| Entry |
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| Symbol |
TBLA0I01740
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| Name |
(RefSeq) hypothetical protein
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| KO |
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| Organism |
tbl Henningerozyma blattae
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| Pathway |
| tbl00520 | Amino sugar and nucleotide sugar metabolism |
| tbl01110 | Biosynthesis of secondary metabolites |
| tbl01250 | Biosynthesis of nucleotide sugars |
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| Module |
| tbl_M00632 | Galactose degradation, Leloir pathway, galactose => alpha-D-glucose-1P |
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| Brite |
KEGG Orthology (KO) [BR:tbl00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
TBLA_0I01740 (TBLA0I01740)
00052 Galactose metabolism
TBLA_0I01740 (TBLA0I01740)
09107 Glycan biosynthesis and metabolism
00520 Amino sugar and nucleotide sugar metabolism
TBLA_0I01740 (TBLA0I01740)
Enzymes [BR:tbl01000]
5. Isomerases
5.1 Racemases and epimerases
5.1.3 Acting on carbohydrates and derivatives
5.1.3.2 UDP-glucose 4-epimerase
TBLA_0I01740 (TBLA0I01740)
5.1.3.3 aldose 1-epimerase
TBLA_0I01740 (TBLA0I01740)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
9:complement(386232..388337)
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| AA seq |
701 aa
MTQHTPTQPQKKYVLVTGGAGYIGSHTVAELIENGYECIVVDNLDNSSYESVSRLQILTK
HKITFYHTDLCDKEELRKIFVNHNIDSVIHFAGLKAVGESTQIPLKYYRNNILGTLALLE
LMQEYHVEKLVFSSSATVYGDATRFPDMIPIPEECPLGPTNPYGNTKYTIEKILNDLYES
EKKNWKFAILRYFNPIGAHPSGLIGEDPLGIPNNLLPYMAQVAVGRREKLNVFGNDYDSR
DGTPIRDYIHVVDLAKGHIAALKYLDNTKSEGLCREWNLGSGTGSTVLEVYRAFCDACGD
DIPYEITGRRAGDVLNLTAKPDRATNELHWKTELNVADACKDLWKWTTENPFGYQLKGVV
DKFAAQKDDFESRFITLGEGTKFEVTFANLGATIVDIKVDGQSVVLGYKDEAGYLQEDTA
YIGATIGRYANRIAKGKYTLNGKEYQLTINNGENCNHGGPSTFHTKKFMGPLVQNPKKDI
FTAEFLLLDFGKELNEFPGDLIIHVKYIVNVAEKTLDIEYQAELVNGEATPINMTNHTYF
NLNKVNKETFAGTELRVASARSLDMDMKRVVPTGKIITREIATFDSSKPTVLGEKTPDYD
YAFVIDENEKITDVNTAKRRKLTTVAKAYHPESKIGLEILTTEPTFQIYTGDWLSAGYTP
RQGFAVEPGRYVDAINHEQWRESVILKRGDVYGSKIVYRFT |
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| NT seq |
2106 nt +upstreamnt +downstreamnt
atgactcaacatactcctactcagccacaaaagaaatacgttttggtcacaggtggtgct
ggttacatcggttctcacactgttgctgaattgattgaaaacgggtacgaatgtatcgtt
gtcgataatttggataattcctcatacgaatctgtctccagattgcaaatcttgaccaag
cacaagatcactttctaccacaccgatctatgtgacaaggaagaattgagaaagatcttt
gtcaatcacaacatcgactctgttatccattttgccggtttgaaagccgtcggtgaatcc
actcaaatcccattgaaatattacagaaataacatcttgggtactttagctctattagaa
ttgatgcaagaataccatgttgaaaaattagtcttctcctcctctgccactgtctatggt
gatgccactagattcccagatatgatcccaattccagaagaatgtcctttaggtccaacc
aacccatacggtaacaccaaatacaccattgaaaagatcttgaacgatttgtacgaatct
gaaaagaagaactggaagttcgctattttaagatacttcaacccaattggtgctcatcct
tccggtttgatcggtgaagatccattaggtattccaaacaatcttttaccatacatggct
caagtcgctgttggtagacgtgaaaaattgaacgttttcggtaacgattacgactctaga
gatggtactccaattagagattatattcatgttgttgatttagcaaagggtcacattgct
gctttgaaatacttggataacactaaatctgaaggtttatgtcgtgaatggaatttaggt
tctggtactggttccaccgtcttggaagtctacagagccttctgtgatgcctgtggtgat
gatatcccatatgaaatcactggaagaagagccggtgatgttttgaatttaactgccaag
ccagatagagccaccaatgaattacattggaagactgaattgaatgttgctgatgcttgt
aaagatttatggaaatggactactgaaaacccattcggttaccaattgaaaggtgtcgtg
gataaatttgctgctcaaaaggatgatttcgaatcaagattcattactttaggtgaaggt
actaaattcgaagtcacttttgccaacttaggtgccaccattgtggatattaaagtcgat
ggtcaatctgttgtcttgggttacaaagatgaagctggttatttacaagaagataccgct
tatatcggtgccactattggtagatacgctaaccgtattgccaagggaaaatacactttg
aacggtaaagaatatcaattaactatcaacaatggtgaaaactgtaaccatggtggtcca
tctactttccataccaagaaattcatgggcccattagttcaaaacccaaaaaaagatatt
ttcactgctgaattccttttattagatttcggcaaagaattaaatgaattcccaggtgat
ttaatcattcatgtcaaatatatcgttaacgttgctgaaaagactttagatatcgaatat
caagctgaattagtcaatggtgaagctactccaatcaacatgaccaaccatacttatttc
aacttaaacaaagttaacaaggaaactttcgccggtactgaattaagagtcgcttctgcc
agatctttggatatggatatgaagagagttgttccaactggtaagatcatcactagagaa
attgccacttttgattcctctaagccaactgtcttgggtgaaaagactccagattatgat
tacgcctttgtcatcgatgaaaatgaaaagattactgatgttaacactgccaagagaaga
aagttaaccactgtcgctaaagcttaccatccagaatccaagatcggtttggaaatctta
actaccgaaccaactttccaaatttacaccggtgattggttatctgcaggttacactcca
agacaaggtttcgctgtcgaaccaggtagatatgtcgatgctattaaccatgaacaatgg
agagaatctgtcattttgaaacgtggtgatgtttacggttccaagatcgtttacagattt
acctaa |
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