KEGG   Massilia litorea: LPB04_08885
Entry
LPB04_08885       CDS       T09729                                 
Name
(GenBank) alkaline phosphatase
  KO
K01077  alkaline phosphatase [EC:3.1.3.1]
Organism
mlir  Massilia litorea
Pathway
mlir00730  Thiamine metabolism
mlir00790  Folate biosynthesis
mlir01100  Metabolic pathways
mlir01240  Biosynthesis of cofactors
mlir02020  Two-component system
Module
mlir_M00126  Tetrahydrofolate biosynthesis, GTP => THF
Brite
KEGG Orthology (KO) [BR:mlir00001]
 09100 Metabolism
  09108 Metabolism of cofactors and vitamins
   00730 Thiamine metabolism
    LPB04_08885
   00790 Folate biosynthesis
    LPB04_08885
 09130 Environmental Information Processing
  09132 Signal transduction
   02020 Two-component system
    LPB04_08885
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:mlir04147]
    LPB04_08885
   00537 Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:mlir00537]
    LPB04_08885
Enzymes [BR:mlir01000]
 3. Hydrolases
  3.1  Acting on ester bonds
   3.1.3  Phosphoric-monoester hydrolases
    3.1.3.1  alkaline phosphatase
     LPB04_08885
Exosome [BR:mlir04147]
 Exosomal proteins
  Exosomal proteins of other body fluids (saliva and urine)
   LPB04_08885
Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:mlir00537]
 Enzymes
  LPB04_08885
SSDB
Motif
Pfam: Alk_phosphatase Sulfatase
Other DBs
NCBI-ProteinID: QOL51357
UniProt: A0A7L9U8Z7
LinkDB
Position
1988148..1989536
AA seq 462 aa
MTRTLLSTLLLAACCTMSAQAAAPAARPQAKNILFFLGDGMGPTTITAARIFKEGEDGLL
NFERLDRTARIKTYSADAQVTDSAPSMGAYMTGVKINNDVISMKDAKPVAPGKDGNGIAS
IDRCGAGNGSSPMTILELAKAAGKSVGAVTTTELTHATPASTFSHVCDRDMAYTIAQQLV
PGGAGYNTRLKDGVDVLMGGGRNHFTPFDAKRNPKGRGDGRDLVEELEKQGYAVANTRAD
MASSRPGKKFLGLYSAESHLDYASKRSPTQPTLAEMTAKSIELLSGNPNGFFLMVEGGKI
DHALHDTNARNALIETVAFDEAIQTALERMRAIDPGLDNTLVVVTADHDHTMVLNGYPKR
GNPVLDIVRGYTDGEPTRDADGKTFTTLVFGNGPNRPDVRVDVDSAQALAPDYHQETGVK
WSSESHGGGDVKLYAAGAGSAPFRGTMENTHVFDLMKAAAGL
NT seq 1389 nt   +upstreamnt  +downstreamnt
atgaccagaactctcctctccacgctgctgctggcagcatgctgcaccatgagcgcgcag
gccgcagcaccggctgccaggccgcaggcgaaaaacatcctcttcttcctcggcgacggc
atgggcccgaccaccatcacggccgcgcgcatcttcaaggaaggcgaagacggcctcctg
aacttcgaacgcctcgaccgcaccgcgcgcatcaagacctactcggcggacgcgcaggtg
accgacagcgcgccctcgatgggcgcctacatgacgggcgtgaagatcaacaacgacgtg
atctcgatgaaggatgcgaaaccggtcgctcccggcaaggacggcaacggcatcgcctcc
atcgaccgctgcggcgccggcaacggcagttctccgatgacgatcctggaactggccaag
gccgccggcaagtcggtcggcgccgtcacgacgaccgaactgacgcacgccacgccggca
tcgaccttctcccacgtctgcgaccgcgacatggcctacacgatcgcccagcagctcgtc
ccgggcggcgcgggctacaacacgcgtttgaaagacggcgtcgacgtgctgatgggagga
gggcgcaaccacttcacgccgttcgacgcgaagcgcaacccgaagggccgcggcgatggg
cgcgacctggtggaggagctggaaaaacaggggtatgcggtcgcgaacacgcgcgccgac
atggcctcgagccggcccggtaaaaaattcctcggcctgtacagcgccgagagccatctc
gactacgcttcgaagcgctcgccgacccagccgacgctggccgagatgacggccaagtcg
atcgagcttttatcgggtaatccgaacggcttcttcctgatggtcgaaggcggcaagatc
gaccacgcgctgcatgacacgaacgcgcgcaacgcgctgatcgaaacggtcgctttcgac
gaggcgatccagaccgcgctggagcgcatgcgcgccatcgacccgggcctcgacaacacc
ctggtcgtcgtcaccgccgaccatgaccacacgatggtcctgaacggctacccgaagcgc
ggcaacccggtgctcgacatcgtgcgcggttatacggacggcgaaccgacccgcgacgcc
gacggcaagacgtttacgacgctggtcttcggcaacggcccgaaccggcccgacgtgcgc
gtcgacgtcgacagcgcccaggcgctggcgccggactatcaccaggagacgggcgtgaaa
tggtcgagcgagtcgcacggcggcggcgacgtcaagctgtacgcggcaggggcgggctcg
gcgccgttcagggggacgatggagaatacccacgtgttcgacctgatgaaggccgcggca
ggcttgtaa

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