Homologs in group_2912

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5 homologs were identified in 5 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_13640 FBDBKF_13640 100.0 Morganella morganii S1 - DUF637 domain-containing protein
EHELCC_08455 EHELCC_08455 100.0 Morganella morganii S2 - Filamentous haemagglutinin FhaB/tRNA nuclease CdiA-like TPS domain-containing protein
NLDBIP_08780 NLDBIP_08780 100.0 Morganella morganii S4 - Filamentous haemagglutinin FhaB/tRNA nuclease CdiA-like TPS domain-containing protein
HKOGLL_05430 HKOGLL_05430 100.0 Morganella morganii S5 - Filamentous haemagglutinin FhaB/tRNA nuclease CdiA-like TPS domain-containing protein
PMI_RS02925 PMI_RS02925 38.5 Proteus mirabilis HI4320 - DUF637 domain-containing protein

Distribution of the homologs in the orthogroup group_2912

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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_2912

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
C4SGN7 2.62e-38 162 35 4 269 3 cdiA tRNA nuclease CdiA Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204)
D5CBA0 4.19e-37 158 33 3 281 1 cdiA 16S rRNA endonuclease CdiA Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56)
D5CBA0 1e-08 64 26 12 312 1 cdiA 16S rRNA endonuclease CdiA Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56)
P0DSI1 7.57e-36 154 30 12 443 1 cdiA tRNA nuclease CdiA Escherichia coli (strain NC101)
P0DSI1 2.88e-07 59 20 5 309 1 cdiA tRNA nuclease CdiA Escherichia coli (strain NC101)
P0DSI1 1.12e-06 57 21 11 292 1 cdiA tRNA nuclease CdiA Escherichia coli (strain NC101)
B3BM48 2.37e-33 145 36 3 240 1 cdiA1 tRNA nuclease CdiA Escherichia coli O157:H7 (strain EC869)
B3BM48 1.17e-10 70 26 11 245 1 cdiA1 tRNA nuclease CdiA Escherichia coli O157:H7 (strain EC869)
B3BM48 1.33e-06 57 20 5 273 1 cdiA1 tRNA nuclease CdiA Escherichia coli O157:H7 (strain EC869)
Q0T963 3.24e-33 145 33 3 278 1 cdiA tRNA nuclease CdiA Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963 2.6e-07 60 20 5 309 1 cdiA tRNA nuclease CdiA Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963 1.25e-06 57 21 11 292 1 cdiA tRNA nuclease CdiA Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q3YL96 3.74e-33 145 31 5 321 1 cdiA Toxin CdiA Escherichia coli
Q3YL96 4.99e-11 72 27 9 237 1 cdiA Toxin CdiA Escherichia coli
Q3YL96 4.18e-06 55 19 5 273 1 cdiA Toxin CdiA Escherichia coli
A0A1S4NYE3 4.43e-33 144 31 5 321 1 cdiA tRNA nuclease CdiA Escherichia coli (strain STEC_O31)
Q7CGD9 1.83e-30 136 32 4 298 3 cdiA Toxin CdiA Yersinia pestis
P16466 7.63e-27 124 38 5 234 1 hpmA Hemolysin Proteus mirabilis
I1WVY3 1.83e-26 123 29 2 245 1 cdiA2 tRNA nuclease CdiA-2 Burkholderia pseudomallei (strain 1026b)
P15320 8.2e-26 120 37 6 228 1 shlA Hemolysin Serratia marcescens
B3BM80 5.67e-24 109 35 1 142 1 cdiA4 Deoxyribonuclease CdiA-o11 Escherichia coli O157:H7 (strain EC869)
P12255 5.94e-23 111 28 3 218 1 fhaB Filamentous hemagglutinin Bordetella pertussis (strain Tohama I / ATCC BAA-589 / NCTC 13251)
A0A0H3B0B8 2.24e-19 99 32 1 140 1 cdiA Deoxyribonuclease CdiA Yersinia pseudotuberculosis serotype O:3 (strain YPIII)
Q06277 8.78e-16 87 26 10 317 1 ibpA Protein adenylyltransferase and cysteine protease IbpA Histophilus somni (strain 2336)
E0SDG8 0.001 48 24 9 231 1 cdiA Deoxyribonuclease CdiA Dickeya dadantii (strain 3937)

  • Number of RefSeq hits:

General

Source Morganella morganii S3
Locus tag LHKJJB_05485
Feature type CDS
Gene -
Product Filamentous haemagglutinin FhaB/tRNA nuclease CdiA-like TPS domain-containing protein
Location 87328 - 92619 (strand: -1)
Length 5292 (nucleotides) / 1763 (amino acids)

Contig

Accession ZDB_362
Length 257361 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_2912
Orthogroup size 6
N. genomes 6

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Genomic region

Domains

PF04830 Possible hemagglutinin (DUF637)
PF05860 TPS secretion domain
PF21111 CDI toxin restriction endonuclease-like domain

Protein Sequence

MCFINKMKKLFIILFSVFPYYIYASEITPANNRLKVNVKRDITIIDISRPDGNRLSHNQYSKFNVSEVGVVLNNGTEDSQSYLAGEIEGNINLRGSSASLIINEVISDGPSDFSGAMEVSGNPASVIIANPNGITCDGCHFINTPDITLATGNVNFNPENKFSSLNVRNGSITINKKGMDTYAQKNTNLISADTKINGKINTKNLFIINGTNKINYQDGIQESISGFMGNQSSSVNMTEEGGISAEKIRIINTSSDGNVQLNNIESVNNGISVAAKKSVLLSRDITSKEKIRVIADNIIIGDKAKITSGHDTTLISNYILNAGEVISKGNVRIFSDVVNNQGHEAIIQAEENLWIQKNPEGDFSRSVVNKSALLKSERGNLIIKAKTLTNVSNSEPVEFFKLPAKSTEVRSVGNQLRYLPVWRRDGLLIVYPELKDFKYEKWFDEIDLLANDSVNVEKYAVRYKSDYHPAYIDSGKNIYINANHFDNNDSFLSAGENIVLTGKDINIKNHGLGILKLWERYEPEDINSEWLRFFVEPDTIPPGVMVNDIKIPFQKKEQFYTWISHGVADSPSVSSENLIIDYSNTINVESKIPEKHYPVNEIIRDGFSHHLAAENILLNSSSIDLKSKIGAINNLNVQAKEKIYSRESTLVAGKSLSLTADSIELENTNIKSGELSLIAKKGDVIYSTGIRPVFTSDISALPLLHAPGGIYADAGGDITFKNIAFTLNSHVDLSSRKNILIDFDPKTISGISTKKSDYEIKSLSDKFQEWTLSDYITLNAGSDIAINGTDISSKNDIGFYSGGNIDITFDKKWKGRSDIYARYLRPKIRIHSERNFIINSAGDVNLLNAGLHADESLLLFSGGEFSLAGIPYSAIRYSYDDYIDNRYVSSYLTAKKNITLVAEGDVNLHAAILSSDDDIYIHSSGNIQLGSEKIHYRQKRRNYLEDTYRHVSTLVKSKNKLTLLSEGSVLFQGAELISDGVMDISAKGGYLYAQAMEETSHYEDKKKKCNRWTFCITKKEVTKVKHEVKNKTTEFTSKEDINLIALDDITLEAAKISAAKNARLKSISGKINFKAVNDSLYEQTVSHSRGFYITRRDQGHSLSRWRLPQIYYGGNLSVDAAKGITADSKTFSIPEFKESAMMLSSHTGTGWLKELITRDDVQWNRVADAYQRWDYKEQHLNQVASAVLAVAVTAATSGSGLAAWAGSTASSAATGTAAAVISGAAHSGMIALTTQAAVALAENKGDLSETFKSLGRSESVKSVIGQMVVGGAFNGLDKSMGWQNGNPAQSRIPLLSDGDWHKVAQRVSAQSVISSAVGSAVSETSFRENFISALLSNTGSQFNAEGAKLIGDHGEILTEPGKAITHAAVAAVRAELTNRSVRGAVTGALAASAAGIILGDSLDQTAQEHEQQAQLARMTGAVAGLIATGHINGLTTAADAAEIVERYNRQFHLQELKAIEELADGDNFKKERLLAAGCRLINCTVQESANSPDKLRFDVLMAKYPETYLEDNLLTNYWVTKADDGIRYYPWSVAPGKVQLFTYSETERHDDIDDFVRNQYAEYITDFTGLEKATAEIIIDSILMSSVNGRRGNPARMHKHIRKVSYADLNQIYTTDKKGNKIPMKWYQSGSSVNQQGMPFEHYIGTQLPPGSKLPDGFKTFDYYDSKDKIAISVKTINTQTDSRLNKPDAIKYIINGHVNKMAQFTDHIKEGTPLSTDDIKKRVLHIGLPEKTTSEQWKSINSAVKNANDKNIDIKITIIKGN

Flanking regions ( +/- flanking 50bp)

CTTCCGGTGAGTGTATGACTGTATTGCTTAATTAACACACCGGAGGTGTTATGTGCTTTATTAATAAGATGAAAAAATTATTTATTATATTATTTTCTGTTTTTCCCTATTATATATATGCATCAGAAATAACTCCGGCTAATAACCGTTTAAAAGTAAATGTCAAAAGAGATATAACTATTATTGACATTTCAAGGCCGGATGGAAATAGATTGTCACATAATCAATACAGTAAGTTTAATGTTTCTGAAGTCGGCGTGGTATTAAATAACGGAACAGAAGACAGTCAATCTTATCTGGCAGGTGAAATAGAGGGAAACATAAATCTGCGGGGGAGTAGTGCCAGTTTAATTATTAATGAGGTAATCAGTGATGGTCCATCTGACTTTTCGGGGGCTATGGAGGTTTCCGGTAACCCGGCATCAGTTATTATTGCTAATCCCAATGGTATTACCTGTGATGGCTGTCATTTCATTAACACGCCAGATATTACACTTGCCACGGGGAATGTGAATTTTAATCCTGAAAATAAATTTTCATCTCTCAATGTAAGAAATGGATCAATCACGATAAATAAAAAAGGGATGGATACATATGCACAAAAAAATACTAATCTTATCAGTGCTGATACGAAAATAAATGGAAAGATAAATACAAAAAATCTTTTTATTATAAATGGTACAAATAAAATTAATTACCAGGATGGTATTCAGGAATCTATATCCGGTTTTATGGGGAATCAATCATCATCAGTAAATATGACTGAGGAAGGTGGGATTTCGGCTGAAAAAATTCGCATTATTAATACAAGCAGTGATGGCAATGTACAACTAAATAATATTGAGTCTGTTAATAATGGTATAAGTGTAGCAGCAAAAAAATCGGTATTATTATCCAGAGATATAACATCAAAAGAAAAAATAAGAGTAATAGCCGATAACATTATTATAGGAGATAAAGCAAAGATTACTTCCGGTCATGACACTACTCTTATATCAAATTATATTTTAAATGCCGGAGAGGTTATATCAAAAGGTAATGTACGTATTTTTTCTGATGTTGTTAATAATCAGGGTCACGAAGCAATTATACAGGCAGAGGAAAATTTATGGATACAAAAAAATCCGGAAGGTGATTTTAGCAGGAGTGTTGTTAATAAATCAGCTTTACTAAAGTCTGAACGTGGTAATTTAATTATAAAAGCGAAGACATTAACTAATGTCAGTAACTCTGAGCCTGTTGAGTTTTTTAAGCTTCCGGCTAAATCTACCGAAGTGCGCAGCGTCGGAAATCAGTTGCGTTATTTGCCGGTGTGGCGGCGAGATGGATTACTGATTGTATATCCGGAATTAAAAGATTTTAAATATGAAAAATGGTTTGATGAAATAGATTTACTAGCTAATGACAGTGTTAATGTTGAAAAATATGCAGTGAGATATAAGAGTGATTATCATCCTGCGTATATAGATTCCGGTAAAAATATATATATAAATGCGAATCACTTTGACAATAATGATTCATTTTTATCTGCAGGGGAAAATATAGTTTTAACCGGCAAGGATATCAATATTAAAAATCATGGTCTGGGTATTTTAAAACTATGGGAAAGATATGAACCGGAAGATATAAACAGTGAATGGCTGCGTTTTTTTGTTGAGCCGGATACTATTCCCCCCGGGGTAATGGTTAATGATATTAAAATTCCCTTTCAGAAAAAGGAGCAATTTTATACATGGATTAGCCATGGGGTGGCTGACAGTCCATCTGTAAGTTCAGAAAATCTGATTATAGATTATAGCAATACAATTAATGTAGAGAGTAAGATCCCTGAAAAACACTATCCGGTAAATGAGATTATCAGAGATGGTTTTAGTCATCATTTAGCTGCAGAAAATATATTGTTGAATTCTTCATCAATAGATTTGAAGTCAAAAATAGGTGCAATTAATAATTTAAATGTTCAGGCTAAAGAGAAAATTTATTCACGTGAAAGTACATTGGTAGCGGGTAAGTCATTATCATTAACAGCAGATAGTATTGAACTTGAAAATACCAATATAAAGTCCGGTGAGCTGTCTCTTATTGCAAAGAAAGGCGATGTAATATACTCAACAGGAATCAGGCCTGTATTTACATCTGACATTTCTGCGCTGCCTCTGTTACATGCACCTGGTGGCATCTATGCAGATGCAGGAGGTGATATTACATTCAAAAATATAGCATTCACATTAAATAGTCATGTGGATTTATCTTCCCGAAAAAATATACTGATTGATTTTGATCCGAAAACGATATCAGGAATATCCACAAAAAAGTCAGATTATGAAATAAAATCACTGTCAGATAAATTTCAGGAATGGACACTTTCAGATTATATCACCCTGAATGCCGGAAGTGATATTGCTATTAATGGTACAGATATTAGCAGCAAAAATGATATAGGTTTTTATTCCGGCGGAAATATAGATATTACCTTTGATAAAAAATGGAAAGGCCGTAGTGATATCTATGCAAGATATTTAAGGCCCAAAATACGCATTCATTCAGAAAGAAACTTTATTATTAACTCTGCCGGAGATGTAAATCTATTGAATGCAGGCCTGCATGCTGATGAGTCTTTATTATTGTTTTCTGGCGGGGAGTTTAGCCTGGCAGGGATTCCTTATTCAGCAATAAGGTATTCTTATGATGATTACATTGATAATCGCTATGTAAGTTCTTATCTTACAGCAAAGAAAAATATTACATTAGTGGCGGAAGGTGATGTTAATCTGCATGCAGCAATACTCTCCTCTGATGATGATATATATATTCATAGCAGTGGAAATATTCAGTTGGGGTCTGAAAAAATACACTATCGTCAGAAAAGACGTAATTATCTGGAAGATACATATCGCCATGTCAGTACACTGGTAAAAAGCAAGAACAAATTAACACTATTGTCTGAAGGCAGTGTTTTATTTCAGGGTGCTGAGCTTATTTCTGATGGTGTAATGGATATCTCGGCAAAGGGCGGGTATTTATATGCACAGGCAATGGAAGAAACGAGTCATTATGAAGATAAGAAAAAGAAATGTAATCGTTGGACATTCTGTATAACAAAAAAAGAAGTTACAAAGGTAAAGCATGAAGTAAAAAATAAAACGACAGAATTTACATCGAAAGAAGATATTAATTTAATCGCCCTGGATGATATCACACTTGAAGCTGCAAAAATTTCAGCAGCTAAAAATGCCAGGCTGAAAAGTATCTCAGGGAAAATTAATTTTAAAGCTGTTAACGACTCACTTTATGAGCAAACCGTCAGCCATTCCAGGGGGTTCTACATTACCCGCCGTGATCAGGGGCACTCGCTGAGCCGCTGGCGGTTACCGCAGATTTATTACGGCGGAAATTTATCTGTTGATGCAGCAAAAGGCATAACCGCAGACAGTAAAACATTCAGCATTCCTGAATTTAAAGAATCCGCAATGATGCTGAGCAGCCATACCGGAACCGGTTGGCTGAAAGAACTGATAACCCGCGATGATGTTCAGTGGAACCGGGTTGCTGATGCCTATCAGCGCTGGGACTATAAAGAGCAGCACCTTAATCAGGTAGCATCAGCTGTTCTGGCTGTTGCCGTCACCGCTGCGACATCGGGCTCCGGGCTGGCAGCGTGGGCGGGGAGTACCGCATCTTCCGCAGCCACAGGAACGGCTGCCGCTGTTATTTCCGGAGCCGCGCATTCCGGAATGATAGCACTGACAACACAGGCAGCGGTTGCACTGGCAGAGAATAAAGGCGATTTATCTGAAACATTTAAATCTCTGGGGCGCAGTGAAAGTGTTAAATCTGTTATTGGTCAGATGGTTGTCGGAGGGGCGTTCAATGGTCTGGATAAATCGATGGGCTGGCAGAACGGAAATCCGGCACAATCGCGGATTCCGTTACTGAGTGACGGAGATTGGCACAAGGTTGCACAGCGCGTTTCCGCCCAGTCTGTAATCAGCTCAGCGGTGGGTTCGGCAGTATCAGAAACAAGTTTCAGGGAGAACTTTATTAGTGCGCTTCTCAGTAACACGGGAAGTCAGTTTAATGCTGAAGGCGCCAAATTAATTGGTGACCACGGTGAAATATTAACGGAACCGGGCAAAGCAATTACGCATGCTGCGGTTGCTGCTGTCAGAGCTGAGCTGACCAACCGGAGTGTCAGAGGAGCGGTTACCGGGGCGCTGGCAGCGTCGGCAGCCGGTATTATATTAGGCGATTCTTTAGATCAGACAGCGCAGGAACATGAACAACAGGCACAGCTGGCCCGGATGACAGGTGCTGTTGCCGGATTGATTGCAACAGGCCATATCAACGGGCTGACCACTGCGGCGGATGCTGCTGAGATCGTTGAACGTTATAACCGTCAGTTTCATTTGCAGGAATTAAAGGCGATAGAGGAACTGGCTGACGGTGATAATTTTAAAAAAGAGCGTCTGCTTGCAGCAGGTTGCCGTCTGATCAACTGTACTGTGCAGGAATCTGCAAATTCACCGGATAAATTACGTTTTGATGTGTTAATGGCAAAATATCCGGAGACATATCTTGAAGATAATTTACTGACAAATTACTGGGTGACAAAAGCGGATGACGGCATTCGTTATTATCCCTGGTCAGTTGCACCTGGAAAAGTACAGCTTTTTACTTACAGTGAAACTGAAAGACATGATGATATTGATGATTTTGTCCGTAATCAATATGCGGAATATATAACAGATTTTACCGGTCTGGAAAAAGCAACTGCCGAAATTATTATCGACAGTATATTGATGTCATCAGTGAATGGCAGGAGAGGTAATCCTGCCAGAATGCATAAACATATCAGAAAGGTCAGTTATGCAGATTTAAATCAAATCTATACCACCGATAAAAAGGGCAATAAAATCCCGATGAAATGGTATCAGTCAGGTTCCTCTGTCAACCAGCAGGGTATGCCGTTTGAGCATTATATTGGTACACAATTACCGCCAGGCTCAAAACTCCCGGATGGATTCAAAACCTTTGATTATTATGACAGTAAAGATAAAATAGCGATTAGCGTAAAAACTATTAACACTCAAACAGATAGTAGACTAAATAAACCTGATGCCATAAAATATATCATTAATGGCCATGTTAATAAAATGGCTCAGTTTACAGATCACATAAAAGAGGGTACTCCATTGAGCACAGATGATATCAAGAAAAGAGTATTACATATTGGTCTTCCGGAAAAAACAACATCTGAACAATGGAAGTCAATAAATAGTGCAGTAAAGAACGCAAACGATAAAAATATAGATATTAAAATAACCATTATAAAAGGTAATTAGTATGAATTCGATAAATTCGGATGAGTTTAATGCAGTCGTAAGTTTTAATG