Cla97C05G089220 (gene) Watermelon (97103) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGATGTTTGGTAGAGAATCTGCCTATTTTATGTTGTTATGTTGTGTTATATCTAGATTTTACATGTATTTTAGAATTATATTAAATAAAAATAAAAAATTTAAAAATACGACCTATCATGTCATGAACTAAAAAATATAATGTTATAAAATAAATTAATAATAATTTGTTGTAAACTAAATAATTAAACATATTTTTAATCGCCCCAAATTATATCTGAAAAACATGAAATAACTCTATTGTCATTTAATTATTTTCTTCAGATTTTAGATTTTGAATCTAAAATTTAAAATTTAGAATTATATTAAATAAAAATAAAAATATTTAAAAATACGACCTATCATGTCATAAACTAAAAAAATATAATGTTATAAAATAAATTAGAAATAATATATTGTGAACTAAATAATTAAACATATTTTAAATCGTGAATCGGCTGCCAAATTATATCTGGAAAACATGAAATAACTTTATTTTCATATAATTATTTTCTTCAGATTTTTGTTTTTAAATTTTCTGCCAAACAGGCTAAATCCATGAAAATGAAAAATGGAGAAAATGGTTATCAATTTTTATTTTCAGATTTCAATTTTTTAAATTCTCTACTAAATAGGCTAATCCATGAAAATGAAAAATGGAAAAAATGGATGCAGGGGAAGGTGGCGCTGGTGACGGGCGGGGACTCGGGCATAGGGCGGGCAGTATGTTACTGTTTCGCTTTAGAGGGCGCAACCGTGGCCTTCACCTACGTCAAGGCCCAGGAAGACAAAGACGCCAACGACACCATAGAAATGATAAAGAAGGCCAAATCCAGCGCGGCCAAGGACCCATTAGCCGTACCGGCGGACCTGGGGTTCGACGAAAACTGCAAGAGGGTGGTCGATGAGGTGGTCAAAGCCTATGGTCGCATCGACATCTTGATCAACAACGCTGCCGAGCAGTACAAATCCTCCTCTGTTGAAGACATCGACGAGGACAGACTCCTCAGAGTGTTTCGAACCAACATTTTCTCCTACTTCTTCACCACCAGGTGAATTAATTAGTAATTACAACACAATTGGCTTTAAAAATGGGGATTTGATGACGGGTGTTTGAGTTTTATGTCAGGCATGCATTGAAGCATATGAAGGAAGGGAGCTCCATAATCAACACGACCTCAGTGAATGCCTATAAAGGCAACGCTAAGCTGCTTGATTACACTGCTACCAAGGGGGCAATTGTGGCGTTCACCAGAGGCCTGGCCCTGCAGCTAGCCACCAAAGGGATAAGGGTTAACGGAGTGGCACCGGGGCCGATATGGACGCCATTGATTCCGGCCTCCTTTGATGAGGAAGAGACGGCTAATTTTGGGTCTCAGGTGCCAATGAAGCGAGCTGGGCAACCCATTGAAGTGGCTCCCTCATATGTCTTCCTTGCCTGTAATGTTGATTCCTCTTATATTACTGGCCAAGTCCTCCACCCTAATGGTAAGCTCTTTAAAAAGAAGAAGGAAAGAAAAAAAAAAAACTGATATGTACGTCTAGAATTGTTTCGTTTTTATTTATTTATGTCTTTTGGAATTCTTTTTTCCCCCTTCAGGTGGGACTGTGGTGAATGCTTGAGGAGGTCTGTTATGTGTGCTCCCATGGAGGAGTTTGAGAGCTGGAGAATATGGAATTTTGTTAGTGGTCTGAGAAAGAGATGTAAATAATGTAAAATATCCAGACTTCAAATAAAGTTTTTTCCTTTCAGAAGCATAAAAGAAGGGTCCTAGTTTTGTTGGTGGGATATGTAATGGTAGTGAGGACTTATTCAACTAGTTAAAAAAAAATCCCATGAATCAAATTGCAAAAGCTTTTGAAGATGGTGCCGAATGAAACAAAGGGGGACCCAATTAATTAGGAAAAGGCATGAAGTTAAATTTGTTATATTATTCTTCCCCAATCAAGAAAGCTTACAAAATTTTGATCCAATCAATGCTGGAGAATTCCTGATGAACAGATGAGGCGTCAAAAGATACTGGAAGCCGCACCACTCTATCTCTGAAATAACCATATCAACGATTGTTCCTGAAAGCACTGTTTTTCGATAATAGTCGAGGAAACATATGAGTGTACATGAAAATAAGCTCATCAATTCGAAAAGTTCTTAACGTGTTATATGTAAAAGAGTGAGCAAAATTATGAGAGGATACATGTCGCAATAGCGTCAGAAGGCAGCCACTATGTTGAAGCATGGTTTTAGATTTCCATCAACTCTGCTATGTTCTCTTCCTTCTCTTTTATGGATAGCTCGCCGGAAATAAGGCCATTCAATGATGGAATCAACAGCATTGAATATGAAGTTCATCACACCATGATGTTTGATTGTCCTCGATGCATTGAGTCTTGTGAGTTTTAATAGTTATTCTGTATTATAATTATTAAAATAGTAATACGGTATTTGATGGTATATTAAAAATAATAATACTGTGTATTTAATAATATTGTTTGAAGCTTCAAATATGAGTGGGTACCCGACTTAGAATTTGGTGCTTCAAACACTCTCTTCATGGTTTTTTAAGCTACCCAACTTGAATTTGATCGTGAGACGAAAATCCTCTTGCAGGTTGGAATTGTAACAAACATATATGTTGTATAATATATGAATTGGTGAGTGAATGAATCGGTGATAAAAGGTGCTTTTCATTTATTTCCATTTTCTGTATGAGCAATTTGTTTAGGCAACGCACTAATTAAAATTGTTTCTTCTTTATCAATGGGATCAATGATGAAATCATGGAAATGAGGCCAAATTCCAAATTCCAAATTCCCACTAATCATAAAAAGAAAATTGTACATAAAAGAGTGTGTTTTTGGAAAATTGAAAAAATATCACACTATTTACAAATAAATATTTATTTGTGTGATTAAGTAATAAATGTGTATTTGACTAGCGTCGTCTATTATTAAAATTTTGCGATTATTTTCAACAATCGTATTATTTTTAAAAATATCCTTTACATTTTTTACTCTTGTGTTAAAATCCCTATATATGTGCTAGTTAACAAACTAGTCTAAATAATTAGAAAATCGTAACATTATTAATAACATACAATATGTGCTTACTTTATTGTCAATTGCAGATGGCTTTCCATGAATTATCTTTTCTCCTTCGAAAGTCCCATTTGTTCAACATATCATATATTAAACCTCTTAGCCACTCTATTTCATGAATTTATCTTCTTATGCTATCGATTTGTGACGTCATGTCATAAGTTAATACTTGTTTACACGCCAAAGTCATCTAGTCAATAATATTAATAAGATAAAATTAGATACCATTACCCTACAAAGATCAATTAATTTTTTAATTTGATTTCTACCGTTTTAAATTTTGATTTTTTATGATATTTCTTTGACAATATGTAAAGTAAAAAAAGAAAATAACTAAAAAAATCCAACGACTTCAAAGCTCCAACTCATTTTGGCGGTTTATATGATAGAATTATTGATTAATATCTTCGTGGATGATCGATATGTGTTATCAATTTCCTTTTACTTGGTGTGTGATTAAAACGAAAATGTTTTGGTATGTTACGCGAAATCGTATTGCGAGGAAATGAAAAATAACCTAATCCCATTCCCAAAATCTAAGTGCTTCTGAAGCTCGGATCCGTCCCTTCCGCGAGATCACGACGTGGATCCCACTCTACGTCTCTTTCATGGCGTTCCTGTCAGCTTCATTTATGATCAACCTCTCAAGGAGACCTTGACAGCAGGTTGCAGCTACGTGGGCACAATCGGTTTTCAACAACGCACCGTAGGTGTTCGACCAAATGTCTCATGTGAAAAATTGAATCCCATGAACGATCAGAATCACATCGACTAGAATACGACTTTTGGAAGACAGCCAGCGATCAGAAGATGTGGAGACGAGTAGCTTCAGTCTCTCATTTCACGTTTGCCCATAAGTCCGTTGTCAATAATAAGGTATCTACATCTACTTTGATCTCTCGAGCCAGCCAGTAATGGGCGGCTGCTGCTAATTCGTTGATTGCTATTTACGTTAATGAAATGTATTTTTTTAGAAATGTTCTAACCCCTCTTCACTTTCTTCCGGGAACAACTTATTTCATTGACGTATTTGGGTTTTGATTAGAAGAATAATGCCTCCTCTGTACGCTGAAAATGGGTAGCTCTTACAACCATACGCATTCTGTTTTCGAGATAAAAGCGTTTGAAATCATTCATTCTCTATCTTAGCGAACTGGGAAGTCTTTCTTGTAATCTTGGTAGCTTTTGGTCGGTTTGGATTTCATATTCTCTCATTCTTTCGTAACATCAATTTTTTTGGCTAAAAGAACCTCCCGCAATTGAGAACCGGGAAGAGACAAGCTTATCTTTTCTTGATTATGTATGGCATGAAAACATTGGCTTATATGTTGAGTTAGCTTAAACAATATTGGCTTCTCCAAGGTCATATCTGCTTCGTGGGCCAGAATTTTGTGGGCAATGTAGCAAGTTGGATTAAGTATATACGAGATGAATCTCAGCAATAACAGGAGAATGGATATTCACGTGAGGAGTCTGGTTGCACAAATTATCGCAGGCCTTGTCTGTGCAGGAAACGTTGCACAATCGAGAACTTAGCAGATTATAAATGACTGGTTTGAGATTGTTTGATAGTAAAATGTTAATTTAGATGAAATTGGGGAATTTTTAGAGAAGGTGTGAACGACGCATTGGACCTCAGGTCAAGGAAACCTAGGATGTTGCAGAAGTGAAATCTCTTGAAACCATATGCTGGAATGAAGTTCGTCTGACTTGGGAACAAGCAGGGTATTAGCAACCTTGACACCTTTGTCATATTCTTCGTTTCCTCCATATTTTTGGAAGTTCATGAATTCTTAGAATTTTATTGTTCACCATACTCCATTTCTCTAGGTTCATGAAATACGTCTCACTGGAACCTGTGCGGTTAAATTGCCCCATATAAAAACTGTATAACCAGTTTCACCTCTTTTATTGCTGATATCAATGCAGGATGTGTGTAAACTCAAGTTTTGGGAAGCATTTACCACTGAAATACCCAGAAAGGTAATATATGCATTTTGTAGATGTTTAACTGTTCATATATTTGTAATTTCTTTATGTTTGCTTTAATTATATATCAACTGTAAAGCATGCACCTCAAGTTCTATAATTTTCATTTTCTGTGGAAATGAACATTCAAACCTATCATCGACCTGAGTTCGAGATGAGTAGAAAAGCAAGGTGCGATAGAATTTGCTTCGCCCCTCACTATTGTCTCCAGAATCGTCTTATCATGTCACAGTTTCTCTCTTTATCTAGTGGAACTGTGTGTCAGTAATATTTTTTTCATCTTTATGATGTGAAGAACTGAAAATTAGTGTCACACGTTGAAGCATCTGTTCCCACATGCAAGATTTAAGTGCGTGTGTGTGTTTATTTATGTCATCCTGTCTAATACATTTGGAGTAAAGTTTTAGATTGTTTTTAATTTGAGTGCAGGATAAAGGTACCTTTCAAAGAGATAAAACACCATTCATAACTTTTGTATTAGGTAAGGTTCACTGCTTTTCCTCCTTTCCATTTATGGTGACAATGAAGGAAGCTAAATATATTTGTGTTCAGTTATATATAATTTTTCATAATCTAGAAGCCTAGAAGGTGATTAAGAAGCCAAGGGATAATATAAATTTATCTGTTGAAGTTCTTTTCCTCAAAGGTTTACGGCTTGAAGCATTTGGAAGTAAAACGTCATGGCTCTATTAATGACATGTGATCCTTGCTTAGTCAATTTCAAACTTAAACCTCCATCTTCGTTTCTCAGTGGAGGTTGTTCGATATTCCAATTATGTGTATTGATCTTTATCTTCGTATGAAGTTGGATGAGGAGCTGAAAGAAGTAGGGGTGTAATAGATAGGTGTCTTGAGAGTTTCTTGGTTCAATGTCATCGCAGTTCCTAGTTGGAACAATGACACACACACACACACACAGGAAAAAAGAAAGTGCAGTTTAGTCCATCTTCTATTGCGCATGTTGTTTGTTAAAAATGTTATATAACTATTGGTGGAACTACGGATTTTTCTTGAGAGGTTAATGATTCTTATATGATGTAAATAAATATTTAAGAAAATAAAAATCCATAGTTTAGAATAGCTAATAGTTTGAAGAAGTTAATTGCATATACTTCTGAACCTATATTCGAGAGAATGTTTAGTATCGCTAATAAATTTAGTACTCATTACTCAACACCTGCATACCTGCTAATGAGAGACTATTTTCTTAATATATTAGAAAAATAGATAAAATATTCAAGCCTACTGTAAATGTCAAATTCTCATGCCCACAGTGCTGCTACTAAGTTGTATGATTAAACAAAATGGGAGGTCAGGTAAGATGTATGTGAATATAACTAGTGTCGTAAAGTAATGCAATAATAATCCTTTGAGGTTTCATATTTGTTCACCTCCTCTATCTTGAGCTCTCATGGATTTCTTGAATAAATGGTTCTAGTAACGGAAAACAACAAAACGGAGAGGACAAAAGATGGAAATAAGTGAAAATTACACGAAGGATCAAGTGTTTCAGTTGTGTTTTATGCCTTAAAGTGGAAATACAACAAGTATTTATAGGTAAATAAAAAACTAACAACTATGCCACTGACCTTAAGATTCTCCCGTAATCAACCCCTCTAAGCCACTAGGCCACATTCCTCCTAAGTTGGAGGCACCACCCTTAATAAAAGCCACTAACATTAATTTAAAGAAAAAGATCACTTACTTGCGAATTAAGTTTGCACTAAATTTTAACCGGAAACATAGAAAGAGAAGAAGTCATTAATATTCAATGATATGGCCTAGATGCTTATATATAAGGCCTGCATATACTAATAGTGGCAATGTTATCAGGTGGTCCTGGAAGTGGCAAAGGTACACAATGTATGAAGATAGTTGAGAACTTTGGATTTACACATTTGAGTGCTGGAGATCTATTAAGGAGGGAGATAGCTGCTAATAGTGCAGATGGGTAATTATGCTTCGTTTGCCTTATCAAGAAAGCTTTCATATCCATCTAGCCTCTGATGTCTGTTGATTGTGAATTTCTATTTTCAGCACCATGATTCTCAACACAATTAAGGAAGGAAAAATAGTTCCTTCAGAATTGACGATTAGACTTATTCAGAAGGAAATGGAATCCAGTGACAATTATAAGTTTCTCATTGATGGGTTTCCACGGAGTGAGGAAAACCGGATAGCATTTGAACAAATTGTGAGTTTCTTCTATACTCTTTCCATTTAGTTCTTTATTTCTTGTGGTGAAGATGCTTTTCCTTTAAGAACTGTAACAACACTGAGGTCAACGAGAGAATCTCAGATTCCACACCTTTCCAATTTAACATATATGCTTCAAATACATGCTTGGTGTATAATACAATTCTGTCGTTCATGATGCAGATCGGGGCAGAACCAGACATTGTACTCTTCTTTGACTGTCCAGAAGATGAGATGGTGAAGCGGGTGCTCAATCGTAATCAGGTAGCTGATATGTGGTAGATCTTTCCTGCATCCAAATCGTTATCATTGTTAGTATCTCAAAATGGCATATATTGCAGGGAAGAGTTGATGATAATATTGACACAATCAAGAAAAGGCTGAAAGTTTTTGCCGCATTAAATCTTCCTGTAGTCAAATATTATCTGGAGAAGGGAAAGCTTTACAAGGTAATTTTGGTTGAGTTTTGAACTCAAATCCTGGTAGTGTTGGAGCCTGCTGCTATTAAATGGATGCTATCATGCACTTGCCTTGACCACGTTTTTAATTTATTCTTTCCTTGTGCAAACTTCTTGTTTGAGCTTTTCGTATACAAATTTATACCTTCATTAACCAAAAAAATGTTGCAGATAAACGCAGTTGGAACAGTAGATGAAATATACAAACAAGTTTATCCAGTTTTTGCATCATTCAATTTTGAGGTATTTGGTTTCTGTTTCCACTTTCAGTTCTCCTGTTTTCCACACAAATATTTTATATATGCTTGGCTTGTTGCATATTTTAGCAGTAAAAACCTTTTAAACTCAAACCTTACAGAATCCAATTTGCTCCAATAATCCACTCGGTGCTGTAGTCAGTTGTTGATCAGCTCCCAAATATTGTTTAATCACTTGTAAGCTATTAATTTTGTTCAGCAGCAGGTAAGAGCATGAAAGTGTTGATTAATCGCCTTATGTCATGGATAACATGGAGCATGATCCCGGTTTGTGCTTGGAGTTTCTCTTCTTTTCAGTTGAAGATCATTGTGAGTTCATTTCCCTGATTACTCATTTTTTTCAAAAATGTAATATAACTGAACACATCAAGTGCAGCATTGGGAATTTCTTATAGGTCCAAAAAGTTATCTCATAACTAGACCTGTTGGCTACATATTCTTGATATCTGCAGGTGGCATATGTTCCCTAA ATGATGCTAATCCATGAAAATGAAAAATGGAAAAAATGGATGCAGGGGAAGGTGGCGCTGGTGACGGGCGGGGACTCGGGCATAGGGCGGGCAGTATGTTACTGTTTCGCTTTAGAGGGCGCAACCGTGGCCTTCACCTACGTCAAGGCCCAGGAAGACAAAGACGCCAACGACACCATAGAAATGATAAAGAAGGCCAAATCCAGCGCGGCCAAGGACCCATTAGCCGTACCGGCGGACCTGGGGTTCGACGAAAACTGCAAGAGGGTGGTCGATGAGGTGGTCAAAGCCTATGGTCGCATCGACATCTTGATCAACAACGCTGCCGAGCAGTACAAATCCTCCTCTGTTGAAGACATCGACGAGGACAGACTCCTCAGAGTGTTTCGAACCAACATTTTCTCCTACTTCTTCACCACCAGGCATGCATTGAAGCATATGAAGGAAGGGAGCTCCATAATCAACACGACCTCAGTGAATGCCTATAAAGGCAACGCTAAGCTGCTTGATTACACTGCTACCAAGGGGGCAATTGTGGCGTTCACCAGAGGCCTGGCCCTGCAGCTAGCCACCAAAGGGATAAGGGTTAACGGAGTGGCACCGGGGCCGATATGGACGCCATTGATTCCGGCCTCCTTTGATGAGGAAGAGACGGCTAATTTTGGGTCTCAGGTGCCAATGAAGCGAGCTGGGCAACCCATTGAAGTGGCTCCCTCATATGTCTTCCTTGCCTGTAATGTTGATTCCTCTTATATTACTGGCCAAGTCCTCCACCCTAATGGTGGGACTGTGATTTCCATCAACTCTGCTATGTTCTCTTCCTTCTCTTTTATGGATAGCTCGCCGGAAATAAGGCCATTCAATGATGGAATCAACAGCATTGAATATGAAGTTCATCACACCATGATCTCGGATCCGTCCCTTCCGCGAGATCACGACGTGGATCCCACTCTACGTCTCTTTCATGGCGTTCCTGTCAGCTTCATTTATGATCAACCTCTCAAGGAGACCTTGACAGCAGGTTGCAGCTACGTGGGCACAATCGGTTTTCAACAACGCACCGTAGAATCACATCGACTAGAATACGACTTTTGGAAGACAGCCAGCGATCAGAAGATGTGGAGACGAGTAGCTTCAGTCTCTCATTTCACGTTTGCCCATAAGTCCGTTGTCAATAATAAGGATGTGTGTAAACTCAAGTTTTGGGAAGCATTTACCACTGAAATACCCAGAAAGGATAAAGGTGGTCCTGGAAGTGGCAAAGGTACACAATGTATGAAGATAGTTGAGAACTTTGGATTTACACATTTGAGTGCTGGAGATCTATTAAGGAGGGAGATAGCTGCTAATAGTGCAGATGGCACCATGATTCTCAACACAATTAAGGAAGGAAAAATAGTTCCTTCAGAATTGACGATTAGACTTATTCAGAAGGAAATGGAATCCAGTGACAATTATAAGTTTCTCATTGATGGGTTTCCACGGAGTGAGGAAAACCGGATAGCATTTGAACAAATTATCGGGGCAGAACCAGACATTGTACTCTTCTTTGACTGTCCAGAAGATGAGATGGTGAAGCGGGTGCTCAATCGTAATCAGGGAAGAGTTGATGATAATATTGACACAATCAAGAAAAGGCTGAAAGTTTTTGCCGCATTAAATCTTCCTGTAGTCAAATATTATCTGGAGAAGGGAAAGCTTTACAAGATAAACGCAGTTGGAACAGTAGATGAAATATACAAACAAGTTTATCCAGTTTTTGCATCATTCAATTTTGAGGTGGCATATGTTCCCTAA ATGATGCTAATCCATGAAAATGAAAAATGGAAAAAATGGATGCAGGGGAAGGTGGCGCTGGTGACGGGCGGGGACTCGGGCATAGGGCGGGCAGTATGTTACTGTTTCGCTTTAGAGGGCGCAACCGTGGCCTTCACCTACGTCAAGGCCCAGGAAGACAAAGACGCCAACGACACCATAGAAATGATAAAGAAGGCCAAATCCAGCGCGGCCAAGGACCCATTAGCCGTACCGGCGGACCTGGGGTTCGACGAAAACTGCAAGAGGGTGGTCGATGAGGTGGTCAAAGCCTATGGTCGCATCGACATCTTGATCAACAACGCTGCCGAGCAGTACAAATCCTCCTCTGTTGAAGACATCGACGAGGACAGACTCCTCAGAGTGTTTCGAACCAACATTTTCTCCTACTTCTTCACCACCAGGCATGCATTGAAGCATATGAAGGAAGGGAGCTCCATAATCAACACGACCTCAGTGAATGCCTATAAAGGCAACGCTAAGCTGCTTGATTACACTGCTACCAAGGGGGCAATTGTGGCGTTCACCAGAGGCCTGGCCCTGCAGCTAGCCACCAAAGGGATAAGGGTTAACGGAGTGGCACCGGGGCCGATATGGACGCCATTGATTCCGGCCTCCTTTGATGAGGAAGAGACGGCTAATTTTGGGTCTCAGGTGCCAATGAAGCGAGCTGGGCAACCCATTGAAGTGGCTCCCTCATATGTCTTCCTTGCCTGTAATGTTGATTCCTCTTATATTACTGGCCAAGTCCTCCACCCTAATGGTGGGACTGTGATTTCCATCAACTCTGCTATGTTCTCTTCCTTCTCTTTTATGGATAGCTCGCCGGAAATAAGGCCATTCAATGATGGAATCAACAGCATTGAATATGAAGTTCATCACACCATGATCTCGGATCCGTCCCTTCCGCGAGATCACGACGTGGATCCCACTCTACGTCTCTTTCATGGCGTTCCTGTCAGCTTCATTTATGATCAACCTCTCAAGGAGACCTTGACAGCAGGTTGCAGCTACGTGGGCACAATCGGTTTTCAACAACGCACCGTAGAATCACATCGACTAGAATACGACTTTTGGAAGACAGCCAGCGATCAGAAGATGTGGAGACGAGTAGCTTCAGTCTCTCATTTCACGTTTGCCCATAAGTCCGTTGTCAATAATAAGGATGTGTGTAAACTCAAGTTTTGGGAAGCATTTACCACTGAAATACCCAGAAAGGATAAAGGTGGTCCTGGAAGTGGCAAAGGTACACAATGTATGAAGATAGTTGAGAACTTTGGATTTACACATTTGAGTGCTGGAGATCTATTAAGGAGGGAGATAGCTGCTAATAGTGCAGATGGCACCATGATTCTCAACACAATTAAGGAAGGAAAAATAGTTCCTTCAGAATTGACGATTAGACTTATTCAGAAGGAAATGGAATCCAGTGACAATTATAAGTTTCTCATTGATGGGTTTCCACGGAGTGAGGAAAACCGGATAGCATTTGAACAAATTATCGGGGCAGAACCAGACATTGTACTCTTCTTTGACTGTCCAGAAGATGAGATGGTGAAGCGGGTGCTCAATCGTAATCAGGGAAGAGTTGATGATAATATTGACACAATCAAGAAAAGGCTGAAAGTTTTTGCCGCATTAAATCTTCCTGTAGTCAAATATTATCTGGAGAAGGGAAAGCTTTACAAGATAAACGCAGTTGGAACAGTAGATGAAATATACAAACAAGTTTATCCAGTTTTTGCATCATTCAATTTTGAGGTGGCATATGTTCCCTAA MMLIHENEKWKKWMQGKVALVTGGDSGIGRAVCYCFALEGATVAFTYVKAQEDKDANDTIEMIKKAKSSAAKDPLAVPADLGFDENCKRVVDEVVKAYGRIDILINNAAEQYKSSSVEDIDEDRLLRVFRTNIFSYFFTTRHALKHMKEGSSIINTTSVNAYKGNAKLLDYTATKGAIVAFTRGLALQLATKGIRVNGVAPGPIWTPLIPASFDEEETANFGSQVPMKRAGQPIEVAPSYVFLACNVDSSYITGQVLHPNGGTVISINSAMFSSFSFMDSSPEIRPFNDGINSIEYEVHHTMISDPSLPRDHDVDPTLRLFHGVPVSFIYDQPLKETLTAGCSYVGTIGFQQRTVESHRLEYDFWKTASDQKMWRRVASVSHFTFAHKSVVNNKDVCKLKFWEAFTTEIPRKDKGGPGSGKGTQCMKIVENFGFTHLSAGDLLRREIAANSADGTMILNTIKEGKIVPSELTIRLIQKEMESSDNYKFLIDGFPRSEENRIAFEQIIGAEPDIVLFFDCPEDEMVKRVLNRNQGRVDDNIDTIKKRLKVFAALNLPVVKYYLEKGKLYKINAVGTVDEIYKQVYPVFASFNFEVAYVP Homology
BLAST of Cla97C05G089220 vs. NCBI nr
Match: KAE8650431.1 (hypothetical protein Csa_011770 [Cucumis sativus]) HSP 1 Score: 858.2 bits (2216), Expect = 4.2e-245 Identity = 450/594 (75.76%), Postives = 467/594 (78.62%), Query Frame = 0
BLAST of Cla97C05G089220 vs. NCBI nr
Match: XP_038901233.1 (NADPH-dependent aldehyde reductase 1, chloroplastic-like [Benincasa hispida]) HSP 1 Score: 488.4 bits (1256), Expect = 8.7e-134 Identity = 244/253 (96.44%), Postives = 251/253 (99.21%), Query Frame = 0
BLAST of Cla97C05G089220 vs. NCBI nr
Match: XP_004148135.1 (NADPH-dependent aldehyde reductase 1, chloroplastic [Cucumis sativus]) HSP 1 Score: 476.9 bits (1226), Expect = 2.6e-130 Identity = 240/254 (94.49%), Postives = 247/254 (97.24%), Query Frame = 0
BLAST of Cla97C05G089220 vs. NCBI nr
Match: XP_022140852.1 (NADPH-dependent aldehyde reductase 1, chloroplastic-like [Momordica charantia]) HSP 1 Score: 474.9 bits (1221), Expect = 1.0e-129 Identity = 233/253 (92.09%), Postives = 249/253 (98.42%), Query Frame = 0
BLAST of Cla97C05G089220 vs. NCBI nr
Match: XP_008439102.1 (PREDICTED: glucose and ribitol dehydrogenase homolog 1-like [Cucumis melo]) HSP 1 Score: 472.2 bits (1214), Expect = 6.5e-129 Identity = 238/254 (93.70%), Postives = 246/254 (96.85%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy Swiss-Prot
Match: Q9FZ42 (NADPH-dependent aldehyde reductase 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=ChlADR1 PE=1 SV=1) HSP 1 Score: 428.3 bits (1100), Expect = 1.4e-118 Identity = 209/253 (82.61%), Postives = 234/253 (92.49%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy Swiss-Prot
Match: Q5KTS5 (Glucose and ribitol dehydrogenase OS=Daucus carota OX=4039 GN=CAISE5 PE=2 SV=1) HSP 1 Score: 412.5 bits (1059), Expect = 8.0e-114 Identity = 198/253 (78.26%), Postives = 233/253 (92.09%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy Swiss-Prot
Match: Q9MA93 (Glucose and ribitol dehydrogenase homolog 2 OS=Arabidopsis thaliana OX=3702 GN=At3g05260 PE=2 SV=1) HSP 1 Score: 376.7 bits (966), Expect = 4.8e-103 Identity = 184/260 (70.77%), Postives = 220/260 (84.62%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy Swiss-Prot
Match: Q75KH3 (Glucose and ribitol dehydrogenase homolog OS=Oryza sativa subsp. japonica OX=39947 GN=Os05g0140800 PE=2 SV=2) HSP 1 Score: 355.5 bits (911), Expect = 1.2e-96 Identity = 180/263 (68.44%), Postives = 218/263 (82.89%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy Swiss-Prot
Match: O24464 (UMP-CMP kinase OS=Prunus armeniaca OX=36596 PE=2 SV=1) HSP 1 Score: 318.5 bits (815), Expect = 1.6e-85 Identity = 161/227 (70.93%), Postives = 183/227 (80.62%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy TrEMBL
Match: A0A6J1CI89 (NADPH-dependent aldehyde reductase 1, chloroplastic-like OS=Momordica charantia OX=3673 GN=LOC111011421 PE=4 SV=1) HSP 1 Score: 474.9 bits (1221), Expect = 4.8e-130 Identity = 233/253 (92.09%), Postives = 249/253 (98.42%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy TrEMBL
Match: A0A0A0L9H4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G176290 PE=4 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 8.2e-130 Identity = 239/252 (94.84%), Postives = 245/252 (97.22%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy TrEMBL
Match: A0A1S3AYK5 (glucose and ribitol dehydrogenase homolog 1-like OS=Cucumis melo OX=3656 GN=LOC103483994 PE=4 SV=1) HSP 1 Score: 472.2 bits (1214), Expect = 3.1e-129 Identity = 238/254 (93.70%), Postives = 246/254 (96.85%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy TrEMBL
Match: A0A6J1JDR9 (NADPH-dependent aldehyde reductase 1, chloroplastic-like OS=Cucurbita maxima OX=3661 GN=LOC111483486 PE=4 SV=1) HSP 1 Score: 469.2 bits (1206), Expect = 2.6e-128 Identity = 232/253 (91.70%), Postives = 243/253 (96.05%), Query Frame = 0
BLAST of Cla97C05G089220 vs. ExPASy TrEMBL
Match: A0A6J1E3V2 (NADPH-dependent aldehyde reductase 1, chloroplastic-like OS=Cucurbita moschata OX=3662 GN=LOC111430586 PE=4 SV=1) HSP 1 Score: 467.6 bits (1202), Expect = 7.7e-128 Identity = 230/253 (90.91%), Postives = 243/253 (96.05%), Query Frame = 0
BLAST of Cla97C05G089220 vs. TAIR 10
Match: AT1G54870.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 428.3 bits (1100), Expect = 1.0e-119 Identity = 209/253 (82.61%), Postives = 234/253 (92.49%), Query Frame = 0
BLAST of Cla97C05G089220 vs. TAIR 10
Match: AT3G05260.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 376.7 bits (966), Expect = 3.4e-104 Identity = 184/260 (70.77%), Postives = 220/260 (84.62%), Query Frame = 0
BLAST of Cla97C05G089220 vs. TAIR 10
Match: AT4G25280.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 284.6 bits (727), Expect = 1.8e-76 Identity = 143/208 (68.75%), Postives = 168/208 (80.77%), Query Frame = 0
BLAST of Cla97C05G089220 vs. TAIR 10
Match: AT5G26667.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 230.7 bits (587), Expect = 3.0e-60 Identity = 110/174 (63.22%), Postives = 139/174 (79.89%), Query Frame = 0
BLAST of Cla97C05G089220 vs. TAIR 10
Match: AT5G26667.2 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 230.7 bits (587), Expect = 3.0e-60 Identity = 110/174 (63.22%), Postives = 139/174 (79.89%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31
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.
|