Homologs in group_2432

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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_19655 FBDBKF_19655 100.0 Morganella morganii S1 narZ nitrate reductase subunit alpha
EHELCC_16945 EHELCC_16945 100.0 Morganella morganii S2 narZ nitrate reductase subunit alpha
NLDBIP_17505 NLDBIP_17505 100.0 Morganella morganii S4 narZ nitrate reductase subunit alpha
HKOGLL_17240 HKOGLL_17240 100.0 Morganella morganii S5 narZ nitrate reductase subunit alpha
F4V73_RS10450 F4V73_RS10450 95.2 Morganella psychrotolerans - nitrate reductase subunit alpha
PMI_RS17765 PMI_RS17765 86.3 Proteus mirabilis HI4320 - nitrate reductase subunit alpha

Distribution of the homologs in the orthogroup group_2432

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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_2432

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
P09152 0.0 2140 79 3 1248 1 narG Respiratory nitrate reductase 1 alpha chain Escherichia coli (strain K12)
P19319 0.0 2050 76 2 1239 1 narZ Respiratory nitrate reductase 2 alpha chain Escherichia coli (strain K12)
P42175 0.0 1334 51 15 1245 3 narG Nitrate reductase alpha chain Bacillus subtilis (strain 168)
P9WJQ3 0.0 1144 46 17 1238 1 narG Nitrate reductase alpha subunit Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)
P9WJQ2 0.0 1144 46 17 1238 3 narG Nitrate reductase alpha subunit Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh)
P85097 0.0 1020 47 33 1231 1 narG Respiratory nitrate reductase alpha chain (Fragments) Bradyrhizobium sp.
Q47CW6 1.06e-94 328 30 21 810 1 pcrA Perchlorate reductase subunit alpha Dechloromonas aromatica (strain RCB)
Q47CW6 2.15e-31 137 37 4 215 1 pcrA Perchlorate reductase subunit alpha Dechloromonas aromatica (strain RCB)
P9WJQ1 5.62e-86 297 62 0 218 1 narX Nitrate reductase-like protein NarX Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)
P9WJQ0 5.62e-86 297 62 0 218 2 narX Nitrate reductase-like protein NarX Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh)
I3R9M9 1.07e-80 290 42 6 389 1 narG Respiratory nitrate reductase subunit alpha Haloferax mediterranei (strain ATCC 33500 / DSM 1411 / JCM 8866 / NBRC 14739 / NCIMB 2177 / R-4)
I3R9M9 1.32e-33 144 29 11 382 1 narG Respiratory nitrate reductase subunit alpha Haloferax mediterranei (strain ATCC 33500 / DSM 1411 / JCM 8866 / NBRC 14739 / NCIMB 2177 / R-4)
I3R9M9 4.35e-24 113 32 6 243 1 narG Respiratory nitrate reductase subunit alpha Haloferax mediterranei (strain ATCC 33500 / DSM 1411 / JCM 8866 / NBRC 14739 / NCIMB 2177 / R-4)
Q8GPG4 1.64e-45 182 30 4 375 1 ddhA Dimethylsulfide dehydrogenase subunit alpha Rhodovulum sulfidophilum
Q8GPG4 2.26e-12 75 28 4 175 1 ddhA Dimethylsulfide dehydrogenase subunit alpha Rhodovulum sulfidophilum
Q8GPG4 4.32e-05 52 33 1 86 1 ddhA Dimethylsulfide dehydrogenase subunit alpha Rhodovulum sulfidophilum
Q9S1H0 2.85e-34 146 28 8 399 1 serA Selenate reductase subunit alpha Thauera selenatis
Q9S1H0 6.47e-18 93 30 2 186 1 serA Selenate reductase subunit alpha Thauera selenatis
Q9S1H0 2.02e-08 62 37 0 72 1 serA Selenate reductase subunit alpha Thauera selenatis
P60068 6.37e-31 135 28 8 373 1 clrA Chlorate reductase subunit alpha Ideonella dechloratans
P60068 4.55e-15 84 31 7 188 1 clrA Chlorate reductase subunit alpha Ideonella dechloratans
P60068 1.16e-07 60 38 0 72 1 clrA Chlorate reductase subunit alpha Ideonella dechloratans
Q9HR74 7.91e-16 86 24 8 327 2 dmsA Putative dimethyl sulfoxide reductase catalytic subunit A Halobacterium salinarum (strain ATCC 700922 / JCM 11081 / NRC-1)
Q9HR74 6.61e-08 60 30 2 120 2 dmsA Putative dimethyl sulfoxide reductase catalytic subunit A Halobacterium salinarum (strain ATCC 700922 / JCM 11081 / NRC-1)
P77374 4.67e-13 77 27 12 289 1 ynfE Putative dimethyl sulfoxide reductase chain YnfE Escherichia coli (strain K12)
P77374 0.000542 48 26 6 179 1 ynfE Putative dimethyl sulfoxide reductase chain YnfE Escherichia coli (strain K12)
P18775 3.26e-10 68 24 8 290 1 dmsA Dimethyl sulfoxide reductase DmsA Escherichia coli (strain K12)
P45004 5.13e-08 61 24 9 282 3 dmsA Dimethyl sulfoxide reductase DmsA Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd)
P37519 1e-07 60 23 6 277 3 yyaE Probable oxidoreductase YyaE Bacillus subtilis (strain 168)
Q9KRF0 1.73e-06 56 37 1 72 3 torA Trimethylamine-N-oxide reductase Vibrio cholerae serotype O1 (strain ATCC 39315 / El Tor Inaba N16961)
Q9CK41 4.19e-06 55 31 1 74 3 torA Trimethylamine-N-oxide reductase Pasteurella multocida (strain Pm70)
Q57366 7.86e-06 54 22 16 387 1 dmsA Dimethyl sulfoxide/trimethylamine N-oxide reductase Cereibacter sphaeroides
Q7MLQ2 7.98e-06 54 37 1 72 3 torA Trimethylamine-N-oxide reductase Vibrio vulnificus (strain YJ016)
Q8D8S3 7.98e-06 54 37 1 72 3 torA Trimethylamine-N-oxide reductase Vibrio vulnificus (strain CMCP6)
Q8ZKZ7 1.13e-05 53 31 1 73 3 torA Trimethylamine-N-oxide reductase Salmonella typhimurium (strain LT2 / SGSC1412 / ATCC 700720)
Q8Z2M4 1.16e-05 53 31 1 73 3 torA Trimethylamine-N-oxide reductase Salmonella typhi
P33225 1.5e-05 53 31 1 73 1 torA Trimethylamine-N-oxide reductase 1 Escherichia coli (strain K12)
P58360 1.58e-05 53 31 1 73 3 torA Trimethylamine-N-oxide reductase 1 Escherichia coli O157:H7
Q8CW73 1.61e-05 53 31 1 73 3 torA Trimethylamine-N-oxide reductase 1 Escherichia coli O6:H1 (strain CFT073 / ATCC 700928 / UPEC)
Q8EHI9 1.8e-05 53 37 1 69 3 torA Trimethylamine-N-oxide reductase Shewanella oneidensis (strain ATCC 700550 / JCM 31522 / CIP 106686 / LMG 19005 / NCIMB 14063 / MR-1)
O87948 3.04e-05 52 37 1 69 1 torA Trimethylamine-N-oxide reductase Shewanella massilia
Q52675 3.33e-05 52 22 10 259 1 dorA Dimethyl sulfoxide/trimethylamine N-oxide reductase Rhodobacter capsulatus
Q87QI7 5e-05 51 36 1 72 3 torA Trimethylamine-N-oxide reductase Vibrio parahaemolyticus serotype O3:K6 (strain RIMD 2210633)
P37600 0.000298 48 22 8 275 1 phsA Thiosulfate reductase molybdopterin-containing subunit PhsA Salmonella typhimurium (strain LT2 / SGSC1412 / ATCC 700720)
P20099 0.000554 48 22 8 263 1 bisC Biotin sulfoxide reductase Escherichia coli (strain K12)
P06131 0.000597 48 37 1 69 1 fdhA Formate dehydrogenase subunit alpha Methanobacterium formicicum
Q727P3 0.000899 47 21 8 304 1 fdnG-3 Formate dehydrogenase 2 subunit alpha (cytochrome c-553) Nitratidesulfovibrio vulgaris (strain ATCC 29579 / DSM 644 / CCUG 34227 / NCIMB 8303 / VKM B-1760 / Hildenborough)
P07658 0.001 47 34 1 66 1 fdhF Formate dehydrogenase H Escherichia coli (strain K12)

  • Number of RefSeq hits:

General

Source Morganella morganii S3
Locus tag LHKJJB_17425
Feature type CDS
Gene narZ
Product nitrate reductase subunit alpha
Location 1553 - 5314 (strand: 1)
Length 3762 (nucleotides) / 1253 (amino acids)

Contig

Accession ZDB_379
Length 55765 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_2432
Orthogroup size 7
N. genomes 7

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Genomic region

Domains

PF00384 Molybdopterin oxidoreductase
PF01568 Molydopterin dinucleotide binding domain
PF14710 Respiratory nitrate reductase alpha N-terminal

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG5013 Energy production and conversion (C)
Inorganic ion transport and metabolism (P)		 CP Nitrate reductase alpha subunit

Kegg Ortholog Annotation(s)

Protein Sequence

MSKFLDRFRYFKQRGETFSGDHGQELNVNRDWEDGYRSRWQHDKVVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPDHEPRGCPRGASYSWYLYSANRVKYPMVRKRLIKLWREAKAQHTDPVDAWASIINDEAKAKSYKQARGRGGFVRSDWQEVNEMIAAANIVTAKQFGPDRIIGFSPIPAMSMVSYASGARYLSLIGGACLSFYDWYCDLPPASPQTWGEQTDVPESADWYNSSYLIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAITPDYAEIAKLCDQWLNPKQGTDSAVALAMGHVILNEFHAKRQAEYFTNYVRTYSDMPMLVMLDPRAEGGYVPGRMLRASDLVDSLGEKENAEWKTIAIDENSQQLVAPQGSIGFRWDKSRKWNLEPRDGKSGDEITMQLSLLDKHDEVADVAFPYFGGIENEFFEGVALDEVLMHKLPVKVVRLADGSEVRVASVFDLTLANYGIDRGLDDVNCAADYSEIKAYTPAWAEKVTGVSQHHISRIAREFADNAEKTHGRSMVIVGAGINHWYHMDMTYRGIINMLVFCGCVGQSGGGWSHYVGQEKLRPQTGWLPLAFGLDWSRPPRHMNSTSFFYNHSSQWRYETVQPQELLSPLADKSRFSGSLLDFNIRAERMGWLPSAPQLNMNPLTIAARAKEAGQDPQAYTAEALKSGTIRFAAEQPDNPQNFPRNLFIWRSNLLGSAGKGHEYLLKYLLGTENGLLGKDLGEQGSVKPEEAEWVDNAPEGKVDLVVTLDFRMSSTCLFSDIVLPTATWYEKDDMNTSDMHPFIHPLTAAVDPAWESKTDWEIYKGIAKSFSELCPGHLGKETDIVTLPIQHDSAAEMAQPFDVKDWKKGECDLIPGKTAPHLMVVERDYPNTYARFTSLGPLMDKLGNGGKGISWNTQEEVDFLKKLNRTRTEGAAEGRPAIETAIDAAEVVLSLAPETNGHVAVKAWDALGKVTGRDHTHLAIHKEDEKIRFRDIVAQPRKIISSPTWSGLEDEHVSYNAGYTNVHEMIPWRTLSGRQQLYQDHEWMRAFGEALVVYRPPVDTRAAQPLLGAKPNGYPEKALNFLTPHQKWGIHSTYSDNQLMLTLGRGGPVVWLSEDDARSLGIEDNDWIEAFNSNGALTARAIVSQRIPDGMIFMYHAQERQINLPGSEVTGMRGGIHNSVTRVCPKPTHMIGGYSHLAYSFNYYGTVGSNRDEFVVVRKMKNVDWLDGEQDGYQQTLSGQEKA

Flanking regions ( +/- flanking 50bp)

CTGATAATCAGAGCAATGTGAGCGCCCGGCGCTTATCGGGGGATTACCGAATGAGCAAGTTTTTAGACAGATTCCGTTATTTTAAGCAGCGCGGGGAAACCTTCTCCGGCGACCACGGACAAGAGCTGAATGTCAACCGCGACTGGGAAGATGGTTACCGCAGCCGCTGGCAGCATGACAAAGTTGTCCGTTCCACCCACGGCGTGAACTGTACCGGTTCATGCAGCTGGAAAATCTACGTGAAAAACGGGCTGGTAACCTGGGAGACACAGCAGACGGACTACCCGCGTACCCGTCCTGATCTGCCGGATCATGAGCCGCGCGGCTGTCCGCGCGGTGCCAGCTATTCCTGGTATCTGTACAGCGCAAACCGCGTGAAGTATCCGATGGTACGCAAACGCCTGATCAAACTGTGGCGCGAAGCCAAAGCGCAGCACACGGATCCGGTCGATGCATGGGCATCCATTATTAATGATGAGGCAAAAGCCAAAAGCTACAAACAGGCACGCGGCCGCGGCGGTTTTGTCCGCTCCGACTGGCAGGAAGTGAATGAAATGATTGCGGCAGCCAATATTGTGACTGCCAAACAGTTCGGCCCTGACCGTATTATCGGCTTCTCGCCGATCCCGGCGATGTCGATGGTCTCCTATGCTTCCGGTGCCCGTTATTTATCCCTGATCGGCGGTGCCTGCCTGAGTTTCTATGACTGGTACTGCGACTTACCGCCGGCCTCCCCGCAAACCTGGGGTGAACAGACTGACGTGCCGGAATCCGCAGACTGGTATAATTCCTCTTATCTGATTGCCTGGGGTTCCAACGTCCCGCAGACCCGTACCCCGGATGCGCACTTCTTCACCGAAGTCCGCTACAAAGGCACCAAAACTGTCGCGATTACGCCCGATTATGCTGAAATCGCCAAACTGTGTGACCAGTGGCTGAACCCGAAACAGGGTACAGACAGCGCCGTTGCACTGGCAATGGGACATGTGATCCTCAATGAGTTCCACGCGAAGCGTCAGGCGGAATATTTCACTAATTATGTCCGCACTTACAGCGACATGCCGATGCTGGTAATGCTGGATCCGCGTGCGGAAGGCGGCTATGTGCCGGGCCGTATGCTGCGGGCATCTGATCTGGTGGATTCTCTCGGCGAGAAAGAAAATGCTGAGTGGAAAACTATTGCCATTGATGAGAACAGTCAGCAACTGGTGGCACCGCAGGGCTCTATCGGATTCCGCTGGGACAAATCCCGCAAATGGAACCTGGAGCCGCGTGACGGCAAGAGCGGTGATGAGATCACCATGCAACTGAGCCTGCTGGATAAACACGATGAAGTTGCTGATGTCGCGTTCCCGTATTTCGGCGGCATTGAAAATGAATTCTTTGAAGGTGTGGCACTGGATGAAGTGCTGATGCACAAACTGCCGGTGAAAGTGGTACGTCTGGCAGACGGCAGTGAAGTCCGTGTGGCGAGTGTTTTCGATTTAACCCTCGCCAACTACGGTATCGATCGCGGCCTGGACGATGTGAACTGCGCGGCGGATTACAGTGAAATCAAGGCCTATACCCCGGCCTGGGCAGAGAAAGTGACCGGCGTCAGCCAGCATCACATCTCCCGCATTGCCCGTGAGTTTGCCGATAACGCCGAGAAAACCCACGGCCGTTCAATGGTGATTGTCGGTGCCGGTATCAACCACTGGTATCACATGGACATGACCTACCGCGGCATCATCAATATGCTGGTGTTCTGCGGCTGCGTCGGCCAGAGCGGCGGCGGCTGGTCACACTATGTGGGTCAGGAAAAACTGCGTCCGCAGACCGGCTGGTTACCGCTGGCGTTCGGGCTGGACTGGTCACGTCCGCCGCGTCATATGAACAGCACCTCGTTCTTCTATAACCACTCCAGCCAGTGGCGTTATGAAACCGTTCAGCCGCAGGAGCTTCTCTCCCCGCTGGCGGACAAATCCCGCTTCAGCGGCAGCCTGCTGGACTTCAACATCCGTGCCGAGCGCATGGGCTGGCTGCCGTCCGCACCGCAGCTGAACATGAACCCGCTGACTATCGCGGCGAGAGCAAAAGAAGCCGGTCAGGATCCGCAGGCTTACACCGCAGAAGCACTGAAGAGCGGCACTATCCGCTTTGCGGCGGAACAGCCGGATAATCCGCAGAACTTCCCGCGTAACCTGTTTATCTGGCGCTCCAACCTGCTCGGCTCCGCCGGTAAAGGCCATGAGTATCTGCTGAAATACCTGCTCGGCACCGAAAACGGTCTGCTGGGTAAAGATCTCGGCGAACAGGGCAGCGTGAAACCGGAAGAAGCGGAATGGGTGGATAATGCCCCGGAAGGAAAAGTGGATCTGGTGGTGACACTCGATTTCCGCATGTCCAGCACCTGTCTGTTCTCCGATATCGTGCTGCCGACCGCCACCTGGTATGAAAAAGATGATATGAACACCTCGGATATGCATCCGTTCATTCATCCGCTGACCGCTGCGGTCGATCCGGCCTGGGAATCCAAAACCGACTGGGAAATCTACAAAGGGATCGCCAAATCCTTCTCTGAACTCTGCCCGGGCCACCTGGGTAAAGAGACGGATATTGTTACGCTGCCAATCCAGCATGACTCCGCTGCCGAAATGGCGCAGCCGTTTGATGTGAAGGACTGGAAAAAAGGCGAATGTGATCTGATTCCGGGCAAAACCGCACCGCACCTGATGGTGGTGGAGCGCGATTATCCGAACACCTACGCCCGCTTTACCTCGCTGGGGCCGCTGATGGATAAACTCGGCAACGGCGGCAAAGGTATCAGCTGGAATACTCAGGAAGAAGTCGATTTCCTGAAAAAACTTAACCGCACCCGCACTGAGGGCGCAGCGGAAGGCCGTCCGGCGATTGAAACCGCGATTGATGCGGCAGAAGTCGTGCTGTCACTGGCACCGGAAACCAACGGCCATGTGGCGGTGAAAGCCTGGGATGCGCTCGGTAAAGTGACCGGCCGCGACCATACGCATCTTGCCATCCATAAAGAAGATGAAAAAATCCGCTTCCGCGACATCGTGGCACAGCCGCGCAAAATCATCTCCAGCCCGACCTGGTCCGGCCTCGAAGATGAGCATGTCTCTTATAACGCGGGTTACACCAACGTTCACGAGATGATCCCGTGGCGCACCCTGAGCGGCCGTCAGCAGTTGTATCAGGATCATGAATGGATGCGTGCATTCGGTGAGGCACTTGTGGTGTACCGTCCGCCGGTGGATACCCGTGCGGCACAACCGCTGCTGGGCGCGAAACCAAACGGCTATCCGGAGAAAGCCCTGAACTTCCTGACCCCGCACCAGAAATGGGGTATTCACTCCACCTACAGCGACAACCAGCTGATGCTGACCCTCGGCCGTGGTGGTCCGGTGGTGTGGCTGAGTGAGGACGATGCCCGTTCGCTGGGCATTGAGGATAACGACTGGATCGAAGCCTTCAACAGCAACGGCGCACTGACTGCCCGTGCGATTGTCAGCCAGCGTATCCCGGACGGCATGATCTTTATGTATCACGCCCAGGAGCGTCAGATTAACCTGCCGGGCTCGGAAGTGACCGGTATGCGCGGCGGTATTCATAACTCCGTCACCCGTGTCTGCCCGAAACCGACCCATATGATCGGCGGCTACAGCCACCTGGCATACAGCTTTAACTATTACGGCACTGTCGGCTCCAACCGCGACGAATTTGTGGTGGTCCGCAAAATGAAAAATGTGGACTGGCTCGACGGTGAGCAGGATGGTTATCAACAGACCCTGAGCGGGCAGGAGAAAGCATAATGAAGATACGTTCCCAAGTCGGCATGGTATTGAACCTGGATAAATGTATC