KEGG   Thiorhodovibrio litoralis: Thiosp_01806
Entry
Thiosp_01806      CDS       T09560                                 
Symbol
cheR_3
Name
(GenBank) Chemotaxis protein methyltransferase
  KO
K13924  two-component system, chemotaxis family, CheB/CheR fusion protein [EC:2.1.1.80 3.1.1.61]
Organism
tlr  Thiorhodovibrio litoralis
Pathway
tlr02020  Two-component system
tlr02030  Bacterial chemotaxis
Brite
KEGG Orthology (KO) [BR:tlr00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   02020 Two-component system
    Thiosp_01806 (cheR_3)
 09140 Cellular Processes
  09142 Cell motility
   02030 Bacterial chemotaxis
    Thiosp_01806 (cheR_3)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   02022 Two-component system [BR:tlr02022]
    Thiosp_01806 (cheR_3)
   02035 Bacterial motility proteins [BR:tlr02035]
    Thiosp_01806 (cheR_3)
Enzymes [BR:tlr01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.80  protein-glutamate O-methyltransferase
     Thiosp_01806 (cheR_3)
 3. Hydrolases
  3.1  Acting on ester bonds
   3.1.1  Carboxylic-ester hydrolases
    3.1.1.61  protein-glutamate methylesterase
     Thiosp_01806 (cheR_3)
Two-component system [BR:tlr02022]
 CheA family
  CheA-CheYBV (chemotaxis)
   Thiosp_01806 (cheR_3)
Bacterial motility proteins [BR:tlr02035]
 Flagellar system
  Chemotaxis proteins
   Two component system proteins
    Thiosp_01806 (cheR_3)
SSDB
Motif
Pfam: CheB_methylest CheR PAS_10 CheR_N PAS_4 PAS_8 PAS OmpH CENP-F_leu_zip PAS_9 Methyltransf_12 CCDC93_CC DUF3450 Methyltransf_25 Crescentin DUF4795 Methyltransf_23 HAUS-augmin3 DUF3618 Methyltransf_11 TMF_TATA_bd IFT57 HMMR_N ADIP Not3 ZapB Golgin_A5 bZIP_1 DUF1664 Fez1 APG6_N EXOC6_Sec15_N DUF4201 Syntaxin-6_N FapA NRBF2
Other DBs
NCBI-ProteinID: WPL12051
LinkDB
Position
2015183..2018239
AA seq 1018 aa
MSTHQEPVTGQEPDTDQSDTQSASENSGDTPTPQEPRTAAVVSDDDKGRYIVAVGASAGG
LDALERFFQALPERSGAAYVVIQHLSPDHKSMMANLLARHTLMPVVTVEDGMKIEPDRVY
LIPPASMMSVTNNELRLSPKNPRGLTLPIDLFFTALAREYGKYAIGVVLSGTGSDGTRGA
VSINDAGGFLLAQEPETAKFDGMPRSAIATGLVDAILPPEELGPRILDHISQVARINIRG
TRATVGYDKDSALEETMHLLYHQGGINFREYKPATVMRRIERRMQVRHVPDLENYARLLE
GDRTELNALRRELLIPVTNFFRDPEAFETLAQNAIQNIVQERGEAQSIRVWIAGTSTGEE
AYTIAILFAEAFERFKRWPNFKLFATDVEQHNVDVGSSGVFSEAITAEVSPERLERWFYK
RGNHFVVKSEIRQSIVFARHNVLEDPPFTRMDLVSCRNLLIYFRSEAQERALRRLQYALA
PGGFLFLGSSESLASLQTDFTSVSSKYKIYRILRHVSLPLDSSSSSLGRFSSMAGKPRPA
TKPGRNMTDAVAIDAGQSLLLRSYAPNTLLLNANNELLHVFGDVGRYLRFNEGAVSLELA
KLLPPQIAPVAQALLHKVARGGEPLRSDVVTLRLPDGESERLRLVVRQVELEQREPYLML
SFEPQAPEAGDPASYRSMETMDLDSETATRVDTLERELAATRESLQATIEELETANEELQ
ATNEELMASNEELQSSNEELQSVNEELYTVNAENQEKIEILNRLNADLDGMAKAAAIATV
FVDSDLRLTRFTPEATGLFKIRDGDLGRHIDDFSNLLNYPTFIEELRNTIISGEMLQREI
TAGNGRIYLVRVLPYAVRRGDPRGAVATFIDVTTLHDIKRLQAVLDSLPESVAVLDALGK
ITMVNAAWRKFARLSGDENLAEQGVGANYLDACESNDAAKDEQFRRDSRSGIESVLAGEK
SEFSMKYNCHLNDPEHSDDQERLLVMHVSPIRHPAGGLIISHLDLTPSFMDQNAEEKG
NT seq 3057 nt   +upstreamnt  +downstreamnt
atgtcgacccatcaagagcctgttaccggtcaagagcctgacaccgatcaatcagacacc
caaagcgcgagcgagaattcgggcgatacgccgacgccgcaggagcctcggaccgccgct
gttgtctccgacgacgacaaagggcgctacatcgttgccgttggcgcctcggccggtgga
cttgacgcgctggagcggttctttcaggcgctgcctgagcgctcgggcgcggcctatgtg
gtcattcagcatctgtcgccggatcacaaaagcatgatggcgaatttgctcgcccgccac
acgctgatgccggtggtgacggtcgaggatgggatgaagatcgagcccgaccgggtctat
ctgatcccgccggccagcatgatgagcgtcaccaacaacgagttgcgcctgagcccgaag
aatccgcgcggcctgaccttgccgatcgacctgttctttaccgcgctggcgcgggagtat
ggcaaatacgccatcggcgtggtgctctccggtactggctccgatggtacccgtggtgct
gtctccatcaacgatgccggcggctttttgcttgcgcaagagccggagacggccaagttc
gacggcatgccgcgcagcgccatcgccaccgggctggtcgacgctatcctgccgccggaa
gagctcggtccgcgtattctcgatcatatcagccaggtggcgcgcatcaacatccgcggc
acccgtgccacggttggttacgacaaggacagcgcgctcgaggagaccatgcacctgctc
tatcaccagggcgggatcaacttccgtgagtacaagccggctacggtgatgcggcgcatc
gagcggcgcatgcaggtgcgccatgtgccagacttggaaaactatgcccgcctgctcgaa
ggtgaccgcaccgagctcaacgcgctgcggcgcgagttgctgattccggtgaccaacttt
ttccgcgatccggaagccttcgagaccttagcgcagaatgccattcagaacatcgtacag
gagcgtggcgaggcgcagtccatccgggtgtggattgccggaacctctaccggtgaagaa
gcctataccatcgctattttgtttgcggaggccttcgagcgcttcaagcgctggccgaat
ttcaagctgtttgcgaccgatgtcgagcagcacaatgtcgatgtcggcagttcaggggtg
ttctccgaggccattactgctgaggtctcgcccgagcggctcgagcgctggttctacaag
cgtggcaaccatttcgtggtcaagagcgaaatccgccagagcattgtgtttgcacgtcac
aatgtgcttgaggacccaccctttacccgcatggatctggtctcctgccgtaatctgctg
atctacttccgcagcgaggcgcaggagcgggcgctgcggcggctgcaatacgccctggca
cccgggggctttctgttcctgggctcaagcgagagccttgccagcctgcagacggacttc
acctccgtcagctccaagtacaagatctaccgcatcctgcggcatgtatccctgccgctg
gactccagctcatcctcgctcgggcgcttctcgtccatggccggcaagccgcgcccggca
accaagcccgggcgcaacatgaccgatgcggtcgccatcgatgccggacaatcgctgctg
ctgcgcagctatgcgccgaatacgctgttgctgaacgccaacaacgagttgttgcacgtc
ttcggtgatgtcggtcgctacctgcgttttaacgagggggccgtgtcgctggagttggcc
aagctgctgccaccgcagattgcgcccgtggcgcaggcgttgctgcacaaggtcgcgcgc
ggcggcgagccgctgcgctcggatgtcgtgaccctgcgcttgcccgatggtgagagcgag
cgcctgcgtctggtggtgcggcaggtcgagcttgagcagcgtgagccctatctgatgctg
tcattcgagccgcaggcgcccgaggctggtgatccggcgagctaccgcagcatggagacc
atggacctcgacagcgagaccgcgactcgggtcgatacgctcgaacgcgagctggccgcg
acgcgcgaaagcctgcaggcgacgatcgaagagcttgaaaccgccaatgaggaactgcag
gcgaccaatgaggagctgatggcctccaacgaagaactgcaaagctccaacgaggagctg
cagtcggtcaacgaggagctctacaccgtcaacgcggagaatcaggagaagatcgaaatt
ctcaaccggctcaacgccgatctcgatggcatggccaaggctgccgccattgccaccgtc
tttgtcgattccgatctgcgactgacccgcttcactcccgaggcgaccgggctgttcaaa
atccgcgacggcgaccttgggcgtcacatcgacgatttcagtaatctgctcaactacccg
accttcattgaggagttgcgcaacaccatcattagcggtgagatgctgcagcgcgagatt
acggccggcaacgggcgcatttatttggtgcgggtgctgccctatgcggtgcgccgtggc
gacccgcgcggcgcggtggcgactttcatcgatgtcaccaccctgcacgacatcaaacgc
ctgcaggcggtactggattcgctgcccgagagcgtcgccgtgctggacgctcttggcaaa
atcaccatggtcaacgcggcctggcgcaagtttgcgcgcctcagcggcgatgagaacctg
gcagagcagggcgtgggcgccaattatctcgacgcctgcgagagcaacgatgcggccaaa
gacgagcaattcaggcgcgactcgcgcagtggtatcgaatccgtgctcgcgggcgagaaa
agcgaattttcgatgaaatacaactgccatttgaatgatccagagcattcggatgatcag
gaacgcctgttggtgatgcatgtctcgccaattcggcatccggccggcggtttaatcatc
agccatctggatttgacgccgtcgttcatggaccagaatgcggaggaaaagggttag

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