Gene Tcur_3036 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagTcur_3036 
Symbol 
ID8604380 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameThermomonospora curvata DSM 43183 
KingdomBacteria 
Replicon accessionNC_013510 
Strand
Start bp3520871 
End bp3522814 
Gene Length1944 bp 
Protein Length647 aa 
Translation table11 
GC content73% 
IMG OID 
Productserine/threonine protein kinase with PASTA sensor(s) 
Protein accessionYP_003300616 
Protein GI269127246 
COG category 
COG ID 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0172256 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGGACACCA CGGTTGCCGA TCCCCTCGTC GGGCAGCTGC TCGACGGGCG CTACCGCATT 
GAGTCCCGGA TCGCCCGAGG TGGCATGGCC ACGGTGTACG TGGCCCGCGA CACCAAGCTC 
GATCGGCAGA TCGCGCTGAA GGTGATGCAC GCCAACCTCG CCCAGGACGA GGACTTCGTG 
CGGCGCTTCA TCGGCGAGGC CAAGGCGGCC GCGGCCCTGT CGCACCCCAA TGTGGTGGCG 
GTCTACGACC AGGGCACCGA CGGCCGGCAC GTGTTCTTGG CGATGGAGTA CGTGCGCGGC 
CGGACGCTGC GCGACCTGCT GACCGAACGC GGGCGGCTGG ACCCCCGCGA GGCGCTGGAG 
GTCATGCGGC CGGTGCTGGC CGCGCTGGCC GCCGCGCACC GGGCCGGGCT GGTGCACCGC 
GACGTCAAGC CCGAGAACGT GCTCCTCACC GAGGACGGCC AGGTCAAGGT GGCCGACTTC 
GGGCTGGCCC GCGCCGAGAC CGCCGGCAAG CAGACCAAGA CCGGCCTGAT CATCGGCACC 
GTGGGCTATC TGGCGCCCGA GCAGGTGCTG ACCGGGCGCG CCGACTTCCG CTCCGACGTC 
TACGCCGCCG GGATCATGCT GTTCGAGCTG CTGACCGGCC GGCAGCCGCA CACCGGGGAC 
ACCCCGCTGG CGGTGGCCTA CAAGCACGTC AACGAGATCG TGCCGCCGCC GTCGACCCTG 
GTGCCGGGCC TGCCGCCCCA GCTCGACACC CTGGTCACGC TGGCGACCAG CCATGATCCG 
GCGCGCCGCC CGCAGGACGC CGGGCAGTTC CTCAAGGCGG TCTCGGACGT GGCCGCCGCG 
CTGCCGCCCG ACGGCGACGC CCAGGCCGCC ACCTCGGTGC TGCCCATGCC CACCGCGCCG 
CAGGGGCCGG TGCACTCGCC GACCCGGGTG CTGGGGCCGG AGATGATGCC CCCGCCGCCG 
CCCGAGCCGG CCGCGCCGCC CCCGCACGCC GCGCCGGCCA CCCCGATGGA CCGCCTGATC 
GGCGCGGCCA CCAGCCGCTA TGTGCTGATC GCGATCGGCG CGCTGGCCGC GGTGATCCTC 
GGCTGGGCGG TCTGGTACCA GGTGTCCGGG CAGTACGACC ACGTGCCCGA CGACATCATC 
GGCATGCGAC TGGAGGACGC CCGGCAGGCG CTGGGCTCCG AAGGCATCGT GGTGAAGGTC 
GCCTCGCCCG TCTACCACGA GAAGGTGCCC AAGGGGCACG TGGCGGCCTC CGACCCCGGC 
CCCGGCGAGC GGGTCCCCAA GGGCGGGTCG GTCACGCTGA CCCCGTCCAA GGGCCGGGAG 
CCGATCGAGG TTCCCGATGT GCGCGGCAAG CCGCTGCAGG AGGCGCGGGA GATCCTGGAG 
AAGGCCGGGT TCCAGGTCGG CAAGGTGACC CGCGAGCCGT CCCAGACGGT CCCCAAGGAA 
CACGTGGTGC GCACCGACCC GCGCACCGCC GAGCGGCACT CCCCCGACGA GCCGGTGGGC 
ATCGTGGTCA GCTCCGGCAT GACCATGCCG AACGTGGTGA ACACCGACGC CGAGCAGGCC 
GAGAACCAGC TGCGGGCGAT GGGCCTGGAG GTGGAGGTCG AAAGGCGGGA CCAGCCCGGC 
CGGCCGCGGG GCATCGTGCT GGAGCAGCAT CCGCAGCCGG GCACCGGGGT GTCGCGGGGC 
GAGAAGGTGA AGCTGGTCGT CAACAAGAAG GACTGCGGCT TCCTCGGCGA CTGGAACCCC 
TTCTGCCGCG ACGACGACAA CCCCGACGCC CTGCCGGTGC CCACGGTGCT CGGCCGGGAC 
ATCGAGGAGG CCCGCCGGAT CCTGCACAAC GCCGGGTTCA AGGTCGAGGT GCACCGCGAG 
CTCGGGCTGC GCCGGGTGAT CCGGCAGGAG CCGGGGGTGG GCGGCAGCGC CCCCCGCGGC 
GCCACGGTCA AGATCTGGCA CTGA
 
Protein sequence
MDTTVADPLV GQLLDGRYRI ESRIARGGMA TVYVARDTKL DRQIALKVMH ANLAQDEDFV 
RRFIGEAKAA AALSHPNVVA VYDQGTDGRH VFLAMEYVRG RTLRDLLTER GRLDPREALE 
VMRPVLAALA AAHRAGLVHR DVKPENVLLT EDGQVKVADF GLARAETAGK QTKTGLIIGT 
VGYLAPEQVL TGRADFRSDV YAAGIMLFEL LTGRQPHTGD TPLAVAYKHV NEIVPPPSTL 
VPGLPPQLDT LVTLATSHDP ARRPQDAGQF LKAVSDVAAA LPPDGDAQAA TSVLPMPTAP 
QGPVHSPTRV LGPEMMPPPP PEPAAPPPHA APATPMDRLI GAATSRYVLI AIGALAAVIL 
GWAVWYQVSG QYDHVPDDII GMRLEDARQA LGSEGIVVKV ASPVYHEKVP KGHVAASDPG 
PGERVPKGGS VTLTPSKGRE PIEVPDVRGK PLQEAREILE KAGFQVGKVT REPSQTVPKE 
HVVRTDPRTA ERHSPDEPVG IVVSSGMTMP NVVNTDAEQA ENQLRAMGLE VEVERRDQPG 
RPRGIVLEQH PQPGTGVSRG EKVKLVVNKK DCGFLGDWNP FCRDDDNPDA LPVPTVLGRD 
IEEARRILHN AGFKVEVHRE LGLRRVIRQE PGVGGSAPRG ATVKIWH