATGACAACTTTGCCCCAGGAAAAACGGCGGCTGATTATGAGTTTTCAAGCTCTG
CCTCCTGGGTCGATGTTGATGCTACCGGTAAAGTGACATTTAAAAATGTCGGCAGCAATTCGGAAAGGATTACGGCGACG
CCAAAATCAGGAGGCCCTAGCTATGTATACGAAATCCGTGTGAAGAGTTGGTGGGTGAACGCCGGCGAGGCTTTCATGAT
ATACAGCCTTGCTGAAAATTTTTGCAGCAGCAATGGCTACACGCTCCCCAGAGCAAACTATTTAAACCACTGTAGTTCCC
GAGGCATCGGGTCACTGTACAGTGAATGGGGAGATATGGGGCATTACACGACTGACGCTGGTTTTCAATCAAATATGTAT
TGGTCATCTAGTCCCGCAAACTCAAGCGAACAATACGTAGTTTCCCTGGCAACAGGTGATCAAAGCGTATTTGAAAAGCT
TGGGTTTGCTTATGCGACATGTTATAAAAACCTGTGA

Upstream 100 bases:

>100_bases
GAAAAGTTATTAATTTTCAATCATATTGCTATCAGTATTTACATTTTTTCGCTGTGCTAGAAAGGGCGCATTTATGTTAG
CTCGTTCAGGGAAGGTAAGC

Downstream 100 bases:

>100_bases
TTTTCCGTTATAATTTCTTAAAGAGTGTTCCATTCGGGGCACTCTTTTTTACATTCCCTCTACAGAACTAGCCCTTCTCT
CACAGAAAATGAATAAATAA

Product: probable adhesin

Products: NA

Alternate protein names: NA

Number of amino acids: NA

Protein sequence:

>2358_residues
MATKKRSGEEINDRQILCGMGIKLRRLTAGICLITQLAFPMAAAAQGVVNAATQQPVPAQIAIANANTVPYTLGALESAQ
SVAERFGISVAELRKLNQFRTFARGFDNVRQGDELDVPAQVSEKKLTPPPGNSSDNLEQQIASTSQQIGSLLAEDMNSEQ
AANMARGWASSQASGAMTDWLSRFGTARITLGVDEDFSLKNSQFDFLHPWYETPDNLFFSQHTLHRTDERTQINNGLGWR
HFTPTWMSGINFFFDHDLSRYHSRAGIGAEYWRDYLKLSSNGYLRLTNWRSAPELDNDYEARPANGWDVRAESWLPAWPH
LGGKLVYEQYYGDEVALFDKDDRQSNPHAITAGLNYTPFPLMTFSAEQRQGKQGENDTRFAVDFTWQPGSAMQKQLDPNE
VAARRSLAGSRYDLVDRNNNIVLEYRKKELVRLTLTDPVTGKSGEVKSLVSSLQTKYALKGYNVEATALEAAGGKVVTTG
KDILVTLPAYRFTSTPETDNTWPIEVTAEDVKGNLSNREQSMVVVQAPTLSQKDSSVSLSTQTLNADSHSTATLTFIAHD
AAGNPVVGLVLSTRHEGVQDITLSDWKDNGDGSYTQILTTGAMSGTLTLMPQLNGVDAAKAPAVVNIISVSSSRTHSSIK
IDKDRYLSGNPIEVTVELRDENDKPVKEQKQQLNNAVSIDNVKPGVTTDWKETADGVYKATYTAYTKGSGLTAKLLMQNW
NEDLHTAGFIIDANPQSAKIATLSASNNGVLANENAANTVSVNVADEGSNPINDHTVTFAVLSGSATSFNNQNTAKTDVN
GLATFDLKSSKQEDNTVEVTLENGVKQTLIVSFVGDSSTAQVDLQKSKNEVVADGNDSVTMTATVRDAKGNLLNDVMVTF
NVNSAEAKLSQTEVNSHDGIATATLTSLKNGDYRVTASVSSGSQANQQVNFIGDQSTAALTLSVPSGDITVTNTAPQYMT
ATLQDKNGNPLKDKEITFSVPNDVASKFSISNGGKGMTDSNGVAIASLTGTLAGTHMIMARLANSNVSDAQPMTFVADKD
RAVVVLQTSKAEIIGNGVDETTLTATVKDPSNHPVAGITVNFTMPQDVAANFTLENNGIAITQANGEAHVTLKGKKAGTH
TVTATLGNNNTSDSQPVTFVADKASAQVVLQISKDEITGNGVDSATLTATVKDQFDNEVNNLPVTFSSASSGLTLTPGVS
NTNESGIAQATLAGVAFGEKTVTASLANNGASDNKTVHFIGDTAAAKIIELAPVPDSIIAGTPQNSSGSVITATVVDNNG
FPVKGVTVNFTSNAATAEMTNGGQAVTNEQGKATVTYTNTRSSIESGARPDTVEASLENGSSTLSTSINVNADASTAHLT
LLQALFDTVSAGETTSLYIEVKDNYGNGVPQQEVTLSVSPSEGVTPSNNAIYTTNHDGNFYASFTATKAGVYQLTATLEN
GDSMQQTVTYVPNVANAEITLAASKDPVIADNNDLTTLTATVADTEGNAIANTEVTFTLPEDVKANFTLSDGGKVITDAE
GKAKVTLKGTKAGAHTVTASMTGGKSEQLVVNFIADTLTAQVNLNVTEDNFIANNVGMTRLQATVTDGNGNPLANEAVTF
TLPADVSASFTLGQGGSAITDINGKAEVTLSGTKSGTYPVTVSVNNYGVSDTKQVTLIADAGTAKLASLTSVYSFVVSTT
EGATMTASVTDANGNPVEGIKVNFRGTSVTLSSTSVETDDRGFAEILVTSTEVGLKTVSASLADKPTEVISRLLNASADV
NSATITSLEIPEGQVMVAQDVAVKAHVNDQFGNPVAHQPVTFSAEPSSQMIISQNTVSTNTQGVAEVTMTPERNGSYMVK
ASLPNGASLEKQLEAIDEKLTLTASSPLIGVYAPTGATLTATLTSANGTPVEGQVINFSVTPEGATLSGGKVRTNSSGQA
PVVLTSNKVGTYTVTASFHNGVTIQTQTTVKVTGNSSTAHVASFIADPSTIAATNTDLSTLKATVEDGSGNLIEGLTVYF
ALKSGSATLTSLTAVTDQNGIATTSVKGAMTGSVTVSAVTTAGGMQTVDITLVAGPADTSQSVLKSNRSSLKGDYTDSAE
LRLVLHDISGNPIKVSEGMEFVQSGTNVPYIKISAIDYSLNINGDYKATVTGGGEGIATLIPVLNGVHQAGLSTTIQFTR
AEDKIMSGTVSVNGTDLPTTTFPSQGFTGAYYQLNNDNFAPGKTAADYEFSSSASWVDVDATGKVTFKNVGSNSERITAT
PKSGGPSYVYEIRVKSWWVNAGEAFMIYSLAENFCSSNGYTLPRANYLNHCSSRGIGSLYSEWGDMGHYTTDAGFQSNMY
WSSSPANSSEQYVVSLATGDQSVFEKLGFAYATCYKNL

Sequences:
NA

Specific function: NA

COG id: NA

COG function: NA

Gene ontology:

Cell location: NA

Metaboloic importance: NA

Operon status: NA

Operon components: NA

Similarity: NA

Homologues:

NA

Paralogues:

NA

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

NA

Pfam domain/function: NA

EC number: NA

Molecular weight: NA

Theoretical pI: NA

Prosite motif: NA

Important sites: NA

Signals:

NA

Transmembrane regions:

NA

Cys/Met content:

NA

Secondary structure: NA

PDB accession: NA

Resolution: NA

Structure class: NA

Cofactors: NA

Metal ions: NA

Kcat value (1/min): NA

Specific activity: NA

Km value (mM): NA

Substrates: NA

Specific reaction: NA

General reaction: NA

Inhibitor: NA

Structure determination priority: NA

TargetDB status: NA

Availability: NA

References: NA