Cucsat.G10518.T30 (mRNA) Cucumber (B10) v3
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.CCTTTATATTATGAATTACAAAGCAGAGCAGAGAACTCAAAATCAGAGCTAAGGTTAGCTTTCTCTACTCATTTCTCATATCCTCTCTATCTTTTCACTCTCTTCTTCATTCGTAATTGGATCAAATTATTTTGATTCTGCTATCTCTCTTAATCAGCATCTTTCAGTCAGATCGAAAGAAACCTTCAATCCTCTCTTGATTTTTTTTCTTTTTTTTGTTGTATTATGCAGTAAGGAGAGGAAGAAGATTGGAAGAGGAAGGAGAATATGAAGAGTTCGGTATCGGAACAGAGTTTTTTGTATGAGAGTGAAGATGAAGAAGAGGATCAGGAGAATGTAGTAGTGAACAAAGATGAAGAAGATGGAAATGATTCAGATGCTTCCGATGATTCGACTGAAAATCAGAGACGACGAAACAAGCCTGATTCGTACACTACTACTTGGCCACAAAGTTACAGGTATTTTCAATCTCTTCTCGTCTCAATAAAATATATATTCTGAAAATTGGAGATGGAGCAGACCTGATCTGTTGAAGACTCCATTGAATCCGTAGAAATTATTCTCAGTCGTTCATTGGTAATCTCTTCAATTCGCTAGCTGTTCTTCAACTGATATTGGATTTCAATTCATTTCACGCTTTTTGTACACATCATCTATTTTGTTTGCTTTGTTTTCGTCACAAAAAGTTATACCGACAAACGGAATTGGGAGATCATTATTCGATTTTTTGTTTCTTCTTGTTTATCTTTTGGATTTCATTTTTTTGCAAAAAGTTCAAAATTAAAGAAATTATCGTAAACTGTGAAAAATTAAATCATGAAGTTCGAAAACACCCTTTAGAAGAAAAGATTTTGCCGATTCTTAAACTTTTAGTTAATTTAGGAATTTTTTTTGCCCGATATTACACTTTGCAATTTGCATAACTAAATAATTTATTGTAGCAATTTCTTTTTTATTGATTTGTACTATTAATATTTTCACTTGTATCATAATTTTGATGCACAAAGAAGTTTGGACATAAATTAATATCAATTTATATGCTACTTTTGGTAATGCTGAATTTATGGTGTATTAATTATATGTTTTCAGACAGTCGATGGATATGCTTGGCAGTGTGCCATCACCTAACATTGGGATATTAGGAACATCATCTTTAACAAGATGGGGAAGCTCATTTCTATCCTCCTCCTTAACAAGAAGGCATACTCCAGACACGTTAACTTCAACCTCAAAACCGTTGCTCCCCACAGTGACTGACGAGAATAAAGACGAGCAGCAACCACAGCCACCACTATCGCAACGACTAAGCTCTCACTCTCTCATTCTCCCTTTCACTTCAAGGCGACCATCAGGCATAAAAAAGGATGACAAACCTTCCAAAGTTACACACGAGTTTCCCACTGCTCGTCGAAGCTCATTTAGTCAAGCCATGCTTAATGGTAAGTCCTACTTAAATGAAAACATTATAATATTAAATTATGTCTGTATATTCATTGCTTATTGTTATTATTTTTTACCTCTGTCTTGAAAGCATCTAAGGTGTTAAATAAGAGTAAAACTTTAACAAATCTACCTATGGATCTAGCCTAGGCAAGAGAAAGTTTATATAAAAAAATCACTAATACAAAAAAAATCAAAATATTTTTTAAAAATTAAAATTTTGTAAAAAAAATATAATTGAATAATTTAGTTAAAAAAAATTGCTTTTTAGGATGTAGATGAGTATTTTAAAGCAAAATAAATATTAGGTATTAAGAATTTTCCATGATGGAACAAAATTATGATTTGGACATTTAAATAAGATAAAAGAAATAGATGTAGTGTACATTACTTTTGCATTTTTTTTGGGGCCGGGGTTTGAAGTCATTGATTTCAAAGGGTTCTTTTTCATACTCATTATTTCTAGAGAACGCTAGCGTAATCGGAGACGATTTTTTCCAAACAAATATTGACCTTCGATTTTTCATGAAAACTATCTCACTGTTAAAAGGAAAGGAAACATTATTATCTACATTTTATTCAAGAAAAGTGTATACGTGTTGTTTACAAAAAAGATAACAATAAAGTTACCCTCTATAACTGAAGTAAAGGGACATGGGAATTGTTAATTGTTTGATTGGGTATGTCAGCATTTGATAGGAACAGAGGGAGAGGGCCCAACCACGTGATAGTTTTTTGCTTTTGCATGCCCATTTCCTCCTTTTTTTGACTCTAATTCTGCAGCTGGTTTTACACGATTGGGAGATGTTTTTTCATTTGTCCTTTCCTACATAAAATACCCCTGCCTTATCCCTTTATTCCCTTCAAATTAATTGATCTTTTGCCCAACTAGCTTACACTCTGACTGTACCAAAAATATCATTGGCGCGGTGGCGATTCTTTTAAGCTTGTCCTATAGCAACAACTAGACACGTGACTTAATACAGCAAAACACTCGTTACTGACAAGAAACCCAACCCCACACATCAAAATTGTGTGGGGTTATTACTTAATAGAGAATTACATTGAAATTGTGCACATGAACTGAAATTAGGCCCCCATTCACCTTTACCTGCAAAGGCATATTGAAATTGAAGTGGAAATTAAATATACTTTGTTAATTGGATTCAGTCTGCTAATAACATTGCCTGACATAACCCACACACGTCAAACATATTCAAATATTTTTCATGACGTAGGTGGAGAGACTATGTTGCATCTGATTATTGTCCATGTAATAAGTCTGTATAGTTGCTCAAATTATGATGGAAAAAAATATTTGTTGGCAATGTCATAGGAGTCTTTTTTTCCTATTGGTGACCAGGAATGGAAAGGGAAGAATTGGATCTAGAGCTAGTTGGGTTGGAGTAATGAATCTTGACTGGGACAAAATTTTCTCAATTCCAATCTGAGTAAGAGTGCCACAGCCCTTCGTATATGATAAAAAATGATCCATGCTCCTGGTTGGCTGTTGCTTTAAGGATTTCTCCACTTTAATTGGATATATAAATACGCTGGCCTCAACCAAAAGTTTTTGCATCCTACCACTAAAAATTTCATTTCGTATACTGTGGACCTTGAGTACACAACTCCCATGATTTCACAAACTTATCGAAGTTCACTATTCCACCCTTGCTTGAAAACCCTTTTACTAATTAAATAAATTGCAAGACTGAATATGGTAGTGATGATGATACAGGTGGAAATGTGCTATGTGGGGTTGGAATACTAACGACGCCTTATGCAGCGAAAGTGGGAGGATGGCTTGGACTTTCCATTTTGTTACTATTTGCTGTGATCTGTTACTACACTGGACTCCTCCTCCGTGACTGCATGGAAAGTAGACCAGAGCTCGATACTTACCCAGACATTGGCCAGGCAGCCTTTGGCACCACGGGTCGAATCGTAATCTCGGTATGCAACGTACAAATTTTAAAGTTTAAGGAATAAATTTAAGTAATGGAAAATTTAAAAGCCTATTAAACCAACCTGGAAAGGTAAAAAGGACCATCGTAAATGAACCGAAAGTGTATAAACTAATCGTGATTATGTTTTGTAAAGTGAGATTTGAATATAGGCGGTTAATTAAGTTGTTTTTGTTTTGTGTTGTGGCTGTGGATGCAGATAATATTGTACCTGGAATTATACGTAAGTACAGCTGTCTCCTTTGAGTGAGTACGTGTTTCTTGTTTTGTTTTGGTTTGAAGGGTTTTGAAATTTTTGGTTAAATTACCATTTGGTCTGGATTGGTTTGAATTTACTTTATACTTTTTTATTTAGTTTCTCAAATTTTAAAAGTTTTGAATTTATCGTGATTAAATTTCACACAGGAGATTTGCTGTGTATTTATCTATATCCTCATATCTCTACTTGGGGAGGGGATACAAATTTTTTACTTCATGAAACAGGCACATCTTTTCATAGGTTGAGTTAGGTTACATAATAACCTTTTTTAGTACATAATTATTTTATTTATAGGGTTAATTTCATCACCCTTATTATGATAATGTTCTTATAATTAGAGAGTTACAAGAATTTGATCTTCTTTCAGGCTTCTTGTATTGAGTACATAATCTTGGAGAGTGATAACCTGTCTTCTCTATTTCCAAATGCGCACTTAAATGTTGGTGGATATGAGTTAAATGCACACCTTTTATTTGCTTTGATGACTACTATTGCTGTTCTTCCTACTGTTTATCTCCGGGACCTATCCGTTCTTAGCTACATCTCCGGTAAGTGGTAAACAAGCTATTACTCTAGAGTACCAGAATTACAATATCCATATCCCCTGTTTTTCTTTCCTTCTTGATGCTGCAGCACTGAATCACTAGTATCTGCTTCCATTTTATGTAATTTTACACTTGACTAAAACTCTTCTAATCTTTCAAATTTACGTTTTCAAACTACTTTAGAAATTCTTGCAAATTTTAGAAAACAAATGGGACCTAAAACCGTATGGATGAGACTTAAAAAGAATAGAAATGATAACCCAAACATCATCATACCTTTTTTTTAGGTAGTTCATACTCATACTAAGCTAGGAAGCACAAGATAAGATATGACAAGATACGGACACAACTACATGCCCTTTTAAAAAATTTAGGGCACCACACGACAAGAACACACTTATTAAAATATACATGTTCAAAATTATATCATTTTTATATCAGAAAAAACGTAATATACTTAATAAATTAGTTTGACATGTATCGAACAACTCACTAATCAAACTAAAGTGTCTGTACTTCATAGGATTCAAATCTCAAATTTTATCAAATGTTCTGATGAATTTCTAGTCTAGTTGTAGTTTTGAAACCTTTATTCAAAGGGTTAAAGATAATAGGGATATTTTTTAAACAAGTGTCGAAGTCTAGGGATGCTTTTTATAAAATATCCAAGTTTTTTAGTTTAGATCAATTGATATACATGTCTAATAAAAAAGATAATAAGAGATCCACACTGAACGGCGTATAGGGAAATATTACTGTTCTAAAACTGTTATCTATAATGTCTTGTTTACTCGTTATGGTGATGTTGCCCTACTGTAATATTCAAGAATTTACAGAGATGGTTATAAACATACATGGACCATTCATTTTGCTGTTTTTTTTCAGCTGGTGGAGTTATTGCATCAATATTGGTAGTACTTTGCTTGTTCTGGATTGGATTGGTTGATGGGGTCGGTTTCCAAGGGAAGGAGACAACAACTTTACTGAATCCTGCAACCCTTCCTATTGCTATTGGACTTTATGGCTATTGCTATTCTGGACACGCTGTTTTCCCCAATATTTATAGTTCAATGTCAAAGCCAAGTCAATTTCCTTCAGTCCTCTTAACATGGTAATTTAAAATGCTGAACTATTAGTACATATATATGTATGTATGTATGTGTATGGCCTTATTCAGTTTGACCTTCTTATCCAATATATTAGCTTCATAGCATCCTCTTTTTGAAAAATTATTGCAGTCGCACAAAATCTCCTCTCCAATTCTAAATACAGTAACACTTTCTCAAAAATTGTATACTTTTTTCACACTCTTAGGTTAGAAAATACAAAAAAGAAGCTTAACTAGAGTTAGTGCATGTAACTTCTAAGATTATAGCGCTCGAAACAAATGATATATAAGATTCTTTTGTGTGCTTTTAAATCATTTTGGTGTTCGTCTGCTACTCTTTTAATGTTCTACAAAAACTCTGGATAGACTTGTAGATAACTATGCATGGCTAATTAAGATCCTTCCTTTACTAAATTTGATGAATGAATAAGAAGTTTTAAACCCTGCCGTGAATAAAACCGTTTCACATTATTATGCAGTTTCGTTGTTTGTACTTTGATGTATGCTGGTGTTGCTTTTGTGGGATATTCAATGTTTGGAGAATCAACGATGTCACAGTTCACTCTCAACTTGCCAACTAACTTGGTTGCATCAAAGATCGCCGTCTGGACTACGGTATGGTCACTTTGTAACTTCCCTCTTCAATTATGGCCTTCATGAATTAGAAGGGAAGGATAATTTATAAGTGAAAAATATATATATCTGCTTTAAATTAGAGATGTTGATCAGACTGGGATGGAGAATGCAATTTAACAGTTTAATCTATGGAGATCTTTTCTTCTATCTCCCTCCCCATTCCCCACTTCAAGGGGATTCTCCACCCCATTAGGAGTGAGTCCTTGCATGACTCGTCCCATTAGGAGAATGGACATCCCTACTTAAATAGTATATACTTTTTTCTTCTCGCCTATATTCTGTAGCAGTGGCTTATACTTCGTCTCTGATTTTGTTCTTTGCAGGTGGTTAACCCATTTACCAAATATCCTTTTATCTTTCTTCGCAGTAGAAACAAATGTGTGGTTCTAGATGATTCAATTGAATATATTACAACATCAGTACAATTTGATGTTATATATTAAATGGTGTTGAAAATGCATCCAAAGTACTTAACGTGAAGATCATGAGTGCATAAGCGAGACATTAGCAAATCTTTTGATTGAAACAATATTGTATCATTATTGAGCTATTAACAAATTGGACTAATGTAGATAAATTTTGAAAAAAAATGAAACAAAGAGATCTTTACACTTGTCTGGAGACCAAAAGTAGAGAGGTAGGTCTGAAATTTGTATATAATCATTGTGTTATATGAACAGCTGATTTTTTCTTAATGAAATCTCTACGTATGCATTGACATTGACCCCAATTGCACTGAGTCTAGAGGAGCTGATACCATCAAATCATCCTCAGTTTCTTATATTCTCAATCCTTATAAGAACTGCTCTTGTCGTCTCTACCTTGCTTGTGGGTCTTGCCATCCCTTTCTTCGGTAAGTACGTACTAAAAAAAAGTTATTTCAGTGAAAAGTATTTAACTTTTTACTGATATATCTATGTTGATATGCCATGTTAAAGATTGTTTATTATCTGTTGCAGGTTTGATTTTGTCGCTTATTGGGTCACTTCTCACCATGTTCATTGTAAGTTTTGTGCAGAGTTTGTGAGTTCGTAAATAAATTTTTGTTGTAAATTAGTTTATAACAGTATTTACAACTTTTCATTTGCAGAGTTTAATACTTCCTTGTGCTTGTTTCCTGAGCATCCTCAAAGGGAAAGTAACACGTTTGCAGGTAATGCCATTCTTTTGGTTTTGTATTATTTATATAATATAGATATACTTTGTGTGAAAAAATTAAATAACTAAACTTGAATTAAATAGCGTTATTGGTGTTTTATTCATGGACAAAGTACCGAACTTAGATTATAGATTTGATGATGTTTATGCTGTACTCTTTGATTTTATGCTTTAGCATCAAGTTAGTCCGTGTTGATGTATGTTCTTAGTGTCAAACTCACATCTCATATCCAAAACATATTCACATGAAAAACCCTTCATTCCTATGCTTTAGTTTTGGCCCACTCATGTCTATCTTCTACGAACAAATATTCGATTCACAAACTTAAAAGAAAGTGAGTCAAGTTAATCATACTCGTAACATTACATTTGATATCAATTTATACATAACTTAATTAGTTGAGACGGATGTCTGTAAGATGTATAGAACTCGAAAAAACTAGAAAGAGCGTGAATTTTGTAGCCAAGGTATTTATGGTTTGTTGTTATTGTGCAGGGAATAGTGTGTGTGATAATAATGGTAATAGGGCTGATAGCAGCAGCCTTTGGAACTTACTCATCCGTGTTAAAAATCGTCCAGAATTTGAGTACCTGACCAATTTGGCAATTTTATTCCACCAAATAAACCCTGCTTTGTTTTTTATTTAATTGTTCTTCCCTTTCCCTTTTCCACTTCTAATTTTGATCTTTAATTTTTATTTCACCCATTTTTTATAGTTACTACAATTTCTAATATAGAGTTTTGTGTGTTTGTTTTTCTTTCTTTTGATGTTTTTCAATATACTATTTTTATAATAAAAGTTTACTACCAATGGAATTTTGCTACCGCTTTTATT ATGAAGAGTTCGGTATCGGAACAGAGTTTTTTGTATGAGAGTGAAGATGAAGAAGAGGATCAGGAGAATGTAGTAGTGAACAAAGATGAAGAAGATGGAAATGATTCAGATGCTTCCGATGATTCGACTGAAAATCAGAGACGACGAAACAAGCCTGATTCGTACACTACTACTTGGCCACAAAGTTACAGACAGTCGATGGATATGCTTGGCAGTGTGCCATCACCTAACATTGGGATATTAGGAACATCATCTTTAACAAGATGGGGAAGCTCATTTCTATCCTCCTCCTTAACAAGAAGGCATACTCCAGACACGTTAACTTCAACCTCAAAACCGTTGCTCCCCACAGTGACTGACGAGAATAAAGACGAGCAGCAACCACAGCCACCACTATCGCAACGACTAAGCTCTCACTCTCTCATTCTCCCTTTCACTTCAAGGCGACCATCAGGCATAAAAAAGGATGACAAACCTTCCAAAGTTACACACGAGTTTCCCACTGCTCGTCGAAGCTCATTTAGTCAAGCCATGCTTAATGGTGGAAATGTGCTATGTGGGGTTGGAATACTAACGACGCCTTATGCAGCGAAAGTGGGAGGATGGCTTGGACTTTCCATTTTGTTACTATTTGCTGTGATCTGTTACTACACTGGACTCCTCCTCCGTGACTGCATGGAAAGTAGACCAGAGCTCGATACTTACCCAGACATTGGCCAGGCAGCCTTTGGCACCACGGGTCGAATCGTAATCTCGATAATATTGTACCTGGAATTATACGCTTCTTGTATTGAGTACATAATCTTGGAGAGTGATAACCTGTCTTCTCTATTTCCAAATGCGCACTTAAATGTTGGTGGATATGAGTTAAATGCACACCTTTTATTTGCTTTGATGACTACTATTGCTGTTCTTCCTACTGTTTATCTCCGGGACCTATCCGTTCTTAGCTACATCTCCGCTGGTGGAGTTATTGCATCAATATTGGTAGTACTTTGCTTGTTCTGGATTGGATTGGTTGATGGGGTCGGTTTCCAAGGGAAGGAGACAACAACTTTACTGAATCCTGCAACCCTTCCTATTGCTATTGGACTTTATGGCTATTGCTATTCTGGACACGCTGTTTTCCCCAATATTTATAGTTCAATGTCAAAGCCAAGTCAATTTCCTTCAGTCCTCTTAACATGTTTCGTTGTTTGTACTTTGATGTATGCTGGTGTTGCTTTTGTGGGATATTCAATGTTTGGAGAATCAACGATGTCACAGTTCACTCTCAACTTGCCAACTAACTTGGTTGCATCAAAGATCGCCGTCTGGACTACGGTATGGTCACTTTGTAACTTCCCTCTTCAATTATGGCCTTCATGA MKSSVSEQSFLYESEDEEEDQENVVVNKDEEDGNDSDASDDSTENQRRRNKPDSYTTTWPQSYRQSMDMLGSVPSPNIGILGTSSLTRWGSSFLSSSLTRRHTPDTLTSTSKPLLPTVTDENKDEQQPQPPLSQRLSSHSLILPFTSRRPSGIKKDDKPSKVTHEFPTARRSSFSQAMLNGGNVLCGVGILTTPYAAKVGGWLGLSILLLFAVICYYTGLLLRDCMESRPELDTYPDIGQAAFGTTGRIVISIILYLELYASCIEYIILESDNLSSLFPNAHLNVGGYELNAHLLFALMTTIAVLPTVYLRDLSVLSYISAGGVIASILVVLCLFWIGLVDGVGFQGKETTTLLNPATLPIAIGLYGYCYSGHAVFPNIYSSMSKPSQFPSVLLTCFVVCTLMYAGVAFVGYSMFGESTMSQFTLNLPTNLVASKIAVWTTVWSLCNFPLQLWPS Homology
BLAST of Cucsat.G10518.T30 vs. ExPASy Swiss-Prot
Match: F4IUW3 (Amino acid transporter AVT1C OS=Arabidopsis thaliana OX=3702 GN=AVT1C PE=1 SV=1) HSP 1 Score: 547.4 bits (1409), Expect = 1.6e-154 Identity = 290/437 (66.36%), Postives = 357/437 (81.69%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy Swiss-Prot
Match: F4JE35 (Amino acid transporter AVT1B OS=Arabidopsis thaliana OX=3702 GN=AVT1B PE=3 SV=2) HSP 1 Score: 504.6 bits (1298), Expect = 1.2e-141 Identity = 272/442 (61.54%), Postives = 341/442 (77.15%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy Swiss-Prot
Match: Q8GYS4 (Amino acid transporter AVT1D OS=Arabidopsis thaliana OX=3702 GN=AVT1D PE=2 SV=1) HSP 1 Score: 367.5 bits (942), Expect = 2.2e-100 Identity = 212/450 (47.11%), Postives = 286/450 (63.56%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy Swiss-Prot
Match: Q8LPF4 (Amino acid transporter AVT1E OS=Arabidopsis thaliana OX=3702 GN=AVT1E PE=2 SV=1) HSP 1 Score: 345.9 bits (886), Expect = 7.0e-94 Identity = 202/432 (46.76%), Postives = 276/432 (63.89%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy Swiss-Prot
Match: F4IZW8 (Amino acid transporter AVT1F OS=Arabidopsis thaliana OX=3702 GN=AVT1F PE=3 SV=1) HSP 1 Score: 336.3 bits (861), Expect = 5.5e-91 Identity = 205/433 (47.34%), Postives = 272/433 (62.82%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. NCBI nr
Match: XP_011655871.1 (amino acid transporter AVT1C [Cucumis sativus] >KGN52251.1 hypothetical protein Csa_007992 [Cucumis sativus]) HSP 1 Score: 850 bits (2195), Expect = 3.92e-308 Identity = 441/442 (99.77%), Postives = 442/442 (100.00%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. NCBI nr
Match: XP_008446844.1 (PREDICTED: vacuolar amino acid transporter 1-like isoform X3 [Cucumis melo]) HSP 1 Score: 823 bits (2126), Expect = 1.21e-297 Identity = 428/442 (96.83%), Postives = 434/442 (98.19%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. NCBI nr
Match: XP_008446843.1 (PREDICTED: vacuolar amino acid transporter 1-like isoform X1 [Cucumis melo]) HSP 1 Score: 823 bits (2126), Expect = 2.53e-297 Identity = 428/442 (96.83%), Postives = 434/442 (98.19%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. NCBI nr
Match: KAA0034705.1 (vacuolar amino acid transporter 1-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 805 bits (2080), Expect = 1.26e-290 Identity = 420/442 (95.02%), Postives = 430/442 (97.29%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. NCBI nr
Match: XP_016900276.1 (PREDICTED: vacuolar amino acid transporter 1-like isoform X2 [Cucumis melo]) HSP 1 Score: 803 bits (2073), Expect = 2.20e-289 Identity = 421/442 (95.25%), Postives = 426/442 (96.38%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy TrEMBL
Match: A0A0A0KWR5 (Aa_trans domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G622660 PE=3 SV=1) HSP 1 Score: 850 bits (2195), Expect = 1.90e-308 Identity = 441/442 (99.77%), Postives = 442/442 (100.00%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy TrEMBL
Match: A0A1S3BFI8 (vacuolar amino acid transporter 1-like isoform X3 OS=Cucumis melo OX=3656 GN=LOC103489447 PE=3 SV=1) HSP 1 Score: 823 bits (2126), Expect = 5.86e-298 Identity = 428/442 (96.83%), Postives = 434/442 (98.19%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy TrEMBL
Match: A0A1S3BGV1 (vacuolar amino acid transporter 1-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489447 PE=3 SV=1) HSP 1 Score: 823 bits (2126), Expect = 1.23e-297 Identity = 428/442 (96.83%), Postives = 434/442 (98.19%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy TrEMBL
Match: A0A5A7SZR4 (Vacuolar amino acid transporter 1-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold65G007260 PE=3 SV=1) HSP 1 Score: 805 bits (2080), Expect = 6.11e-291 Identity = 420/442 (95.02%), Postives = 430/442 (97.29%), Query Frame = 0
BLAST of Cucsat.G10518.T30 vs. ExPASy TrEMBL
Match: A0A1S4DWA9 (vacuolar amino acid transporter 1-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103489447 PE=3 SV=1) HSP 1 Score: 803 bits (2073), Expect = 1.07e-289 Identity = 421/442 (95.25%), Postives = 426/442 (96.38%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (B10) v3
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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