Homologs in group_1344

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6 homologs were identified in 6 genomes with OrthoFinder.
The following table displays the locus tag of each homolog, the organism to which it belongs, the gene name and product.

Locus tag Identity Source Gene Product
FBDBKF_08330 FBDBKF_08330 77.6 Morganella morganii S1 cyaA class I adenylate cyclase
EHELCC_13195 EHELCC_13195 77.6 Morganella morganii S2 cyaA class I adenylate cyclase
NLDBIP_13535 NLDBIP_13535 77.6 Morganella morganii S4 cyaA class I adenylate cyclase
LHKJJB_13020 LHKJJB_13020 77.6 Morganella morganii S3 cyaA class I adenylate cyclase
HKOGLL_12010 HKOGLL_12010 77.6 Morganella morganii S5 cyaA class I adenylate cyclase
F4V73_RS09530 F4V73_RS09530 77.7 Morganella psychrotolerans - class I adenylate cyclase

Distribution of the homologs in the orthogroup group_1344

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Number of homologs in each genome (first column) and amino-acid identity of the closest homolog (second column).

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Phylogeny of the RefSeq best hits of group_1344

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
Q59685 0 1804 100 0 865 3 cya Adenylate cyclase Proteus mirabilis
P40127 0 1363 75 5 855 3 cya Adenylate cyclase Yersinia pestis
Q8FBP0 0 1363 77 4 839 3 cyaA Adenylate cyclase Escherichia coli O6:H1 (strain CFT073 / ATCC 700928 / UPEC)
P59739 0 1362 77 4 839 3 cyaA Adenylate cyclase Shigella flexneri
Q8XAP1 0 1360 77 4 839 3 cyaA Adenylate cyclase Escherichia coli O157:H7
P00936 0 1360 77 4 839 1 cyaA Adenylate cyclase Escherichia coli (strain K12)
P30528 0 1353 76 3 836 3 cya Adenylate cyclase Yersinia intermedia
P0A1A7 0 1346 77 3 828 3 cyaA Adenylate cyclase Salmonella typhimurium (strain LT2 / SGSC1412 / ATCC 700720)
P0A1A8 0 1346 77 3 828 3 cyaA Adenylate cyclase Salmonella typhi
P40130 0 1288 74 4 836 3 cya Adenylate cyclase Dickeya chrysanthemi
Q59119 0 942 54 7 840 3 cya Adenylate cyclase Aeromonas hydrophila
Q05766 0 653 41 13 835 3 cya Adenylate cyclase Pasteurella multocida (strain Pm70)
P40134 0 645 40 15 839 2 cyaA Adenylate cyclase Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd)

  • Number of RefSeq hits:

General

Source Proteus mirabilis HI4320
Locus tag PMI_RS16585
Feature type CDS
Gene -
Product class I adenylate cyclase
Location 3655180 - 3657777 (strand: 1)
Length 2598 (nucleotides) / 865 (amino acids)

Contig

Accession NC_010554
Length 4063606 nucleotides
Topology circular
Plasmid False

Orthology

Orthogroup group_1344
Orthogroup size 7
N. genomes 7

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Genomic region

Domains

PF01295 Adenylate cyclase, class-I
PF12633 Adenylate cyclase NT domain

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG3072 Signal transduction mechanisms (T) T Adenylate cyclase, class I

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K05851 adenylate cyclase, class 1 [EC:4.6.1.1] Purine metabolism
Metabolic pathways
Biofilm formation - Escherichia coli
Biofilm formation - Vibrio cholerae		 -

Protein Sequence

MYLYIETLKQRLDAINQLRLERAFASMSDVFKQVYGLIPVLLHYHHPQLPGYIQGNVPHGTCFFEPDDVQRQWVNKLTNASCDEPMNGYTSGELPITGIYSMGSTSSIGQSHCSDIDIWVCHQSWLDQDERARLQRKCLLIEQWAGELGIDVTFFLIDENRFRHHASGSLGGEDCGSTQHILLLDEFYRTAVRLAGKRLLWTMVPVEEEYHYDEYVNSLYAQGVLTPNEWLDLGGLGELSAEEYFGASLWQLYKSVDSPYKAVLKSILLEAYSADYPNGKLLALEMKQHLHRGEIVNYGLDAYCMMLERVTRYLVSINDLTRLDLIRRCFYLKVCEKLSNEKNENEPAGWRRQVLSQLVTQWQWDHERLAILDNRDSWKIERVRNAHNELLDTMMQSYRNLIRFARRNNLSVSASPQDIGVLTRKLYAAFEALPGKVTLVNPQISPDLSEPHLTFIYVPPGRANRSGWYLYNRAPDFAHIVGHQPLEYNRYLNKLVAWSYFNGLLTKDSQVYIHQGDSSCDEIKLHELVRDISSHFPIRLPAPTPKALYSPCEIRHLAIIVNLEVDPTERFSDQVVHFDFRKLDVFSFGEEEQCLIGSIDLLYRNSWNEVRTLHFNGTQSMLESLKTILGKMHQDAAPPASVEVFCYSQHLRGLIRTRVQQLVSECIELRLSTNRLEPGRFKALRIAGQTWGLFFERLNVSVQKLENAIEFYGAISYNKLHGLPVKLGKDARYLPAVIDGFACEGIIQFFFETTEDNNVFNIYILDEANRVEIYSHCEGSKEELVKDVSRFYSSSHDRFTYGSSFINFNLPQFYQIVKVDGATQVLPFAGGSFGKLSDLGKTAPKEEMSTKPIQGFNDYQAVHHH

Flanking regions ( +/- flanking 50bp)

TTTATAAACTCAGATTCTACTATTTTCTTAGTATTGTTCAGGCGAAACTCTTGTATCTTTATATTGAAACACTGAAGCAACGGCTGGATGCGATTAATCAACTCAGGCTGGAACGTGCATTTGCATCGATGAGTGATGTGTTTAAACAGGTGTATGGTTTAATTCCTGTTTTACTGCATTACCACCACCCTCAGTTGCCAGGCTATATTCAAGGAAATGTCCCTCATGGTACATGTTTCTTTGAACCTGATGACGTGCAACGTCAATGGGTCAATAAGCTGACTAATGCATCATGTGATGAGCCAATGAATGGATACACCAGCGGAGAGTTACCTATTACGGGTATCTATTCGATGGGAAGTACTTCCTCGATTGGGCAAAGTCACTGCTCCGATATTGATATTTGGGTCTGTCACCAATCTTGGCTGGACCAAGATGAGCGTGCGCGTTTACAACGTAAATGTTTACTGATAGAACAATGGGCGGGAGAATTAGGTATTGATGTTACTTTTTTCTTAATTGATGAGAATCGCTTCCGTCATCATGCAAGTGGTAGCTTAGGTGGGGAAGATTGCGGCTCAACTCAGCATATCCTGTTACTTGATGAGTTCTACCGTACCGCTGTTCGCCTTGCAGGTAAACGTTTGTTATGGACGATGGTACCAGTAGAAGAAGAGTACCATTACGATGAATATGTTAATTCACTCTATGCCCAAGGTGTATTAACGCCCAATGAATGGCTTGATTTAGGTGGATTAGGTGAGCTTTCTGCCGAAGAGTATTTTGGTGCAAGCCTGTGGCAACTCTATAAGAGTGTTGATTCACCTTATAAAGCCGTATTAAAAAGTATTTTATTGGAAGCCTATTCCGCGGATTACCCTAATGGCAAATTGTTGGCATTAGAAATGAAACAGCATCTTCATCGTGGTGAAATCGTAAATTACGGTTTAGATGCATATTGTATGATGCTTGAGCGCGTAACCCGCTATTTAGTTTCGATTAATGATTTAACCCGCCTTGATTTAATCCGTCGCTGTTTCTACCTGAAAGTTTGTGAAAAATTATCTAATGAAAAAAATGAGAATGAACCTGCAGGTTGGCGACGCCAAGTATTATCTCAGTTAGTCACGCAGTGGCAGTGGGATCACGAACGTTTAGCGATATTAGATAATCGTGATAGCTGGAAAATAGAGCGCGTTCGTAACGCACATAATGAATTATTAGATACGATGATGCAAAGCTATCGTAATCTTATTCGTTTTGCGCGCCGTAATAACTTAAGTGTCAGTGCTAGTCCACAAGATATTGGTGTATTAACACGTAAGCTTTATGCCGCTTTTGAAGCGCTACCGGGTAAAGTAACCCTGGTTAATCCACAGATTTCTCCTGATTTATCCGAGCCTCATTTAACCTTTATCTATGTGCCACCGGGACGCGCTAATCGTAGTGGTTGGTATCTTTATAATCGGGCTCCCGATTTTGCACATATTGTTGGTCATCAACCGTTAGAATATAACCGTTACTTAAATAAATTAGTGGCGTGGTCTTATTTTAATGGGTTACTTACTAAAGATTCACAGGTTTATATTCATCAAGGTGACTCCTCTTGTGATGAAATTAAACTTCATGAATTAGTGCGGGATATCTCGAGTCATTTTCCTATTCGTTTACCTGCCCCGACGCCTAAAGCACTGTATAGCCCTTGTGAAATTAGGCATTTAGCCATTATTGTCAATTTAGAAGTTGACCCAACAGAGCGTTTTTCTGATCAAGTAGTGCATTTTGATTTTAGAAAGTTGGATGTATTTAGCTTTGGCGAGGAAGAGCAATGCTTAATTGGTAGTATCGATTTACTCTATCGTAACTCTTGGAATGAAGTGAGAACGCTGCATTTTAATGGTACGCAATCGATGTTGGAATCGTTAAAAACTATTTTAGGTAAAATGCACCAAGATGCGGCCCCACCTGCATCGGTTGAAGTTTTTTGTTATAGCCAGCATCTACGTGGTTTAATTCGTACCCGTGTTCAACAGTTAGTCTCAGAATGTATTGAATTGCGTTTATCAACCAATAGATTAGAGCCAGGGCGTTTTAAAGCATTACGTATTGCAGGGCAAACATGGGGATTGTTCTTTGAACGTCTTAATGTTTCTGTACAAAAGTTGGAGAATGCCATTGAATTTTATGGTGCTATTTCATACAACAAATTGCATGGATTACCCGTTAAATTAGGCAAAGATGCCCGTTATCTGCCCGCTGTGATTGATGGTTTTGCTTGTGAAGGGATTATTCAGTTCTTCTTTGAAACAACAGAGGATAATAATGTCTTTAATATCTATATCTTAGATGAAGCTAATCGAGTGGAGATTTATTCTCACTGCGAAGGTAGTAAAGAAGAGCTAGTAAAAGATGTCAGCCGTTTTTACTCTTCATCTCATGATCGCTTTACTTATGGCTCAAGCTTTATCAACTTCAATTTGCCACAGTTTTATCAAATCGTGAAAGTGGATGGAGCAACGCAAGTACTGCCTTTTGCTGGGGGATCGTTTGGTAAGCTAAGTGATCTAGGTAAAACAGCGCCAAAAGAAGAGATGAGTACTAAGCCTATTCAAGGATTTAATGATTATCAGGCTGTACATCATCATTGATAATCGACACGGCAAAACCGATAGAGAAGTGATGGGGACTTTCCAGCACC