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	100.0	Morganella morganii S1	-	peptidylprolyl isomerase
EHELCC_13640	EHELCC_13640	100.0	Morganella morganii S2	-	peptidylprolyl isomerase
LHKJJB_08765	LHKJJB_08765	100.0	Morganella morganii S3	-	peptidylprolyl isomerase
HKOGLL_08315	HKOGLL_08315	100.0	Morganella morganii S5	-	peptidylprolyl isomerase
F4V73_RS13235	F4V73_RS13235	71.8	Morganella psychrotolerans	-	hypothetical protein
PMI_RS09680	PMI_RS09680	36.2	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 group_1285

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Phylogeny of the RefSeq best hits of group_1285

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
Q9P219	1.74e-08	63	23	31	915	1	CCDC88C	Protein Daple	Homo sapiens
Q6VGS5	3e-06	55	24	33	932	1	Ccdc88c	Protein Daple	Mus musculus
P13540	3.62e-05	52	23	23	804	2	MYH7	Myosin-7	Mesocricetus auratus
P02564	4.11e-05	52	24	25	804	1	Myh7	Myosin-7	Rattus norvegicus
C8Z5R8	4.45e-05	52	23	14	522	3	SPC110	Spindle pole body component 110	Saccharomyces cerevisiae (strain Lalvin EC1118 / Prise de mousse)
Q91Z83	4.59e-05	52	24	25	804	1	Myh7	Myosin-7	Mus musculus
P02563	7.55e-05	51	23	28	921	1	Myh6	Myosin-6	Rattus norvegicus
B3LFU6	8.63e-05	50	23	14	542	3	SPC110	Spindle pole body component 110	Saccharomyces cerevisiae (strain RM11-1a)
Q8MJU9	0.000142	50	23	22	795	2	MYH7	Myosin-7	Equus caballus
Q02566	0.000158	50	24	24	799	1	Myh6	Myosin-6	Mus musculus
P49824	0.00018	50	23	22	795	1	MYH7	Myosin-7	Canis lupus familiaris
P79293	0.000206	49	23	22	821	1	MYH7	Myosin-7	Sus scrofa
P13539	0.000283	49	23	24	817	2	MYH6	Myosin-6	Mesocricetus auratus
A6ZYV5	0.000285	49	24	16	495	3	SPC110	Spindle pole body component 110	Saccharomyces cerevisiae (strain YJM789)
Q9BE39	0.000327	49	23	22	795	1	MYH7	Myosin-7	Bos taurus
Q9VMA7	0.000456	48	25	7	260	1	Tango1	Transport and Golgi organization protein 1	Drosophila melanogaster
P12883	0.00061	48	23	22	821	1	MYH7	Myosin-7	Homo sapiens
P32380	0.001	47	24	16	495	1	SPC110	Spindle pole body component 110	Saccharomyces cerevisiae (strain ATCC 204508 / S288c)

Number of RefSeq hits:

General

Source	Morganella morganii S4
Locus tag	NLDBIP_14085
Feature type	CDS
Gene	-
Product	peptidylprolyl isomerase
Location	79211 - 83176 (strand: 1)
Length	3966 (nucleotides) / 1321 (amino acids)

Contig

Accession	ZDB_529
Length	159829 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_1285
Orthogroup size	7
N. genomes	7

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Genomic region

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

MRLNIRLCITVALFAAVQPATASEFNQVIEDFDRYIQTEKASGNFPVSVQQPDRSPAKRVTPPVNTAGQATQSQRQGTRKAARTGKRTVSSAQESRTQTAAAQKTDTTTPGISVPAQCENIVVREPVVVTNPVPVGYPQWSPAYLVRDSQKWGGNHRGFVFSPVPSRMTSSLTLTPEALFAIPGEPFRSMTYFSDLPLTVARVLKPETWFTPSDPQKQLRLTRLKLQDVKRELASLNEKYRNVQHNYEQALADIAKKETELSNLALANNELQAAAKGNSAKLTAELEQNRKTIDSLNQQISENLARFGQAEGQVTALTAEKASLEKQIAALNKEKVLADKNLALLESKNADMAKITQKLTELEKQLAQRDAEKQQLNDKILALTGENSKQSDALKKDLTALAAEKAALEKQITGLKSDNAQAEKNLALLQDKNAGMAKITQKLTELEKQLAQRDAEKQQLNDKILALTGEYSKQSDALKKDLTALAAEKAALEKQVAGLKSDNAQAEKNLALLQDKNADMAKVMQKLTELEKQLQAQDAEKQRLTAKLQSQETENGKQSADLEKRITALTADKSALEKQVAQLNSEKSRADENLALLGSKNADLAKLTQQLTATESKLKQSDTEKLALTAQLAEQGSKSAKQSAELKKSLDGLTAEKAALEKQISALTADKNSASAKNTELLNAKTAEMQKTTAQVSELEKQLKASTAEKQRIALELLQKTTDNQQQNAQLQKDLTALTADKTALTGQITRLTEEQAQAEKSIAQLSSKNADMEKMIQQLSTLEQQLKQRDTEKQALAAQIAAGNADSDKQSAQLKKELAALAADKTALEKQITQLTAEKAQSEKNAALLNDKNADLAKVTRDLSDTEQKLKNAETEKQKLAEQLAGQNKDAAAQSDKLKKELSTLAADKTALEKQITQLTADKAQSEKNAALLNDKNADLAKVTRSLTDTEQKLKKELSTLAADKTALEKQITELNAKNSDNAKMAAQLQTLEKELQQREADKLKLTAQLQSREADNTRQSDNLKKEVAALTVDKATLEQKIAQLTADKQLLSAKVSGADKESSTVQADNAELNKKLAAEQQRAAQLDKALKEKTQQIEALAKSDAELIKLNTQLDNQKKQLADKDAELAKAAAKLKENADLSAKYTALQKEMDKQKAVVSAQRTENTTLNTQIAKAEEKNKAVTAYTFQQVGELNKRKNQELIARLERQNYSKMTPDIYYRITKQGQKYKALKGKTVTFAMHEELTDGKVTVSYPVNAPAVIPFNELPGDLAKFVSLAGAGGAVDVYIKPEGGYGVAGIEGQIPPNSMSMIKLNVLKIE

Flanking regions ( +/- flanking 50bp)

TATTATTCTGTTCTGTCTATTGAGAATACCCTGGAGAAGGTTAACGGGTTATGAGACTGAACATCAGGTTGTGTATTACTGTCGCATTGTTTGCGGCAGTGCAACCGGCAACTGCATCTGAATTTAATCAGGTTATTGAAGATTTTGATCGTTATATTCAGACTGAAAAAGCATCAGGCAATTTTCCGGTATCAGTACAGCAACCTGACCGGTCTCCCGCAAAACGGGTTACACCGCCGGTAAATACGGCGGGTCAGGCCACTCAGTCACAGCGTCAGGGCACACGTAAAGCTGCCCGCACAGGAAAGCGCACTGTTTCGTCCGCGCAGGAAAGCCGGACACAAACAGCTGCTGCACAGAAAACTGACACAACAACCCCGGGGATCTCCGTACCGGCACAATGCGAAAATATTGTGGTCAGGGAACCGGTTGTTGTGACCAATCCTGTTCCGGTCGGATACCCGCAGTGGTCTCCGGCTTATCTGGTCCGTGACAGCCAGAAATGGGGCGGGAATCACCGGGGATTTGTGTTCTCACCTGTCCCTTCCCGTATGACCTCCTCACTGACTCTCACACCGGAAGCCTTGTTTGCCATCCCGGGTGAACCTTTCCGTTCAATGACGTATTTCTCTGATCTGCCGCTGACGGTTGCCCGTGTGCTGAAACCGGAAACCTGGTTTACGCCGTCTGATCCGCAGAAACAGCTGCGCCTCACCCGCCTGAAATTACAGGATGTGAAGCGTGAACTCGCGTCACTGAACGAAAAGTACCGGAATGTTCAGCATAATTATGAACAGGCGCTCGCGGATATTGCGAAAAAAGAGACAGAACTCAGCAATCTGGCTCTGGCAAATAATGAGTTACAGGCCGCGGCAAAAGGCAACAGCGCCAAACTGACCGCCGAGCTGGAACAGAACCGCAAAACGATTGATTCACTCAATCAGCAGATAAGTGAAAACCTGGCGCGTTTTGGTCAGGCGGAAGGTCAGGTCACGGCTCTGACAGCCGAAAAAGCCTCCCTGGAAAAACAGATTGCGGCACTGAATAAAGAAAAAGTGCTGGCAGATAAAAATCTCGCGCTGCTGGAAAGCAAAAATGCCGATATGGCAAAAATCACGCAGAAGCTGACGGAGCTGGAAAAACAGCTGGCTCAGCGGGATGCGGAAAAACAGCAGCTGAATGACAAAATCCTCGCGCTGACCGGTGAAAACAGCAAGCAGAGTGACGCACTGAAAAAAGACCTGACAGCACTGGCGGCAGAAAAAGCGGCACTGGAAAAACAGATTACCGGGCTGAAATCCGATAATGCTCAGGCGGAAAAAAATCTCGCCCTGTTGCAGGATAAAAATGCCGGTATGGCAAAAATCACGCAGAAGCTGACGGAGCTGGAAAAACAGCTGGCTCAGCGGGATGCGGAAAAACAGCAGCTGAATGACAAAATCCTCGCACTGACCGGTGAATACAGCAAACAGAGTGACGCACTGAAAAAAGATCTGACAGCGCTGGCGGCAGAAAAAGCGGCACTGGAAAAACAGGTAGCCGGGCTGAAATCCGATAATGCTCAGGCAGAGAAAAATCTCGCGCTGTTGCAGGATAAAAATGCCGATATGGCAAAAGTCATGCAGAAGCTGACGGAGCTGGAAAAGCAATTGCAGGCTCAGGATGCGGAAAAACAGCGCCTGACAGCAAAACTGCAATCTCAGGAAACCGAAAACGGCAAACAATCAGCCGATCTGGAAAAAAGGATCACCGCGCTGACAGCGGATAAATCGGCGCTTGAAAAACAGGTTGCGCAGCTGAATTCAGAGAAGAGCCGGGCTGACGAGAACCTCGCGCTGCTCGGCAGTAAAAATGCCGACCTCGCAAAACTTACGCAACAGCTGACGGCAACAGAAAGTAAGCTGAAACAAAGTGATACCGAAAAACTGGCACTGACCGCACAACTGGCGGAACAGGGCAGTAAAAGTGCGAAACAGAGCGCGGAGCTGAAAAAATCTCTCGACGGACTGACGGCAGAAAAAGCAGCACTGGAAAAACAGATCTCTGCACTGACCGCAGATAAAAACAGCGCCTCAGCCAAAAATACCGAACTGCTGAATGCGAAAACAGCGGAAATGCAGAAAACCACCGCGCAGGTTTCAGAGCTGGAAAAACAGCTGAAAGCAAGCACAGCGGAAAAACAGCGTATCGCGCTTGAATTACTGCAGAAAACCACCGATAACCAGCAGCAGAATGCGCAGCTGCAAAAAGATCTGACCGCACTGACCGCTGATAAAACGGCGCTGACCGGGCAAATCACCCGGCTGACCGAAGAGCAGGCACAGGCTGAAAAAAGTATCGCACAGCTGAGCAGTAAAAATGCCGATATGGAAAAAATGATTCAGCAACTGAGTACGCTGGAGCAGCAACTGAAACAGCGTGATACCGAAAAACAGGCACTGGCGGCACAGATTGCGGCCGGTAATGCTGACAGTGACAAACAGAGTGCACAGCTGAAAAAAGAGCTCGCCGCCCTGGCAGCGGATAAAACCGCGCTGGAAAAACAGATTACACAGCTGACGGCAGAGAAAGCGCAGTCAGAGAAAAATGCGGCGCTGCTGAATGACAAAAACGCCGATCTGGCGAAAGTCACCCGCGACCTGAGCGATACTGAGCAGAAGCTGAAAAACGCCGAAACAGAAAAACAGAAGCTTGCCGAACAGCTGGCCGGTCAGAATAAAGACGCGGCAGCACAGAGTGACAAGCTGAAAAAAGAACTCAGCACTCTGGCTGCGGATAAAACTGCGCTGGAAAAACAGATTACACAGCTGACGGCAGATAAAGCACAGTCAGAGAAAAATGCGGCGCTGCTGAATGACAAAAATGCCGATCTGGCGAAAGTCACCCGCAGCCTGACCGATACTGAGCAGAAGCTGAAAAAAGAACTCAGCACTCTGGCCGCCGATAAAACCGCGCTGGAAAAACAGATTACAGAGCTGAACGCCAAAAATAGCGATAACGCAAAAATGGCGGCTCAGTTGCAGACACTGGAAAAAGAATTACAGCAGCGTGAGGCTGATAAACTTAAGCTGACTGCTCAGTTACAGAGCCGTGAGGCGGATAATACCCGCCAGAGCGATAATCTGAAAAAAGAGGTGGCTGCGCTGACCGTGGATAAAGCCACACTGGAACAAAAAATTGCGCAGCTGACGGCGGATAAGCAATTGCTGTCGGCAAAAGTATCCGGTGCAGATAAAGAGAGCAGTACTGTTCAGGCGGATAATGCTGAGCTGAATAAAAAATTAGCGGCAGAACAGCAGCGGGCTGCTCAGCTGGATAAAGCCTTAAAAGAAAAAACACAGCAGATTGAAGCACTGGCGAAATCTGATGCGGAATTAATTAAGCTGAATACTCAGCTTGATAACCAGAAAAAGCAGCTGGCAGATAAAGATGCAGAACTCGCCAAAGCGGCGGCTAAGCTGAAAGAAAATGCCGATCTCTCGGCAAAATACACCGCATTGCAGAAAGAAATGGATAAGCAAAAGGCGGTTGTCAGTGCACAGCGGACAGAAAATACCACGCTGAATACACAAATTGCGAAAGCAGAAGAAAAAAATAAAGCCGTGACGGCTTATACTTTCCAGCAGGTTGGTGAGCTGAATAAACGGAAAAACCAGGAGCTGATCGCCCGCCTGGAGCGCCAGAATTATTCCAAAATGACGCCGGACATTTATTACCGTATCACCAAACAGGGACAGAAATATAAAGCGCTGAAAGGAAAAACAGTCACATTTGCGATGCATGAGGAACTAACTGACGGTAAAGTAACCGTGTCATATCCGGTAAATGCACCGGCGGTTATTCCGTTCAATGAATTACCGGGTGACCTGGCTAAATTCGTTTCACTTGCCGGCGCAGGCGGTGCGGTTGATGTGTATATAAAACCGGAAGGCGGTTATGGTGTCGCCGGTATTGAAGGGCAGATACCACCGAACTCAATGTCTATGATCAAACTGAACGTGCTGAAAATAGAATAATCCGGTGATTATGTGAATACTGAAAGCATCCTGTAACGGATGCTTTTTTT