Burkholderia thailandensis MSMB59: BTHA_100
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Entry
BTHA_100 CDS
T03416
Name
(GenBank) alkaline phosphatase family protein
KO
K01077
alkaline phosphatase [EC:
3.1.3.1
]
Organism
btv
Burkholderia thailandensis MSMB59
Pathway
btv00730
Thiamine metabolism
btv00790
Folate biosynthesis
btv01100
Metabolic pathways
btv01240
Biosynthesis of cofactors
btv02020
Two-component system
Module
btv_M00126
Tetrahydrofolate biosynthesis, GTP => THF
Brite
KEGG Orthology (KO) [BR:
btv00001
]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00730 Thiamine metabolism
BTHA_100
00790 Folate biosynthesis
BTHA_100
09130 Environmental Information Processing
09132 Signal transduction
02020 Two-component system
BTHA_100
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:
btv04147
]
BTHA_100
00537 Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:
btv00537
]
BTHA_100
Enzymes [BR:
btv01000
]
3. Hydrolases
3.1 Acting on ester bonds
3.1.3 Phosphoric-monoester hydrolases
3.1.3.1 alkaline phosphatase
BTHA_100
Exosome [BR:
btv04147
]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
BTHA_100
Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:
btv00537
]
Enzymes
BTHA_100
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Alk_phosphatase
Sulfatase
Metalloenzyme
Motif
Other DBs
NCBI-ProteinID:
AIS93970
LinkDB
All DBs
Position
1:complement(108675..110114)
Genome browser
AA seq
479 aa
AA seq
DB search
MKRVRLAALLCASVFAAAGCGSDEPKTPGASDDGARTSAARNVIFFLGDGMGMTTLTAAR
IYAVGEDGALTLDTLPETAFVRTYSNDAQVTDSAPSMSAYMTGVKTNNEVISMTPDTKAI
EPSASLTGNCGANNGKPVPTLLEIAKAKGLATGVVTTTRVTHATPAATYAHVCHRDAEND
IAAQLVPGGAGYNAALGGGVDVVLGGGAQFFVPKDAGGKRADGRNLVNELKAKGYAIARN
RDELLAADATKSGKLAGLFASSHMSYDLDRGATKEPSLADMATRALDVLQKNPNGYFLMV
EGGRIDHALHDTNAKRALQDTVAFDNAIKATLDKVRQTDPDLKNTLIVVTADHDHTLVLN
GYAARTGKTEAGKPGVLGVLRNYQTGAVAKDADGAPYTIIGFGNGENRVQGSRAGTNLTD
AVTGADDYRQEAVVRMAKGSETHGGTDVFLGAIGRGAEGFHGVIENNKVFELVRGAAQL
NT seq
1440 nt
NT seq
+upstream
nt +downstream
nt
atgaagcgagtgagactggccgcgctcctttgcgcgagcgtcttcgcggcggcgggctgc
ggcagcgacgagccgaagacgccgggcgcatcggacgacggcgcgcgaacgagcgccgcg
cgcaacgtcatcttctttctgggcgacgggatggggatgacgacgctcacggccgcgcgg
atctatgcggtcggcgaggacggcgcgctcacgctcgacacgctgcccgagaccgcgttc
gtgaggacctattcgaacgatgcgcaggtgacggacagcgcgccgtcgatgtccgcgtac
atgacgggcgtgaagacgaacaacgaagtgatctcgatgacgcccgacacgaaggcgatc
gagccgagcgcgagtctcaccggcaactgcggcgcgaacaacggcaagccggtgccgacg
ctgctcgagatcgcgaaggcgaaggggctcgcgacgggcgtcgtcacgacgacccgcgtc
acgcacgcgacgcccgccgcgacctacgcgcacgtgtgccaccgcgacgccgagaacgac
atcgccgcgcagctcgtgccgggcggcgcgggctacaacgcagcgctcggcggcggcgtc
gacgtcgtgctgggcggcggcgcgcagttcttcgtgccgaaggacgccggcggcaagcgc
gcggacggccgcaatctcgtgaacgagctgaaggcgaagggctatgcgatcgcgcggaac
cgcgacgagctcctcgccgccgatgcgacgaagagcggcaagctcgcgggcctgttcgca
tcgagccacatgagctacgacctcgaccgcggcgcgacgaaggagccgagcctggcggac
atggcgacgcgcgcgctcgacgtgttgcagaagaacccgaacggctatttcctgatggtc
gaaggcgggcggatcgatcacgcgctgcacgacacgaacgcgaagcgtgcgctgcaggac
acggttgcgttcgacaacgcgatcaaggcgacgctcgacaaggtccgtcagaccgatccg
gacctgaagaacacgttgatcgtcgtgacggccgaccacgaccacacgctggtgctcaac
ggttacgcggcgcgcacgggcaagacggaagcgggcaagccgggcgtgctcggcgtgctg
cgcaactatcagacgggtgcggtcgcgaaggacgcggacggcgcgccgtacacgatcatc
ggcttcggcaacggcgagaaccgcgtgcaaggcagccgcgcgggcacgaaccttaccgac
gcggtgacgggcgcggacgactatcgccaggaggcggtcgtgcgaatggcgaagggcagc
gagacgcacggcggcaccgacgtgttcctcggcgcgatcggccgcggcgcggagggcttt
cacggcgtgatcgagaacaacaaggtgttcgagctcgtgcgcggcgcggcgcagctctga
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