Homologs in group_2409

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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_19320 FBDBKF_19320 100.0 Morganella morganii S1 tPR TPR repeat
NLDBIP_07930 NLDBIP_07930 100.0 Morganella morganii S4 tPR TPR repeat
LHKJJB_07465 LHKJJB_07465 100.0 Morganella morganii S3 tPR TPR repeat
HKOGLL_03465 HKOGLL_03465 100.0 Morganella morganii S5 tPR TPR repeat
F4V73_RS16880 F4V73_RS16880 61.4 Morganella psychrotolerans - SEL1-like repeat protein
PMI_RS19655 PMI_RS19655 46.6 Proteus mirabilis HI4320 - hypothetical protein

Distribution of the homologs in the orthogroup group_2409

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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_2409

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
Q5XI05 2.11e-09 66 25 2 197 2 Sel1l2 Protein sel-1 homolog 2 Rattus norvegicus
Q5XI05 0.000111 50 31 5 149 2 Sel1l2 Protein sel-1 homolog 2 Rattus norvegicus
Q3V172 5.97e-09 64 26 2 184 2 Sel1l2 Protein sel-1 homolog 2 Mus musculus
Q3V172 0.000144 50 31 5 149 2 Sel1l2 Protein sel-1 homolog 2 Mus musculus
A0A0H2VDN9 6.67e-08 60 32 3 126 1 esiB Secretory immunoglobulin A-binding protein EsiB Escherichia coli O6:H1 (strain CFT073 / ATCC 700928 / UPEC)
A0A0H2VDN9 0.00045 48 22 10 288 1 esiB Secretory immunoglobulin A-binding protein EsiB Escherichia coli O6:H1 (strain CFT073 / ATCC 700928 / UPEC)
Q9ZKB5 1.97e-07 58 32 5 159 3 hcpC Putative beta-lactamase HcpC Helicobacter pylori (strain J99 / ATCC 700824)
O25728 3.27e-07 57 32 5 159 1 hcpC Putative beta-lactamase HcpC Helicobacter pylori (strain ATCC 700392 / 26695)
Q9LM25 4.2e-07 58 26 4 219 1 HRD3A ERAD-associated E3 ubiquitin-protein ligase component HRD3A Arabidopsis thaliana
Q5TEA6 8.73e-07 57 25 2 184 1 SEL1L2 Protein sel-1 homolog 2 Homo sapiens
Q5TEA6 0.000171 50 31 5 147 1 SEL1L2 Protein sel-1 homolog 2 Homo sapiens
Q14154 1.7e-06 56 30 6 165 1 DELE1 DAP3-binding cell death enhancer 1 Homo sapiens
Q9UBV2 1.7e-06 56 26 2 184 1 SEL1L Protein sel-1 homolog 1 Homo sapiens
Q9UBV2 0.000123 50 30 8 179 1 SEL1L Protein sel-1 homolog 1 Homo sapiens
Q9Z2G6 1.73e-06 56 26 2 184 1 Sel1l Protein sel-1 homolog 1 Mus musculus
Q9Z2G6 0.000105 50 30 8 179 1 Sel1l Protein sel-1 homolog 1 Mus musculus
P77234 1.85e-06 55 29 7 232 4 ybeQ Sel1-repeat-containing protein YbeQ Escherichia coli (strain K12)
Q80Z70 1.92e-06 56 26 2 184 1 Sel1l Protein sel-1 homolog 1 Rattus norvegicus
Q80Z70 8.97e-05 51 30 8 179 1 Sel1l Protein sel-1 homolog 1 Rattus norvegicus
Q9ESM7 2.23e-06 56 25 2 184 2 Sel1l Protein sel-1 homolog 1 Mesocricetus auratus
Q9ESM7 7.51e-05 51 30 8 179 2 Sel1l Protein sel-1 homolog 1 Mesocricetus auratus
Q5UP92 4.09e-05 52 31 6 166 4 MIMI_L18 Putative sel1-like repeat-containing protein L18 Acanthamoeba polyphaga mimivirus
Q5UP97 8.6e-05 50 31 3 129 4 MIMI_L21 Putative sel1-like repeat-containing protein L21 Acanthamoeba polyphaga mimivirus
Q9ZMS0 0.00018 48 25 11 271 3 hcpD Putative beta-lactamase HcpD Helicobacter pylori (strain J99 / ATCC 700824)
O25001 0.000573 47 32 5 111 1 hcpA Beta-lactamase HcpA Helicobacter pylori (strain ATCC 700392 / 26695)

  • Number of RefSeq hits:

General

Source Morganella morganii S2
Locus tag EHELCC_07605
Feature type CDS
Gene tPR
Product TPR repeat
Location 264598 - 269280 (strand: -1)
Length 4683 (nucleotides) / 1560 (amino acids)

Contig

Accession ZDB_216
Length 269970 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_2409
Orthogroup size 7
N. genomes 7

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Genomic region

Domains

PF08238 Sel1 repeat

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG0790 General function prediction only (R) R TPR repeat

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K07126 uncharacterized protein - -

Protein Sequence

MTKQRKLGLALLIAIALSGGAWLTYSVTSGSTPADKGYELYLSGDTDGAFRYFSAEAEHNPQAAYALSVMYLSGYDAPANALLGYKWLERAANAGNKSALYNLGYYRYHGITQDTAQDQYGITSLKAAAQAGVREAQELLGTIYLLDKYGNIPSDAEQARKYMTAAADQGSFFAKFALGYIAYEYDKDYKKAVGILTPLLSEQFTLPAMLLSGIYEKGGHGIEADPGQAKKYRYMAFSQISSLNEDDLMPKALSLFGSETADEITARLAKLEKMAENGNQHARYALYDTYMQGTGVIADKEKALRYLLPLINQKDPKALYTWYLDTKTNPEYLTAAADAGYPDALYLLYQIHRNIRFDDAFGYDRERAAKYLKQAANTGHHDALIDIIEDITSSYQFPDNDTNAQVSAYLAKLLEKYPDDPEALMLASARYGDQEGNIYDPVRAFELNKKSAELSPLPDSQDQLAYKYARGIGVEQDMKKAVGIYKSLLRDPYFQDKAYRRLTDLYFSFDTGGEIDEKEIIAFLKKDIEENDNYRQAYFYADYLLQEDPVKNRKQAMELYLKAGEYTPSADVHLAKSLISLNTGNNEQALKLALEIMKSGYARSLLTEKEWHDVTQIVFSEGKNNLLARQFWVLLALRDNNAEAQKLIEPLLGQDPVVTYYYAKLKLEDAEDKPDMTDEILRPDIELMMKAAALGNTDAGEYMVNRLKSATRSGTQSNLNQAFLRVTGLTERDIVPRLTQCADAGGWACMYELGEIYYEGKYGVKADLNTSVAWYEKIPDRDYRFTESRLSKVKKSRDTLADLNARVQKGDAEAAYELSYAWRNGNHGLTQDPEKSRYYLKMAAEGGNEDAITTLIDDYKSADTLSPEDKKLLLSLYDELPGTGNNSYLRDLGTQYLQGSNLVSADRQKARYYFSKAGDYGAHELKAMDQFEINVKLADESPNAAYETGYAYFLGRGTQKDLQQALPYLQKAADAGHNYATILLADTYEKGEYDKETQRRIITPDWDKAIVLIRAYKGPRDVSENIAFYESTIKPALAGDSSAMNAAGEHYKSSGYYDTTRYWFEKSAESGYLPAFCALAGATETNNGKMAVLRRGAEKGDNCSDTMLAIMQLRENRITQDSPEWTGIITRVENGLKNSDEEVSKAAFEALTQLYRGTLRDDNGSYLYKADNKKYLTLLESEADKRADAQIDLFYYYRQNNDMDKALSYLQKGHDSGDIAATETLYEYYMSPEYCRRDNADPAKAEQYLTEWLKKSDYPENTDNHMLMPPEERTKAMGDAWLEGFCNRAPDPDKAIAWYTRSLTYNNTHALKGMYDAQIVKKNAPETYYYGSLAGVSSREGDDLIATLTDAERNTVLQRIKKKQVYEQYGRYEQEIEAKRQKAESGDGPAAFSLGVNYARGERVPEDTEKMIYYYELAGKNGYARAYNVLGNLYRKPNERGIPVDGKKALAYFDAGAKLGDSNTAHLAGDMLYFGQAGLEKDYPQAARYYEMTSLEQGSHHEMAKYKVAWMYYHKMAGTGSDDDLRKARDNLILSAKYGNKDAEEALKEWDFSRISDKNK

Flanking regions ( +/- flanking 50bp)

TTATTTTCTGTCTTCCTGTTTATTTAAGATTAATCCGTATAAGGGCTGATATGACAAAGCAACGTAAACTGGGGCTTGCTCTGCTTATTGCTATTGCACTGTCCGGCGGGGCCTGGCTGACGTATTCTGTAACGTCCGGCAGCACCCCGGCAGATAAAGGCTATGAGCTGTATTTATCCGGGGATACTGACGGGGCATTCCGTTATTTTTCCGCAGAGGCGGAACATAATCCGCAGGCAGCCTATGCATTGTCTGTGATGTATCTCAGCGGCTACGATGCACCGGCCAATGCGTTGTTGGGTTATAAGTGGCTGGAACGGGCCGCAAACGCCGGTAATAAAAGTGCCTTATACAACCTCGGTTATTACCGCTATCACGGTATAACACAAGATACCGCACAGGATCAGTACGGTATTACCTCCCTGAAAGCTGCGGCACAGGCGGGAGTCCGTGAGGCTCAGGAATTGCTGGGCACTATTTATCTTCTCGATAAATACGGCAATATTCCGTCAGATGCAGAACAGGCGCGGAAATATATGACTGCGGCCGCAGACCAGGGGTCGTTTTTTGCAAAATTCGCGCTGGGTTATATCGCGTATGAATATGATAAAGATTATAAAAAAGCGGTCGGTATTCTGACACCGTTGCTCAGCGAGCAATTTACCCTGCCTGCTATGCTGCTTTCCGGAATATATGAAAAAGGCGGTCACGGAATAGAAGCCGATCCGGGACAGGCAAAAAAATACCGCTATATGGCATTTTCACAAATCAGCTCACTCAATGAAGATGATTTGATGCCGAAAGCATTATCCCTTTTCGGCTCAGAAACGGCAGATGAAATAACCGCCCGGCTGGCAAAACTGGAGAAAATGGCGGAGAACGGCAATCAGCATGCCCGTTATGCCCTCTATGACACTTATATGCAGGGAACGGGTGTTATCGCAGATAAAGAAAAAGCCCTCCGCTATTTACTGCCGCTGATTAATCAAAAAGATCCGAAAGCCCTTTATACCTGGTATCTTGATACCAAAACAAACCCTGAATATCTGACAGCCGCAGCTGATGCCGGATATCCCGATGCCCTTTATCTGCTCTATCAAATCCACCGTAATATCCGTTTTGATGATGCCTTCGGTTATGACCGGGAGCGGGCGGCGAAATACCTGAAACAGGCTGCGAATACCGGACATCACGATGCATTAATCGATATTATTGAGGATATTACCAGCAGCTATCAGTTTCCGGATAACGACACCAACGCACAGGTATCTGCCTATTTAGCCAAATTACTGGAAAAATATCCGGATGACCCGGAGGCGCTGATGCTGGCTTCCGCACGTTACGGTGATCAGGAAGGGAATATTTATGATCCGGTTCGTGCCTTTGAACTAAATAAAAAATCGGCTGAATTATCTCCCCTGCCGGATTCACAGGATCAACTGGCCTATAAATACGCCAGAGGTATCGGCGTTGAGCAGGATATGAAAAAAGCGGTCGGGATCTATAAATCCCTGCTGAGAGATCCCTATTTTCAGGATAAGGCTTACCGGCGTTTAACGGATCTGTATTTTTCCTTTGATACCGGCGGTGAAATTGATGAAAAAGAGATTATCGCGTTCCTGAAAAAAGATATCGAAGAAAATGATAACTACCGCCAGGCGTATTTTTATGCCGATTATCTGTTGCAGGAAGATCCGGTAAAAAACCGTAAACAGGCTATGGAACTGTATCTGAAAGCCGGCGAATATACCCCCAGTGCTGATGTTCACCTGGCAAAATCGCTTATTTCTCTCAATACCGGCAATAATGAACAGGCTTTAAAGCTGGCGCTGGAAATAATGAAAAGCGGATATGCCCGTTCCCTGCTGACGGAAAAAGAATGGCATGATGTCACGCAGATTGTATTCTCCGAAGGCAAAAACAACCTCCTTGCCAGACAATTCTGGGTCCTGCTTGCCCTGCGGGATAATAACGCTGAAGCGCAGAAACTGATTGAACCGCTGCTGGGTCAGGATCCGGTTGTCACATATTACTATGCGAAGCTGAAACTGGAAGATGCAGAAGATAAACCGGATATGACCGATGAGATCCTGCGTCCGGATATTGAGCTGATGATGAAAGCGGCAGCGCTGGGCAACACGGACGCCGGTGAATACATGGTAAATCGTCTGAAGAGCGCGACCCGCTCCGGCACGCAGAGCAACCTGAATCAGGCGTTTCTGCGGGTAACCGGACTGACAGAACGCGATATTGTGCCCCGGCTGACACAGTGTGCAGATGCCGGAGGATGGGCCTGTATGTATGAATTGGGCGAGATCTATTATGAAGGTAAATACGGTGTAAAAGCTGACCTGAATACCTCCGTCGCCTGGTACGAAAAAATTCCTGATCGCGATTACCGTTTCACAGAATCACGCCTGAGCAAAGTCAAAAAGAGCCGTGACACCCTGGCAGACCTGAATGCCCGCGTACAGAAAGGAGATGCTGAAGCCGCCTATGAATTATCTTACGCATGGAGAAACGGCAACCACGGCCTGACTCAGGATCCGGAAAAATCACGGTATTACCTGAAAATGGCTGCGGAAGGCGGTAATGAAGATGCCATCACCACACTGATTGATGACTACAAAAGCGCAGACACACTCAGCCCGGAGGATAAAAAACTGCTGCTGTCGCTGTACGACGAACTCCCGGGAACCGGCAATAACAGCTATCTGCGTGATCTGGGTACACAGTACCTGCAGGGCAGCAACCTTGTCAGCGCAGATCGTCAGAAAGCCCGTTATTATTTCAGCAAAGCCGGTGATTACGGTGCTCACGAGCTGAAAGCAATGGATCAGTTTGAAATAAACGTAAAACTGGCGGATGAAAGCCCGAATGCTGCTTATGAAACCGGTTATGCTTATTTTCTCGGGCGCGGCACACAAAAAGATCTGCAGCAAGCCCTGCCATACCTGCAAAAGGCAGCAGATGCCGGTCATAACTATGCCACAATCCTGCTGGCAGATACCTATGAAAAGGGAGAGTACGATAAAGAGACACAGCGCCGGATTATCACACCGGACTGGGATAAAGCCATTGTCCTGATACGTGCCTACAAAGGGCCGCGTGATGTATCAGAAAATATTGCATTCTATGAGAGTACGATAAAACCGGCACTGGCCGGAGACAGCAGCGCCATGAACGCCGCCGGGGAACACTATAAGAGCAGCGGCTATTATGATACCACCCGTTACTGGTTTGAAAAAAGCGCGGAAAGCGGTTATCTGCCTGCATTCTGCGCTCTGGCCGGAGCGACTGAAACCAATAACGGTAAAATGGCGGTATTACGCCGTGGCGCGGAGAAAGGTGACAATTGCTCCGATACTATGCTGGCCATCATGCAGCTCAGAGAGAACCGCATTACACAGGATTCACCGGAGTGGACCGGTATTATCACCCGAGTGGAAAACGGTCTGAAAAACAGTGATGAAGAGGTGTCAAAAGCCGCGTTTGAAGCACTGACTCAGCTGTATCGCGGCACTCTCAGAGATGACAACGGCAGCTATCTGTATAAGGCAGACAACAAAAAATATCTCACACTGCTGGAATCGGAGGCAGATAAACGGGCAGATGCACAAATCGACCTGTTCTATTATTACCGGCAGAATAATGACATGGATAAAGCACTGTCTTATCTGCAAAAAGGCCATGATAGCGGCGATATCGCTGCCACAGAAACACTCTATGAATACTATATGTCGCCGGAATATTGCCGCCGTGACAATGCCGATCCCGCTAAAGCGGAGCAGTATCTGACGGAGTGGCTGAAAAAATCGGACTATCCGGAAAATACCGATAACCATATGCTGATGCCGCCGGAAGAGCGGACCAAAGCCATGGGTGATGCGTGGCTTGAAGGCTTCTGTAACCGGGCACCGGATCCTGACAAAGCTATCGCGTGGTATACCCGCTCATTGACGTATAACAACACACATGCCCTGAAAGGTATGTATGACGCGCAGATAGTGAAGAAGAATGCTCCGGAAACCTATTACTACGGTTCACTCGCCGGTGTCAGCTCCCGGGAGGGGGACGACCTTATCGCCACACTGACGGATGCAGAACGCAACACCGTGCTGCAGCGTATTAAGAAAAAGCAGGTGTATGAGCAATACGGTCGTTATGAACAGGAAATTGAAGCGAAGCGGCAAAAAGCAGAAAGCGGTGACGGCCCGGCCGCATTCTCGCTGGGGGTAAACTATGCCCGTGGCGAACGCGTTCCGGAAGATACGGAAAAAATGATCTATTACTATGAGCTGGCCGGTAAAAACGGGTACGCCAGAGCCTACAACGTGCTGGGTAATCTCTACCGTAAACCGAATGAGCGCGGGATCCCGGTCGACGGTAAAAAAGCCCTCGCGTATTTTGATGCGGGGGCCAAACTGGGCGACAGCAATACCGCACACCTCGCCGGGGATATGCTCTATTTCGGTCAGGCCGGGCTGGAAAAAGATTATCCGCAGGCTGCCCGCTATTATGAAATGACCTCTCTTGAACAGGGCAGTCATCATGAAATGGCGAAATACAAAGTCGCGTGGATGTACTATCACAAAATGGCCGGTACCGGCAGCGATGATGATCTGCGAAAAGCACGGGATAACCTGATATTGTCGGCAAAATACGGCAATAAAGATGCCGAAGAAGCTTTAAAAGAGTGGGATTTCTCACGTATCAGCGATAAAAATAAATAAGCGGTTTTATTATCAGCGTTCTCCCGGAATGTGGCCTGTTCCGGGAGGGT