Cucsat.G10572 (gene) Cucumber (B10) v3
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.AGAAAAAGAAGCGTAGTGAATATGTGTGAAAAGACATGAAAGAGACATAAAAGAGAGAGAACAGACCATGAGAGGAAAAGGGTATGAGAATATTTATTTAACAATGGATCTCCTTCTTTCCCTCAATGAATTCCTCCCTAACAAGCCACACTTCAACTCTTGAACATACAGATTACATACAAAAATTAGGGCTACACTATCTACAGTTCAATCTGTTCATCTCCCAGATCTATACCTCCAGCCCTTGCTCCAGTAGCATCGCATTTAGGTACTTGATCTGTTCATTCTATTCGTTTCTTTAACCTCATTTCTTGAATTTCACTTTGATTCCTCAGAAAAAAAAAGCGAAGAAATATCCTCTGTTATTTGATAAATAGTCTGCTTTGATACTAACTTTATGGTGATCGAAAGTTTTTGGTTAACAATTCCTTGTCTGTTATGTTCAATCGGATACTGTTGGATAATTGAATATTAAATTAAACCAATTATTCGACATGTTTGAAGTAGCTTCGTGTCGCAGGCATGTCGGCGACAGAAACAGAACACAACACGTTGTGAAATAGAATGCAAGAGCAGCTTTTATCCGTCTAAGCAATTCAGTTACTTTAATTGTATTGTATTCAACTTTGTATCCTGGATTGAATTGTTCTCTTTATACATAGTTTTTCTTTAGATAACGTCAATGCTATCGAGTACAATGGGGGTAGCCGTAGAAGTAGAATCGTGTTACCATTATTGAAGTGAATTCATGTTTGTGATGATGCTAGGTACCTGTTGTTTCTGTAGCTGAGGAATACCATGTCGAACAAGTTAGGGCCAACGAAAGAAAGGAACTGTAGAACTTATGAAATGTTAACTTCCCAACTGACTTCGTACTAGGGATTGGGGACTGCCCAGTATGAGTAACAATAACTCAAATGTTACGCCGGCAGAAAAAATTAAATGCCGAGCCAATAAAGCATTTGCGGGTAACACACATGCCACTTTTATTCATGTTATATATTATTTCATTTGTTTTGTTTTGTTTTTTACTTTTCATTGACAAAGAGAATCAGTGATTCAGTGATCGATGATTTTAACTCTCAGAATTACCTACACCAACTGACTTTTTTTAGTTAGGTTGTTATCGAGAGACATTTTTTACTACAACTATACTGATATGTTTCAATTGATGGTTGTATTTTATTTTATTCTATAACATGGACTTTCGTTCTTCAATGATATAAATGAAAAAGAAACTGTTCTTGGGCTGGACAGAGCAGTTTATTGTCTTTTTAATGATATAACTGACAACAATCCACGCACGCAGTGGATTTTATCTTTCACTCAATTAAGACTATTTCATCAATAGTTACATGTCTGGTGATGTTATTGCTATATGCCTTCTGTCTGTGAGCTGTTCTAATCTTTGTTTTAAATTCCAGCTCACAAATATGCTCAAGCTATTGATTTATATACACAAGCTATTGAACTCAACAATCAGAATGCTATATATTGGGCAAATCGAGCATTTGCACACATTAAGCTAGAGGAGTATGGTAGCGCACTAGAGGATGCATCAAAAGCTATTGAAGTCAATCCTAGATATTCCAAGGCACACTTTCAAAATTAAGCTTTGGTTGCTATTTATGGCTTTTCTTCTAATAAGTTATTATTTATGTGTATTTGAATATATATTAGTATATTGTCATACCAGGGTTATTACAGGCGTGGTGCTGCTTATCTTGCCATGGGGAAGTTTAAAGAAGCACTTAAAGATTTTCAGCAGGTGCTGTTAATTTTTTCTTTTTGACAATATGTGGGATAGAGGAATCAAATCTTTAACTTCATACGTATACTATGCTAGTTGAGTTATGGTCATTTTAGCCGGATCCACTTACATATTAGAGCAGGCTATTATTTCTTTTATGTTTTCCTTCCCATAAGGAAATCAAAGTTGGTTTTGTAAAGTCTATTTTGAATGTGAATGCTACGTTACATGAACAATAACCTTTTGTTTTGGGTTAGTTATACAAACTACCTAGTTGTGAGGACATTGTAAAGTGGGGTAGTCAGAATTGTCATTATGGGAAGCATATTAGAAATTTAATTAGCCAAGGATTTTTCTCTTAGGATTTGATCATGAGAGAACTAAGTGAGTGGAAGGGAAGGTAGGCAATAATCTTTTTTTTTTTTTTTAATTTTAAAAACAGAGACAAAAACTTCTTTATTAATATGAACTCAAAGTACAAAAGATTTACTCAAAGAGAGTAATAAAGAAATTCTAATCAAGAGAGTCCTGGAGGGATCGGGAGGCGTATCCGGACAAATCAACTAGGTTGACACCTCCATAGCGCCAATAATCAATAGCAATATTTTAGTTGCTTTAGGATTGAAAATCAAGATAGTGGCTTCAAGTACCTCAAACGACTAGGAATTTCTTGTATTTCTTTATAATTTAGGGCTATTTTCAAATATAGAATAATGAACCAAAATATTTACAAAATATAGCAAAAATATCACTGTCTATCTATAATGGACCGCGATAGACTACTATCTGTGTCTATCTATTCTATCATTCATGATAGAGACAGATAATAGTCTATCTTCTATTGTGTTATATCATAGATAGATTGTGATATTTACTATATTTATAAATATTTTTAGAACTTTGTCATTTAATTTCTTTACAATTTATCCTTCAATATCATTTAATTTAGTTGGTTTCTATCACTAATTTGCATAACTGGTTATTCCTTCACTGTTAGATCACAGCACTTCATACACGATAATTTTATAATTATTTAATTAATTAATTACTTATTTTTTTAAACTACAATACTCTCTGCTCTTGTTCATGTATTGGTAACTTTTTCTTTTAACCGAGACCGTTGTATTCATATGGAAAAAAAGTATCCATCAGGTGCAAGTGTAAGTGTGAGATCTCCTTCCTAATCCCTTCATTTTGACTTATCATAAGAAAATCTATTAATTCGTGAGATGAATTATTCTAGCAGAATGTTAGAGTCGTCAGTTCTGTTTAACTTCGTCCATGCTTCTTAATTTTTTCCATCTATAGTCGTAATTTATCAAAAACACACAGGTGATAAATGGAAAAAGTTAATTCGAAGATGGCTCTTTTCTTTTAGACATTCTAGTCCTTGGTCATGTTTCATTTGAAGACATTCATTCTGTCACTGAGATTTTTCAGATTTATTGCATACTGTGTGGATTATCACTAAGATTCCTTATTTTAAAAGTCATTATTGGATTGTAGCATCCTGGAATTAACTTTTTGTGTTTTTTTGTATGTCTTTTACTTTATAAACTGAAGCTCAAGAAGATGTGTCCTAATGATCCTGACACCATCCAGAAGTTGAAGGAATGTGAGAAAGCAATTGGGAAGCTTAATTCTGAAGAAGCTGTTGCAGCTCCATTGCCGGAAACGGATTCTGTGGCCAATTCTATTGATGTGCACCGTGTAGGTAATAATTTTTATTCCATTTTTTAGTGTATTTTATAATGCTTCTGCTTGATGACCGTTACTTATAAATGAAAACCGTTACTTCTCTTAAAAAGAAATAAAAACATTTTTCCAGAAGTTTTAGAGAGGCTAAATTTGGATATATAGGCAATTTTACTGGTTTGGTATCCAAAAGACCATTGTATTCTAATATCTGAAGACAATATTTTCTGTGAGAAAGGGAAAGGACATTATTGAATCACAAGATGTCAAGACCAAGAAAATATTTCACAGATCTGAGATCTTTGGCGTGAAGTGTCTTTAGTCTTTACTTTAGCCATTTTCTGAACAAATGGTCCAATGAGGATAATGTCTTCAACATATACTTGGATAGCTACAAAATTTGGTACTTTGCCACGGATGAATAAGGAGTATTCAGATTTTGATTGCACAAATTTGTGACTTTGCAAAGCACTTAAATTTAGTGAACCATTATTGCAATGCTTGTTGCAAACCATAGATTGGTCAATTCAAACGACAAACAAGCTTCTCCCCATCTTTAGCATGTTGAGTGATCTATATTTTCCCAATGACATTTACATATACACTTCTTCAGAAAGTTCATTTAGGAACACATTATTAACGTCCATTTGCACAAGAGGCCAATTAATGGTTGTGGCTAAAGTCAAAAGAACTTTTAACTGTCACTATCTTTGCCACAGGAGAAAAGGTATCAAAGAAATCAATTCCTTGTTATTGATTCTGTCAACCAATTGTTCCATCAGCTGTGTATTTAACACGGTAGACCCATTTATAGCCAATAGAATGATGTTCTTTTTCGAGGGAAACATTAGTCTAAGTATGTGTTCTTTCCATAGCAGAAACTTTTCTAGTATAGTTCGTCACCAATGAGAGAAGGGAGCAGCTTGATGTTAAGAACAAGGCTTATATTCTGTGGTGACATTAAAAAGGAAAGTCTTATGAGAATGAGAACATGGATCATAGTTTAGGTAGTCTTCAAAGGGATAAGGATAAGATTTTGTAATGATATTTTGTTTGGCTGTCATGTTACATTGGAAATCTTTTTACCTAGTGTACTGTTGCCTTTTACGTGTAGAATGATGTGAATGATCACCAACCATTTATATTAGTTTCTGGAATATCATCAGAATATTGAGTTCCAATGGTTTATGGGATTGGTGTAAAATCAGTTACTGCATATCAGTTTTGGAAATGATGGTAGTATCATTAGTTCGTAGGATAGAATCTGATGCCTGAGAAATTTAGATTTGATATAGGGAAGCAAGTTTTGGAAGAGATTGAGAAAGATATTTGGAGGGTTGCATTTTATGAAGAGTATAGACAGGCTATGTGAAAGTTTATCAGGGAACATTATTAACTCAAAATTAACGAATACAAAGTCAGAGGACGAGGAGATAACTGCTTGTAACAAAAATATAACAATTACAATACTGGTTAACAACTATAACAGAAATCAGTTTCTTATGAACTTATGTGTAATACATTTAGTTAAGTGAGAGGTGGTGACAAAACCCATTAATGTTGTGGTTTAGATTTTGGGAATCTAAGGGTCTAGAATAGTGGCGTTCCCTTTTGAATGGATTGTGAGTTAAAAGGCACTTCCAGAAACCCTTGGAAAGGTATGGTTGAGGAGGAAAGGTACTTTCTCTTGGAGGATAAATGTGATAGAACACTAGGAAAAGTGTTCTTGTATTTTTATATATTTCCAGAACGTTTACAAGGAAATTCACAATCACAGTCTTTACACAATAAACATCCCAAAGAACAAAACACAAAACCACACAGAAATTAAGTAAAGACAGAAACAAAAGAACTAAAACACACTGAACACTTTTCCTCTGCCTTCCCTGCTCTCCAGGGAACAGCAGCCCACTTTTCCAGAATAAAATTTCCACCCCCTTGTTTTTCCCCTTCCACTTCTTTTAACTCCTTCCTTCCATAATTAACTGTAGTCCCCACCAAGGTGGTTTCACTCCCACTACTTTCTCCCTTGTCCTTACGAGCTACTCCCTTTTTCTTCTTTCTACTGTATTGCAAAATTGTTGTGAATAGTCTCCTGTACTCTCTTTTTCCTCGTATGTACCATTTATCCCAGGTCTCATTCCATGTTTTTCCTTACTCTCTATATTCTTCTTTGCCTGTTATGGATTCCCAAACGATGAATATTGTTCCTTTCTCTCATTGATTAGAGAGGTTTGCTGTATCTCGAGGAGAAGGTATGTGTAGTATACCTCCTGACAAGAACACTCAAGGATAACACTGAAAACTCAAACACTCGAATATGGAAATATATGAAAATATGCTGTAATTTTAGTCAACATTCAGTTACAAAACTTTTTTTTTTTAAATAATGATCTGCTAGGTCATATTTTACATGATTGGTGGTCTTTTCTTTAGTTTGTCTCCTTTTTTATGGTTTTTCTTAATGCCCTTGCATTCTGTAATGACTCTTTAAATATATTCAAAGCTATTAGCTGATTGAAGATATCATAACCTTGGACAAGACAAGATAAATTTCATTCGAGCTAAAAGTACAAAACCTCTTTGCAAGTTGGATGTTTAAATTTTATTTTTCTATGTACTTCATCATTATAGGGGTAAGTTCAACATCAGTGCCAACCCAAATGGCTATAGTAGCAGCAGCAGTAGCAACTACAGCAATTGCAATTTCAACTCTTAGCACAAAAGTTGCCACAGTGGTAGCTGCAATAGCAGTGGTGGTGCTGATAATCATGGGCACACGTTGGTGGGGGGGCAGTGGATGTGTTATCAATGCAAAGACTCTAGGTTTCCTTTTCTTTTCTCTTGAAATAGTCAAAATCCCTTTAATTTAGAACTCATTAACTTGATTTGATAATTGATGAACTCATGTTTTAGGAATGCTCTTTCAGTCAAAGACTCTATATTAGACTGTATTTCCAACTTCAAATTTTCTTCAAGGGATCCAGTCATAATGGATAAGGAATTTGGAATTTGTGTGTTTGTTTGTGTCTGTCTCTTTTTTAATAAAAAAACCTAGTAAAAATTTAATGCACCAAGAATTCTACCCGTATTGTACTTTTTAATGCATAAGTACTGAGAAGTATGTTTGTTCTATTAATGGATTTTTATTTCCTATTAGGAAAGCAGTCAAATCAATTTGGTTTTTGTCATGTAATAAATTGTAAAAATATTGTGTAAAAGATGGAAAAAGACAACAAAAGAGGTCTAGAGTTAACTCATTATTGCATATTTAGTATTTGCATCATTTAATTTTTCTTCAATGTTCGTTCATTTTCATTCTTCTCATAAGATTATATCATGAATAGAGGATTTATGAGTTACCTTCTTTGCTGGACATTGTCAATAGTTCCATCTTTTTTTCTCAAGTGTAGATGTTGACCCGCAGTATTCTGGAGCAAGAATAGAGGGAGATATCATAACGTTGGATTTTGTGAAGAAAATGATAGATAATTTCAAGAACCAGAAACCCTTGCACAGGCGGTATGTGTTGCACCTCCCATAATAGTTGATGGTTACTGTATTTAGCATGTCTAATGAGCTTAGTTGTTTTAGTGATGTACATTTTTCTTTAGATATGTTTTCCAGATTCTCCAGCAAACAAAAAAAATATTGAAAGCTCTTCCTTCGTTAGTTGATATAACAATTCCTGAAGGCAAGCGCCTCACAGTTTGTGGTGATGTCCATGGGCAGGTCAGTATTACATTCTTTTAGAAATGCATATATTATTCTTAGATTTGATGATAGTTTTGTTTTTTTAGTACACAAACAAATCCATAAGACCTAGGTTATGAAATTTTCTGATTCTTGATGGACCTTGACCTGGAGCTCCTTAATCCATGCTCGTCGGTTAGGATACCACCTAACAAGAGGACTCAAGAACACAAAGAACAAACAACAAGAACACTAAAAGGATAGGATTGTGGAGAAATATATTGAAAATATGCTATAAGATCATAAGAACGATTAACTAGATAACCCCTAGCCTTTTGAGAGGGCTGGACTCTCCCAAATTCCCAACTATGAACATCCCACAAAATACTTCACACTCTTCCTCACAATCCACTCCTATTTATAGCTAAAACCCTAACCAACGTACTAGCTATTCACTAATTTGCCCCTTCTAATAACCATACTAATATATGATAAAACTCCCATATATCTCTAATTAGGTCTTTTGCAGTTTCATTTATGTTTCATCTTTTGATGCTTGCAGTTTTATGATCTCTTAAATATTTTTGAGCTGAATGGTCTGCCTTCAGAAGATAATCCATATCTGTTTAATGGGGACTTCGTGGATAGGGGATCGTTTTCTTTGGAGGTCATTCTGACCTTGTTTGCAGTTAAATGCATGTCTCCATCAGGTAAATTGAATAGAATCCCAATTGGTTAGGAGCCTCCATTTTTGTATCTGAAGTTGAACCCACATATTCACCTCTAGCAAATATTATAAGATTAAGAGGTTTGACCAGTTGTTTTGTTTCCTTTATATATATTGCACGCTTTCTATGGAGGTTGATCACTATAATACAATCTACTTTTAGTTGTTCATCAAACCTTTTTCTGGTACTTTTAGTTGTTGGGTTTATGTTCATGTTTTTAAGGACGGATCAGTAAATTCTAGTCTAATCAATCCACTTTTTCTTATTCAGCTATACATCTCTCTAGAGGAAATCATGAAAGTAAGACTATGAACAAAATGTATGGTTTTGAAGGCGAGGTTAAGACAAAGCTGAATGGAACATTTGTAGAACTGTTTGCAGAAGTATTCTGTTGTTTGCCTTTGGCTTATGTATTGAATGAGAAGGTTTTTGTCGTTCATGGAGGCCTTTTCAGCGTTGATGGGGTAAAACTCTCTGACATTAGAATGATAAACCGTTTTTGTGAACCTCCAGAAAAAGGTAAAGTTGATCATTTGATATCTTTTCCTGTGTTCCTTGCATTTATGTTTGAAATTGAGTTACATTGAAATGGATGTGGTGATTAAAATTTTGCACAAAAGATTTCTGCTAATCACTTGTTAGTTGGTCTATCATTTTTTGATAACAATTAATTTCTTTTGTTGTGGTATTTGAACTACCTTTACTTTTGTTTTAATCAACCCAAAGGCATTATAAAGTGAAATCATTGCTTTTTCCATATTGAAGTAGTGAATTTCTAGGTCCCTGTCCATTTTCTCTTCAGGATTAATGAGCGATATGCTATGGAGTGATCCTCAGCCTTATCCTGGCAGAGGCCCTAGTAAACGTGGTGTGGGTCTTTCCTTTGGTGCAGACGTAACAAAAAGATTTTTGGAGGACAATAACTTAGGTATTTGTCATGTAATTTTATGGCTTGGCTTGATGCCTCTGCGCAGATTATTCATTTTAAAATTTGAGGATTCTATACTGAAAGTCTGAAACCACAGACTTACTCGTTCGATCTCACGAGGTGAAGGAGGAAGGGTATGAAATTGCGCATGATGGTAAACTCATCACCATATTTTCTGCTCCAAATTACTGTGATCAAGTAAGATATTTTCTTTAAAGTATATGAATATTGTAAATGAGATTAGTACAATTCAAATTACAACTTGGAGTTGATTGCTCTACTTGTCAACCCACAAGACTGAAAGTTAAAAGCCAACAAGAGGAGAAAAAACAAAACCCTAACAAGTGTCATCAGGCTGACGTGCCTTAGAAACTAGGCTGAATTTGAGCTTTCATTATTCTGGATACAAAGGGAAACAAGCACTATGAAAGTTTGCTGTCGTGTAGCTTTTCTTTAATGTTTACTTTTGGCAGAAGTTCAACCTAATTGAGATGTCTTAGTCCACCCCTTGATCCCTCTTGCCTTGTGAATGTTGTTAAAAATAACTCTCTAGAAGTAGAAGTGACAATTCTTTGTTCCCTCTTGTAGCAACTCTTTGAAGTTTGTTTTACTCGGCATGCTACTGCAGTCTTTGGCTTTTAAATGAGTGTGCACTAATCCATTGTTTTATTGATTGCTCTGACATACGAGTGTACTAGTAACCACAACCACAAGATATATAATTTAAATCTGTAGTTTGATTGACATTATGACTCGTAACCATGAGATATATAGCTCAAATTCGTAGTTGGATTGACATTGATAAGCTATCTTCGTATTGCAGATGGGTAATAAAGGTGCTTTTATTCGTTTTGAAACACCCGATATGAAGCCAAACATTGTTACATTCTCTGCCGTGGTCAGTTTTTCCATCCTCTTTCTCATTCCTATAACTTTCTCCCTTGCTCTCGACTCTTACATCTTCAGGGTAGTGTGGTTTAACTGTTGATTTTCTCCGGTCATGCAGCCACATCCGGACGTGAAGCCTATGGCTTATGCAAACTTCTTCCAGTTCTTTCAATAACTAACATTAACTGCTTTTACACCAAAAGTTTACGTTATACAGGAATCACTTAAGAAGCTGGTGCCAAAATGGCAAATGCAGTAACAATCTCTGTTCATTCTTTAACATACAATAGTCATTAATTATTTTGCCACTGACTTGTGTAGTTATTACTAGGAAGTGGGAAATTTCCTTCATTTTCTGGCCAAGCGTGGTCTTTCTTCTCTTTCTTTCTTCTCTTTCTTTCTTGTCACTTTTTACCTTTTTTTGGGGGAAGGGTATTATAGCGGTCAGCACTTGATTTGAATATCACACATTTCCTGTGTTGTACTGTATTATATTTTATTGCTGATAGTAATTTAGAATAAGTTGCAACTGTAATGTTGAGACTTCTCCACCTTTAGCCTTCTGGGATCTGGATCTAGCAAATTTGTTGACGAACAAGATATTTTTAGATCTCGTACTCAAGAGCTCCAGAATTATATTGCTATCCATGGATTGAATTAAGCTTGTGGTTCTCATCGATCTTTTGATTTTTGAATCACTCTACAAACAAGATTGA ATGAGTAACAATAACTCAAATGTTACGCCGGCAGAAAAAATTAAATGCCGAGCCAATAAAGCATTTGCGGCTCACAAATATGCTCAAGCTATTGATTTATATACACAAGCTATTGAACTCAACAATCAGAATGCTATATATTGGGCAAATCGAGCATTTGCACACATTAAGCTAGAGGAGTATGGTAGCGCACTAGAGGATGCATCAAAAGCTATTGAAGTCAATCCTAGATATTCCAAGGGTTATTACAGGCGTGGTGCTGCTTATCTTGCCATGGGGAAGTTTAAAGAAGCACTTAAAGATTTTCAGCAGCTCAAGAAGATGTGTCCTAATGATCCTGACACCATCCAGAAGTTGAAGGAATGTGAGAAAGCAATTGGGAAGCTTAATTCTGAAGAAGCTGTTGCAGCTCCATTGCCGGAAACGGATTCTGTGGCCAATTCTATTGATGTGCACCGTGTAGGGGTAAGTTCAACATCAGTGCCAACCCAAATGGCTATAGTAGCAGCAGCAGTAGCAACTACAGCAATTGCAATTTCAACTCTTAGCACAAAAGTTGCCACAGTGGTAGCTGCAATAGCAGTGGTGGTGCTGATAATCATGGGCACACGTTGGTGGGGGGGCAGTGGATGTGTTATCAATGCAAAGACTCTAGATGTTGACCCGCAGTATTCTGGAGCAAGAATAGAGGGAGATATCATAACGTTGGATTTTGTGAAGAAAATGATAGATAATTTCAAGAACCAGAAACCCTTGCACAGGCGATATGTTTTCCAGATTCTCCAGCAAACAAAAAAAATATTGAAAGCTCTTCCTTCGTTAGTTGATATAACAATTCCTGAAGGCAAGCGCCTCACAGTTTGTGGTGATGTCCATGGGCAGGTCAGTATTACATTCTTTTAG MSNNNSNVTPAEKIKCRANKAFAAHKYAQAIDLYTQAIELNNQNAIYWANRAFAHIKLEEYGSALEDASKAIEVNPRYSKGYYRRGAAYLAMGKFKEALKDFQQLKKMCPNDPDTIQKLKECEKAIGKLNSEEAVAAPLPETDSVANSIDVHRVGVSSTSVPTQMAIVAAAVATTAIAISTLSTKVATVVAAIAVVVLIIMGTRWWGGSGCVINAKTLDVDPQYSGARIEGDIITLDFVKKMIDNFKNQKPLHRRYVFQILQQTKKILKALPSLVDITIPEGKRLTVCGDVHGQVSITFF Homology
BLAST of Cucsat.G10572 vs. ExPASy Swiss-Prot
Match: Q84K11 (Serine/threonine-protein phosphatase 5 OS=Solanum lycopersicum OX=4081 GN=PP5 PE=1 SV=1) HSP 1 Score: 449.1 bits (1154), Expect = 4.5e-125 Identity = 232/350 (66.29%), Postives = 283/350 (80.86%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy Swiss-Prot
Match: Q84XU2 (Serine/threonine-protein phosphatase 5 OS=Arabidopsis thaliana OX=3702 GN=PAPP5 PE=1 SV=1) HSP 1 Score: 435.6 bits (1119), Expect = 5.2e-121 Identity = 223/344 (64.83%), Postives = 274/344 (79.65%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy Swiss-Prot
Match: P53041 (Serine/threonine-protein phosphatase 5 OS=Homo sapiens OX=9606 GN=PPP5C PE=1 SV=1) HSP 1 Score: 253.4 bits (646), Expect = 3.6e-66 Identity = 136/332 (40.96%), Postives = 196/332 (59.04%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy Swiss-Prot
Match: P53042 (Serine/threonine-protein phosphatase 5 OS=Rattus norvegicus OX=10116 GN=Ppp5c PE=1 SV=1) HSP 1 Score: 253.4 bits (646), Expect = 3.6e-66 Identity = 137/332 (41.27%), Postives = 195/332 (58.73%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy Swiss-Prot
Match: Q60676 (Serine/threonine-protein phosphatase 5 OS=Mus musculus OX=10090 GN=Ppp5c PE=1 SV=3) HSP 1 Score: 252.7 bits (644), Expect = 6.2e-66 Identity = 137/332 (41.27%), Postives = 195/332 (58.73%), Query Frame = 0
BLAST of Cucsat.G10572 vs. NCBI nr
Match: XP_011657104.1 (serine/threonine-protein phosphatase 5 isoform X1 [Cucumis sativus] >KGN47023.1 hypothetical protein Csa_020950 [Cucumis sativus]) HSP 1 Score: 664 bits (1714), Expect = 5.10e-237 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of Cucsat.G10572 vs. NCBI nr
Match: XP_008456372.1 (PREDICTED: serine/threonine-protein phosphatase 5-like isoform X1 [Cucumis melo] >XP_016901962.1 PREDICTED: serine/threonine-protein phosphatase 5-like isoform X1 [Cucumis melo] >TYK20399.1 serine/threonine-protein phosphatase 5-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 638 bits (1645), Expect = 1.77e-226 Identity = 329/343 (95.92%), Postives = 335/343 (97.67%), Query Frame = 0
BLAST of Cucsat.G10572 vs. NCBI nr
Match: KAA0054552.1 (serine/threonine-protein phosphatase 5-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 616 bits (1589), Expect = 4.53e-218 Identity = 322/343 (93.88%), Postives = 328/343 (95.63%), Query Frame = 0
BLAST of Cucsat.G10572 vs. NCBI nr
Match: XP_038901673.1 (serine/threonine-protein phosphatase 5-like [Benincasa hispida]) HSP 1 Score: 583 bits (1503), Expect = 6.58e-205 Identity = 303/340 (89.12%), Postives = 323/340 (95.00%), Query Frame = 0
BLAST of Cucsat.G10572 vs. NCBI nr
Match: XP_022944343.1 (serine/threonine-protein phosphatase 5-like [Cucurbita moschata]) HSP 1 Score: 578 bits (1489), Expect = 9.79e-203 Identity = 303/345 (87.83%), Postives = 317/345 (91.88%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy TrEMBL
Match: A0A0A0KC15 (Serine/threonine-protein phosphatase 5 OS=Cucumis sativus OX=3659 GN=Csa_6G169880 PE=3 SV=1) HSP 1 Score: 664 bits (1714), Expect = 2.47e-237 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy TrEMBL
Match: A0A1S4E158 (Serine/threonine-protein phosphatase 5 OS=Cucumis melo OX=3656 GN=LOC103496329 PE=3 SV=1) HSP 1 Score: 638 bits (1645), Expect = 8.59e-227 Identity = 329/343 (95.92%), Postives = 335/343 (97.67%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy TrEMBL
Match: A0A5D3DA66 (Serine/threonine-protein phosphatase 5 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold519G00240 PE=3 SV=1) HSP 1 Score: 638 bits (1645), Expect = 8.59e-227 Identity = 329/343 (95.92%), Postives = 335/343 (97.67%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy TrEMBL
Match: A0A5A7UFK9 (Serine/threonine-protein phosphatase 5 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold24G003380 PE=3 SV=1) HSP 1 Score: 616 bits (1589), Expect = 2.20e-218 Identity = 322/343 (93.88%), Postives = 328/343 (95.63%), Query Frame = 0
BLAST of Cucsat.G10572 vs. ExPASy TrEMBL
Match: A0A6J1FXY8 (Serine/threonine-protein phosphatase 5 OS=Cucurbita moschata OX=3662 GN=LOC111448811 PE=3 SV=1) HSP 1 Score: 578 bits (1489), Expect = 4.74e-203 Identity = 303/345 (87.83%), Postives = 317/345 (91.88%), 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
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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