Homologs in group_1285

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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_07810 FBDBKF_07810 71.8 Morganella morganii S1 - peptidylprolyl isomerase
EHELCC_13640 EHELCC_13640 71.8 Morganella morganii S2 - peptidylprolyl isomerase
NLDBIP_14085 NLDBIP_14085 71.8 Morganella morganii S4 - peptidylprolyl isomerase
LHKJJB_08765 LHKJJB_08765 71.8 Morganella morganii S3 - peptidylprolyl isomerase
HKOGLL_08315 HKOGLL_08315 71.8 Morganella morganii S5 - peptidylprolyl isomerase
PMI_RS09680 PMI_RS09680 35.5 Proteus mirabilis HI4320 - sugar transporter

Distribution of the homologs in the orthogroup group_1285

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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_1285

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
O75116 7.94e-05 51 23 9 441 1 ROCK2 Rho-associated protein kinase 2 Homo sapiens
Q28021 0.000217 49 23 9 457 1 ROCK2 Rho-associated protein kinase 2 Bos taurus
Q62868 0.000328 48 23 9 457 1 Rock2 Rho-associated protein kinase 2 Rattus norvegicus
Q9P219 0.000356 48 23 23 729 1 CCDC88C Protein Daple Homo sapiens
P70336 0.000509 48 23 9 457 1 Rock2 Rho-associated protein kinase 2 Mus musculus

  • Number of RefSeq hits:

General

Source Morganella psychrotolerans
Locus tag F4V73_RS13235
Feature type CDS
Gene -
Product hypothetical protein
Location 269758 - 273600 (strand: -1)
Length 3843 (nucleotides) / 1280 (amino acids)

Contig

Accession term accessions NZ_VXKB01000003 accessions NZ_VXKB01000000 Name: value, dtype: object
Length 425895 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_1285
Orthogroup size 7
N. genomes 7

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Genomic region

Domains

PF00254 FKBP-type peptidyl-prolyl cis-trans isomerase

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG1196 Cell cycle control, cell division, chromosome partitioning (D) D Chromosome segregation ATPase Smc

Protein Sequence

MRLNIRLCITVALFAVVQPATASEFNQVIEDFDRYIQTEKDSGSFPASVQQPNKYPAQRVDRAPAVKSAGKTTGSSRKGTQKVSRAERNSVPPASERATRTVSTQKAETTAPAISVPAQCETIVVKEPVVVTNPIPVGYPQWSPAYLVRDSQKWSGKHKGFVFSPIPGRQSSSLILTPEIMFSMLGEPFRSMTYFSELPLTVARVLEPENWFKPTDTQKQLRLTRIKLQDVSRELAALNEKYQQVKRDYDDSLIEIAKNEMTLKSLTLANNQLKAAAEGGNAQLAAELDQNRKTIDSLNQQISENLSRYGQSESQITALTGEKTELEKQILSLNKEKELSDKNIALLEDKNADVAKISQQLIELEKQLAIRDTEKSALTEQLSQKNADNSKQTELLKKELLALATEKNALDKQIATLTADNLLSEKNLALLQDKNADMAKVSQKLTGLEKQLAVRDAEKESLTAQLRQQAADNSKQSEQLKKDLLVLTTDKTLLVKQIAQLNTDKVLSEKNMALLQDKNTDMAAVTQKLTSLEKQLQQREADKQQLTEKMLALTTDKTKESDVLKRDLLALTADKAGLEKQITKLTSDSAVAEKNIALLQDKNADMAKVSQKLTELEKQLQAQDAEKQRLTAKLQLQDTESSKQNAQLKTRIAALTTEKATLEKQVAQMSTDQNLSEKNIALLSSKNADIAKISQQLAATEDKLKQSDTEKSSLTAQLASRGTDSDKQSAQLRKELTALTADKAGLEKQIATLMADNAASAKNAGLLNNKNADMQKMTQQLADLNKQLQARDAEKQVLAMQLLQKTTDSQQQNSQLKKDVSTLTADKAVLAEQIARLTEEQAQAGKNITQLNNKNADMAVVTQKLSALELQLKQRDAEKQVLAAQLSDRGNDSDKQSAQLKKELVALSADKAGLEKQIAQLTADKERSQKSIALLSSEKTDMTNVSGQLQVLEKELQQRDADKLKLMAQLQSREVENVRQSDNLKKDLAALAVDKATLEQKIAQLTADKKMLSAKVSGSEKESGTIQTDNADLNKKLAAEQQRVAQLDKELKEKAQQVEALAKSDVALAKLNTQLDNQKKQLADKDAELVKATAKLKENADIAAKYTALQKEMDKQKAAVDTQRTVNNTLNTKIAKEEEKNKAVTAYTFQQVGELNKRKNKELITRLESQKYEKMSPDVYFRVTKQGQKNKALKGKTITFAMREELTDGSVTVSHGKDAPAVVPFNELPGDLAKFVSLAGVGGQVDVYIKPEGGYGVEGIEGQIPPNSMSMITLNVLKIE

Flanking regions ( +/- flanking 50bp)

TATTACTCTGTTCTGTCTATTGAGAATACCCTGGAGAAGGTTAACGGGTTATGAGACTGAACATTAGGTTGTGTATTACGGTAGCATTGTTTGCGGTAGTACAACCGGCAACGGCATCTGAATTTAATCAGGTTATAGAAGATTTTGATCGTTATATTCAGACTGAGAAAGATTCAGGCAGTTTTCCTGCTTCCGTTCAGCAACCTAACAAGTATCCCGCTCAGCGGGTTGACCGGGCTCCGGCAGTAAAATCTGCGGGAAAAACCACCGGGTCGTCACGCAAAGGCACACAAAAAGTGTCCCGCGCAGAAAGAAATTCTGTCCCGCCTGCGTCTGAACGCGCAACACGGACAGTGAGTACTCAGAAAGCGGAAACAACAGCCCCGGCAATCTCTGTGCCGGCACAATGTGAAACCATTGTGGTTAAGGAACCGGTTGTTGTAACCAACCCTATTCCTGTCGGATACCCTCAGTGGTCACCGGCTTATCTGGTTCGCGACAGCCAGAAATGGAGCGGAAAACACAAGGGATTTGTTTTCTCACCAATCCCCGGACGTCAATCCTCCTCACTCATTCTCACACCGGAAATTATGTTCTCCATGTTGGGTGAACCTTTCCGTTCAATGACTTATTTCTCCGAACTGCCGCTGACTGTGGCCCGTGTGCTGGAACCTGAAAACTGGTTTAAGCCGACGGATACACAGAAACAGCTGCGTCTCACCCGTATAAAACTACAGGATGTGAGCCGTGAACTGGCGGCATTGAACGAAAAGTACCAGCAGGTTAAGCGCGACTATGACGATTCCCTCATTGAGATTGCGAAAAATGAGATGACGTTAAAATCGCTGACTCTGGCAAACAATCAGCTTAAAGCCGCCGCAGAGGGTGGTAATGCACAGTTAGCCGCTGAACTGGATCAAAACAGAAAAACGATTGATTCACTGAATCAGCAGATAAGTGAAAATTTATCACGCTATGGTCAGTCAGAAAGTCAGATTACGGCACTGACCGGTGAAAAAACAGAGCTGGAAAAACAGATTTTATCTCTTAATAAAGAGAAAGAACTGTCGGATAAAAATATTGCATTGCTGGAAGATAAAAATGCCGATGTGGCAAAAATATCACAGCAGCTTATTGAATTAGAAAAACAATTAGCTATCCGCGATACTGAGAAATCAGCACTGACTGAACAACTTTCACAGAAGAATGCGGATAACAGCAAACAAACTGAGTTGCTGAAAAAAGAGTTACTGGCGCTTGCCACAGAAAAAAATGCGTTAGATAAACAGATAGCCACACTGACGGCTGATAACCTTTTGTCAGAGAAAAATCTGGCGCTGTTGCAGGACAAAAATGCCGACATGGCAAAAGTGTCACAGAAACTGACCGGGCTTGAGAAACAGCTTGCGGTTCGTGATGCAGAGAAAGAAAGCCTGACGGCTCAGTTACGTCAGCAGGCGGCAGATAACAGCAAACAGAGCGAACAGCTGAAAAAGGATTTGCTGGTACTGACCACAGATAAGACGTTGTTAGTAAAACAGATTGCGCAACTTAATACAGATAAAGTCCTGTCAGAGAAAAATATGGCTCTGTTACAGGACAAAAATACTGATATGGCGGCTGTTACGCAAAAACTGACCTCGCTGGAAAAACAGTTACAGCAGCGGGAAGCGGATAAGCAGCAACTGACTGAAAAAATGCTGGCGCTGACAACGGATAAAACAAAAGAAAGTGATGTCCTGAAACGGGATTTACTGGCACTGACGGCAGATAAAGCCGGGCTGGAAAAACAAATTACCAAACTGACATCAGACAGCGCTGTAGCAGAAAAAAATATTGCTCTGTTGCAGGATAAAAATGCGGATATGGCAAAGGTGTCGCAAAAGCTGACGGAGCTTGAAAAACAATTACAGGCACAAGACGCTGAAAAACAGCGGCTTACTGCAAAACTGCAATTACAGGATACCGAAAGCAGCAAACAGAATGCGCAGCTGAAAACCCGTATTGCAGCATTAACGACAGAAAAAGCAACACTTGAAAAACAGGTTGCACAGATGAGTACGGATCAAAATCTGTCGGAAAAAAATATTGCCTTACTCAGCAGCAAGAATGCAGATATTGCAAAAATATCACAGCAACTGGCCGCGACTGAAGACAAATTAAAACAAAGTGATACGGAAAAATCGTCGCTGACGGCTCAACTGGCCAGCCGCGGAACAGACAGTGATAAACAGAGTGCTCAACTGAGAAAAGAGCTGACTGCCCTGACAGCGGATAAAGCCGGGCTGGAAAAACAGATTGCAACGCTGATGGCAGATAACGCGGCATCAGCAAAAAATGCCGGATTGCTGAATAATAAAAATGCAGATATGCAGAAAATGACACAGCAACTGGCGGATTTAAATAAACAACTTCAGGCAAGAGATGCTGAAAAGCAGGTGCTTGCTATGCAGTTGTTACAAAAAACGACAGATAGTCAGCAACAAAATTCGCAATTGAAGAAAGATGTGTCAACGCTGACAGCAGATAAAGCCGTTCTGGCTGAGCAGATTGCCCGTCTGACCGAAGAACAGGCTCAGGCCGGTAAAAATATCACGCAGCTGAATAACAAAAATGCGGATATGGCTGTAGTCACTCAAAAACTGAGTGCGCTGGAACTGCAACTGAAACAGCGTGATGCTGAAAAACAGGTACTGGCGGCACAACTGTCCGATCGCGGTAACGACAGTGATAAACAGAGCGCACAGCTGAAAAAAGAGCTGGTGGCACTGAGTGCAGATAAAGCCGGGCTGGAAAAACAGATTGCTCAGCTGACGGCAGATAAAGAACGTTCTCAGAAAAGTATCGCTCTGCTGAGTTCTGAAAAGACTGATATGACCAATGTTTCCGGTCAGTTACAGGTGCTGGAAAAAGAATTACAGCAGCGTGATGCCGATAAACTCAAGCTGATGGCGCAGTTACAGAGCAGAGAAGTTGAAAATGTCCGTCAGAGCGACAATCTGAAAAAAGACCTGGCTGCACTGGCTGTTGATAAAGCGACACTTGAGCAAAAAATTGCTCAGTTGACCGCCGATAAAAAAATGTTATCAGCAAAAGTCTCCGGTTCAGAAAAAGAGAGCGGAACAATACAGACAGATAATGCTGACCTGAATAAGAAACTTGCTGCCGAGCAGCAGCGGGTTGCCCAACTGGATAAAGAGTTAAAAGAAAAAGCGCAGCAGGTTGAAGCCCTGGCTAAATCTGATGTAGCCTTAGCGAAGTTGAATACGCAACTGGATAATCAGAAAAAACAACTGGCAGATAAAGATGCCGAGCTGGTAAAAGCTACAGCGAAGCTGAAAGAGAATGCAGATATTGCCGCTAAATATACTGCATTACAGAAAGAAATGGATAAACAGAAAGCGGCTGTCGACACGCAGCGTACGGTTAATAACACGCTGAATACGAAGATAGCGAAAGAAGAAGAAAAAAATAAAGCGGTTACTGCGTATACGTTCCAACAGGTTGGTGAGCTGAATAAACGAAAAAATAAAGAGCTGATAACCCGGTTGGAAAGTCAGAAGTACGAAAAAATGTCACCGGATGTCTATTTCCGTGTGACAAAACAGGGACAGAAAAATAAAGCCCTGAAAGGTAAAACAATTACATTTGCTATGCGTGAAGAGCTGACAGATGGCTCAGTAACGGTTTCTCATGGCAAAGATGCACCTGCGGTGGTTCCGTTTAACGAGCTGCCGGGAGATTTAGCGAAATTTGTGTCTCTTGCCGGTGTCGGCGGACAGGTTGATGTTTATATTAAACCTGAGGGTGGTTACGGTGTTGAAGGAATTGAAGGTCAGATCCCGCCAAACTCAATGTCGATGATTACGCTGAACGTACTGAAAATTGAATAACGTATGTATATACCCAACGTCATTCAAGATGCAGCCAACGAACCTGCAGT