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Detail for ZS11_A01G00090.t1
Genome:
ZS11: ZS11_A01G00090.t1
ZS11_v0: BnaC07T0546400ZS
WE: WE_scaffold0003G03000.t1
WE_v0: Bnascaffold286T0001500WE
Darmor: A01p00150.1_BnaDAR
BH: BnaC07T578700BH
Quinta: BnaC07T0520400QU
ZS2: BnaC07T521200ZS2
SW: BnaC07T574800SW
Express61: A01p000190.1_BnaEXP
Xiaoyun: BnaA01G0002000XY
P202: BnaC07G094970P202.1
BL: BnaC07T578700BH
TA: BnaA06T414900TA
Da-Ae: rna-gnl|WGS:JAGKQM|BnaA01g16090D
RB: BnaC07T581000RB
No2127: BnaC07T0521100NO
P130: BnaC07G063780P130.1
Length: 398
KOG ID: KOG1557
KOG E-value: Not available
KOG Score: 619.0
KOG Annotation: Carbohydrate transport and metabolism
Biological Process: GO:0006096(glycolytic process)
Cellular Component: -
Molecular Function: GO:0004332(fructose-bisphosphate aldolase activity)
KEGG Ortholog: K01623 ALDO; fructose-bisphosphate aldolase, class I [EC:4.1.2.13]
NR Protein: XP_009142782.1
NR E-value: 2.300000e-213
NR Score: 746.5
NR Annotation: XP_009142782.1 PREDICTED: fructose-bisphosphate aldolase 2, chloroplastic [Brassica rapa]
SwissProt Protein: Q944G9|ALFP2_ARATH
SwissProt E-value: Not available
SwissProt Score: 769.0
SwissProt Annotation: Fructose-bisphosphate aldolase 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=FBA2 PE=1 SV=2
CDS Sequence (1214 bp) 
ATGGCATCAACCTCACTCCTCAAGGCATCTCCTGTGTTGGACAAATCGGAGTGGGTCAAGGGACAAAGCG
TTCTCTTCCGTCAGCCATCTTCCGCCGCCGTCGTCATACGTAACCGCGCCACCTCCCTTACCGTCCGTGC
CGCTTCTTCCTACGCCGATGAGCTTGTTAAGACAGCGAAAACAATTGCGTCTCCTGGACGAGGAATCTTG
GCGATGGACGAGTCGAACGCGACTTGCGGGAAGCGTTTGGACTCGATAGGGCTAGAGAACACTGAGGCAA
ACCGACAAGCATACAGGACATTGCTGGTCTCTGCACCAGGACTCGGACAGTACATCTCCGGTGCAATCCT
GTTCGAGGAGACTCTGTATCAGTCGACCACCGAAGGCAAGAAAATGGTCGACGTCCTCGTCGAGCAGAAC
ATCGTCCCCGGTATCAAAGTCGACAAGGGTTTGGTCCCACTTGTTGGCTCTAACAATGAGTCATGGTGCC
AAGGGCTCGATGGTCTATCCTCCCGAACTGCTGCTTACTATCAACAGGGTGCTCGTTTCGCCAAATGGCG
TACTGTCGTGAGCATTCCCAATGGTCCGTCTGCTCTAGCTGTTAAAGAAGCTGCTTGGGGCCTTGCCCGA
TACGCTGCCATTTCACAAGACAGTGGATTGGTTCCAATAGTGGAGCCAGAGATATTGTTGGACGGAGAAC
ACGACATTGACAGGACTTACGAAGTAGCAGAGAAGGTTTGGGCTGAGGTTTTCTTTTACCTTGCTCAGAA
CAATGTCATGTTTGAAGGTATTCTCCTGAAGCCGAGCATGGTGACTCCCGGAGCTGAGTCTAAAGACAGA
GCTACTCCTGAACAAGTTGCCTCCTACACCCTTAAACTCCTCCGCAACAGAATCCCTCCGGCCGTCCCCG
GAATCATGTTCTTGTCGGGAGGACAGTCTGAATTGGAGGCAACGTTGAACCTGAACGCGATGAACCAAGC
ACCAAACCCGTGGCATGTATCCTTCTCCTACGCACGTGCCCTGCAGAACACATGTTTGAAAACATGGGGA
GGCAGAGCTGAGAACGTGAACGCAGCTCAGACCACTCTATTGGCTAGAGCCAAGGCCAATTCGCTGGCTC
AGCTTGGAAAATACACAGGAGAAGGAAGTAGGCTCGCTGAATATAAGCCCAACGTAGGGACGTCGACGTG
GCAGTAA
Upstream Sequence 
ATGGCATCAACCTCACTCCTCAAGGCATCTCCTGTGTTGGACAAATCGGAGTGGGTCAAGGGACAAAGCG
TTCTCTTCCGTCAGCCATCTTCCGCCGCCGTCGTCATACGTAACCGCGCCACCTCCCTTACCGTCCGTGC
CGCTTCTTCCTACGCCGATGAGCTTGTTAAGACAGCGAAAACAATTGCGTCTCCTGGACGAGGAATCTTG
GCGATGGACGAGTCGAACGCGACTTGCGGGAAGCGTTTGGACTCGATAGGGCTAGAGAACACTGAGGCAA
ACCGACAAGCATACAGGACATTGCTGGTCTCTGCACCAGGACTCGGACAGTACATCTCCGGTGCAATCCT
GTTCGAGGAGACTCTGTATCAGTCGACCACCGAAGGCAAGAAAATGGTCGACGTCCTCGTCGAGCAGAAC
ATCGTCCCCGGTATCAAAGTCGACAAGGGTTTGGTCCCACTTGTTGGCTCTAACAATGAGTCATGGTGCC
AAGGGCTCGATGGTCTATCCTCCCGAACTGCTGCTTACTATCAACAGGGTGCTCGTTTCGCCAAATGGCG
TACTGTCGTGAGCATTCCCAATGGTCCGTCTGCTCTAGCTGTTAAAGAAGCTGCTTGGGGCCTTGCCCGA
TACGCTGCCATTTCACAAGACAGTGGATTGGTTCCAATAGTGGAGCCAGAGATATTGTTGGACGGAGAAC
ACGACATTGACAGGACTTACGAAGTAGCAGAGAAGGTTTGGGCTGAGGTTTTCTTTTACCTTGCTCAGAA
CAATGTCATGTTTGAAGGTATTCTCCTGAAGCCGAGCATGGTGACTCCCGGAGCTGAGTCTAAAGACAGA
GCTACTCCTGAACAAGTTGCCTCCTACACCCTTAAACTCCTCCGCAACAGAATCCCTCCGGCCGTCCCCG
GAATCATGTTCTTGTCGGGAGGACAGTCTGAATTGGAGGCAACGTTGAACCTGAACGCGATGAACCAAGC
ACCAAACCCGTGGCATGTATCCTTCTCCTACGCACGTGCCCTGCAGAACACATGTTTGAAAACATGGGGA
GGCAGAGCTGAGAACGTGAACGCAGCTCAGACCACTCTATTGGCTAGAGCCAAGGCCAATTCGCTGGCTC
AGCTTGGAAAATACACAGGAGAAGGAAGTAGGCTCGCTGAATATAAGCCCAACGTAGGGACGTCGACGTG
GCAGTAA
Downstream Sequence 
GGTTAGTACTCCCACCCACACATATCCTCTTCTTTGTCACGTGTCTTATCTGCATGATAC
ATAAAGGTTTTTTACTTCTTTTATTCTTTTGATCTTTTGAATTGGAATGCCTAACAAAAT
TAATTATGTTCTATTTTCAATTCTTTTTTTATTAATTTGTAGTCTTAACTTTTCTTTCTT
TTCACAACCATTTTTTCACTAGTTGGGACTTTGGGTTGATTTTAGTTCATGTTTGTTAAT
ATAAGAGCTCATATTCATAGATAAAAGTTAGTATAAAATAACTCGAATTACGATAATAAT
GATGTTTTATGGTGTTGGGAGCAGAAAACAATTGCGTCTCCTGGACGAGGAATCTTGGCG
ATGGACGAGTCGAACGCGACTTGCGGGAAGCGTTTGGACTCGATAGGGCTAGAGAACACT
GAGGCAAACCGACAAGCATACAGGACATTGCTGGTCTCTGCACCAGGACTCGGACAGTAC
ATCTCCGGTGCAATCCTGTTCGAGGAGACTCTGTATCAGTCGACCACCGAAGGCAAGAAA
ATGGTCGACGTCCTCGTCGAGCAGAACATCGTCCCCGGTATCAAAGTCGACAAGGTATGA
CTAATTAAAGTGCATGCTTATTTTTTATATATGTACCTAACGTGGTTCTTGATTAGAGGA
ATCTAAGCGAGTTGTATCTATTTATGGAAGTAGGGTTTGGTCCCACTTGTTGGCTCTAAC
AATGAGTCATGGTGCCAAGGGCTCGATGGTCTATCCTCCCGAACTGCTGCTTACTATCAA
CAGGGTGCTCGTTTCGCCAAATGGTATAGTACCCTCTGTTCCTATCCAAAATGTTTCCTC
TCGGCTGAGTTTTTTCTTTGACTTTTGTCCTCTTGATGGTTTAATTAGGCGTACTGTCGT
GAGCATTCCCAATGGTCCGTCTGCTCTAGCTGTTAAAGAAGCTGCTTGGGGCCTTGCCCG
ATACGCTGCCATTTCACAAGTAAACACACATTGCTTCTCTTTCAAGCAACAGGTCAACTC
GGATTCTTTTAAAGCTATTATTTCACACGCAGATTGTGTTTTGTGTTTAATTTGTCTATT
CAGGACAGTGGATTGGTTCCAATAGTGGAGCCAGAGATATTGTTGGACGGAGAACACGAC
ATTGACAGGACTTACGAAGTAGCAGAGAAGGTTTGGGCTGAGGTTTTCTTTTACCTTGCT
CAGAACAATGTCATGTTTGAAGGTGTTACTAGCTAAGTATATGGAGCTGCTTATCTTATA
TTATCAAGTTGTGTTAAAATATCAACATCTTGTACAAAGGTATTCTCCTGAAGCCGAGCA
TGGTGACTCCCGGAGCTGAGTCTAAAGACAGAGCTACTCCTGAACAAGTTGCCTCCTACA
CCCTTAAACTCCTCCGCAACAGAATCCCTCCGGCCGTCCCCGGAATCATGGCAAGCTCTA
TTCCTCTCTCTTCACTTTACATAGTGTAAAAATATCTATAAAAATCAAAATATTGCTTGA
TTTGATGGAAATTGCTTATGATGAGAACCCTAGATCTTGGTTGCTTGAGGTGGTGGAAGT
AAAGTTTTTTTTGTTTTGTTTTGTTTTGGTTTTGCAGTTCTTGTCGGGAGGACAGTCTGA
ATTGGAGGCAACGTTGAACCTGAACGCGATGAACCAAGCACCAAACCCGTGGCATGTATC
CTTCTCCTACGCACGTGCCCTGCAGAACACATGTTTGAAAACATGGGGAGGCAGAGCTGA
GAACGTGAACGCAGCTCAGACCACTCTATTGGCTAGAGCCAAGGCCAATTCGCTGGCTCA
GCTTGGAAAATACACAGGAGAAGGTGAGTCTGAAGAGGCTAGGGAGGGTATGTTCGTCAA
AGGCTACACCTATTGAAGAGAATAATTAATGATGCTGTGAAATTGGCTCTCAGTCGGCGA
CAGCAGCACGGCTTTCTACCATCGTATGGTGGCAACCAGAAAGTCCGTGAACCACATTCA
TTATTTGACAGCTGCTGACG
Pro Sequence 
MASTSLLKASPVLDKSEWVKGQSVLFRQPSSAAVVIRNRATSLTVRAASS
YADELVKTAKTIASPGRGILAMDESNATCGKRLDSIGLENTEANRQAYRT
LLVSAPGLGQYISGAILFEETLYQSTTEGKKMVDVLVEQNIVPGIKVDKG
LVPLVGSNNESWCQGLDGLSSRTAAYYQQGARFAKWRTVVSIPNGPSALA
VKEAAWGLARYAAISQDSGLVPIVEPEILLDGEHDIDRTYEVAEKVWAEV
FFYLAQNNVMFEGILLKPSMVTPGAESKDRATPEQVASYTLKLLRNRIPP
AVPGIMFLSGGQSELEATLNLNAMNQAPNPWHVSFSYARALQNTCLKTWG
GRAENVNAAQTTLLARAKANSLAQLGKYTGEGSRLAEYKPNVGTSTWQ
mRNA Sequence 
ATGGCATCAACCTCACTCCTCAAGGCATCTCCTGTGTTGGACAAATCGGAGTGGGTCAAGGGACAAAGCG
TTCTCTTCCGTCAGCCATCTTCCGCCGCCGTCGTCATACGTAACCGCGCCACCTCCCTTACCGTCCGTGC
CGCTTCTTCCTACGCCGATGAGCTTGTTAAGACAGCGAAAACAATTGCGTCTCCTGGACGAGGAATCTTG
GCGATGGACGAGTCGAACGCGACTTGCGGGAAGCGTTTGGACTCGATAGGGCTAGAGAACACTGAGGCAA
ACCGACAAGCATACAGGACATTGCTGGTCTCTGCACCAGGACTCGGACAGTACATCTCCGGTGCAATCCT
GTTCGAGGAGACTCTGTATCAGTCGACCACCGAAGGCAAGAAAATGGTCGACGTCCTCGTCGAGCAGAAC
ATCGTCCCCGGTATCAAAGTCGACAAGGGTTTGGTCCCACTTGTTGGCTCTAACAATGAGTCATGGTGCC
AAGGGCTCGATGGTCTATCCTCCCGAACTGCTGCTTACTATCAACAGGGTGCTCGTTTCGCCAAATGGCG
TACTGTCGTGAGCATTCCCAATGGTCCGTCTGCTCTAGCTGTTAAAGAAGCTGCTTGGGGCCTTGCCCGA
TACGCTGCCATTTCACAAGACAGTGGATTGGTTCCAATAGTGGAGCCAGAGATATTGTTGGACGGAGAAC
ACGACATTGACAGGACTTACGAAGTAGCAGAGAAGGTTTGGGCTGAGGTTTTCTTTTACCTTGCTCAGAA
CAATGTCATGTTTGAAGGTATTCTCCTGAAGCCGAGCATGGTGACTCCCGGAGCTGAGTCTAAAGACAGA
GCTACTCCTGAACAAGTTGCCTCCTACACCCTTAAACTCCTCCGCAACAGAATCCCTCCGGCCGTCCCCG
GAATCATGTTCTTGTCGGGAGGACAGTCTGAATTGGAGGCAACGTTGAACCTGAACGCGATGAACCAAGC
ACCAAACCCGTGGCATGTATCCTTCTCCTACGCACGTGCCCTGCAGAACACATGTTTGAAAACATGGGGA
GGCAGAGCTGAGAACGTGAACGCAGCTCAGACCACTCTATTGGCTAGAGCCAAGGCCAATTCGCTGGCTC
AGCTTGGAAAATACACAGGAGAAGGAAGTAGGCTCGCTGAATATAAGCCCAACGTAGGGACGTCGACGTG
GCAGTAA

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