Homologs in group_561

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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_00795 FBDBKF_00795 89.5 Morganella morganii S1 cheA chemotaxis protein CheA
EHELCC_00750 EHELCC_00750 89.5 Morganella morganii S2 cheA chemotaxis protein CheA
NLDBIP_02710 NLDBIP_02710 89.5 Morganella morganii S4 cheA chemotaxis protein CheA
LHKJJB_04225 LHKJJB_04225 89.5 Morganella morganii S3 cheA chemotaxis protein CheA
HKOGLL_02820 HKOGLL_02820 89.5 Morganella morganii S5 cheA chemotaxis protein CheA
PMI_RS08145 PMI_RS08145 64.6 Proteus mirabilis HI4320 cheA chemotaxis protein CheA

Distribution of the homologs in the orthogroup group_561

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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_561

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
P21813 0.0 786 60 6 673 3 cheA Chemotaxis protein CheA Klebsiella aerogenes (strain ATCC 13048 / DSM 30053 / CCUG 1429 / JCM 1235 / KCTC 2190 / NBRC 13534 / NCIMB 10102 / NCTC 10006 / CDC 819-56)
P09384 0.0 767 58 4 681 1 cheA Chemotaxis protein CheA Salmonella typhimurium (strain LT2 / SGSC1412 / ATCC 700720)
P07363 0.0 753 57 4 677 1 cheA Chemotaxis protein CheA Escherichia coli (strain K12)
P29072 1.5e-125 390 36 15 684 1 cheA Chemotaxis protein CheA Bacillus subtilis (strain 168)
Q52880 1.16e-110 354 46 2 377 1 cheA Chemotaxis protein CheA Rhizobium meliloti (strain 1021)
Q52880 4.86e-16 85 34 1 144 1 cheA Chemotaxis protein CheA Rhizobium meliloti (strain 1021)
Q53135 2.04e-103 333 44 3 391 3 cheA Chemotaxis protein CheA Cereibacter sphaeroides
O25153 2.03e-102 333 33 15 689 1 cheAY Sensor histidine kinase CheAY Helicobacter pylori (strain ATCC 700392 / 26695)
Q48768 2.12e-89 294 31 14 662 3 cheA Chemotaxis protein CheA Listeria monocytogenes serovar 1/2a (strain ATCC BAA-679 / EGD-e)
Q92DW2 4.61e-89 293 31 14 665 3 cheA Chemotaxis protein CheA Listeria innocua serovar 6a (strain ATCC BAA-680 / CLIP 11262)
Q56310 1.33e-87 291 40 4 381 1 cheA Chemotaxis protein CheA Thermotoga maritima (strain ATCC 43589 / DSM 3109 / JCM 10099 / NBRC 100826 / MSB8)
B0R4J9 1.62e-81 275 28 10 692 1 cheA Chemotaxis protein CheA Halobacterium salinarum (strain ATCC 29341 / DSM 671 / R1)
P96123 1.82e-80 275 39 7 407 3 cheA Chemotaxis protein CheA Treponema pallidum (strain Nichols)
P96123 4.33e-10 67 36 2 100 3 cheA Chemotaxis protein CheA Treponema pallidum (strain Nichols)
Q44737 1.82e-72 254 40 2 333 3 cheA Chemotaxis protein CheA Borreliella burgdorferi (strain ATCC 35210 / DSM 4680 / CIP 102532 / B31)
Q44737 0.000125 49 32 0 71 3 cheA Chemotaxis protein CheA Borreliella burgdorferi (strain ATCC 35210 / DSM 4680 / CIP 102532 / B31)
P18769 2.91e-40 161 30 7 355 1 frzE Gliding motility regulatory protein Myxococcus xanthus

  • Number of RefSeq hits:

General

Source Morganella psychrotolerans
Locus tag F4V73_RS06795
Feature type CDS
Gene cheA
Product chemotaxis protein CheA
Location 1410338 - 1412392 (strand: -1)
Length 2055 (nucleotides) / 684 (amino acids)
In genomic island -

Contig

Accession NZ_VXKB01000001
Length 2012992 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_561
Orthogroup size 7
N. genomes 7

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Genomic region

Domains

PF01584 CheW-like domain
PF01627 Hpt domain
PF02518 Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase
PF02895 Signal transducing histidine kinase, homodimeric domain
PF09078 CheY binding

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG0643 Signal transduction mechanisms (T) T Chemotaxis protein histidine kinase CheA

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K03407 two-component system, chemotaxis family, sensor kinase CheA [EC:2.7.13.3] Two-component system
Bacterial chemotaxis		 -

Protein Sequence

MDITEFYQTFFDEADELLLDMEQHLLELDPHDPDSEQLNAIFRSAHSIKGGAATFGFTLLQKTTHTLENLLDKARHDELTLTPDIIDIFLDTKDVMGSQLDAYKSDRLPDEESFNRICEVLGRVEQSVADAAVITTQAASSQDSTGDEPAETTAVSAAAGTGFAHHVTFTLSQLKATEVPLLADELALFGTVYKTEEGTDTLRIWLGTNTDIEDVCGVLCFVVDESQIAHEETPAEELAAILAAEEKPAEQEEPEVVQAPQAAPVEKQAEPARKAPAVKTKGDSGSIRVAVEKVDQLINLVGELVIIQSMLTQHSQQVEQSEYAELLSSIVQLERNSRALQESVMSIRMMPMDYVFSRFPRMVRDIASKLNKKIELKVEGSSTELDKSLIERIIDPLTHLVRNSLDHGIERPEVRAANGKREAGTLTLAAEHQSGNICIEVRDDGAGLNRERILAKARQQGMDVHDNMTNDDIAMLIMAPGFSTAEVITDVSGRGVGMDVVKRNIQDMGGRIQIGFTEGKGTITRILLPLTLAILDGMSVKIADDVFIVPLSAIISTLQPRQEDIYRLAGEEKMLLVRGEYLPLVEMHQVFGIDGAERDLAKSIALIVQNAGNRYALLVDKLVGQQQVVVKNVESNYRKIPGISAATIMGDGTVALIVDVAELQRMNNEILCSKKLNTSHVVMQ

Flanking regions ( +/- flanking 50bp)

TTTCCGGCAGTACCTGTCAGTCGTAACGCAAGCAAAATTGGATAACAGCGATGGATATAACCGAGTTTTATCAAACGTTTTTCGATGAAGCTGACGAGTTGCTCCTGGATATGGAGCAGCATCTGCTGGAGCTCGATCCTCATGACCCGGACAGCGAACAGCTTAATGCCATCTTCCGCAGCGCGCACTCTATCAAGGGCGGTGCTGCGACATTCGGATTTACGCTGCTGCAAAAAACCACACATACCCTGGAAAATCTGCTCGATAAAGCCCGTCATGATGAACTGACACTGACGCCGGATATTATCGATATCTTCCTGGACACAAAAGATGTGATGGGCTCGCAACTTGATGCTTACAAAAGTGACAGGCTGCCGGACGAAGAGAGCTTTAACCGCATCTGTGAAGTGCTGGGCCGTGTAGAACAGAGTGTCGCTGATGCCGCTGTTATCACAACACAGGCTGCGTCTTCACAGGATAGCACCGGTGATGAACCGGCGGAAACAACCGCTGTTTCTGCGGCGGCGGGAACCGGTTTTGCGCATCACGTCACCTTCACGCTAAGTCAGTTAAAAGCCACGGAAGTCCCTTTACTGGCGGATGAACTGGCACTGTTCGGGACTGTTTATAAAACAGAAGAGGGCACAGACACACTGCGGATCTGGCTCGGAACGAATACGGATATTGAAGATGTCTGCGGCGTACTCTGCTTTGTGGTGGATGAATCGCAGATAGCGCACGAAGAAACACCGGCGGAAGAGTTAGCCGCTATTCTGGCTGCGGAAGAAAAACCGGCAGAGCAGGAAGAGCCGGAGGTTGTACAAGCCCCGCAGGCCGCTCCTGTGGAAAAACAGGCAGAGCCTGCACGCAAAGCACCGGCTGTTAAAACTAAAGGCGACAGCGGCAGTATCCGTGTGGCAGTGGAAAAGGTCGATCAGTTGATTAACCTGGTGGGTGAACTGGTGATTATTCAGTCGATGCTGACACAGCACAGTCAGCAGGTTGAACAGTCAGAATATGCCGAGCTGCTCAGTTCGATTGTTCAGCTTGAGCGCAATTCACGGGCATTGCAGGAGTCGGTTATGTCCATCCGGATGATGCCGATGGATTACGTATTCAGCCGCTTCCCGCGCATGGTGCGTGATATCGCCTCCAAACTGAACAAAAAAATCGAACTGAAAGTTGAGGGTAGCTCAACCGAACTGGATAAGAGCCTGATCGAACGGATTATTGACCCGCTGACGCATCTGGTGCGCAACAGTCTTGATCACGGTATTGAACGACCGGAAGTCCGCGCGGCAAACGGTAAACGGGAAGCCGGGACACTGACGCTGGCGGCAGAGCATCAGAGTGGCAATATCTGTATTGAAGTGCGCGATGACGGCGCGGGACTGAACCGCGAACGCATTCTGGCGAAAGCCCGCCAGCAGGGAATGGATGTCCACGACAACATGACCAATGATGATATCGCGATGCTGATTATGGCACCGGGATTCTCCACCGCCGAGGTTATTACAGACGTGTCCGGGCGCGGTGTTGGTATGGATGTAGTGAAACGGAACATCCAGGACATGGGCGGACGTATCCAGATTGGCTTTACAGAAGGCAAGGGAACCATCACCCGTATTCTGCTGCCGCTGACCCTGGCTATCCTGGACGGCATGTCCGTCAAAATTGCAGACGACGTGTTTATCGTACCGCTCAGCGCCATTATCAGCACATTGCAACCGCGTCAGGAAGATATTTACCGGCTGGCAGGTGAAGAAAAAATGTTACTGGTGCGCGGAGAATATCTGCCACTGGTCGAAATGCATCAGGTATTCGGTATCGATGGTGCGGAACGCGACCTGGCAAAAAGCATTGCGCTGATTGTTCAGAATGCGGGCAACCGTTACGCCTTACTGGTCGACAAATTGGTGGGTCAGCAGCAGGTTGTGGTGAAAAACGTCGAAAGCAACTACCGCAAAATTCCGGGCATTTCTGCCGCGACTATCATGGGTGACGGCACTGTCGCACTGATTGTTGATGTGGCGGAGTTACAGCGGATGAACAACGAAATTTTGTGCAGCAAAAAACTGAACACGTCACACGTCGTGATGCAATAAACAGAGGTAAATGACCATGTCTATGATGGATGATGATTTTAACAAACTTG