Homologs in group_3732
2 homologs were identified in 1 genome 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 | |
|---|---|---|---|---|---|
| F4V73_RS12490 | F4V73_RS12490 | 57.1 | Morganella psychrotolerans | - | hypothetical protein |
| F4V73_RS12495 | F4V73_RS12495 | 89.0 | Morganella psychrotolerans | - | hemagglutinin repeat-containing protein |
Number of homologs in each genome (first column) and amino-acid identity of the closest homolog (second column).
| Swissprot accession | Eval | Score | ID (%) | N gaps | Alignment length | Annot score | Gene | Description | Organism |
|---|---|---|---|---|---|---|---|---|---|
| Q7CGD9 | 0.0 | 788 | 44 | 15 | 1121 | 3 | cdiA | Toxin CdiA | Yersinia pestis |
| A0A0H3B0B8 | 0.0 | 571 | 46 | 11 | 813 | 1 | cdiA | Deoxyribonuclease CdiA | Yersinia pseudotuberculosis serotype O:3 (strain YPIII) |
| D5CBA0 | 6.4e-178 | 584 | 44 | 14 | 911 | 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 | 2.31e-10 | 69 | 31 | 7 | 224 | 1 | cdiA | 16S rRNA endonuclease CdiA | Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56) |
| E0SDG8 | 1.96e-173 | 571 | 41 | 13 | 929 | 1 | cdiA | Deoxyribonuclease CdiA | Dickeya dadantii (strain 3937) |
| E0SDG8 | 2.13e-07 | 59 | 25 | 7 | 277 | 1 | cdiA | Deoxyribonuclease CdiA | Dickeya dadantii (strain 3937) |
| A0A1S4NYE3 | 1.31e-171 | 566 | 43 | 15 | 934 | 1 | cdiA | tRNA nuclease CdiA | Escherichia coli (strain STEC_O31) |
| A0A1S4NYE3 | 4.62e-17 | 91 | 33 | 8 | 227 | 1 | cdiA | tRNA nuclease CdiA | Escherichia coli (strain STEC_O31) |
| P0DSI1 | 1.66e-171 | 565 | 43 | 12 | 923 | 1 | cdiA | tRNA nuclease CdiA | Escherichia coli (strain NC101) |
| P0DSI1 | 2.45e-15 | 85 | 35 | 7 | 228 | 1 | cdiA | tRNA nuclease CdiA | Escherichia coli (strain NC101) |
| Q3YL96 | 1.85e-170 | 562 | 39 | 23 | 1074 | 1 | cdiA | Toxin CdiA | Escherichia coli |
| Q3YL96 | 3.25e-12 | 75 | 33 | 8 | 211 | 1 | cdiA | Toxin CdiA | Escherichia coli |
| Q0T963 | 1.25e-169 | 560 | 43 | 13 | 909 | 1 | cdiA | tRNA nuclease CdiA | Escherichia coli O6:K15:H31 (strain 536 / UPEC) |
| Q0T963 | 4.02e-15 | 84 | 35 | 7 | 228 | 1 | cdiA | tRNA nuclease CdiA | Escherichia coli O6:K15:H31 (strain 536 / UPEC) |
| B3BM48 | 4.83e-166 | 549 | 44 | 16 | 911 | 1 | cdiA1 | tRNA nuclease CdiA | Escherichia coli O157:H7 (strain EC869) |
| C4SGN7 | 2.93e-119 | 411 | 36 | 19 | 924 | 3 | cdiA | tRNA nuclease CdiA | Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204) |
| C4SGN7 | 8.5e-08 | 60 | 29 | 6 | 222 | 3 | cdiA | tRNA nuclease CdiA | Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204) |
| H9T8G4 | 1.18e-70 | 262 | 32 | 14 | 726 | 1 | cdiA | tRNA nuclease CdiA (Fragment) | Burkholderia pseudomallei |
| H9T8G6 | 1.78e-69 | 258 | 32 | 13 | 710 | 1 | cdiA | tRNA nuclease CdiA (Fragment) | Burkholderia pseudomallei |
| I1WVY3 | 8.42e-69 | 258 | 32 | 13 | 710 | 1 | cdiA2 | tRNA nuclease CdiA-2 | Burkholderia pseudomallei (strain 1026b) |
| B3BM80 | 9.44e-08 | 59 | 45 | 0 | 74 | 1 | cdiA4 | Deoxyribonuclease CdiA-o11 | Escherichia coli O157:H7 (strain EC869) |
| Source | Morganella psychrotolerans |
|---|---|
| Locus tag | F4V73_RS12485 |
| Feature type | CDS |
| Gene | - |
| Product | hemagglutinin repeat-containing protein |
| Location | 78756 - 82223 (strand: -1) |
| Length | 3468 (nucleotides) / 1155 (amino acids) |
| Accession | term accessions NZ_VXKB01000003 accessions NZ_VXKB01000000 Name: value, dtype: object |
|---|---|
| Length | 425895 nucleotides |
| Topology | linear |
| Plasmid | False |
| Orthogroup | group_3732 | |
|---|---|---|
| Orthogroup size | 3 | |
| N. genomes | 1 |
MTSHSIPSPPPVPNGDWGGGNYRHVAEQTDVGTQLRGGDITLNAGRDMSATAATVDAKNALNVTAGRDITITSGSAVSDLTEHSKQSSKGLLSASSLETHDEVHRNDAVSSQFGGDTVTLKAGNNLTVEGSQVIADNDLTATAGKNITVTTTDESREETHLREEKKSGLLSSGGIGFTIGKQSLKQTTDSDSQLHKGSTLGSTDGSVSLTAGENLTVHGSDVVAKKDISLTGQSVAVTAAENTRTELTKTEMKQSGLTLSLSGTVGSAMNTAVQAAQDSKDTDDDRLKALKGTQAVLSGYQGKQSWDMSNAASDKADAVNGAGGNAEKPDNVIGIQISYGSQSSKSETRTDRTDAQGGQLGAGRDIRITATGDKTQDKGDILIQGSDVKAGRDVVLDATRDITLTSAEEMQKTDGKNSSKGGNLGVGITVGQGGWGIKFSAGVNAGKGSEKGDGLTHRETVIDAGHQVTLKSGQDTTLRGAQVSGEQITVNTGRNLTLESEQDSDNYDSKQQNVSAGASFTYGSMSGSASVNVSRDKMHSTYDSVQEQTGLFAGKGGYDITTGKHTQLDGAVIASTADKDKNRLDTGTLGFNDIENKAEYKVEHQSAGFSSGGFGGAGSQLVSNLTSNTLVGVNSSGKESNTTHAAVSDGKWIIRDTENQKQDTADLSRDTDHAHTALNQIFDKEKEQKRLQQAQAIADIGTQVLDIYDTNAKIDAMREATEKLKAESAKAQIKENADAELSKLRGKGDTKTSYDAVLKSEADKYYNERVSDALTKNGQQVGGKERQAVTAVVAAFQGLAGGDVKAAIANGAAPYLAGMVKDLTYHGKSYEQLTPDEKATNLVAHALLGGVLAEMNGGSVTGGAAGALTGELAAPVIADLLFNKKVSDLNADEKTQLSQLSTLAGGLAGGIASDSAAGGISGSQTAKNAVENNLFGGNEITHTQYVQAHGKDVMSCADNPDSESCLRGMAANRAYVMALASGGLIYLPGGMQLTAAIGGSANAGIQYILTGEINPEDVLIASYVGALTANTGLIGTVGWNATGGAASSWLKDEDPLMGATISGLGAGFGYSTGKLIKLGSNKWGYWVSDGFDPKYNPKLQGGAIQGQLGLSKDMMPAKTPGIAGNVGSSLTTEVTNSLIQGEVKKSQEENNAPKN
AGACCTTGCCGCGCAGGGCAAAGAGAGCAAGACCACCATTACGGCCGGGAATGACGTCACACTCAATACCGTCACCACCACCCGTACCGAACGGCGACTGGGGCGGCGGTAACTACCGGCACGTTGCAGAGCAGACGGATGTCGGCACCCAACTGCGAGGCGGGGATATCACCCTGAACGCCGGGCGCGATATGAGTGCCACAGCGGCAACAGTCGATGCCAAAAATGCCCTGAATGTCACCGCCGGTCGGGATATCACGATAACCTCCGGCAGTGCTGTCTCTGACCTGACCGAGCACAGTAAACAGAGCAGTAAAGGGTTGCTGTCTGCCTCCTCACTGGAAACCCATGATGAAGTGCACCGTAACGACGCCGTCAGCAGTCAGTTCGGCGGCGACACCGTCACGCTGAAAGCCGGTAATAATCTTACCGTGGAAGGCAGTCAGGTGATTGCGGATAACGACCTGACCGCCACGGCCGGGAAAAATATCACCGTCACCACCACGGATGAATCCCGTGAGGAAACCCATCTTCGCGAGGAGAAAAAATCCGGTCTGCTGAGCTCCGGCGGGATTGGTTTTACCATCGGCAAGCAGTCCCTGAAACAGACCACTGACAGCGACAGTCAGCTGCACAAAGGCAGCACGCTGGGCAGCACGGACGGCAGTGTCAGCCTGACCGCCGGAGAAAATCTCACCGTTCACGGCAGTGATGTGGTGGCGAAAAAAGACATCAGTCTCACCGGGCAGTCTGTCGCGGTCACCGCAGCTGAAAACACCCGTACGGAACTGACCAAAACCGAGATGAAGCAGAGCGGGCTGACACTCTCCCTGAGCGGCACCGTCGGCAGTGCCATGAACACGGCCGTGCAGGCAGCACAGGACTCGAAAGACACGGATGATGACCGCCTGAAAGCACTGAAAGGTACGCAGGCTGTGCTGTCCGGTTACCAGGGCAAACAGTCGTGGGACATGAGTAACGCGGCCTCTGATAAAGCCGATGCCGTTAATGGTGCGGGCGGCAATGCTGAAAAACCGGATAATGTTATCGGTATTCAGATTTCTTACGGCAGTCAGTCCTCAAAATCAGAAACCCGCACCGACCGTACTGACGCACAGGGCGGGCAACTGGGTGCCGGGCGTGATATCCGTATCACGGCGACCGGTGATAAAACGCAGGACAAAGGCGATATTCTCATTCAGGGCAGTGATGTAAAAGCCGGGCGCGATGTTGTGCTGGATGCCACCCGTGACATCACCCTGACGTCTGCGGAAGAGATGCAGAAAACTGACGGGAAAAACAGCAGCAAAGGCGGCAATCTCGGCGTGGGTATTACTGTCGGTCAGGGCGGCTGGGGCATTAAATTCTCCGCCGGTGTCAATGCCGGAAAAGGCAGTGAGAAAGGCGATGGTCTCACCCACCGGGAAACGGTGATTGACGCCGGGCATCAGGTCACGCTGAAATCCGGACAGGACACGACCCTCAGAGGGGCGCAGGTCAGCGGTGAACAGATTACCGTCAATACCGGGCGCAACCTGACGCTGGAAAGTGAACAGGACAGCGACAACTACGACAGCAAACAGCAGAATGTCAGCGCCGGAGCCAGCTTCACTTACGGCTCCATGAGCGGCTCAGCCAGTGTGAACGTCAGCCGTGACAAGATGCACAGTACCTATGACTCCGTGCAGGAGCAGACCGGGCTGTTTGCCGGAAAAGGCGGCTATGACATCACCACCGGCAAACACACACAGCTGGACGGCGCGGTCATTGCCTCAACGGCGGACAAGGACAAAAACCGCCTTGATACCGGCACGCTGGGCTTTAATGATATTGAAAATAAAGCAGAATATAAAGTTGAACACCAGAGTGCGGGCTTCAGTTCCGGCGGGTTCGGCGGGGCGGGCAGCCAGCTGGTCTCCAATCTGACCTCAAACACCCTGGTGGGCGTCAACAGCAGCGGCAAAGAGAGCAATACCACCCATGCGGCGGTCTCGGACGGCAAATGGATTATCCGCGACACAGAAAACCAGAAACAGGACACGGCAGACCTGAGCCGTGACACAGACCACGCACACACAGCGCTCAATCAGATTTTTGACAAAGAAAAAGAGCAGAAGCGTCTGCAGCAGGCACAGGCTATCGCGGATATCGGAACGCAGGTGCTGGATATCTATGATACCAATGCCAAAATTGACGCGATGCGCGAAGCGACAGAAAAACTGAAGGCGGAGAGTGCAAAAGCGCAGATAAAAGAAAATGCTGACGCCGAGTTAAGCAAACTGCGCGGGAAAGGCGATACAAAAACCAGCTATGACGCGGTATTAAAAAGCGAAGCTGATAAGTACTATAATGAACGTGTCAGTGACGCCCTGACAAAAAACGGGCAGCAGGTCGGTGGTAAAGAGCGGCAGGCGGTCACGGCGGTGGTTGCGGCATTCCAGGGGCTGGCAGGCGGAGATGTCAAAGCGGCCATTGCCAACGGTGCCGCGCCTTATCTGGCGGGAATGGTAAAAGACCTGACCTATCATGGTAAAAGCTATGAACAGCTGACACCGGATGAAAAAGCAACCAACCTGGTGGCACATGCACTGCTCGGCGGCGTGCTGGCAGAAATGAACGGCGGCAGTGTCACCGGCGGAGCGGCAGGTGCCCTGACCGGTGAACTGGCAGCACCGGTCATCGCCGACCTGCTCTTTAACAAAAAAGTGAGTGACCTGAACGCTGACGAAAAAACCCAACTCAGCCAGCTCTCCACCCTGGCAGGCGGTCTGGCGGGCGGCATTGCCTCAGACTCAGCCGCAGGCGGCATCAGCGGTTCGCAGACGGCGAAGAATGCGGTTGAGAATAACTTATTCGGTGGAAATGAAATAACACATACCCAATATGTGCAAGCTCACGGAAAAGATGTGATGTCCTGTGCTGATAACCCTGATTCAGAATCTTGTCTTAGAGGAATGGCAGCGAATAGAGCTTATGTGATGGCGCTTGCAAGTGGAGGGCTCATTTATTTACCGGGGGGGATGCAATTAACAGCTGCGATAGGAGGTAGTGCTAATGCTGGCATCCAATATATATTGACTGGGGAAATTAATCCCGAAGATGTTTTGATTGCTTCTTACGTAGGGGCTTTAACTGCCAATACCGGTTTAATTGGTACGGTGGGGTGGAATGCAACTGGAGGTGCTGCGTCTAGTTGGTTAAAAGATGAAGATCCTTTGATGGGGGCCACTATATCAGGCCTCGGAGCTGGCTTTGGTTATAGCACTGGTAAACTAATTAAGTTAGGTTCTAATAAATGGGGATATTGGGTATCTGATGGATTTGATCCTAAATATAATCCAAAACTTCAAGGTGGAGCGATTCAGGGGCAATTAGGTTTATCGAAAGATATGATGCCCGCTAAAACACCAGGGATTGCAGGGAATGTTGGTTCTTCATTAACTACCGAGGTTACTAATAGTTTGATTCAAGGGGAAGTTAAAAAATCACAGGAAGAAAATAATGCACCTAAAAACTGAGAAACTTATTTATTGGGTTTTTATAACAATACTGTGGGTTATCGCAATGT
