| Entry |
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| Definition |
alkaline phosphatase (EC:3.1.3.1)
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| Orthology |
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| Organism |
teq Taylorella equigenitalis MCE9
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| Pathway |
| Folate biosynthesis | | Metabolic pathways | | Microbial metabolism in diverse environments | | Two-component system |
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| Module |
| Tetrahydrofolate biosynthesis, GTP => THF |
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| Class |
Metabolism; Metabolism of cofactors and vitamins; Folate biosynthesis [PATH: teq00790]
Metabolism; Xenobiotics biodegradation and metabolism; Aminobenzoate degradation
Environmental Information Processing; Signal transduction; Two-component system [PATH: teq02020]
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| SSDB |
    |
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| Motif |
 |
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| Other DBs |
NCBI-GI: NCBI-GeneID: UniProt: |
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| Position |
complement(486059..487990)
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| AA seq |
643 aa  
MQKKWIKSVLATSVFAGLCMGAVASAKITDLVPVDQKAFDIIKNRMENSAEKTGITILPI
DQAKFLKGQRFDFEVEVADETTKSVEVTFNGKSFKDIFGADLKRIENQTKDGKKYVSFRA
ENVSIASVGDIELVVNAETDSGKKTRKVMWSVVSDASDKKAKNVILFVGDGMSLQAKQLA
RILSKGIYEGRYNNLLAMETLPNVAIVSTSGYDSIVTDSANSASAYNTGHKSVVNAMGVY
ENHTEDTLDDPKVETISEIVKRTRGMAVGIVTTASVTDATPAAVTAHTRRRGDQDYIAAD
FLAEYHRPDVLLGGGIRYFVPKAQAGSKRKDETDVIKDFEAKGFTYVGNRKEMNAAPDDK
PLLGLFASNHMDVYMDREHIPNKEVTKGFDDQPNLVEMTKKALDIVSKNPNGFYLMVEGA
SIDKQIHTMDWQRAVYDAIEMDKAVEYAKNWSKQNGDDTLIVVIADHAHGISITGTYTEA
DGRKGRDAVRTYAEAKYPNFVDEDGDGFPEDPNPEHTLAVQYANFPDHYENYRFQTKPTA
PALAAKDADGKETIKANPARAPEGARLIEGNLPTDKETQEVHSADDIVVMAGGPGSDYFK
GHIENVEVFFGIMRALGIDAVAEKAQASESKATEAKPEQKPAQ |
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| NT seq |
1932 nt  +upstreamnt +downstreamnt
atgcaaaaaaaatggatcaaatctgtgcttgcaactagtgtatttgctggtttatgcatg
ggtgcagtagcttctgcaaaaatcactgaccttgtaccagtagatcaaaaagcttttgat
atcatcaaaaaccgtatggaaaacagtgctgaaaaaacaggcattactatcctacctatc
gatcaagcgaaattccttaaaggtcaacgttttgacttcgaagttgaagttgctgacgag
acaactaaatctgttgaagttactttcaacggtaaatcattcaaagatattttcggtgct
gatttaaaacgcattgaaaaccaaactaaagacggtaaaaaatatgtttctttccgtgca
gaaaacgtatcaatcgctagcgttggtgatatcgaattagtagttaatgctgagactgat
tctggcaaaaaaactcgtaaagttatgtggtcagttgttagcgatgcttctgataaaaaa
gctaaaaacgtgatcctatttgttggtgatggtatgagtcttcaagctaaacagcttgct
cgcatcctttcaaaaggtatttatgaaggacgttataacaaccttttagcaatggaaact
cttccaaacgtagcaatcgtttctacttctggttatgattctatcgtgactgactctgct
aactctgcatcagcttacaacactggtcataaatcagtagttaatgctatgggtgtttat
gaaaaccatacagaagacactttggacgatcctaaagttgaaactatttctgaaattgtt
aaacgtactcgtggtatggccgttggtatcgtaactacagcctcagtaactgatgctact
ccagctgctgtaactgctcacactcgtcgtcgcggtgaccaagattatatcgctgcagac
ttcctagctgaatatcaccgtcctgacgtacttcttggtggcggtatccgttacttcgtt
cctaaagctcaagctggttctaaacgtaaagatgaaactgatgttatcaaagacttcgaa
gcaaaaggcttcacatacgttggtaaccgtaaagagatgaatgcagctcctgacgataag
ccacttttaggtctgttcgcttcaaaccatatggacgtttatatggatcgtgaacacatc
cctaataaagaagtaactaaaggatttgacgatcaacctaacttagttgaaatgactaaa
aaagctcttgatatcgtttctaaaaatccaaacggtttctacctaatggttgaaggtgca
tctatcgataaacaaattcacactatggattggcaacgtgcagtatacgatgcaattgaa
atggataaagcagttgaatatgctaaaaactggtctaaacaaaatggtgacgatactcta
atcgttgttattgccgaccatgctcatggtatttcaatcacaggtacttatactgaagct
gacggtagaaaaggtcgtgatgcagtacgtacttacgctgaggctaaataccctaacttt
gtagatgaagacggtgacggcttcccagaagatccaaatccagaacacactttagcagtt
caatatgctaacttccctgatcactacgagaactatcgattccaaactaaacctactgct
ccagctctagctgcaaaagatgctgatggtaaagaaactatcaaagctaatccagctcgt
gctccagaaggtgctcgtttaatcgaaggtaatttacctactgataaagaaactcaagaa
gttcactcagctgacgatatcgttgttatggctggcggtccaggctctgactacttcaaa
ggtcacattgaaaatgttgaagtattcttcggtattatgcgtgctcttggtatagatgct
gttgctgaaaaagctcaagcttcagaatcaaaagcaactgaagctaaacctgaacaaaaa
ccagcacaataa |
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