ggKbase home page
Advanced Search
Search Help

Meg22_1012_Bin_171_scaffold_2772_4

Organism: Meg22_1012_Bin_171

near complete RP 33 / 55 MC: 2 BSCG 22 / 51 ASCG 34 / 38 MC: 2
Location: comp(1146..7274)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Lytic murein transglycosylase n=1 Tax=Melioribacter roseus (strain P3M) RepID=I6Z887_MELRP id=5103087 bin=GW2011_AR20_complete species=GW2011_AR20 genus=GW2011_AR20 taxon_order=GW2011_AR20 taxon_class=GW2011_AR20 phylum=Archaeon tax=GW2011_AR20_complete organism_group=Woesearchaeota organism_desc=GWA2_A_30_20A_AR20 Complete genome similarity UNIREF
DB: UNIREF100
  • Identity: 27.5
  • Coverage: 1485.0
  • Bit_score: 537
  • Evalue 5.90e-149
Lytic murein transglycosylase similarity KEGG
DB: KEGG
  • Identity: 27.5
  • Coverage: 1485.0
  • Bit_score: 537
  • Evalue 1.70e-149
Tax=AR20 similarity UNIPROT
DB: UniProtKB
  • Identity: 27.5
  • Coverage: 1485.0
  • Bit_score: 537
  • Evalue 8.30e-149

Lists

This feature is not on any list.

Notes

This feature has no notes.

Taxonomy

AR20 → Woesearchaeaota → DPANN → Archaea

Sequences

DNA sequence
Length: 6129
ATGAAAACAACCCAAACTTCAGATATCCTGAATAAGAAATTAATAGCAATATCATTGATATTGTTTATACTAGTTACACCAATATCATTTTCAATAGATTATTTTGAATCTCAGAGATTCCCAAGTATAGATAGGGCATATACAGATTCTAGATTTGGAAGCAGTGACTTGTATGCAGGGGATTTTGCAGGAGGAACAATAAACCTGGGTGAAGCAATAGTGATTAATGTTGCAGACATAGAACCAAAAGCTCCTCTAAAAAGCAAATTCATAGAAAATTCAAATACTCCTGTTTATGTTTATTTGAGTGGACATACTGCTGGCTCATTATTATTTGGGGAAGGAGGTACAGAAGCATCTCCTTTCTTGTCAACTCCAAGAATAAAAAGAGCTTATGTAACTCTTGATCCAAGATCAAGGGAGTATGTTGTAGGAAGTCCTTATTATATAAGACCAAATAGATTGGATATGGACTTGCAGAATATGGGGTATTTGGTGGTTTTATTAAAAAAGATTCCAAATGAAAATGAGGTTCCTGATGAAATAGTTCTTAACATGAGCATGAAAGTATTCTTTGATACAACATCTGGTTTTGGAGATAAATCAGCTGTTGATTTAGTTTTAAAGGAATCTACTGATGAAGAAGATTGGGAAGAGAATGCCCCTGAATCTTCTTTCTGGAACAGAAAAGGATATTTAAGATTAATAGATGCAGAAAGCGGAAGAGCTAAAGTGCAATTATATGGTTCAGGGCTTATTCCGGCAATACCTTATCAGGATGATGAATTTGAAAGCAGGGGAATAATAACATTAAGCGAAGGGGAATCAAGGATATTAACATTGCCAGGAAGCTCATCCTTTTTTAATGATAGAATAAGAATTAAATTAAACAAAGTAACAGATCCAAAAGACACAGCATCAATAGAGGTTGATTTTGGTGATAGTGAAATAGGAAGAAAGTTAACAGAAGAAGAAAGAATTTTCCCGGGTTCTAATTGGAAGATACAAGAGGGAAGCATTGAAAGAATAACTCAAAATGGAAAATTTGTTGAAAGAGTTGTTATTGAAAATATCTTTGGACAAACCCAGACATTGACAAGAGAATACAAGAAAACATCTGAAAATATTGGGATAAAAACCATTGGAGAAGAAAATGTAAGGGAAACAGAAAGAGAAGTATGTTCTGATGAATATATAATAGACGATTTCTATAGTGAAAATGCTATCCTTAATGAGATGTTAGTTAAAGAAAAAATAGAATTGGCTTCTGTTTCAGGAAAGACAATGCCTTCCCAAATAGAATTAATCACACGAGATGCAAGAAGGCTTTATTGCACATCTGTCAAAGAATATCAAAAAGCACTCACAGGGGAAGAAGAAAAAGATAATGAAATATATTCACAAATTGCAAAAGCATTTGATAAATTATCAGAACATTATGAATTTGAAGATGTAAGACTGGATGAAGAATCAAAAGAAGTAAGGGAGAATATATTGGGACTCTCGTATTATTATTATAAGAAAGCAGGGAAAAATGATGATGCAGAAGAAATTAAAGAAAAGGCAATAAAAAATGTTAAGACAAATATAGTTTGGTTAAGGGATGAAGGCGTTAAATTAAGTTTAAAGAGTATAAATCTTGTAGAGAATACAGAGTCAGAAAAAAGCAATGTTAAATTTGTTGTTGATGGAAAATCAGAGACAAGATATACAAATAATCTTCCAGAGACCCTTTTTGTTGTAAGGTCTTCAGGAACTCTTTCTGAATGGAAAATACAGGACACAGGAAATAATTATGTTGTATTAAGGCAATATATTGATGGAAGACCCACAAATGAAAAAATTGAAATAAGAAAAGGAGAAGAAAGAAATATAGATGGAAAAAATGTAAAATTAACAGATATAATATCAAACAAAAGAGCTTATGTTACTGTTTACCCCGGAACAGGAAATGCGTATTCTGAATCAAGTTTCCTTGTTCATCTTCCAATAGACAAAAGAGCAATCCAATTCAATCCTGATGAAGTTGAGGACCAAATAGAAAAAAATGAAGATATAATAGAAAATCTTAACAGTAACATAGATACTTTGACAGATTTGATTAAGAATTGGAAAAATGTATGTCTTGTTACTTGGAGTTATTTGATTGTAAAGAATTCTTTCCTTGGAAATGTGGTTGAGAGAAACAAGGCAAGAAAGGATATAATGCCTGTTTATTCTGAATATTGTAAAGATAAAATAGGAAGGGAAGAAGGGCAATATCCTACTTATGATGATTGTATGAATGATTTATCAAGTGAAATAGAATCTAATCTGGATATTGCAGAAAATTTTATAGAGACTGCAGAGGAATGTGAAAAAGCAAAAACAATTGCAGAGAAACAAGATAAATGTAATTTAAATATAGAAAATGTTGATAAATTTGATAAATTAAAACAAGGAGCAGGAATAGAATACGAGATTCCAGATAATGTTTTCTCAGACTATTACAAATATTGTGTTGCTTATCAGGAAGAAAATCTAAATATTAACATTGGTGAAAGATATTTAAGTGAATTTGATGTTAAGTGCGAAGAAGCAACAGCAATAATTAATGAAGAAACAGAAGCAACAACAATTGCATTAAACACATTGGAGGGGGTTCAATTAAATGGGAAATCATATTCAACTTACTTAACCAATGAAAATCAATTCAATACCCTTACTTATGAACAACAAGTAAAAGTTTTGAGTCAATATAATCATTTAAGAACCTTGAGTTTAAATTCTGAGCTAAAAGAAAGTTATGATGAAGATGATTTAAAAGAAGAAGCAAAAGAAGAATATGGTGTTGAGATTAAAGATGTGCTTACTACTGTTTCAGATCAAGGAAATGGACAATATGTTGGTTATATAAAATCAGGAAAGCAATTCAATACAATAAAATTATCAATACCCAAATATGGGGATAAAGGTATAAGAGGAAGCAAAGCCTATAATGAAAAAGCAGAATTGGAATGTGTTGGAAGAGATGATACAAATTGTATAGAAAAAATTAAGAGCAATGGATATTTGGATAAATTAAAAGTTTCTTTCAAGGAAGATATTAATATATACAAATCAGATAGCAATGATTATTATCTTTCATTAGAAGAGTTTGTTTATTCTGAAACAGGTGAAAGAGGAAATTATGCACAAAATGCAAAATTGCAGATTGATAGCAAAGGAAGGCCTTATTGTATTCCTGCAAGAGATGGAGATTATTATTGGATAAAAGGAGGTGATGATGCATGGAATACACTTGGAGAACCCATAAAAGGATTTGTATATAAGATGAATGTTGGTCCAGATGGAGAGTTATGTACAGAAGATGATGTTCTTATAGAAGATCCTGAAGAGTTAGCAAGAGATACAAATGAATTTGGAAAATTAAAATCATTAACCAGAGGTTTAAAATGTGATCCTGGAGAAGATTTGGGAATACCAATTGCAGGAAGAAGCTGGAAATGTGAAGATAGAGCTCACAGAGAAGACACAAAAGGTTTGGAAACACATTGCCAAGATGTAATGGATCCTAGTGATTGCAGAACCTTATTCACGGTTTGCGATCCTGTTGTATGTCCGGCATCAAGATTTGATTTTGGTGGAGCTTATAATTTTGGAAATGACGAAAGTATAGTTCAAAAAGGAATAATAGGTTCATTAATATTGGGACAAAGAAATTTCAACAAGCCTATTTGCCTTCCAGGAGTATTGGCAGGATTGGAAAATATAAAATCTGTTTTTGTTGATTTAAATGAATGCTTGCGTACACAAGTTGCAAGCGGAGAAAATACAGGTATATGTGATACAATAAGATCAGTTGGTATTTGTGAAATATTATGGAGAGAAGCAATAACAGTATTCAAGTTAAGAGGGAGCTTGATTGGAGTAATTAATGAAAAATTATATGGCGAAGAAGCTAGAAGTGGAGGGGAATACTTAGGTAATTTAAATCAAAAACTGGACGCTGTTTCAGAAAATATAGATTATTTCACAAAACAATATGCAACATCTTCTTTTGAATCTTTTAGAGGAAAATCTACAGAAGAAATAGGAGGGGAAGTTTGTAAAGCAGCAGTTTATGGCAAGTTTTCAGATGTTGGAGACTTTGTAGACCAGTTATCCGAGCCTGAAAGACCACCACAAGCAACAGGATGGTTTAGCGAATCACCTTGGTCATTGCAGGGAGGACAAACTCTAGATCAGCAAGGAAGACCAAGATACCAGCAGCAATCAGAATACAGCGTTTATTATCATATTTACGCAGGTAATGTTCCTGAATTTGCTAAAACAGGATATACACGTCAGGGTATAAGATATTCTGTTTACTTGACAAATGCAGACAGATCACAAACACTTCCTGTAATTTCAAATGATCCAAACAAGTATTATGGTATTTTGCCTTATGAACAATCAGCAGACCAGACAATAGTAACTTACGGTCCTTCAGGATTAGATAGGATGTGCATATGGCTGAATGGAAGAGAGTTTTGTGGAATTGGAAAAGCAAGTACATCTTTTGCAGTAAATGCAGCACAGGACTTGTTTGTTGAAGATGAAGCATTAAGACAAGATATAAATTCAATGGAAGATTGTGTTCCAGAATATTCAAGAACAAGTCCTTCTTTGGGAAGCATAGCATTACCAAGAAAATATGGTGCAACAAGTACGGGTTTAATAAGAATATGTTCTGTACGTGATCCTAATGAAGCAACAGATCCTGGAAAATGGAAAGTTGTTGGAAATTGTGGCAAAGATGAACAGGGACATAATTTAGGGTATTGTTGGTTGGACAAAGAAAGTGTAAGTATAGATAATGTTTACAAAAGAGAAGACGTTCTTGAACAATTAAGCATAGATGAAAGTAAGATAAAGGCAAGCAGAAATGCTGTTGATGAAATTAAAATAAAATTCTTTGATGAAGCAAATAGCAAAACATATTATGATGCATTAAAGACAAGATACGAAGATTTATCAAAACAGGATATAGATAAAATTAAGAAAAAGAATGAATTGCTTAATTTACTTTCTGGTTCAGTTCAAGGCCTTGTAGGGCAAACGTCAACAGGAGAAAACATTGTAGTAAATTTCAGGGAATTATCAATTTATTCACAAGATGCAGAAACAAAATTAAAAGCACAATACATGGTTGGACAAATATATTATGATTTGGGTAATCTATTAAATACTGGAAATACTTTAGTTGCTGAGGAAATTGAAAAAGGAAGCAAAGGAGATATTACAACTAAAGAGAAGGAAGATAAAGAAGAAGACATAATAACTTTTCCAATATCAAAAGAATATAAATTGAAATTAGGAGAATCATTAGATTTACCAATGAAATTAGAGGGTATTAGAGTAATAGTTTCTATTAATAAAATAAATATAAATGATGGAAGTGCTTCTATTGGGGTACCAGGTCTAAGAGAAAGCATTGAATTAAAAAAGGGAGAATCTAAATCAATTCCTTACAATAATTATAACATAAAATATAATCTAAATAATATTGATTTTGCTACTAATGAAGTTGATTTAAACATAGAAATAAGTAAAAGAGAAATAGAAACTAAAGAAATTTCTTGTAATGATTGTAATGAGATATATGGAGGTTGTAAAACAGATAAAAGATGTAATTCATATGATACAGAAAAGGCAGATTGTTATTTGAATTACGAAACTATTTTATGGATCTCTAAAAAAACAACTTGTGAGATATGTCCAGAAAATTGTAGAGAATTAAATTTAGAGAAAGAATGTTCTAATTGTAATAAATGCGGTTGGTCTGAGTTTAGAGAAAGTTGTTCTAATAAAAATGATTTAGAAAAAGATTATTATTTTGGAAAGGAAATTGATTCTAATTGGGATGTTAAAAGAATTATAAGGAATTTTTATAGTAATAAAGAGTCAAATAATGATGATTTTATAAGGAGATTTTTATTATATAAGGACAACAAAGATTCTTTTGATGATTCTGGAAGATTTATAACTGGAAAAAGAATAACAATTCCTTTAACAGACGAAGAACTTAATTCAAATCCCAATAATAAAAGAATTTTATTTATAGATGAAGATGAAAAAACCACTGTTGCACAATCTGAAGGAAGATAA
PROTEIN sequence
Length: 2043
MKTTQTSDILNKKLIAISLILFILVTPISFSIDYFESQRFPSIDRAYTDSRFGSSDLYAGDFAGGTINLGEAIVINVADIEPKAPLKSKFIENSNTPVYVYLSGHTAGSLLFGEGGTEASPFLSTPRIKRAYVTLDPRSREYVVGSPYYIRPNRLDMDLQNMGYLVVLLKKIPNENEVPDEIVLNMSMKVFFDTTSGFGDKSAVDLVLKESTDEEDWEENAPESSFWNRKGYLRLIDAESGRAKVQLYGSGLIPAIPYQDDEFESRGIITLSEGESRILTLPGSSSFFNDRIRIKLNKVTDPKDTASIEVDFGDSEIGRKLTEEERIFPGSNWKIQEGSIERITQNGKFVERVVIENIFGQTQTLTREYKKTSENIGIKTIGEENVRETEREVCSDEYIIDDFYSENAILNEMLVKEKIELASVSGKTMPSQIELITRDARRLYCTSVKEYQKALTGEEEKDNEIYSQIAKAFDKLSEHYEFEDVRLDEESKEVRENILGLSYYYYKKAGKNDDAEEIKEKAIKNVKTNIVWLRDEGVKLSLKSINLVENTESEKSNVKFVVDGKSETRYTNNLPETLFVVRSSGTLSEWKIQDTGNNYVVLRQYIDGRPTNEKIEIRKGEERNIDGKNVKLTDIISNKRAYVTVYPGTGNAYSESSFLVHLPIDKRAIQFNPDEVEDQIEKNEDIIENLNSNIDTLTDLIKNWKNVCLVTWSYLIVKNSFLGNVVERNKARKDIMPVYSEYCKDKIGREEGQYPTYDDCMNDLSSEIESNLDIAENFIETAEECEKAKTIAEKQDKCNLNIENVDKFDKLKQGAGIEYEIPDNVFSDYYKYCVAYQEENLNINIGERYLSEFDVKCEEATAIINEETEATTIALNTLEGVQLNGKSYSTYLTNENQFNTLTYEQQVKVLSQYNHLRTLSLNSELKESYDEDDLKEEAKEEYGVEIKDVLTTVSDQGNGQYVGYIKSGKQFNTIKLSIPKYGDKGIRGSKAYNEKAELECVGRDDTNCIEKIKSNGYLDKLKVSFKEDINIYKSDSNDYYLSLEEFVYSETGERGNYAQNAKLQIDSKGRPYCIPARDGDYYWIKGGDDAWNTLGEPIKGFVYKMNVGPDGELCTEDDVLIEDPEELARDTNEFGKLKSLTRGLKCDPGEDLGIPIAGRSWKCEDRAHREDTKGLETHCQDVMDPSDCRTLFTVCDPVVCPASRFDFGGAYNFGNDESIVQKGIIGSLILGQRNFNKPICLPGVLAGLENIKSVFVDLNECLRTQVASGENTGICDTIRSVGICEILWREAITVFKLRGSLIGVINEKLYGEEARSGGEYLGNLNQKLDAVSENIDYFTKQYATSSFESFRGKSTEEIGGEVCKAAVYGKFSDVGDFVDQLSEPERPPQATGWFSESPWSLQGGQTLDQQGRPRYQQQSEYSVYYHIYAGNVPEFAKTGYTRQGIRYSVYLTNADRSQTLPVISNDPNKYYGILPYEQSADQTIVTYGPSGLDRMCIWLNGREFCGIGKASTSFAVNAAQDLFVEDEALRQDINSMEDCVPEYSRTSPSLGSIALPRKYGATSTGLIRICSVRDPNEATDPGKWKVVGNCGKDEQGHNLGYCWLDKESVSIDNVYKREDVLEQLSIDESKIKASRNAVDEIKIKFFDEANSKTYYDALKTRYEDLSKQDIDKIKKKNELLNLLSGSVQGLVGQTSTGENIVVNFRELSIYSQDAETKLKAQYMVGQIYYDLGNLLNTGNTLVAEEIEKGSKGDITTKEKEDKEEDIITFPISKEYKLKLGESLDLPMKLEGIRVIVSINKININDGSASIGVPGLRESIELKKGESKSIPYNNYNIKYNLNNIDFATNEVDLNIEISKREIETKEISCNDCNEIYGGCKTDKRCNSYDTEKADCYLNYETILWISKKTTCEICPENCRELNLEKECSNCNKCGWSEFRESCSNKNDLEKDYYFGKEIDSNWDVKRIIRNFYSNKESNNDDFIRRFLLYKDNKDSFDDSGRFITGKRITIPLTDEELNSNPNNKRILFIDEDEKTTVAQSEGR*