ggKbase | features

Value	Algorithm	Source
Type I site-specific deoxyribonuclease, HsdR family n=1 Tax=Thermosinus carboxydivorans Nor1 RepID=A1HQI3_9FIRM	similarity	UNIREF DB: UNIREF100
Identity: 48.9 Coverage: 999.99 Bit_score: 976 Evalue 1.90e-281
Type I site-specific deoxyribonuclease, HsdR family {ECO:0000313\|EMBL:KKT21455.1}; TaxID=1618874 species="Bacteria; Parcubacteria.;" source="Parcubacteria bacterium GW2011_GWB1_43_8.;"	similarity	UNIPROT DB: UniProtKB
Identity: 53.1 Coverage: 999.99 Bit_score: 1055 Evalue 0.0
type I site-specific deoxyribonuclease, HsdR family	similarity	KEGG DB: KEGG
Identity: 48.0 Coverage: 999.99 Bit_score: 930 Evalue 5.80e-268

Value

Algorithm

Source

Type I site-specific deoxyribonuclease, HsdR family n=1 Tax=Thermosinus carboxydivorans Nor1 RepID=A1HQI3_9FIRM

similarity

UNIREF
DB: UNIREF100

Identity: 48.9
Coverage: 999.99
Bit_score: 976
Evalue 1.90e-281

Type I site-specific deoxyribonuclease, HsdR family {ECO:0000313|EMBL:KKT21455.1}; TaxID=1618874 species="Bacteria; Parcubacteria.;" source="Parcubacteria bacterium GW2011_GWB1_43_8.;"

similarity

UNIPROT
DB: UniProtKB

Identity: 53.1
Coverage: 999.99
Bit_score: 1055
Evalue 0.0

type I site-specific deoxyribonuclease, HsdR family

similarity

KEGG
DB: KEGG

Identity: 48.0
Coverage: 999.99
Bit_score: 930
Evalue 5.80e-268

DNA sequence

Length: 3144

ATGACTAACCAATTCACAGAAAACAATCTTGTAGAAAAAACTGCAATTGAAATATTTCAAAATCTTTGGTCAAAAGATTGCTTTATCGATGCCTTTACAAAAGAAGGTGAAGAAAAACTAGCTAGAAATAATAGATGAGAAGTAGTTTTGACAAAATACCTTGAACCAAAATTAAGAGAATTAAATCCTGACTTACCAAGTGAGGGTATTTTGAAAGCTCTTGAAATTATAATTCAAGACAGAAGCGCTTTGTCTTTAGATAGAGCAAATAAAGAAATACATGATTTACTAAAAGATTGAGTTACAGTGAGTTATACAGATGATAATGGAAATGAGCAAATAGTAAAAGTAAAAGTGTTAGATCTAGAAACTCCAGAAAATAATGATTTTATGCTGGTGAGTCAAATGTGGATTACTTGAGAGTTGTATACAAGAAGACCTGATTTAATCGGGTTTGTAAATGGTATTCCTATGATCTTTATTGAGCTAAAATGAGCATGAAAAAATCTAAAAGATGCTTTTTATAATAATATCAAAGATTATAAAGATACTATACCACAAATATTTTGGTATAATGCTTTTTTGATTATTTCAAACTGAATAGATAGTAAGATTTGATCTATAAGTTCTTGATTTGAACATTTTAATGATTGGAAAAAAGTAACTGACGAAAACGAAGTTCCAAAAGTAAGTTTAGAAACTATTATAAAATGAACTTGTGATAAAACGAGATTTTTAGATATATTTGAAAACTTTACTTTGTTTGATGAATCAAAAGGTAATATTATAAAAATAGTAGCAAGAAATCATCAATATTTATGAGTAAATAAAGCTTTAAAAAATGTAGAAAATAGAAAACAACTACAAGGGAAACTTTGAGTTTTTTGGCATACACAATGAAGTGGTAAATCTTATTCTATGATGTTTTTAACTCAAAAAATAAATAGAAAATTCAAAGGTAATTTTACCTTTGTAATTGTTACAGATAGAACAGAACTAGATAAACAAATAGCAAAAGGTTATAAAAATGCTTGAATAGTAAAAACAAAAGAAACTCATGCTGAAAGTGTGGCAGATTTGAAAAAATTATTAAAAGCAGATCATAGATATATTTTTACTCTTATACATAAATTTCAAGATCCAGAATTATTAAGTGATAGAGATGATATCATAATAATAACTGATGAAGCTCATAGAAGCCAATATAGTACACTTGCAATGAATATGAGAATATCTCTACCAAATGCAAGTTTTATAGGTTTTACTTGAACTCCATTAATAGCTGAAGAAAAAGAAAAAACAAGAGAAGTATTTTGAGAATATGTTTCTGTTTATAATTTTGCACAATCAGTGGAAGACTGAGCAACTGTTCCAATTTATTATGAAAATAGAGTTCCAGAAGTAGAAAATATAAATCCAAGCTTACAAGCTGAAATTGATAAGTTGCAAGATAGTTATAATCTAAATGATGAAGAATCAGAAGAATTAGAAAAAAAGTTTCAAGTTTGATACAAAATTTTAACATCAGAAGATAGATTAAATACTGTTGCAAAAGATATAGTAAAACACTATTTAGAAAGATGAAATACTTGAAAAGCTATGGTTGTTTCTATTGATAAAAAAACAGCTGTGAGAATGTATGTGAAGGTAAATGAAGAATTGAAAAATTATAAAGAAAGTATTGAAAAAGAATTAAAAGGTAAGCTTACAAATACTCATAAAGCAGAGCTTGAAAATAGATTAGAGTTTTTAAATGAACTTGATACTGCAGTTATGATAAGTTTATGAGATAATCAAAATGAAATAGCTATTTTCAAAGAATTATGAATTGATTTTGCACCAATTAGAAAAAGAATACAAAATGATGATTTAGAAACTCTTTTCAAAAAAACGAGTTATGAGACTTGAGAAAAGAAATTGAAACTTGTTTTTGTTTGTAGTATGTGGCTTACTGGTTTTGATGTACCAGATATGACAACTTTGTATTTGGATAAACCTCTAAAGAATCATACTCTTATGCAAACTATTGCAAGAGTAAATAGAGTTTATAAAGAAAAAACAAATGGTTTGATAGTGGATTATATAGGAGTTTTTTATAATCTACAAAAAGCACTTTCTATTTATGCAACAACAGAAGAGTGAAATCAAATTTGAGATATCATAAAAGAAAAAGCAGAACTTGTAATTAAACTAAAACAAGAACAATCAGAATTAGTTTATTTTTTGAGATCATTAAATCTAAGTCTTAGTTCTATTTTTGAAGCAAAATGACTTCAAAAGATACAAGCTATAGAAGATTTTGTAAATATTATTTTAACAAGTGAAAAAACAAAAAAAGAATTTCAAAACAGATTTTCAAGAATTAATCTACTTTACAAAGCTATACTTCCAGATGTAAAAGCTAGTGAGTTTAGTGAATATATTCAACTATTAAATATCATAAATGAAAGAATTAGAAGTCTTTCTATAGATGAATACAATCTTTTGGATATTAAAAAAGAAATGGAAGATTTGCTTGATGAATCATTAGTAACTGAAAAATATACTATTGAAAAAAGATTTGAGTTAAAAGATTTAAGTAAAATTGATTTTGAAGCACTAAAAAACTATTTTGCAAGTAGTAGAAAAAATATGCAACTTGAAAGTTTTAAAACAGCTATTGAAGAAAAAATTGAGGAAATGGTGAGAAAAAACAAATCAAGGAAAAAATTTATTGATAAATTAAATTTTATACTTTGAGAATATAACTCTTGATCTAAAAATATAGATGATACATTTAATTCACTTGTAGTTTTAGCTCAAATGTTAAATGATGAAGAAAGAAGATGAAAAATGGAGTGATTAACAGATGAAGAATTAGCATTGTTTGATATACTTTTAAAAGAAGATATTAGTCCAGACGAAGAAAAGAAAATCAAAAAAATAGCTCATGAATTACTTCAAAAACTTAGAAAAGAAAAATTAGTTTTAGATTGGAGAAAAAAATCAGAAACAAGAGCTTCAGTAAAAATTACAATTGAAGATTTCTTATATGATGAATTACCTCAAAGTTATAATGAAAATATATTAAAAGAAAAAGTAGATGATGTTTATTTTCATGTTTATGATAACTATGTAGGTGAGTGAGTAAGTGTTTATAAATAA

PROTEIN sequence

Length: 1048

MTNQFTENNLVEKTAIEIFQNLWSKDCFIDAFTKEGEEKLARNNR*EVVLTKYLEPKLRELNPDLPSEGILKALEIIIQDRSALSLDRANKEIHDLLKD*VTVSYTDDNGNEQIVKVKVLDLETPENNDFMLVSQMWIT*ELYTRRPDLIGFVNGIPMIFIELK*A*KNLKDAFYNNIKDYKDTIPQIFWYNAFLIISN*IDSKI*SISS*FEHFNDWKKVTDENEVPKVSLETIIK*TCDKTRFLDIFENFTLFDESKGNIIKIVARNHQYL*VNKALKNVENRKQLQGKL*VFWHTQ*SGKSYSMMFLTQKINRKFKGNFTFVIVTDRTELDKQIAKGYKNA*IVKTKETHAESVADLKKLLKADHRYIFTLIHKFQDPELLSDRDDIIIITDEAHRSQYSTLAMNMRISLPNASFIGFT*TPLIAEEKEKTREVF*EYVSVYNFAQSVED*ATVPIYYENRVPEVENINPSLQAEIDKLQDSYNLNDEESEELEKKFQV*YKILTSEDRLNTVAKDIVKHYLER*NT*KAMVVSIDKKTAVRMYVKVNEELKNYKESIEKELKGKLTNTHKAELENRLEFLNELDTAVMISL*DNQNEIAIFKEL*IDFAPIRKRIQNDDLETLFKKTSYET*EKKLKLVFVCSMWLTGFDVPDMTTLYLDKPLKNHTLMQTIARVNRVYKEKTNGLIVDYIGVFYNLQKALSIYATTEE*NQI*DIIKEKAELVIKLKQEQSELVYFLRSLNLSLSSIFEAK*LQKIQAIEDFVNIILTSEKTKKEFQNRFSRINLLYKAILPDVKASEFSEYIQLLNIINERIRSLSIDEYNLLDIKKEMEDLLDESLVTEKYTIEKRFELKDLSKIDFEALKNYFASSRKNMQLESFKTAIEEKIEEMVRKNKSRKKFIDKLNFIL*EYNS*SKNIDDTFNSLVVLAQMLNDEERR*KME*LTDEELALFDILLKEDISPDEEKKIKKIAHELLQKLRKEKLVLDWRKKSETRASVKITIEDFLYDELPQSYNENILKEKVDDVYFHVYDNYVGE*VSVYK*

ar4r2_scaffold_7972_2

Organism: ALUMROCK_MS4_BD1-5_23_16

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

ar4r2_scaffold_7972_2

Organism: ALUMROCK_MS4_BD1-5_23_16

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

Processing

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