Homologs in group_3904

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1 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
PMI_RS10485 PMI_RS10485 32.8 Proteus mirabilis HI4320 - chondroitinase family polysaccharide lyase

Distribution of the homologs in the orthogroup group_3904

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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_3904

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
C7S340 0.0 1759 87 0 968 1 ChABCII Chondroitin sulfate ABC exolyase (Fragment) Proteus vulgaris
C5G6D7 2.13e-152 481 31 26 1017 1 chonabc Chondroitin sulfate ABC exolyase Bacteroides thetaiotaomicron
Q8A2I1 1.17e-151 479 31 26 1013 1 chonabc Chondroitin sulfate ABC exolyase Bacteroides thetaiotaomicron (strain ATCC 29148 / DSM 2079 / JCM 5827 / CCUG 10774 / NCTC 10582 / VPI-5482 / E50)
P59807 3.21e-93 322 27 31 1077 1 None Chondroitin sulfate ABC endolyase Proteus vulgaris
Q59288 3.05e-06 55 24 14 323 1 cslA Chondroitinase-AC Pedobacter heparinus (strain ATCC 13125 / DSM 2366 / CIP 104194 / JCM 7457 / NBRC 12017 / NCIMB 9290 / NRRL B-14731 / HIM 762-3)

  • Number of RefSeq hits:

General

Source Proteus mirabilis HI4320
Locus tag PMI_RS10490
Feature type CDS
Gene -
Product chondroitinase family polysaccharide lyase
Location 2306963 - 2310004 (strand: 1)
Length 3042 (nucleotides) / 1013 (amino acids)

Contig

Accession NC_010554
Length 4063606 nucleotides
Topology circular
Plasmid False

Orthology

Orthogroup group_3904
Orthogroup size 2
N. genomes 1

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Genomic region

Domains

PF02278 Polysaccharide lyase family 8, super-sandwich domain
PF02884 Polysaccharide lyase family 8, C-terminal beta-sandwich domain
PF09092 Lyase, N terminal
PF09093 Lyase, catalytic

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K08961 chondroitin-sulfate-ABC endolyase/exolyase [EC:4.2.2.20 4.2.2.21] - -

Protein Sequence

MLIKNSLAYAITLSFCLSLPAQALPSLSHEPFGDLYLFEDEMPNTLSTSNDHQLSLSKEHAKDGVQSLKWQYQPQSTLTLNNEVNYQDDKNTATPLTFMMWIYNEKPQSTPLTLQFKQNNQVALSFKTELNFTGWRGIAVPFRDMKGSATGKLDKLVITAPDQAGTLFFDQIIMSVPLDNRWPIPDYQIPYVNNAVNTMVSKNWSALLMYDQMFTAHYPTLNFATEFRDDQPEVASIYQRFEYYQGVSRDKKITAEMIDKNLALWKKLALEQHADGSITAKALDHPNRQNFIKVEGVFSEETQKALLDANMLRDVGKTLLQTAIYLRSHSLSAIDRKKLETLYLLGTRYVLEQGFTRGSGYQIITHVGYQTRELFDAWFIGRHILAKHNLLAPTQQAMMWYNATGRIFEKDNEIVDANVDILNTQLQWMIKSLLMLPDYQQRQQALAQLQSWLNKTILSSKGVAGGFKSDGSIFHHSQHYPAYAKDAFGGLAPSVYALSHSPFRLSSPAHARLKDVLLKMRIYTKETQIPLVLSGRHPTGLHKISIDPFKWMALAGTPDGKQELDTTLAAAYAKLANKDSFEGIKAENEPVGAWAMNYASMAIQRRASITAPQQSWLAIARGFSRYLVGNESYENNNRYGRYLQYGQLEIIPADLTKSGFSHAGWDWNRYPGTTTIHLPYDELEAKLSQLPSAGIEEMLLSTQRYSGANTLNNNSMFAMKLHGHSKYQQQSLRANKSYFLFDNRVIALGSGIENNDKQHTTETTLFQFAVPKLQSIIINGKKVNQLGTQLTLNNADTLIDPAGNLYKLAKGQTVEFSYQKQYSVDDRNSQQTEQLFATAVISHGKAPKNANYEYAIAIEAQDNKAPEYTVLQHNNQLHAVKDKITQEEGYAFFNATEVNSSQALLLSSDSPTMVMVKKQKQQLTLSIVNPDLNLYQGIEADQIDNKGNQVEVSVYSRQWLTADPQPISSTVTVKGIWKLATPQLGVNIRYQNNNTLITTTTIQAIPITVYLIK

Flanking regions ( +/- flanking 50bp)

TTTAAAGGAGCGCATTCGCGTTCCTTTTTTATTTTGCAGGAAATCTGATTATGCTAATAAAAAATTCTTTAGCTTATGCGATTACACTAAGTTTCTGCTTATCCTTACCCGCACAAGCATTACCTTCTCTTTCTCATGAACCTTTTGGCGATCTTTATCTTTTTGAAGATGAAATGCCAAATACCTTGAGCACCTCAAATGACCATCAGCTATCACTAAGTAAAGAGCATGCTAAAGATGGCGTACAGTCACTCAAATGGCAGTATCAACCCCAATCAACATTAACACTTAATAATGAAGTTAATTATCAAGATGATAAAAATACAGCAACACCACTCACTTTTATGATGTGGATTTACAATGAAAAACCACAGTCAACGCCCCTTACATTACAATTTAAACAAAATAATCAAGTAGCATTAAGTTTTAAAACGGAACTGAATTTCACAGGTTGGCGAGGTATTGCAGTTCCTTTTCGTGATATGAAAGGCTCAGCAACAGGCAAATTAGATAAATTAGTCATTACTGCACCAGATCAAGCAGGTACGCTTTTTTTTGATCAAATAATTATGAGCGTACCTTTAGATAATCGTTGGCCTATTCCTGACTATCAAATTCCATATGTTAATAATGCAGTAAATACAATGGTGAGTAAAAATTGGAGTGCATTATTGATGTACGATCAAATGTTCACAGCGCATTATCCTACATTAAATTTTGCGACTGAGTTTCGCGATGATCAGCCTGAAGTGGCATCTATTTATCAACGTTTTGAATACTATCAAGGTGTCAGTCGTGATAAAAAAATCACCGCTGAAATGATCGACAAAAATTTAGCATTATGGAAAAAATTAGCCTTAGAACAACATGCTGATGGCTCAATAACCGCAAAAGCCCTTGATCATCCTAATCGCCAGAATTTTATCAAAGTCGAGGGGGTCTTTAGTGAAGAAACCCAAAAAGCATTACTTGATGCCAACATGCTAAGAGATGTAGGCAAAACGCTTCTTCAAACAGCGATTTACTTGCGTAGTCACTCCTTATCAGCAATCGATAGAAAAAAATTAGAAACGCTCTATTTATTAGGCACTCGTTACGTTCTTGAACAAGGTTTCACACGGGGGAGTGGTTACCAAATTATTACTCACGTAGGTTATCAAACAAGAGAGCTTTTTGATGCATGGTTTATTGGTCGCCATATTCTAGCAAAACATAATCTGTTAGCACCGACACAACAAGCCATGATGTGGTATAACGCAACAGGGCGCATATTTGAAAAAGATAATGAAATCGTTGATGCAAATGTCGATATTCTCAATACCCAATTACAGTGGATGATAAAAAGTTTATTGATGTTGCCAGATTATCAACAGCGCCAACAAGCCTTAGCACAATTGCAAAGTTGGCTAAACAAAACCATTCTTAGTTCTAAAGGTGTCGCTGGTGGCTTTAAATCTGATGGCTCTATTTTTCACCATTCACAACATTATCCAGCTTATGCCAAAGATGCATTTGGTGGCTTAGCGCCTAGTGTTTATGCCTTAAGTCATTCCCCTTTTCGTCTTTCATCACCAGCACATGCACGCTTAAAAGATGTATTATTAAAAATGCGTATCTATACCAAAGAAACACAAATTCCTCTGGTATTAAGTGGCAGACATCCTACGGGGTTACATAAAATAAGTATTGATCCCTTCAAATGGATGGCTCTTGCAGGTACGCCCGATGGTAAACAAGAGCTAGATACTACATTAGCAGCCGCTTATGCAAAATTAGCAAACAAAGATAGCTTTGAAGGTATTAAAGCAGAAAATGAACCGGTAGGTGCATGGGCAATGAATTATGCTTCAATGGCAATCCAGCGTAGAGCATCAATAACAGCGCCACAGCAAAGCTGGCTTGCTATCGCTCGTGGTTTTAGTCGTTATTTAGTGGGTAATGAAAGTTATGAGAATAACAACCGTTATGGTCGTTACTTGCAATATGGGCAACTTGAAATTATTCCTGCGGATTTAACTAAATCTGGTTTTAGTCATGCAGGTTGGGATTGGAATCGATATCCAGGAACGACTACGATCCACCTTCCTTATGATGAACTAGAAGCAAAACTAAGCCAATTGCCAAGTGCAGGCATAGAAGAAATGTTGCTTTCAACACAACGTTATTCTGGTGCCAATACACTAAATAATAACAGTATGTTTGCCATGAAATTACATGGTCACAGTAAATATCAACAACAAAGTCTAAGAGCGAATAAATCCTATTTCTTATTTGATAATAGAGTGATCGCATTAGGCTCTGGTATTGAAAATAACGATAAACAACATACAACAGAAACGACACTGTTCCAGTTTGCTGTTCCTAAGTTACAATCAATTATAATTAATGGTAAAAAAGTGAACCAACTCGGTACTCAATTAACCTTAAATAATGCCGATACATTAATTGATCCGGCGGGTAACTTGTATAAATTAGCTAAAGGGCAAACGGTAGAATTTAGTTATCAAAAACAATACTCTGTTGATGACAGAAATTCACAGCAAACAGAACAATTGTTTGCAACAGCCGTTATCTCTCACGGTAAAGCCCCTAAAAATGCAAATTATGAATATGCAATAGCCATAGAAGCACAAGATAATAAAGCGCCTGAATACACCGTATTGCAGCATAATAATCAACTTCATGCAGTAAAAGATAAAATCACGCAAGAAGAGGGATATGCTTTTTTTAATGCCACCGAAGTCAATTCATCTCAAGCTTTATTATTATCAAGTGATTCCCCCACTATGGTAATGGTAAAAAAACAAAAACAACAATTAACGCTAAGTATTGTTAATCCTGATTTAAATTTATATCAGGGTATTGAAGCTGACCAAATTGATAATAAGGGTAACCAGGTTGAAGTGAGTGTTTATTCTCGCCAATGGCTTACAGCCGATCCTCAACCAATAAGTAGTACAGTTACTGTAAAAGGGATTTGGAAATTAGCCACACCACAATTAGGTGTTAATATTAGATATCAAAATAATAATACGCTAATTACAACAACGACTATACAAGCAATACCAATAACAGTTTATTTAATTAAGTAAAAGTCGTAACTTTTAAATTAAAGAGTCTCGATATAAAACATCGAGACTCT