Clc09G21940 (gene) Watermelon (cordophanus) v2
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAGGAAGAGGGAAGACATTGATTCAATTGGTTTAGGACTCGAGTGATTTCAAGAAATTTGCCTATAAATTGAGGGAATGGGAAAGGAAGAGGGAAGACATTGATTCAATTGGTTTAGGACCCGAGTGATTTCATGAAAGGGAGGGTACAAGTTCCTCCAATTACTTGGCTTACTTTGTAAGTTCATCTTTTACATTTGCAACATAATTCTAGTGTTGTTTGTGTTCTATCAGTTTTGTTTAAAAGCTTTCAGTAGAATGTTGCCAATACTCTTGCATGGACTTTGAATATTTTGTAACTTTATATTTATGGGGTATTTTTTTTTATCCTTCTAACTCTGACGTTGCCTGGAATTTGAATCCAAATTCAAATGTTTCCTTAAGAAAGTTGAAACTATCATGTGAGAAAACAACAAAAGCTCTACGCCACACAACCGGTGCATGTGAATATAGGAGAAAGAAAAAGTTAGCCAGAATAAAGTTTTCTTCACTTACCAAGTAGCTGAAACTTGTGGTGCTTTTTTCTTATCTTGTTTGCTTCTTTTCTTTGGCTACTACAACTACAATTCAGCTGTTAACAGAAATTAGAAACTTGAACCTCCCTTTTAAAAGTAAGAATAACTAGAGATGAATGCAAGAAAATCAAAGTCCTCTTTCTCTGGTAATTAAAATGCCTTCAGAAGAACAATAGAAGTTCAATTCCCTCAATCATTAGTAGTAGAAACTAAAAGGTTCAGGATTTTACTCAAGTTTAACTCTGAAGTCAAGTTAGAATTCAACTTCCCCAGCAGAATTGATCCAACTCCAAGAAACTCATAACACCAGAAATTCACAGCATGACAAACTGTCTTTCAACATTTAGCATTGTAATTCCCCTAAAAATTGGACTTCATACCCACAATTATATGTTGTGGGGGACTCTAACAGGGTCGTTCAAAGGAAAAAAATAAGAATAAGAAAATGGGGGTGATCCAAATTTATCACAGCTCATTTCCTTCTTAATTTTCTTCCACACTTCCAGTCAGATAACTAGTCCTACAAGAGAATAAACCAATCTCATAACACACTACCAGTGCATCGAAAATAGGAGAAAAGAAGAAATCAGCAAGAATAAAGTTCTCTTCACTTAACCACTTATAGCTGGAATTTGTGTTACTTTCTTTCTAATCTTCCTTGCTTCTTTACTATAGCTTCTACAACTACAATTTCAGCTCTTAAGAAACTCGAACCTCCCTTTTAACGGTAACCATTTGATTCTAAGTTTTTTATCTTAAAAAGTTAAGCCTATCTTCTCTACTTTTTGTAATTTCTCAAACTTGGCTTGATTATTTAATACAATGGTAACAAGTATTCGTAAGCTTGATTTTCAGAATTATGAAACTCCTCTTTCTCCTGAAATCAAAATACCTTCAGAGACAATAGAAATCTGTAAATATCCTTAGTGACAGAAAGGAACAACTCTAATCTTAGCATAAGTTTTTGTAGATCTGCTTGTAAAATGGTCCTTGAGCGGCTCTTGAAACTTCTATCTAAACTTCTATCTAGAAGCTAAGAGTTATGACGAACAAGGGGAGACGGATTCATGACAAAATTCTTAATAAGATTCATCACAAAATTCCCCGATTGAAGCTCATTAATATTTTCCTTCAATGGATCAAAACCTTCGAAATTCACATATGTACAATCGACGCCTGGAACAAAATTTTGATGTAAAAAAAGTTCAGAAAAACAGCATATACATCAAAATCCGATCGAGTAATTCCAAACTAAAATCCGTTGTCCCCATTGCTATAACCAAACGAAGTATTTTACTCACCTTCTATTAAGAAAACACCCGCCACCATCTCGTATTCGATCACGAACTTGACCACAAACGCCATTGATAACTTTCCCCATGAAGAATGAAATTAAGGCATGGTTATGATCTGGTAATTGTTCCTACGATTCCCGACGAATCCATTGCAATTCCCATATTCAATTCACAAACGAAACATAAAATAGGGTTTTCAGATAATACCCCCGGCCAAATATTGTTCCTTACAAAAACCCCGGTTCGAATGCGCATTGGAAACAAATGAAAACTCAAATTAGTGTTCTCCCGATTAAATCCGTATAAATGTCCTAACAAATCCCGTTCGATTCACATTTCTGAAACTCTAATTAGGTTCTTCGATAAAATCCGTGCAACGTTCCTACAAATATCGAAGGAAGTTTCTCAAACGAATATTCAAATTGGGGTTGGGAATAATAATAGGGAAGTTTAGAACTGAAATTGGGGGTGGGTAAATTGGGAGGCCAGCACGAAAGAGTTCTGCAAAGTAAGCAGCGTCAACAATCGGCCAGCCTTTAACCCCTCCACAAATTCATGCGCATAACAGTGGTAAGCGCTGCGGCCGGATCCCCCCGACCACTTTGTTTTCCTTACTCATTAGTTTAAGGCAATTTGTTCTAGGCCGCCAATCTTCTATTTATATCCCTTAGCCCATGTCTCTTTTTCCCGCCTCTCCGATGTGGGAACTTGCATTATCTTACTTTAGCCCATTTAAGGGGCATGTCCAAAGCATACATATATAATATTATTAAACTTTTAATTTGGCGTTTTGGTAGCTGACAAATAAGTGTTACTAATTGGAAAGCTGGTATTCTTCTCCCAATACCACTCCAAATAATTTTTTTGTACTTACCAAATTTATAATTGTAGCATGACTGGGTCGAACACAGGAAGCATGTATAATTTCTTGATAAAACAATTAATAGCCCGAGAGTAACATAAAAAGGGGGTTTTGAAATTGCTTGTGATAAAATTTTAATGGCATAAAATAAATGTCACAAAGCAGTAGATGAAAATTGATATGATAGATGTCTAGCTTGGGTTGCAACAAATTTTCCTATTCAATGTATTCGATCATCAAATTTTCATTACCAAAATTTAATAATTGTTTGCACCTAATCAATTCAATTAGGAATACTAATTAAATTGTCCTAAATATTCTTTCGGTTCAATTCTAAGTTGGTTGAATCAATGCTAATCTAATTTGACTCGCAAGCCAACCTAACTTATTGCTCTCTACAGATCAACATACAATTGATTTTCACACAATGCATATTGACTCAAAGCAGTAATCATACATCCCCAACGTCCGATGATATGATTTAAATCTAAGTGGCATAGAATTGAATCCCACAATTACAAAAATTAGTTTGAAATCTGACAATTGCATTAAAATAGGGAAAGATCCTAAAAGTTACATTAGTCCAACATTGACATGCTGATAGATGGGGATAAGTATTAGAGCATACACAGACAAAATAAAAAGGAAAAGTGGAGAGAATTATAGGTGGAGTCGGCTCGGATCCGTGTTCCCTTTACCTAGATGGCTGGAAACTCTTTTATAAATACACGATGGCGTCGCAGCGTTGTCGCAAATTCTTCTGCATTTCAACTTCAGAGCACTGAGGTGCTTGAGACAACATCGTTGCACTATGGCTTTAGGAGCAAAATCGTCGTTTTGTCTCTCTCTACCGGTTGATGTAATTTAGCTCTGTATGGCCCGATTTTGCTCCATTTCAACTCTAACATTCGATTCTACCTCAGAAGTATTCGATATATGAAAAACAGCCAAATAAACAAGTAAAACCAAGGAACAAACTCGAATTAAGCGGATCGAGATAACACATTTACGATGTTACCACTAATCACGAGATTTGTGTTAGGGTGCATACTATTTTAGTTCGAGTTAATGAGAATGAGTATAAAATAGTAAATACTATAACAAGTATGAATTTGAAATATTAGCATTATAGTTAATTGTGGATTATAATAGTTGGAAATGTTTATTATAATTTCTTTTGAGCAAACATTTATTATAATTTGAAAGCTGAATAGTGGAGCATTATAATAGACCACTCCACACAATTGAAGTTGGGAACCCAAACAGTCCCTTAAGAATTTTTCAGATTTTGGCATTACATGTCATCAATTACCATTCCAATAGTTTTGGTAGCATTTTAAAATCGATAAGGAGTCATACAGAAGTAAGATTATAGATATCAATTTTACCTTTTCGTTCGATTGATAACAATAACGATAATGATAAAGTATTTTTGTTTTTTTTGGTCCCTTACTTTGTGATTACAAGTTTTTTATTTCTTTATTTTTTTTTCTTACTTTTGTCATATATCGAGTAATATTGATGCTGATGTGCATGCGCGTTCTGTTATTTTGCATGGAGATACTATTTTGATTCGATCAATATGTGTTCAATATTCCTTCGCTAGTTCATAGCATTGGTCATGAAGTAGACTCTTTCTTCTTGTCCTACTATTTTGTGTGGTAGGTCCTTCGTCTCTCCTACCTTCCTCTTACCCTCACCTTGGAGAGAAATTGATGAACCTAAAGCATTGTTATTGGGAGATGGTTGGTTAACATTCGGTTGTGACTATTTAAGGGCTAGAACCTCAACGATCGGAATGAGAGATGGAGAAGGAGGATAAACTGAAGGGGAATTGAAGCTCCGTCATTTAAATTATTGGATGATGAACCCTCACCTTTCTTGGATGATTTAGAGGTAATTGGGTGGTGTGAAATGATTGGACAAGTCAAAACTACTCGTCTATTTTTCAGACAAATACTCGAATAATCATTCTTCAAAATACTGAAAGACAAAGAAGCGAAGAAAACGATCGAGTGATTTTCGAAATACCGAAAGATGATTTATTCAGTCATAATGCATAATTATTTCTAAATTTTGAGGGTAATATAACAAAGACATGTAATCACACGTCTTCAATTGTATCACAAGTGCCAATGTAAACCGTTTCAATCTAGTCGTATTACAATTGCAAATTGTCCATACAAACAAATTCAAAGCAATCTATTCATTTATTTTTTATTATTATTATTTTTTTTAACGATTGATACATAAGAAAACCTATTACGATTGTAAGAAATTTGATAACGGAATAGTAGATGTAGAGTGGTATATAAAAATAGAAGAAATAGATAAAAAGGCAGAAAAAGGGGTGAGGGGCCGACGCAAGAAATGTGGCTGAGGGAACCCGCGAAGACAGCGGATAGGCAATCCAATAACAAAACCAAAAGATAAGGCAATCTTACATCAACTAAGCACACGCTTCTCAAGCAAAGGTCCTTCAATGGCTTCTCTGCACTGCTCACCCTCCGTTCAAAACTCCCTCTTCGTCAATTCTCTTCCTCAGGTTCACATTTTCTTCAAAATAATTCCAATTTTGTCTCCTCTTTTCTCCCCCTCCCCTGTTCTAATTAACGATCACTTCTTTTTCTTTTTCCGCTCGCAGAAACTCCATGGAAGATTTGTTTGCTGCAGAGCGGGGGTTTCATTTCTTGTCAGGGCTGAACAAGCACACGGATCTTCAATTAATGGTCATGCGTATAGTTCCGAAGGTCAGTTTACCGAATTGAGATGGAAAATTAGGTGTCACTTGAACTAGAGTACTGATTATGCTGGCATTTAGCTTGAGTTTGCGAGTTAATTGAATGTGCATGCTATTCAGTGACTGTCTTAGTATCGAGATGATTTGGCCCAAGTAAATTGAGAGGTTAGAAGGTTTTATAACATTTAATCCTCTGTTAGAAAAGAGGATTCACATCCACCCCATGCCGATACATTGAAGTACTAGGATACAGCAAAGTCGTAAATACAGATTGGATCAAGATTGAAACGAAATGAGATACGTACGATGCAAATATTTTTAAAGACTTGGGGGTATTTGGAGTGTTGAATTGGTTATTATAATTAGTGGCTATTATAGTTGGTGGGTTATAATAGTTTGTGTTTGGGGTACATACTAGTTTAATCTGAGTAGGAAATAGGTAAACATTGTAACAAAGAGTGAAAGAGATGATGAGTAGGAAATAATAAACACTGTAACAAATAGTAAACACTGAAACAAAGAATGATTTGAAACAGTAATAATGTAATCATTGTAGGTTATAATAGTTGGAAAGACCAACTATTATAATTGGAACCCCAAACATGGAGTGATCTATAATAGTCCACTCCACTCACCTGAAGTTAGGGGCTCAAACACCCCCTTAGTTTTGCCCCAGTTTGTAGGTACCATGGTATTACTGAGTTCTATTATCCTCGATACGTTATTACTTAAAAGAATTAATGCACTATATTAATTTTTTTGTGTGAACCAAGCGGTTGAGTATCAATTTCCTCATTTTTATGACCAAGAAACTCATTATGTGGACTCGAATTAGCACAGTAATCTCAAACTAGTTTGAATTATTGTTTTAGAAGAGACATTACTTCAGTTTAAACTTAATGTACGAATAAGTTACTTGGGTAGTGACAAAGCACAACCACCTCGACTCCAAGAATGTGGAAGCGGATGATGGAAGTCATGCTAGAGATTCTAATCCCATATTCCCATTTTTGAAGGATGAAGATTGTTATGTGTGTGGAAAAGCAATCCTGCTTCAAGGAAAATTACCTCGGGCTGAAGCCTCAGTCACGACAGGCTATTATGGATTGTTTTCTTTGCTAGCTTATCATGTACCATTTTTTCATTACTTAACTTAAATGGCATTATAGATTGTCTTCTTTGCCTTACCATGTACATTGTACAGTTTTGGGATTTTATGACTTGTATAATTTTATCCCAATTCACACATTTTTTATACTGTGGATGATCTCACTTCATTCTTATCAGCTTTAGAAACAATTTCAAGGAATTTCATTGTTCAATAGTTGCTCTGTTTTTTTGGCAGATAGACTCGGGAGACGACAACTGTTAGCTGGCAGTGCCTTTATTACTTGGATTTCTCTTGCAGACATGAGTTCCATGTCATGTAAGATTTATCACTCTTCTTATATACTCATAACTTAGTCTCTCTTTCATTTTCGTTGCTTCTCTTCAAGAAGTTCAATTCTGAATTAGCACCTCTAGCATCCACTGTACTTCTTTCTTCCAAAATGAAGGATGATGATATCCTAAGGGTACCCGCTTGATATTACTCAGTTGCTGCAGAAACAAAGAAAGGGTTTCTATCAGTTTCAGACAAGAAAGACGGTTACTCATTCGTCTATCCATTTGGGTGGCAGGTACATCAATTGTTCAGTTTTTTGTTTTCTCCACTCCCTTACTTTTGCACACACAATCCACTTTAAATTTATGTACTTGGCACAAGATGCATGTTTTAAAGTCTTTTTCCAATCGAGGAGTGAGCAGGAAGTAGTCATTGATGGTCAAGATAAGGTATTCAAAGATGTAATTGAACCATTAGAAAGTGTCAGTGTCAATATGGTTCCAACCAACAAAGAAGATGTTCGAGATTTTGGGTCCCCTCAACAGGTTAGAGCATTAAATTGTTAAAATAATGCATGAAGTTAGTAATTTAATTTTTAGGTAACTTCAGTATCTTATGGTTCAGGTTGCAGAAACTTTGATAAAGAAGGTTCTAGCTCCTTCTAATCAAAGAACGAAGTTAATCGAAGCATCAGAGGTTTGACTATCTCTACTCTTTGCTGAGATTTTATCATACTATTTGCTATGGAGTGAAATAAATTGTAGCTGCAAATGAACTTACCCTTTAAATCTGATGCACATGCATCACTCAACCCTACGGTGGACGGTTCTTTGGGATGTTTTTACGCAATTGTCCTAAGCAACATAGTAAATCAATCATCTGAAATGGAAAATACACCCCCAAAAGTAAAACCAATACATTGGTACAATCTGTTGAGTGAGATCCGACATCTCATCCCTTTATTCAAACTCATGACTACAAATATTGATGATAGAACCCACTCCAATGAGGCCACTTGATAAGAAAACGCTAGCAATTTGAAAATTAGGAACCTTTTTGTTCAACCCCTAATATCAACCCAAAGAGAAGGATTAGATTTGGATTACCTATTGATCAAGGGCCAAGAGATAAATGGAAAACTAGTTCCTAACTCCAAGTTTGAACACTCTACAAGCAAATTGATCTAACTTATCTAGATTTTCTCGGCACGTAACCCTCGCTCAAGAATTGCAAAGTAGTGATAAGGCTCTATCATCTACTAGAATTGCATTTAGAAAATTTGAAAATTTGAAAATTCAAAATTGTTCCATTTAACCTAATGGTCAGATTTGAGATAGCCTCCCAAAATCTTAATGTGCCACGTCATAGATCTTAGTAAAATGACAATAAAACCCTTATTTAATATGTTTTAGAAACAATAAAACTACATCTAAATTATTAACGAAAACATAAATAATAACTTTAAGCTCTTGGCAGTTCATATCACCACTTGTCACTTCTTGTTCTTGGCCATCTGTGGGAGATATGCTCTAAATTACATTTTAGCACAGTTGCTTCATGATAGCTCTCCTTGTGAGCAAGTGTAACGACCCAACTTACATAATCTAACTGGACCATTACTCAATGCATGTAAAATTCGAGAAACATTATGCAACATAGTAAAGAGAAGAAACAATACTTTTCTGGGAAGTTTCTATTAATATAATTTCAAGAAAAACATCCATAAACATGTAAAAATAAGTTTTGGTTCGGGGTACCCCTAATAAAATCAATAAAAATTCATGAAAAGGAAATCCACATATCAATTAAAAGATAAGTCTCAAAACCAACATTTGCCAAAACTCGATAAAACAAGAAATGCTAAGCGGAAGCTACTACGGGTCCCGTGATGCCATCAAGGATTCTTCTTGTCATTCGCCACCACGTTCTTTCCCTTACCTGAAAAACATATAAGATGAAAGGATGAGTAATTAATTTACTCAGTAAGTGACCCCACTACCTGGAGTCGGGCTAAGCACCTAAGTCCTTTAAGTGCATCAACATAAGGCATACATATCTAACATACTTTCATTGGGAAAAGTTTACACTCACCCTATAGTTGGTTATGGATGTCCACAAACCTCTAGAGCCCCGAAGGAACACAAACCTCTAATGTACTCGAAAGAGCACAACCTCTGGTGAACCCGAAGGAACACAACCTCCTGTGAACCCGAAGGAACACAACCTCTAGTGCACCCGAAGGGGCACAACCTCTAGTGAACCCGAAGGTACACATCCTCTAGTGATCCCGAAGGAACACAACCTCCTGTGGACCCGAAGGTACACAACCTCCTGTGAACACCCAACCAATATAGGGGAGGTAACTCTACTAATAGAACGTAAACAGTCATATTCATGCTCATTCCATTCCATGGGTTCATACATTAAAATACTATACTGTTCATCACATAACATAACATAGGGTCATACATTAATAGGCACATACAACTTATGACATGGGAATCTTATACAAGCATACTATATTATAAAGGCCTTGGAAATTTCTACTTTTAAGCATGGAAATCTCATACAAGCATGCTATATCATAAGGACTTTGATAATTTCTAGATCTCATACAAGCATGCTAAAACATAAAAGCTTTGGTAATTTCCTACTTCATGGCAACTAAACGTGTGGCCCGAAGGCGGTTCAGGTAGTAAGATCACTTACCTGTTGATTGATCCATAAAATTACTATACGGCTCCTCTTGTAAAAATTCCTGAATAAACTGGGAATAAAATTTCCCCAATTTAAGTTAGTCTACAAGTCTAGTCTATCATGAGTAACCTAAAAATATTTGTCCGAGAGAGTCTTTACCCGAACGCGATCCAACTCGTAGCTTCCCCCGATCCCACGGACTAAAACAATTACTGAACACCTATTGAGATATACCAAATAAAGTTCGAAATTCTCAAATCTCCATCCAAAACATAAGCAACTAACCCATTCGAGTTTGAGATACTCACTTAAAGGTACTGTTCTGGCCGGACAAGAAAGGAACCGTTGCCGAGAGCCAAAAATCCGAGAGAGAATGATTCCCGAGCAAGAAGCGAGACTTGAGCGAGAGCATGAGAGCCGAGACAGCGAAACCGGCGAGAGAGCGATACCACGAGGCTGCGGCGACACTGGGCGCGGGGAAAGCGTGAGTCGAGCGGGAGAGCGAGAGAGCGAGAGAGCGGGAGCTAGCGAGAGAGCGATACCACGAGAGTGACGGTGCGATTGGGCGCGGGAGACCGTGAGGCGAGGGAAGAAAGTGAGAGCGGGAGAGCAAGACAGCTAGCGAGAGTTGAATGCCGACAGCGACACTCAAGGCGAAACCCGCGACACCCGACGCGTGAAACCTCCGGGAACTCCCGGAAACTGATGGAGAGCGAGAGAGAGAGAGATGACGGAGCAGCGGTAGGTTGGGAGAGGCAGCGGCGGCGAAAGGAAGGAAGGGGGAGAGCGAGAGATGCGGCGGAGAGAGAGAATTATTTTCTTTTCTTTTTCTTTTTGACGGCACGGAAAACGAGGTAATCCCTCTCCCTCCTTAAACCCTAATTTTCCCAATTTGTAAAATAATATCCTTTATTCCACCAAAATATTTATTTTATTCTATTTGCCCTAAAATAGAATAAGAATAAATTATTCTTTACCAAAAATCTAACATTTTCCTTAATTCCACCTTTAATTCTCTAATCACCATAAATACAATTTTTGGAACTTTCCTATTTAACTTAAGTAAATACAATAATGCATATGAATAATTAAAATTTCCTTTTTATGCAAAATAACTTAATTTAATTGATTAGGGAATTTACCTCAAGGGTTTGGGGTCGTTACAGCAAGTGTCCTAAATTCATAACAGCCAATAACCTACTTGTTTCAACGTTCAAAAGTTTGTCCACGTACTCAAGTGTCCGGAGTTTATGGCTTTGTTACATGTCATATAACTTTTGATTAACTAAAGGCTGTCTTTTACATGGCCCCCCTACAAGCTTTTTGAAGAGTTCGAATTTGTCTGACTTCTCAAAGCTTATGTGGCTGTACAATTTTTCTAGCTTTGTTTCAAAATTACAACGTATTTATTAACCCTGTCCCCCTCCTAAGGGGCACGTTTTTGCCTCCCCTATGCGCTCATTGGTTTGTTGAATGATACAGCATGACGTTGATGGAAAAGCATACTACACATTTGAGTTCGTAGCTCAAGCTCCAAACTACACTCGCCATGCTCTTAGCACAATTGCTGTTGCCAATGGTATGGTACTTCCTTAGTCTTATTTTACAGTTGCTGGGGATCTTCTTGAGTTTTTCCTTTTTTCGTCTTATTTTTACTGTCAAACCAAAGTAAAATCTACTTAGATTCCTAACAAAGCTCTTTTATACCCTTTTAGTGTCAATTACATCCGTCATTCTTCTATGGCAGGAAAATTCTACACTTTGACAACCGGAGCAAATGAGAGGAGGTGGGAGAAAATGAAAGATAAATTGCGCACAGTTGTTGATTCCTTCACAATTTCAAAAGTTTGATGGTGTTCTCCCCAGTGAACACAATTTATCATTATTCATTCCAACGCCATTTTGATTCTCCCAGGTTGTTTAGAGCTAAACCTTTTGTCCTTCCATTATTTTCATTGACAAGCGAAACCCCTTGTATTTTTTGATGCCTATGTAAAAGAATGCAATGACACCAACAAACTTCAAAGTCGTATTCTTAATTAAGAAAATATACAACTCTTTGTTATTGAC AAGGAAGAGGGAAGACATTGATTCAATTGGTTTAGGACTCGAGTGATTTCAAGAAATTTGCCTATAAATTGAGGGAATGGGAAAGGAAGAGGGAAGACATTGATTCAATTGGTTTAGGACCCGAGTGATTTCATGAAAGGGAGGGTACAAGTTCCTCCAATTACTTGGCTTACTTTGTCCTTCGTCTCTCCTACCTTCCTCTTACCCTCACCTTGGAGAGAAATTGATGAACCTAAAGCATTGTTATTGGGAGATGGTTGGTTAACATTCGGTTGTGACTATTTAAGGGCTAGAACCTCAACGATCGGAATGAGAGATGGAGAAGGAGGATAAACTGAAGGGGAATTGAAGCTCCGTCATTTAAATTATTGGATGATGAACCCTCACCTTTCTTGGATGATTTAGAGGTAATTGGGTGGTGTGAAATGATTGGACAAGTCAAAACTACTCGTCTATTTTTCAGACAAATACTCGAATAATCATTCTTCAAAATACTGAAAGACAAAGAAGCGAAGAAAACGATCGAGTGATTTTCGAAATACCGAAAGATGATTTATTCAGTCATAATGCATAATTATTTCTAAATTTTGAGGGTAATATAACAAAGACATGTAATCACACGTCTTCAATTGTATCACAAGTGCCAATGTAAACCGTTTCAATCTAGTCGTATTACAATTGCAAATTGTCCATACAAACAAATTCAAAGCAATCTATTCATTTATTTTTTATTATTATTATTTTTTTTAACGATTGATACATAAGAAAACCTATTACGATTGTAAGAAATTTGATAACGGAATAGTAGATGTAGAGTGGTATATAAAAATAGAAGAAATAGATAAAAAGGCAGAAAAAGGGGTGAGGGGCCGACGCAAGAAATGTGGCTGAGGGAACCCGCGAAGACAGCGGATAGGCAATCCAATAACAAAACCAAAAGATAAGGCAATCTTACATCAACTAAGCACACGCTTCTCAAGCAAAGGTCCTTCAATGGCTTCTCTGCACTGCTCACCCTCCGTTCAAAACTCCCTCTTCGTCAATTCTCTTCCTCAGAAACTCCATGGAAGATTTGTTTGCTGCAGAGCGGGGGTTTCATTTCTTGTCAGGGCTGAACAAGCACACGGATCTTCAATTAATGGTCATGCGTATAGTTCCGAAGATAGACTCGGGAGACGACAACTGTTAGCTGGCAGTGCCTTTATTACTTGGATTTCTCTTGCAGACATGAGTTCCATGTCATTTGCTGCAGAAACAAAGAAAGGGTTTCTATCAGTTTCAGACAAGAAAGACGGTTACTCATTCGTCTATCCATTTGGGTGGCAGGAAGTAGTCATTGATGGTCAAGATAAGGTATTCAAAGATGTAATTGAACCATTAGAAAGTGTCAGTGTCAATATGGTTCCAACCAACAAAGAAGATGTTCGAGATTTTGGGTCCCCTCAACAGGTTGCAGAAACTTTGATAAAGAAGGTTCTAGCTCCTTCTAATCAAAGAACGAAGTTAATCGAAGCATCAGAGCATGACGTTGATGGAAAAGCATACTACACATTTGAGTTCGTAGCTCAAGCTCCAAACTACACTCGCCATGCTCTTAGCACAATTGCTGTTGCCAATGGAAAATTCTACACTTTGACAACCGGAGCAAATGAGAGGAGGTGGGAGAAAATGAAAGATAAATTGCGCACAGTTGTTGATTCCTTCACAATTTCAAAAGTTTGATGGTGTTCTCCCCAGTGAACACAATTTATCATTATTCATTCCAACGCCATTTTGATTCTCCCAGGTTGTTTAGAGCTAAACCTTTTGTCCTTCCATTATTTTCATTGACAAGCGAAACCCCTTGTATTTTTTGATGCCTATGTAAAAGAATGCAATGACACCAACAAACTTCAAAGTCGTATTCTTAATTAAGAAAATATACAACTCTTTGTTATTGAC ATGGCTTCTCTGCACTGCTCACCCTCCGTTCAAAACTCCCTCTTCGTCAATTCTCTTCCTCAGAAACTCCATGGAAGATTTGTTTGCTGCAGAGCGGGGGTTTCATTTCTTGTCAGGGCTGAACAAGCACACGGATCTTCAATTAATGGTCATGCGTATAGTTCCGAAGATAGACTCGGGAGACGACAACTGTTAGCTGGCAGTGCCTTTATTACTTGGATTTCTCTTGCAGACATGAGTTCCATGTCATTTGCTGCAGAAACAAAGAAAGGGTTTCTATCAGTTTCAGACAAGAAAGACGGTTACTCATTCGTCTATCCATTTGGGTGGCAGGAAGTAGTCATTGATGGTCAAGATAAGGTATTCAAAGATGTAATTGAACCATTAGAAAGTGTCAGTGTCAATATGGTTCCAACCAACAAAGAAGATGTTCGAGATTTTGGGTCCCCTCAACAGGTTGCAGAAACTTTGATAAAGAAGGTTCTAGCTCCTTCTAATCAAAGAACGAAGTTAATCGAAGCATCAGAGCATGACGTTGATGGAAAAGCATACTACACATTTGAGTTCGTAGCTCAAGCTCCAAACTACACTCGCCATGCTCTTAGCACAATTGCTGTTGCCAATGGAAAATTCTACACTTTGACAACCGGAGCAAATGAGAGGAGGTGGGAGAAAATGAAAGATAAATTGCGCACAGTTGTTGATTCCTTCACAATTTCAAAAGTTTGA MASLHCSPSVQNSLFVNSLPQKLHGRFVCCRAGVSFLVRAEQAHGSSINGHAYSSEDRLGRRQLLAGSAFITWISLADMSSMSFAAETKKGFLSVSDKKDGYSFVYPFGWQEVVIDGQDKVFKDVIEPLESVSVNMVPTNKEDVRDFGSPQQVAETLIKKVLAPSNQRTKLIEASEHDVDGKAYYTFEFVAQAPNYTRHALSTIAVANGKFYTLTTGANERRWEKMKDKLRTVVDSFTISKV Homology
BLAST of Clc09G21940 vs. NCBI nr
Match: XP_038890216.1 (psbP-like protein 1, chloroplastic isoform X2 [Benincasa hispida]) HSP 1 Score: 463.4 bits (1191), Expect = 1.2e-126 Identity = 230/242 (95.04%), Postives = 237/242 (97.93%), Query Frame = 0
BLAST of Clc09G21940 vs. NCBI nr
Match: XP_023551143.1 (psbP-like protein 1, chloroplastic isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 455.3 bits (1170), Expect = 3.3e-124 Identity = 224/242 (92.56%), Postives = 235/242 (97.11%), Query Frame = 0
BLAST of Clc09G21940 vs. NCBI nr
Match: XP_022993267.1 (psbP-like protein 1, chloroplastic isoform X2 [Cucurbita maxima]) HSP 1 Score: 453.0 bits (1164), Expect = 1.6e-123 Identity = 223/242 (92.15%), Postives = 234/242 (96.69%), Query Frame = 0
BLAST of Clc09G21940 vs. NCBI nr
Match: XP_038890215.1 (psbP-like protein 1, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 453.0 bits (1164), Expect = 1.6e-123 Identity = 229/251 (91.24%), Postives = 236/251 (94.02%), Query Frame = 0
BLAST of Clc09G21940 vs. NCBI nr
Match: KAG7016254.1 (PsbP-like protein 1, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 452.2 bits (1162), Expect = 2.8e-123 Identity = 223/242 (92.15%), Postives = 234/242 (96.69%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy Swiss-Prot
Match: P82538 (PsbP-like protein 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PPL1 PE=1 SV=1) HSP 1 Score: 289.3 bits (739), Expect = 4.1e-77 Identity = 151/241 (62.66%), Postives = 181/241 (75.10%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy Swiss-Prot
Match: O80634 (Photosynthetic NDH subunit of lumenal location 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PNSL1 PE=1 SV=2) HSP 1 Score: 133.7 bits (335), Expect = 2.9e-30 Identity = 71/197 (36.04%), Postives = 107/197 (54.31%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy Swiss-Prot
Match: Q40407 (Oxygen-evolving enhancer protein 2, chloroplastic OS=Narcissus pseudonarcissus OX=39639 GN=PSBP PE=2 SV=1) HSP 1 Score: 64.3 bits (155), Expect = 2.2e-09 Identity = 57/208 (27.40%), Postives = 95/208 (45.67%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy Swiss-Prot
Match: Q04127 (Oxygen-evolving enhancer protein 2-3, chloroplastic OS=Nicotiana tabacum OX=4097 GN=PSBP3 PE=2 SV=1) HSP 1 Score: 60.1 bits (144), Expect = 4.1e-08 Identity = 68/274 (24.82%), Postives = 112/274 (40.88%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy Swiss-Prot
Match: P18212 (Oxygen-evolving enhancer protein 2-2, chloroplastic OS=Nicotiana tabacum OX=4097 GN=PSBP2 PE=1 SV=2) HSP 1 Score: 57.8 bits (138), Expect = 2.0e-07 Identity = 67/274 (24.45%), Postives = 111/274 (40.51%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy TrEMBL
Match: A0A6J1JSB4 (psbP-like protein 1, chloroplastic isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111489333 PE=4 SV=1) HSP 1 Score: 453.0 bits (1164), Expect = 7.9e-124 Identity = 223/242 (92.15%), Postives = 234/242 (96.69%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy TrEMBL
Match: A0A6J1FN44 (psbP-like protein 1, chloroplastic isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111445433 PE=4 SV=1) HSP 1 Score: 450.7 bits (1158), Expect = 3.9e-123 Identity = 222/242 (91.74%), Postives = 233/242 (96.28%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy TrEMBL
Match: A0A6J1BYZ6 (psbP-like protein 1, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111006749 PE=4 SV=1) HSP 1 Score: 448.0 bits (1151), Expect = 2.6e-122 Identity = 222/242 (91.74%), Postives = 233/242 (96.28%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy TrEMBL
Match: A0A0A0KS54 (PsbP domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G505230 PE=4 SV=1) HSP 1 Score: 445.7 bits (1145), Expect = 1.3e-121 Identity = 220/234 (94.02%), Postives = 231/234 (98.72%), Query Frame = 0
BLAST of Clc09G21940 vs. ExPASy TrEMBL
Match: A0A5D3C3H9 (PsbP-like protein 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold98G002630 PE=4 SV=1) HSP 1 Score: 444.5 bits (1142), Expect = 2.8e-121 Identity = 220/234 (94.02%), Postives = 231/234 (98.72%), Query Frame = 0
BLAST of Clc09G21940 vs. TAIR 10
Match: AT3G55330.1 (PsbP-like protein 1 ) HSP 1 Score: 289.3 bits (739), Expect = 2.9e-78 Identity = 151/241 (62.66%), Postives = 181/241 (75.10%), Query Frame = 0
BLAST of Clc09G21940 vs. TAIR 10
Match: AT2G39470.1 (PsbP-like protein 2 ) HSP 1 Score: 133.7 bits (335), Expect = 2.1e-31 Identity = 71/197 (36.04%), Postives = 107/197 (54.31%), Query Frame = 0
BLAST of Clc09G21940 vs. TAIR 10
Match: AT2G39470.2 (PsbP-like protein 2 ) HSP 1 Score: 132.9 bits (333), Expect = 3.5e-31 Identity = 68/182 (37.36%), Postives = 101/182 (55.49%), Query Frame = 0
BLAST of Clc09G21940 vs. TAIR 10
Match: AT2G39470.3 (PsbP-like protein 2 ) HSP 1 Score: 68.2 bits (165), Expect = 1.1e-11 Identity = 37/116 (31.90%), Postives = 58/116 (50.00%), Query Frame = 0
BLAST of Clc09G21940 vs. TAIR 10
Match: AT2G28605.1 (Photosystem II reaction center PsbP family protein ) HSP 1 Score: 43.5 bits (101), Expect = 2.8e-04 Identity = 28/121 (23.14%), Postives = 57/121 (47.11%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (cordophanus) v2
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.
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