Homologs in group_1822

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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
EHELCC_06315 EHELCC_06315 100.0 Morganella morganii S2 - Hemolysin
NLDBIP_06635 NLDBIP_06635 99.9 Morganella morganii S4 - Hemolysin
LHKJJB_03515 LHKJJB_03515 99.9 Morganella morganii S3 - Hemolysin
HKOGLL_06990 HKOGLL_06990 99.9 Morganella morganii S5 - Hemolysin
F4V73_RS16185 F4V73_RS16185 76.9 Morganella psychrotolerans - hemagglutinin repeat-containing protein
PMI_RS10140 PMI_RS10140 39.8 Proteus mirabilis HI4320 hpmA calcium-independent hemolysin HpmA

Distribution of the homologs in the orthogroup group_1822

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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_1822

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
P15320 0.0 953 39 15 1521 1 shlA Hemolysin Serratia marcescens
P16466 0.0 916 37 15 1537 1 hpmA Hemolysin Proteus mirabilis
C4SGN7 3.48e-42 174 44 12 279 3 cdiA tRNA nuclease CdiA Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204)
Q7CGD9 7.98e-42 173 33 12 471 3 cdiA Toxin CdiA Yersinia pestis
Q7CGD9 1.27e-09 67 25 15 500 3 cdiA Toxin CdiA Yersinia pestis
D5CBA0 4.33e-34 147 31 24 548 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 5.71e-07 58 27 12 385 1 cdiA 16S rRNA endonuclease CdiA Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56)
Q0T963 5.69e-34 147 39 13 278 1 cdiA tRNA nuclease CdiA Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963 1.02e-08 64 26 13 427 1 cdiA tRNA nuclease CdiA Escherichia coli O6:K15:H31 (strain 536 / UPEC)
A0A1S4NYE3 6.91e-34 147 40 13 278 1 cdiA tRNA nuclease CdiA Escherichia coli (strain STEC_O31)
B3BM48 1.02e-33 146 39 13 278 1 cdiA1 tRNA nuclease CdiA Escherichia coli O157:H7 (strain EC869)
Q3YL96 4.72e-33 144 39 13 278 1 cdiA Toxin CdiA Escherichia coli
I1WVY3 8.3e-32 140 30 18 533 1 cdiA2 tRNA nuclease CdiA-2 Burkholderia pseudomallei (strain 1026b)
I1WVY3 1.83e-05 53 24 24 607 1 cdiA2 tRNA nuclease CdiA-2 Burkholderia pseudomallei (strain 1026b)
P0DSI1 1.18e-31 139 39 12 264 1 cdiA tRNA nuclease CdiA Escherichia coli (strain NC101)
P0DSI1 9.59e-09 64 26 13 427 1 cdiA tRNA nuclease CdiA Escherichia coli (strain NC101)
P12255 7.26e-29 130 34 11 328 1 fhaB Filamentous hemagglutinin Bordetella pertussis (strain Tohama I / ATCC BAA-589 / NCTC 13251)
Q06277 3.79e-18 95 29 19 441 1 ibpA Protein adenylyltransferase and cysteine protease IbpA Histophilus somni (strain 2336)
E0SDG8 1.79e-06 57 24 12 371 1 cdiA Deoxyribonuclease CdiA Dickeya dadantii (strain 3937)
H9T8G6 5.1e-06 55 27 18 397 1 cdiA tRNA nuclease CdiA (Fragment) Burkholderia pseudomallei
H9T8G4 8.2e-06 54 27 18 397 1 cdiA tRNA nuclease CdiA (Fragment) Burkholderia pseudomallei

  • Number of RefSeq hits:

General

Source Morganella morganii S1
Locus tag FBDBKF_13000
Feature type CDS
Gene -
Product Hemolysin
Location 100290 - 104924 (strand: -1)
Length 4635 (nucleotides) / 1544 (amino acids)
In genomic island -

Contig

Accession contig_15
Length 114235 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_1822
Orthogroup size 7
N. genomes 7

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Genomic region

Domains

PF05860 TPS secretion domain
PF13332 Hemagglutinin repeat

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG3210 Intracellular trafficking, secretion, and vesicular transport (U) U Large exoprotein involved in heme utilization or adhesion

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K11016 hemolysin Bacterial secretion system -

Protein Sequence

MKKERFKLSSSGKVAAWMALAFVTLNSAAAGIVADGGPNGPGVSQVNGTDIVNITAPNSNGLSHNQYLDFNVDNRGAVFNNALTAGQSQLAGMLEANKNLNGQAAGVILNEVVSRNPSLLLGQQEVFGMAADLILANPNGISCQGCGFINTNNAGLIVGNPLIENGMISAYSTLDNTSSLTIGNNGITTGKVLDLVAPAINADGEIRAAALNVITGNNTVSADMQTISAGKNAVPLDSYYLGGMRAGKIRLVNTAQGSGVKLAGNIDAVNGFDAQSQGALTLTSAQVTGGDIRLSGDTLRTEGQLRNEHQRTEDKRSGKSVTGETRQGRYTRTSLDGKNITLVVQQEARLTGTDLHGLEIAVHAGSITLDSDQVAQSDTRTTNQWKMSWENNETRKDESIRQETSNLRADGDIRLAAKTGDITLKGATLAAGSHLSADAKGDIRLESVTDSRTQTVSGNKRNETAKLLSGTHGDVTSKEQLVKTELTAGGNLGLNAGHDIRAQAVQVHAGQDLIINTGNNLTIGTQTTTQHQGHTENITSWGGIGGGSRENRATTEETAHGSDVTAGGKLWLSGGNGVTVTGSKVKGTQDSLVQTGQGALVIENGISRTAKHIDNRDGGAFNITRSTLRENSEDTRVERSELKSEADLRLAGKNDITIAGSLIESAGTLKIDTLGDINIRAAQAQKQSDKTETTLKISGYAKEDEDKQYRAGLDINHTRDTQKQDSVTQQGSELKGGSVSVTAGNDLTLTGSSLITTQGDAALSAENITLNAADNRETRTQQKGESHGGIYLTGGMDKLGGGLSGGHTETGKTQEHHQAVTSGTQVQGNLTLTAGKTLSQEGVSHTVGGAYTETAQNSAHRAAHNSDRTTETRKGGEGSLGVSLDYSKVSRPLAKAGENIAEGNIAGVADSTAATGLPDIGVDLSGKGENRQTISENTQAKTTSVNAGSVAVNTTDRVLDEGTQYRADNGGIAISTGDYQSAAAADTHHQSESVTEGKGSLRVATSTGQDVAISAEGSGGHRLATESSSKAVTGSLSAKGDISVQAGRDAALQGDTLRSEEGLVSVRAGDNLTLDQAGDTHSKTVSGYDAGAKVNVESLNLKNAGGGLSGGREVYNESGTTAKTGVIEGKTGVVLQAGNDLTANGTNVSSGGDVTVKGGHNTLLDSAESTNTISGHQWHGGVQANGGKTEIGSKLGGGADFSISKQSENVTDQRGGSLRSGGTVSVSADGMRDDALHLKGTQIDAQNTALTARDGGIVIESAQKTTDKANWNAGGNLNIGTSRSTENPETGSRHNISAGLKGGIDNQQTVTQKNALADSGNLTLNSRNDTQIRGGKLTADTISGRVGGDLIVESRTNTESVLKVDADLSAAHTNDEGSSTTSKLANAGTPKFADDIKAGLENGLDKAADSVRENAGAGAGTVADKVKSGLTSPSGMNGNVKASFETRSAEQVGQQSGLTAREQGKLRTGGSTILTGAVLDGLPDNGNTEMRSVAVKETGTRIHGELPLNAGQAVSAVKDGIVNGKSPVGISVTNDHSSVNSKVK

Flanking regions ( +/- flanking 50bp)

GATATCAGTTCTGACCTGCTCCGTCAGTCGTTGGATGGTAAGGAAATACAATGAAAAAAGAACGCTTTAAACTCTCTTCGTCAGGTAAGGTGGCCGCGTGGATGGCACTGGCCTTTGTCACGCTGAACAGCGCAGCCGCAGGGATTGTGGCGGACGGCGGCCCGAACGGCCCCGGGGTTTCTCAGGTAAACGGAACGGATATTGTTAATATTACAGCACCGAACAGTAACGGGCTGTCTCATAACCAGTATCTTGATTTTAATGTGGATAACCGGGGCGCGGTCTTTAATAACGCCCTGACCGCCGGGCAGTCGCAGCTGGCGGGCATGCTGGAAGCCAACAAAAACCTGAACGGGCAGGCCGCCGGGGTGATCCTCAACGAAGTGGTCAGCCGTAACCCCTCTCTGCTGCTGGGTCAGCAGGAAGTGTTCGGTATGGCGGCGGATCTGATCCTCGCCAACCCGAACGGGATCAGCTGTCAGGGCTGTGGTTTTATCAACACCAATAATGCCGGGCTGATCGTGGGTAATCCGCTGATTGAGAACGGAATGATCAGTGCATACAGTACGCTGGATAACACCAGTTCACTGACGATCGGAAATAACGGGATCACGACCGGTAAAGTGCTGGATCTGGTTGCGCCTGCGATTAATGCCGACGGGGAGATCCGCGCGGCGGCACTGAATGTGATCACCGGGAACAATACCGTTTCCGCTGATATGCAGACTATTTCCGCCGGGAAAAACGCGGTTCCGCTGGACAGCTATTATCTGGGCGGCATGCGCGCCGGTAAAATCCGTCTGGTGAATACCGCGCAGGGCAGTGGTGTGAAACTGGCCGGTAATATTGATGCTGTGAATGGTTTCGATGCTCAGTCTCAGGGCGCTCTGACACTCACCAGCGCACAGGTCACCGGCGGGGATATCCGCCTGAGCGGTGATACGCTGCGTACCGAAGGACAGCTGCGCAACGAACATCAGCGGACAGAAGACAAACGCAGCGGGAAATCCGTCACCGGCGAAACCAGGCAGGGACGCTACACCCGCACCTCACTGGACGGCAAAAACATCACACTGGTGGTACAGCAGGAAGCCAGGCTGACCGGCACTGATCTGCACGGGCTGGAGATCGCCGTTCATGCCGGCTCCATCACGCTCGACAGCGACCAGGTTGCACAGTCAGACACCCGTACCACAAATCAGTGGAAGATGTCGTGGGAAAATAATGAAACCCGCAAAGATGAAAGCATCCGGCAGGAAACCAGCAACCTCCGTGCTGACGGTGATATCCGTCTGGCAGCCAAAACCGGTGATATTACCCTGAAAGGGGCAACACTGGCGGCCGGATCGCATCTCAGTGCGGATGCCAAAGGGGATATCCGGCTGGAGAGCGTGACTGACTCCCGCACTCAGACGGTGTCCGGCAATAAACGCAATGAGACGGCAAAACTGCTCAGCGGCACACACGGCGATGTCACGTCAAAAGAGCAACTGGTGAAAACGGAACTGACCGCAGGCGGCAATCTGGGACTGAATGCCGGTCATGACATCCGGGCTCAGGCGGTACAGGTACACGCCGGACAGGATCTGATCATCAACACCGGTAATAATCTCACCATCGGTACGCAAACGACGACACAGCATCAGGGGCATACGGAGAATATCACCTCCTGGGGCGGTATCGGCGGCGGCTCCCGTGAAAACCGGGCCACCACGGAAGAGACGGCGCACGGCTCTGACGTTACCGCAGGCGGTAAGCTCTGGCTTTCCGGCGGTAACGGCGTCACTGTTACCGGCAGCAAGGTAAAAGGCACACAGGACAGTCTGGTGCAGACCGGACAGGGCGCGCTGGTGATTGAAAACGGCATCAGCCGGACGGCGAAACACATTGATAACCGTGATGGCGGCGCGTTTAACATCACCCGCAGTACCCTCCGTGAAAACAGTGAAGATACCCGCGTTGAGCGCAGCGAGCTGAAATCAGAAGCTGACCTGCGGCTGGCCGGGAAAAATGATATCACCATCGCCGGAAGCCTGATTGAAAGTGCAGGCACACTGAAAATTGATACCCTTGGTGATATCAATATCCGTGCGGCACAGGCACAAAAACAGTCTGACAAAACAGAAACCACACTCAAAATCAGCGGCTATGCCAAAGAGGATGAGGACAAACAGTACCGCGCCGGTCTGGATATCAACCATACCCGCGACACACAAAAGCAGGATTCTGTTACGCAGCAGGGCAGTGAACTCAAAGGCGGCAGTGTCTCTGTCACCGCAGGAAACGATCTCACGCTTACCGGCTCCTCTCTGATCACCACGCAGGGGGATGCGGCGCTTTCCGCTGAAAATATCACCCTGAACGCAGCGGATAACCGTGAAACCCGGACACAGCAGAAAGGGGAATCACACGGCGGTATTTATCTGACCGGCGGCATGGATAAACTGGGCGGCGGTCTGAGCGGCGGTCATACTGAAACCGGTAAGACACAGGAGCATCATCAGGCGGTCACCTCCGGCACTCAGGTGCAGGGTAATCTCACCCTGACCGCCGGTAAAACCCTCTCGCAGGAAGGCGTATCACACACGGTGGGCGGCGCTTATACGGAAACTGCGCAAAACTCGGCGCACCGGGCGGCTCACAACAGTGATCGCACCACGGAAACCCGTAAAGGCGGCGAAGGCAGCCTCGGGGTCTCACTGGATTACAGCAAAGTCTCCCGTCCGCTGGCCAAAGCCGGTGAAAATATTGCGGAAGGCAATATTGCCGGGGTGGCGGACAGCACCGCTGCCACCGGACTGCCGGATATCGGCGTTGATCTGAGCGGTAAAGGGGAAAACCGGCAGACCATCAGTGAAAACACACAGGCAAAAACCACCTCTGTTAATGCAGGATCGGTTGCCGTGAACACCACGGATCGTGTTCTTGATGAAGGAACACAGTACCGGGCGGATAACGGCGGTATTGCGATCAGCACCGGCGATTATCAGTCTGCGGCGGCAGCGGATACACATCATCAGTCGGAATCTGTGACTGAGGGCAAAGGAAGTCTGCGTGTGGCAACATCCACCGGACAGGATGTTGCGATCAGCGCGGAAGGCAGCGGCGGTCATCGTCTGGCAACTGAGAGCAGCAGTAAAGCGGTGACCGGTTCGCTGTCGGCGAAAGGGGATATCTCTGTGCAGGCGGGGCGTGATGCGGCATTGCAGGGCGATACACTGCGCAGTGAGGAAGGGCTCGTTTCTGTCCGTGCCGGTGATAATCTGACGCTGGATCAGGCGGGTGATACCCACAGCAAAACCGTCAGCGGCTATGATGCCGGGGCGAAGGTAAATGTGGAATCGCTCAACCTGAAAAATGCCGGTGGCGGTCTCAGCGGCGGACGTGAGGTGTACAACGAAAGCGGCACAACGGCGAAAACCGGCGTGATTGAGGGCAAAACCGGCGTGGTATTACAGGCCGGAAACGACCTGACCGCTAACGGTACTAATGTCAGCAGTGGCGGGGATGTGACGGTGAAAGGCGGACACAACACCCTGCTTGACAGCGCGGAGAGCACGAATACCATCTCCGGCCATCAGTGGCACGGTGGTGTTCAGGCTAATGGCGGTAAAACAGAGATCGGCAGCAAACTCGGCGGCGGTGCGGATTTCAGTATCAGCAAACAGTCTGAAAACGTGACTGACCAGCGCGGCGGCAGCCTGCGCAGCGGCGGTACTGTTTCTGTTTCTGCGGACGGTATGCGGGATGATGCGCTGCATCTGAAAGGTACGCAGATTGATGCACAAAATACCGCGCTGACCGCCCGTGACGGCGGTATTGTGATTGAATCGGCACAGAAAACCACGGACAAAGCCAACTGGAATGCGGGCGGAAACCTGAATATCGGCACCTCGCGCAGTACAGAAAATCCGGAAACCGGTTCGCGGCATAATATCAGTGCCGGTCTGAAGGGCGGGATCGATAATCAGCAGACGGTAACGCAGAAAAATGCCCTTGCTGACAGCGGAAATCTCACGCTGAACAGCCGCAATGATACGCAGATCCGGGGCGGAAAACTGACGGCGGATACCATCAGCGGGCGTGTCGGCGGTGATTTGATCGTGGAAAGCCGGACTAACACCGAATCTGTTCTGAAAGTTGATGCGGATCTGTCGGCGGCACATACCAATGATGAGGGCAGCAGTACCACCTCAAAACTGGCCAATGCCGGTACCCCGAAGTTTGCAGATGACATCAAAGCGGGTCTGGAAAACGGACTGGATAAAGCGGCAGATTCTGTACGGGAAAATGCCGGAGCCGGTGCTGGTACCGTGGCGGACAAGGTGAAATCCGGCCTGACATCCCCGTCCGGGATGAATGGCAATGTTAAAGCGTCCTTCGAAACCCGTTCCGCAGAACAGGTGGGACAGCAATCCGGTCTGACCGCCCGTGAACAGGGCAAACTGCGTACCGGCGGCAGCACTATCCTGACCGGCGCGGTGCTGGACGGTCTGCCGGATAACGGGAACACCGAAATGCGTTCTGTGGCGGTCAAGGAGACCGGCACCCGCATTCACGGTGAACTTCCGCTCAATGCCGGACAGGCTGTCAGTGCGGTTAAGGACGGGATCGTAAACGGAAAATCCCCGGTCGGTATTTCTGTCACTAATGATCACAGCAGTGTGAACAGTAAAGTGAAGTAATTATTATGGACGATAACGTATAACGTAGCGTAAACGGCTCTGAATAAGGG