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DETAIL

Detail for ZS11_C08G05910.t1

Genome:
ZS11: ZS11_C08G05910.t1
ZS11_v0: BnaA08T0038100ZS
WE: WE_A08G04970.t1
WE_v0: BnaA08T0036700WE
Darmor: A08p04710.1_BnaDAR
BH: BnaC08T048300BH
Quinta: BnaA08T0036200QU
ZS2: BnaA08T040300ZS2
SW: BnaA08T048400SW
Express61: A08p003480.1_BnaEXP
Xiaoyun: BnaA08G0038500XY
P202: BnaA08G003360P202.1
BL: BnaC08T048300BH
TA: BnaA08T040400TA
Da-Ae: Not available
RB: BnaC08T046500RB
No2127: BnaA08T0010700NO
P130: BnaC08G005750P130.1
Length: 599
KOG ID: KOG2426
KOG E-value: Not available
KOG Score: 1013.0
KOG Annotation: Carbohydrate transport and metabolism
Biological Process: GO:0006071(glycerol metabolic process)
Cellular Component: -
Molecular Function: GO:0004371(glycerone kinase activity),GO:0005524(ATP binding)
KEGG Ortholog: -
NR Protein: XP_013719931.1
NR E-value: Not available
NR Score: 1144.8
NR Annotation: XP_013719931.1 putative 3,4-dihydroxy-2-butanone kinase isoform X1 [Brassica napus]
SwissProt Protein: O04059|DHBK_SOLLC
SwissProt E-value: Not available
SwissProt Score: 903.0
SwissProt Annotation: Putative 3,4-dihydroxy-2-butanone kinase OS=Solanum lycopersicum OX=4081 GN=DHBK PE=2 SV=1
CDS Sequence (1825 bp)
ATGGCTACTCCAGCTAAGAAATTCATCAACAACCCCAACGATGTAGTAACAGAGTTCATAGAGGGTCTGG
TCGAAACTTATCCTGGACTTCAGTACTTGGATGGCCTCCCTGAGGTCAAGGTTGTACTCCGAGCTGATGT
CTCGGCTGCAGATTATGACAAGGTTGCTGTTATATCAGGAGGGGGAAGTGGGCATGAACCAGCACAAGCT
GGGTACGTGGGAGAAGGAATGCTAACCGCGGCTATTTGCGGTGATGTCTTTGCTTCTCCACCGGTTGATT
CCATCCTAGCTGGGATTCGAGCTGTAACTGGTCCAATGGGATGCCTCTTGGTTGTCACGAACTATACTGG
TGACCGCTTGAACTTTGGCCTAGCAGCTGAGCTAGCTAAAACTGAGGGTTTCAAAGTAGAGACTGTGATT
GTTGGAGATGACTGTGCTCTCCCACCGCCACGTGGCATAGCTGGACGCAGAGGTTTAGCAGGAACAATTC
TTGTCCATAAGGTAGCTGGAGCAGCAGCAGCAGCCGGTCTTTCCTTAGAAGAAGTTGCGGCAGAAGCAAA
GCATGCTTCTGAGATGGTTGGGACCATGGGAGTTGCACTGACTGTTTGTTCGCTTCCGGGACAGGCCACA
TCAGATCGTTTGGGTCCTGAGAAAATGGAACTTGGGCTTGGTGTTCATGGGGAACCTGGTGCTGCTGTGG
TCGACATTCAACCTGTGGATGTTGTAGTCTCCCATGTTCTTCAACAGATACTGAGTCCAGAGACTAATTA
TGTTCCGATTACACGTGGTAACAGTGTGGTTCTGATGGTTAATGGCTTAGGTGGTGCCCCTCTAATGGAA
CTTATGATTGCGGCTGGAAAAGCAGTCCCTAAACTACAGTTAGAATTTGGACTTGCCGTTGATAGAGTGT
ATACTGGATCTTTTATGTCATCTCTTGATATGGCAGGTTTCTCGATATCGATCATGAAGGCTGACCAGTC
AATTTTAGAGCGTCTGGATGCTCCGACCAAGGCACCTAGTTGGCCTGTTGGCACGGATGGGAACCTCCCA
CCATCAAAGATCCCAGTTCCACTACCTCCATTCCAACAAAACAAAAACGAAGAGTCTCTAGGCCGACCTC
AAGAACTTAGTCAACAAGGTCGAATTCTTGAGGCAGCGATTGAAGCAGCAGCAACTGTGGTCATCAGTTT
GAAAGATAGTTTGAACGAATGGGATGGAAAAGTAGGAGACGGGGACTGTGGATCAACAATGTGCAGAGGC
GCAACAGCTATTTTGGAGGACGTGAGGAATTATTATCCTCTCAACGATGCTGCTGAAACAGTGAATGAGA
TTGGTTCATCTATCAGAAGAGTCATGGGAGGAACGAGTGGAATAATTTACAGTCTCCTCTGCAAGGCAGC
TTACGCTGAGTTAAAAGCCAACGTTCAGTCAGAAGTCACTTCCAAAAACTGGTCTGATGCACTCAAGTCA
TCAATCTCTGCTGTTAGTAAATATGGTGGAGCAAGGGCAGGTTATAGAACGATGTTAGATGCTCTCATCC
CAGCTTCGAGAGTCCTTGAGGAGAAGCTGAGTATTGGAGAGGACCCTGTTTCTGCTTTTGTTCTGTCTGG
TGAAGCTGCAACCGCAGGTGCTGAATCAACCATTCAGATGCAAGCACAGGCCGGGAGATCGAGCTATGTG
TCAGCTCAGATTCTTGCATCAATTCCTGATCCGGGGGCAATGGCTGCAGCGGCATGGTACAGCGCTGCTG
CAAGAGCCGTGAAGGAGCAGAGCCAGGGGTTGGGAATTGTGATCCGATAG
Upstream Sequence
AGCTTCTTCCTCTTCGTTCTTTACTTTCTTCTCCTCACTGCCATTGTTGACTCTCAAAGCTTCAATTCTT
TTCTTCTTCTTTATTTCCCTGTGTGAGCTTTCTTCGATCATCTTGACAGCTAGCTAGCACCATGGCTACT
CCAGCTAAGAAATTCATCAACAACCCCAACGATGTAGTAACAGAGTTCATAGAGGGTCTGGTCGAAACTT
ATCCTGGACTTCAGTACTTGGATGGCCTCCCTGAGGTCAAGGTTGTACTCCGAGCTGATGTCTCGGCTGC
AGATTATGACAAGGTTGCTGTTATATCAGGAGGGGGAAGTGGGCATGAACCAGCACAAGCTGGGTACGTG
GGAGAAGGAATGCTAACCGCGGCTATTTGCGGTGATGTCTTTGCTTCTCCACCGGTTGATTCCATCCTAG
CTGGGATTCGAGCTGTAACTGGTCCAATGGGATGCCTCTTGGTTGTCACGAACTATACTGGTGACCGCTT
GAACTTTGGCCTAGCAGCTGAGCTAGCTAAAACTGAGGGTTTCAAAGTAGAGACTGTGATTGTTGGAGAT
GACTGTGCTCTCCCACCGCCACGTGGCATAGCTGGACGCAGAGGTTTAGCAGGAACAATTCTTGTCCATA
AGGTAGCTGGAGCAGCAGCAGCAGCCGGTCTTTCCTTAGAAGAAGTTGCGGCAGAAGCAAAGCATGCTTC
TGAGATGGTTGGGACCATGGGAGTTGCACTGACTGTTTGTTCGCTTCCGGGACAGGCCACATCAGATCGT
TTGGGTCCTGAGAAAATGGAACTTGGGCTTGGTGTTCATGGGGAACCTGGTGCTGCTGTGGTCGACATTC
AACCTGTGGATGTTGTAGTCTCCCATGTTCTTCAACAGATACTGAGTCCAGAGACTAATTATGTTCCGAT
TACACGTGGTAACAGTGTGGTTCTGATGGTTAATGGCTTAGGTGGTGCCCCTCTAATGGAACTTATGATT
GCGGCTGGAAAAGCAGTCCCTAAACTACAGTTAGAATTTGGACTTGCCGTTGATAGAGTGTATACTGGAT
CTTTTATGTCATCTCTTGATATGGCAGGTTTCTCGATATCGATCATGAAGGCTGACCAGTCAATTTTAGA
GCGTCTGGATGCTCCGACCAAGGCACCTAGTTGGCCTGTTGGCACGGATGGGAACCTCCCACCATCAAAG
ATCCCAGTTCCACTACCTCCATTCCAACAAAACAAAAACGAAGAGTCTCTAGGCCGACCTCAAGAACTTA
GTCAACAAGGTCGAATTCTTGAGGCAGCGATTGAAGCAGCAGCAACTGTGGTCATCAGTTTGAAAGATAG
TTTGAACGAATGGGATGGAAAAGTAGGAGACGGGGACTGTGGATCAACAATGTGCAGAGGCGCAACAGCT
ATTTTGGAGGACGTGAGGAATTATTATCCTCTCAACGATGCTGCTGAAACAGTGAATGAGATTGGTTCAT
CTATCAGAAGAGTCATGGGAGGAACGAGTGGAATAATTTACAGTCTCCTCTGCAAGGCAGCTTACGCTGA
GTTAAAAGCCAACGTTCAGTCAGAAGTCACTTCCAAAAACTGGTCTGATGCACTCAAGTCATCAATCTCT
GCTGTTAGTAAATATGGTGGAGCAAGGGCAGGTTATAGAACGATGTTAGATGCTCTCATCCCAGCTTCGA
GAGTCCTTGAGGAGAAGCTGAGTATTGGAGAGGACCCTGTTTCTGCTTTTGTTCTGTCTGGTGAAGCTGC
AACCGCAGGTGCTGAATCAACCATTCAGATGCAAGCACAGGCCGGGAGATCGAGCTATGTGTCAGCTCAG
ATTCTTGCATCAATTCCTGATCCGGGGGCAATGGCTGCAGCGGCATGGTACAGCGCTGCTGCAAGAGCCG
TGAAGGAGCAGAGCCAGGGGTTGGGAATTGTGATCCGATAGACTAGGCT
Downstream Sequence
GTTCGTGCTCATTCGTCCCTTTCTTCCTTCTTTGTGTTCCCCTGTTTTTGAAATCGTAAG
CTCTCTGTGCATGTTGATGTGGACCGACTGTTGACTTTATCTTATATGTTCAAATGCGTT
ACTGTGTCTCTGCAAGAGAGAGAATGATCATAAGCTCTTTCACTCGCTTGCTGGTGAAAA
TTTGCAGATGTAGTAACAGAGTTCATAGAGGGTCTGGTCGAAACTTATCCTGGACTTCAG
TACTTGGATGGCCTCCCTGAGGTTAATTAAAAAAGATTCCTTTTTCGTTTGTACAAAACC
TCAGCTAGTTTCTGACGGTTGGACCTTTAACAGGTCAAGGTTGTACTCCGAGCTGATGTC
TCGGCTGCAGATTATGACAAGGTTGCTGTTATATCAGGTATGATGAGTTTCTTGTCCGAA
CCTTGTTTCTGTTTAGTTGAGTTTAGGTTTGCTATTTTGTAACAGGAGGGGGAAGTGGGC
ATGAACCAGCACAAGCTGGGTACGTGGGAGAAGGAATGCTAACCGCGGCTATTTGCGGTG
ATGTCTTTGCTTCTCCACCGGTTGATTCCATCCTAGCTGTAAGTCTCCCACAAAGTTTTG
TCCTTTTCTTGAGGCTTTCAAGTGAATGGTGAAGTTTTTGTGTAACTCACAGGGGATTCG
AGCTGTAACTGGTCCAATGGGATGCCTCTTGGTTGTCACGGTACATATCAATAAGCTGAG
AAGAGCTATGGATTCGAACTCTCAATGTGTTTGGCTAATTATAGTTTTTTGACAGAACTA
TACTGGTGACCGCTTGAACTTTGGCCTAGCAGCTGAGCTAGCTAAAACTGAGGGTTTCAA
AGTAGAGGTAACTGTCTGTTTAATGTTATAGAATTTGGTGAGAGCGTTAGTGGATAGACT
GATGAATCATTTCTTTTTCCTAGACTGTGATTGTTGGAGATGACTGTGCTCTCCCACCGC
CACGTGGCATAGCTGGACGCAGAGGTTTAGCAGGAACAATTCTTGTCCATAAGGTTCTCA
CTCTTCCTTCCTCTTTGCTTTCCCTCTATCTGCACTCTAACCGTTCTGGCAGTTTTTTTT
TTATTCTTATTGGTTATTGGTTAAGGATAGGTAGCTGGAGCAGCAGCAGCAGCCGGTCTT
TCCTTAGAAGAAGTTGCGGCAGAAGCAAAGCATGCTTCTGAGATGGTTGGGACCATGGGA
GTTGCACTGACTGTTTGTTCGCTTCCGGGACAGGCCACATCAGATCGTTTGGGTCCTGAG
AAAATGGAACTTGGGCTTGGTGTTGTATGTTGTTATATTCTTTTAACCCGTAGAAAAGAG
ACAGCGCTAATTGTTGGTTCTGTGTCTATATTTGACTTTTTATTTTTTTCTTGCTATCTT
AAACTTTTCTTTTTAGCATGGGGAACCTGGTGCTGCTGTGGTCGACATTCAACCTGTGGA
TGTTGTAGTCTCCCATGTTCTTCAACAGATACTGAGTCCAGTATGTGCATTGTACCTGTT
TCTTCTTTCCATAACTAAAAAAATACATCATCCTGTTTCATCCATTGGCCTGTGCATTCG
TTCTAACTGCAGGAGACTAATTATGTTCCGATTACACGTGGTAACAGTGTGGTTCTGATG
GTTAATGGGTAAGCCTGCACATTCCATCTCCCTATTTAGGTGATCCTTGTATGTATTTTC
ACTGGTTATGGTCTAACGAGTGAATATGTTTTCTTCTTTCTTGCTGTTGTGCAGCTTAGG
TGGTGCCCCTCTAATGGAACTTATGATTGCGGCTGGAAAAGCAGTCCCTAAACTACAGTT
AGAATTTGGACTTGCCGTTGATAGAGTGTATACTGGATCTTTTATGTCATCTCTTGATAT
GGCAGGTGACTGTTTTTCTTGCGTCTACGTAGATGCATTGGTGTTATGATGTTGCTCTAA
TGCTCCTTCCCTTGTCAGGTTTCTCGATATCGATCATGAAGGCTGACCAGTCAATTTTAG
AGCGTCTGGATGCTCCGACC
Pro Sequence
MATPAKKFINNPNDVVTEFIEGLVETYPGLQYLDGLPEVKVVLRADVSAA
DYDKVAVISGGGSGHEPAQAGYVGEGMLTAAICGDVFASPPVDSILAGIR
AVTGPMGCLLVVTNYTGDRLNFGLAAELAKTEGFKVETVIVGDDCALPPP
RGIAGRRGLAGTILVHKVAGAAAAAGLSLEEVAAEAKHASEMVGTMGVAL
TVCSLPGQATSDRLGPEKMELGLGVHGEPGAAVVDIQPVDVVVSHVLQQI
LSPETNYVPITRGNSVVLMVNGLGGAPLMELMIAAGKAVPKLQLEFGLAV
DRVYTGSFMSSLDMAGFSISIMKADQSILERLDAPTKAPSWPVGTDGNLP
PSKIPVPLPPFQQNKNEESLGRPQELSQQGRILEAAIEAAATVVISLKDS
LNEWDGKVGDGDCGSTMCRGATAILEDVRNYYPLNDAAETVNEIGSSIRR
VMGGTSGIIYSLLCKAAYAELKANVQSEVTSKNWSDALKSSISAVSKYGG
ARAGYRTMLDALIPASRVLEEKLSIGEDPVSAFVLSGEAATAGAESTIQM
QAQAGRSSYVSAQILASIPDPGAMAAAAWYSAAARAVKEQSQGLGIVIR
mRNA Sequence
AGCTTCTTCCTCTTCGTTCTTTACTTTCTTCTCCTCACTGCCATTGTTGACTCTCAAAGCTTCAATTCTT
TTCTTCTTCTTTATTTCCCTGTGTGAGCTTTCTTCGATCATCTTGACAGCTAGCTAGCACCATGGCTACT
CCAGCTAAGAAATTCATCAACAACCCCAACGATGTAGTAACAGAGTTCATAGAGGGTCTGGTCGAAACTT
ATCCTGGACTTCAGTACTTGGATGGCCTCCCTGAGGTCAAGGTTGTACTCCGAGCTGATGTCTCGGCTGC
AGATTATGACAAGGTTGCTGTTATATCAGGAGGGGGAAGTGGGCATGAACCAGCACAAGCTGGGTACGTG
GGAGAAGGAATGCTAACCGCGGCTATTTGCGGTGATGTCTTTGCTTCTCCACCGGTTGATTCCATCCTAG
CTGGGATTCGAGCTGTAACTGGTCCAATGGGATGCCTCTTGGTTGTCACGAACTATACTGGTGACCGCTT
GAACTTTGGCCTAGCAGCTGAGCTAGCTAAAACTGAGGGTTTCAAAGTAGAGACTGTGATTGTTGGAGAT
GACTGTGCTCTCCCACCGCCACGTGGCATAGCTGGACGCAGAGGTTTAGCAGGAACAATTCTTGTCCATA
AGGTAGCTGGAGCAGCAGCAGCAGCCGGTCTTTCCTTAGAAGAAGTTGCGGCAGAAGCAAAGCATGCTTC
TGAGATGGTTGGGACCATGGGAGTTGCACTGACTGTTTGTTCGCTTCCGGGACAGGCCACATCAGATCGT
TTGGGTCCTGAGAAAATGGAACTTGGGCTTGGTGTTCATGGGGAACCTGGTGCTGCTGTGGTCGACATTC
AACCTGTGGATGTTGTAGTCTCCCATGTTCTTCAACAGATACTGAGTCCAGAGACTAATTATGTTCCGAT
TACACGTGGTAACAGTGTGGTTCTGATGGTTAATGGCTTAGGTGGTGCCCCTCTAATGGAACTTATGATT
GCGGCTGGAAAAGCAGTCCCTAAACTACAGTTAGAATTTGGACTTGCCGTTGATAGAGTGTATACTGGAT
CTTTTATGTCATCTCTTGATATGGCAGGTTTCTCGATATCGATCATGAAGGCTGACCAGTCAATTTTAGA
GCGTCTGGATGCTCCGACCAAGGCACCTAGTTGGCCTGTTGGCACGGATGGGAACCTCCCACCATCAAAG
ATCCCAGTTCCACTACCTCCATTCCAACAAAACAAAAACGAAGAGTCTCTAGGCCGACCTCAAGAACTTA
GTCAACAAGGTCGAATTCTTGAGGCAGCGATTGAAGCAGCAGCAACTGTGGTCATCAGTTTGAAAGATAG
TTTGAACGAATGGGATGGAAAAGTAGGAGACGGGGACTGTGGATCAACAATGTGCAGAGGCGCAACAGCT
ATTTTGGAGGACGTGAGGAATTATTATCCTCTCAACGATGCTGCTGAAACAGTGAATGAGATTGGTTCAT
CTATCAGAAGAGTCATGGGAGGAACGAGTGGAATAATTTACAGTCTCCTCTGCAAGGCAGCTTACGCTGA
GTTAAAAGCCAACGTTCAGTCAGAAGTCACTTCCAAAAACTGGTCTGATGCACTCAAGTCATCAATCTCT
GCTGTTAGTAAATATGGTGGAGCAAGGGCAGGTTATAGAACGATGTTAGATGCTCTCATCCCAGCTTCGA
GAGTCCTTGAGGAGAAGCTGAGTATTGGAGAGGACCCTGTTTCTGCTTTTGTTCTGTCTGGTGAAGCTGC
AACCGCAGGTGCTGAATCAACCATTCAGATGCAAGCACAGGCCGGGAGATCGAGCTATGTGTCAGCTCAG
ATTCTTGCATCAATTCCTGATCCGGGGGCAATGGCTGCAGCGGCATGGTACAGCGCTGCTGCAAGAGCCG
TGAAGGAGCAGAGCCAGGGGTTGGGAATTGTGATCCGATAGACTAGGCT