LOCUS BCM23768.1 2031 aa PRT BCT 26-AUG-2021 DEFINITION Methyloradius palustris hypothetical protein protein. ACCESSION AP024110-27 PROTEIN_ID BCM23768.1 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_00270" /transl_table=11 BEGIN 1 MNKKFERNVS MTATLRPLTF SILLAIGAVG VISGVDAAGI VADGSAPSNQ QPVVLNAANG 61 VPQVNIQTPS AAGVSRNIYT QFDVQQQGVI LNNSRTDVQT QLGGYVQANP YLAAGTARVI 121 LNEVNSSNPS LLQGYIEVAG SRAQVVIANP AGVTCDGCGF INANRATLTT GTPILNGGSL 181 DGYRVQRGTV SIIGNGMDAS QTDYTDIIAR AVQVNASIYA NDLRVTAGSN QVNTANTTGT 241 PIAGTGITPT LAIDVAQLGG MYAGKIQLIG TEAGVGVTNA GQIGASAGNV VVNVNGLLTN 301 TGTISSTGNN TLQADSITNT NGSITAGQLL GINANGLTGD GNLLSNGDIS VQLSSDFAST 361 GQLLANGNLS FTTTGNFINQ SDLLAGSILT ITAANIDNTA GREISGANTH LTASNTLTNR 421 GLIDGSDTFI NATTLNNIGT GSIFGDHVAL QATTLTNDVE TVNSTTTAAV IAARTSLDIG 481 ATTLNNREHS LIFSSGDMTI GGSLDANHLA AASATTVNNN SATINALGAL NLSADQVNNT 541 NEHFSTQVVN LSTSFYQLWQ SASPIHDPDW LHSMGTLWTA SQVTILPRAS YEVDLLSSAD 601 GVTDHFIRYD INETISETQV LSSDPGQILA GGNMLITANN VLNDKSQIIT GGSLTGNIGT 661 LNNTTVAGQH IITDSGLARN YFRIPEDGRD SQGLTTSAYN PAPTVQSINL TPTAYEQNTT 721 PSGSVATIGT LNTTLPNSGL FQPNPNPTAN YLVETNPRFA NYRTWLSSDY LLQQLSFDPA 781 TTQKRIGDGF YEQSLVRDQV AQLTGRRFLD GYASDEAEYQ GLLSNAVTVA KAWNLVPGVA 841 LSPAQVAQLT SDIVWLVQKT VTLPDGTTTQ ALVPRLYVSV QPGDLNGSGA LISGNTTNLN 901 IGGNLNNSGS IAGRTVLALN AVNVNNLGGN ITATDVNVNA TNDINNIGGT ISGKDSLSAT 961 AGRDLNVEST TSTQTNSQGY TTNINRVAGI YVSNADAVLI ATAGRDVNLN AVQISNSGAN 1021 TNGTGGTLIQ ASNNLNIGTV TTGNQETIVW DSKNHISQGG TAEVGSNIQT KGDVTLMAAQ 1081 DLNAKAATVT SDNGNITALA GNKVNLTSGQ STQNLDASFQ TKRHGFLSSK TITTHDVINK 1141 TNSEGTTLSG DTVTVLAGYS ADQNGQLQQT TGSGNITIEG SNVVSTNGTT VNGTGSITVT 1201 TAQNTDNETH LRDTKKSGLL GGGGGIGFTI GSQQLINTGT SQTTTNTAST VGSTAGDVNI 1261 NTGKVYTQSG SDVLAPQGNI NISAQSVEIN AAQNTSVVSE ETKFKQSGLS VSLGSGGLNS 1321 LQTLAKTTQG SFKSEPTQNK VLNALQTYAN TASLVEDGAA VTEAIKAGDI GSAASASGIK 1381 LSVSIGSSSM QSSTTSSLVS NQGSAIKSGG NVTIQATESD LNVIGSKLSA GKNLTLEAKD 1441 NINLEASADT ESIDSNNKSS STSIGLSMGI GKGGAGLSLD LAASRGKGQA NSNSIIFNNT 1501 KISAGDTLSL KSGEDTNLLG ANASANKVKV EVAGDLNLQS LQDTSTSKAK QSNTGVSASI 1561 PLTGAGSVSG SISMNKQNSN SSYASVYEQT GIAAGEAGFD IKVKGNTDLK GALIDSAAAS 1621 DKNQLVTGLL TVSNIQNQMS AEASTSGITV GTDMFTGKYA ATKGIAGNLM DNGEAEIQDQ 1681 SITRSAIAPA DITITDEAKQ LAVTGKTAEE TIATLDRDTT DTNRVLAKPD VEALQNQAQQ 1741 EQVDKQLLLT TITTFTDEAF KKSFLTKAKM YEIARDEKTG KVITDENGNP VTRELNDEEK 1801 LSLKANGGNK RLNVFTNGIF NDETSAANYS VQITEAPVGE KVYLVYFPDA NNFFSELMIA 1861 AYQKNLEGTT LGLTNATQEI VNLSQQYGSE GLNLVGHSRG GMTIGNALEA LENMGNNQNI 1921 LSGTNIKLVG SAYSAQDAAN SLSDLSGGAQ TSVQLQNHVD DFVGRLIGGN PTTYGNTPTG 1981 SSMIQEWIHI FGASPTTHSC YGAASSACND KYGVPITINI PSKDSTDGVQ K //