LOCUS BCM25656.1 1170 aa PRT BCT 26-AUG-2021
DEFINITION Methyloradius palustris hypothetical protein protein.
ACCESSION AP024110-1915
PROTEIN_ID BCM25656.1
SOURCE Methyloradius palustris
ORGANISM Methyloradius palustris
Bacteria; Pseudomonadota; Betaproteobacteria; Nitrosomonadales;
Methylophilaceae; Methyloradius.
REFERENCE 1 (bases 1 to 2800413)
AUTHORS Miyadera,T. and Kojima,H.
TITLE Direct Submission
JOURNAL Submitted (19-OCT-2020) to the DDBJ/EMBL/GenBank databases.
Contact:Hisaya Kojima
Hokkaido University, Institute of Low Temperature Science,
Microbial Ecology Group; nishi-8, kita-19, Sapporo, Hokkaido
060-0819, Japan
URL :http://www.lowtem.hokudai.ac.jp/en/index.html
REFERENCE 2
AUTHORS Miyadera,T., Kojima,H. and Fukui,M.
TITLE Methyloradius palustris gen. nov., sp. nov., a methanol-oxidizing
bacterium isolated from snow
JOURNAL Arch. Microbiol. (2021) In press
REMARK Publication Status: Available-Online prior to print
DOI:10.21203/rs.3.rs-687530/v1
COMMENT Annotated at DFAST https://dfast.nig.ac.jp/
##Genome-Assembly-Data-START##
Assembly Method :: Unicycler v. 0.4.7
Genome Coverage :: 635x
Sequencing Technology :: Oxford Nanopore GridION; MGI DNBSEQ-G400
##Genome-Assembly-Data-END##
FEATURES Qualifiers
source /collection_date="2019"
/country="Japan:Gunma, Ozegahara moor"
/db_xref="taxon:2778876"
/isolation_source="reddish brown snow from a moor"
/lat_lon="36.9175 N 139.1988 E"
/mol_type="genomic DNA"
/organism="Methyloradius palustris"
/strain="Zm11"
/type_material="type strain of Methyloradius palustris"
protein /inference="COORDINATES:ab initio
prediction:MetaGeneAnnotator"
/locus_tag="ZMTM_19150"
/transl_table=11
BEGIN
1 MHLSMRRLSA LYKAIVVSIF VITGLLICFI SIKAIAAPVD LDLPAQPLSN SLKLVAKATG
61 ASVAFDSKVT EGITAPAIKG RMESFEAIRK LLAGTGLEAS TEGTTTLIKR AFEPTKDTSA
121 IDLHLDDINI RAKRYTEIGP MPGLALTKDE IPGNVQSITA KQIKDAHSIS LSDLMNSQLQ
181 SVNVNDYQGN PFQMDVTYRG FTASPQLGTP QGLSVFLDGI RVNEPFGDVV NWDMIPMNAL
241 AGIDVFPGSN PIFGLGTLGG ALSMRTKNGF DDPGVQADML TGAFGRKQFQ LSAGGSHGDV
301 AGFVALNLFN EDGWRQNSPS KVNQIFSKLS YRNDKLSLDG SMLYAWNDLV GNGLIPIEMY
361 NQSNSSVYTS PDDTKNKLLQ FQIASAFQVS DTFNITGQIY NRKSDRKSST GDVNTDFSNK
421 DVATRRPLPG ENAVCAYGST NGVPNYYVVT SGAINAIAGN GDLSLARAID NGTISAGQLL
481 GGLNGAGLAT LSQSIGNGTD LTVPADYLAA IEQINANYIH GANGGAAGTY NNADFTQYYA
541 TNFYSGGATW NQLVGNGNFY TATLNGNPIQ LYIIPADPIN VDPLTGTCGA NSINSASTQF
601 VGGQIQQLDA NGSTIPRDGK YAAGGTGTGY IDGTPTAIIS DIGISQLVKG GAVQLNWNTD
661 QHKFMIGSSL DHATDTYTNS QRLGLLDSTR NAYLDPANIG AEYTAASAPI RNNDFNGSSD
721 TRSLYFSETY SPKDNLHFNV AARYNYSTVM TNMRTRKDTA GTNVTDVTSS YLDYLVCTGS
781 GLDSCDQYLL NNPALNQLAT NPDAFFGPYI KERFNYHKIN PSLGATWSPT DNLNVYANWN
841 QGTRTPSAIE LGCAFDRTPT LGSNGAIQPA SLAGNTSCTL PNSLSGDPYL PQVVARTFEM
901 GARGKINENL SWNASMYNTN LTDDIYFVSY TATKNFFDTI GRTRRRGIET GISGKYDKFD
961 FKLNYSLTDA TFETNTTLAS ADNSSVDQNP THGDYGMESI HPGDRMPGIA LNNINASVGY
1021 SVTDKWRVGM NMVAHGESYA RGNENNEHQI GTKSYTYIDN SSGTPTPVTV VKNYTTSGKN
1081 GGYAVFNFST SYDIGHGWSA TLLLNNVFDK TYYSASRLGI NPFSPSINGA IGVSGYNYNS
1141 NDWQSTNFVA PGAPRAAWIS VRYEFEPDRK
//