Csa1G118870 (gene) Cucumber (Chinese Long) v2
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CACACACCCATTTCCCTTCACCACCAACCCCATCAATTTCTTTTTCTTTTTAATCATATGATCATAATCTCTCTCATTTTGCATTTTTGTTTTTCGTCCCTCAATGGCTCACATTATTGCTCCTCCTCCTCCTCACTCTCCCTCCCAATTTGTAAGTTTCTTCAATTGTTTTTTCTTTCCCATTTCAATTACCTCTATACAAAACTATATCACATTACTTACTTGCATAACTGTGTATGTTTTATGACCATTCCCCCAAATTTATATTGTCAATCGTTGATTCAATTAAGATACTACCCCTATATTCATCTCAAATCATTTTCTCACTATTTTCTCCTGTGTGAGTTCAATCTTCACCTCATATTTAATTATTTGAATGGATTTTTTTTAGTTCTCATGCATATACATAATTTAATTAATGGTAAAATAAAATAAAAAGTTCCTACCTAGTGTGTCTTTTTATATCTTTTTTGAAGATTTCACTTCAAGGGGTTCTTATTAATTTAGTTAGTCTTATACAATGGCTAAAGTTTGTTGAAAGGATTACATTTCATTTCAAATTTTGTATATAGTTGATTTTATTTTTTATTTCTTTAGTACAAATGTATTGTTCAACAATAGTTCATTAAATTATTAAATTTACTCTTTTGTTTCTTTATGATGTTTCGGAATCCAGCTGAAGAAGAAGCTTAGTGGGCAAAGAAAGAAGGAGGAGCTTGAAAGAGAGGTTTGTAGTTTGTATAAGTTTTGTTGTTATTATTATTAATTATATTAATTTTTTTGCTGATTTTACAATGTTGAATATTGGGATATAATTTGGATGATATTATAAGGTTTATATATATATATATTCATAAGATCAGAATCCCTAGACATAGATCCATAGGGGATGGGATTAACTTAGTAGTACTCTTTCTGAGTCTATGTTGTTGAATTGATTCATCAGAGAGGAACAACCACAGGGGATGGCATAACCTCATTAACTCTTTTTATCATCATTTGGAAAATGATTGTATTGGCTCAAACTTGTTAAAATATCTACAAAATAAAGTAAAACTGCATACTCTGTTAATGTCAATATAGAGGTGAGTATCACTGTAGTTTATCAGTGTCTCATCATTGATAGATTATGAAATTTTGTTATATCAGTATTTATGTGGATAAAATTTAATTTTTTTTCTATATTTTGGTTCATTTTGTTATAAACGTAAAAGAAAATCATATTTTAATATTATTTGTTTTAGAGATAACTACAAATACATTAATAAAATCCAAAATATTAATAGACATAAATGTAAACAATAAAATAAATTAATATAAATATAACAAAATTTAGATTCAACTCTTATAGTCTATCAATCACATACACAATTGTTGTGATGCTTAAAGTATTGAATTATTAACCTTAAAAATAATATTTATGGAAATTAACTTCTATTTTTAATTATATTATACTATCAAAAGAATGTTTTTTTTATTTTAAAAAATATTTAAGTAAAATTGAAAAAAAAAAAACAAATACTTTATAAATAGGATCTCTCATTTTCTTTTATGTAGTAAAACAAATTATTAACAGTCAATAATTCTTTTATTATAGTTAGGTTTGGAGAAATTGGGTGACACATAATCTCTTCCAGATTGCCACTTAGAAGACTATTAGCAGTTGGGAATAATCTTTGTTTATATAGAAAAAGATACATATAGTGTTTACCTTAGCTTCAAAGGAAGAATTACATCTGTTGTGTTGTTGTTATGCCTTTATGAACAAAGTAAACCAAATCCCTTCTTTTATAAACTAAAAGAAACCAACACTACAAAACTTAACTTTCAATAATGGGGAATTTAGGTGAGTTTTTACTTTATTTCTAAATTATTTCTAAGTTTTATCTATATTATTTTGTACCTTACCTCAACTCCAATTTATCTTGAATCTTATAAAATTTGTTGTTTATAAAAGATATTAGTTTTTTCTATAAAAAAATTAGGTTTAAATTTGGAATCCTACATTGAAAAATCAAGGAAGAGTCCACACAAAATTCAAATGGATACTCGATCCATATAAAATAAAATTTATATATGATCAATGAACCCCACAAAATTTAAAAATATTTTCAATATTCATGTCATTTAAAATAAATTTTTAATTTCAATATACAAAACTTTAACCAGTATGATCAGCTTTATGTAAAATAAAATAAAACATTTTTTTTTCCTTAGAAATATGCAAATTTTTATTAAGATGTTAGTTTTTGATATATTACTTTTTGTAATCCAACATTTAATCACTCAATTAATACATACGTGTTCAACAACAATAATGGTGTCTTTTTTTCTTTTAATTTCAAATATTAAAATAAATATTTTTTAAAAAAAATTGTTATGAATGGAAAAAAAATGAAACCATTTATAAAATATAGCATAGAGTAATTAATTAGGGTACAAAGAGTTTAATGGATTTGGATGAATTTTGGTTTTGCAATATTTTATATACTGAGCCTAATGAGACCAAATAATGAAGAAGAAATGATACTATTGTTATAATAGGTGTTGATGCTTCAAAAATTATTAAATCAAGAAGAAAAGATGCATGAGATTTTAGAAGGTGTTAGTAAACAACAAAATGGTTCAGCAATTGGCATCTCAAATTTGCTTCCTCCCAAGGTATGTATATCGAAATTAAAATTAAAATAACACCCTACATATAATTAACTTTGTTACTATTTTAACCTACATTCAAAATTATATAGTTCACTATTGTGATACTTGTGTATATGTTATGTTCACCATCCAATTACATATATATATATATATAAACACATATAGATTATAGTAACCAGTATGATTATCAATCTTTCATATACTTACAAGATATTCAAATGTTGTAATTATGCATCAATTATTCTTTTGATTTAATTTTAAATTTTTGAAATTAAGTTTGAAGATTTATCGATAGATTTCTTTTGCTTTATTATACACTTTCTATTGATGTTTTATCGTTAGTAGATTTTAACCATCGTTTTATTCTTCCAAATAAATTTATTAATTTATTAATTTTCTATCGATTTTGATGGTTAGAAAAAGAAAATGTTAATAATTTATAATTTTTTTAAAATATATATGTTAATACATTTGGTGGATATTTTTATGAAAATTAAAATAAAATATAATTTTAATATTTTTATTACTACCAGCATTTTAAATATTGATACTGACAATCAATCATATATATATATCCATTGAAATGAGGGCTTTAGAATGATGTGTCGATATTTTAAGAATTTAATTATTACAACCCCTATAACTCAAACTCAAAGGTTGTTTTTACAAAATCAAATGACAAAATTTGAGAATATTTTTAGGGCAGATTTCTTAAACCCTACAAAAACCTAATAATAAAATAATAATAATTGTATTGAAAATTATATTTTACAGAAATTTGTGATGTGAGATGATTATTAATGTGGGTTTTTGTTTAGACTTCTGACATGCTATTCTTTTCTCTTTTTTTTCTTTTTTATTTTTTGGAAATTTGAAAAATAAAGAAAATAAAATGTGCATTAATGATTTAAAATTATAAAAAAAAAAAAAGAAAAGATGATGTTGGATGGGATATGTTTCATGTTTGAGTTACAACTTCTGCTTTGTCTCCCTCTCTATGGACCTGATGTGATGCTAACCTTTGCTTTTTTCCCCCTAAGTACATATCCACTCTATTTCTTTCTTTTTGTTTCAAAAAATATATATAATATAATATTCAAAACCATTATTATAAATCACCAACAACAAGAATGTAAACTTCTATACAAGGTTTATTTTAATACTTAGGGGCTTATTACATCTAAAACACAATAACTTACAATTTATTTATCAAATCCAGTATCCAACTTATTTATGTCTACACTAAAACTTATCAAACACTGATTTGCCTCATATTACAACTCAGTTTTTCTTAGAACATTGTTTTTAGAACTTATTTTTAAATTAACATATCAAATCCAAACTAAATCTTAGTCTAGGTGTGAGCACTCTTTTAAGTTGTAAAAATATATTTATATAGTGTTTTTTCTTTCCTTTTTTTGTAGCATTAAGATTATTATTATTATTATTATTTAGACAACTTCAATAAAATGAAAATTCATTTTAAAGAATTAAGTTGAAAGATTTTGATTGTGTTGTTAGGGCCAACACTTTTAAGTGGGTAGCTGTTGGCCTGTCCTATGTTGAGTATGAAGGGGATTATATGTTATCATTAGTGTGACAGAAAACTAGAAGATTATTTGTTACTCTCTTAATAACAACCAATATGATTGATTATTAATACAATCTAAACGTATGGGTTGTATATATATTAAAATTATTCAATATGTTTTTTGAAAAAGTTAAAGGTTTTATTTCCTCTTCCTCTTAAATTTAATAGGTGTCTTTTTTATATAATTTCTACCTTTTAAAATTTAATAACTAAGGATAATTTGAGTTAAAAAAACTAAAATGACGTTGCAACGTACGAGATTACAACAATAAAAAGAATTAATACTTATAATAAATAAGAAATATTTAGATTCGAATGTTATTATTATTCTCTAATTTATGTACTTTTTGGAAGTGTTTGACCGTCATCCACTTAAGTTGGGTTCATTTTGTTAAAATAACCTAATTTAACCCACGGATATCATAACTTAGTGTTTAGATAATTATACTCAATCAATTTAAATCTTTCTTAATCAAAAGGATTACTCGAAAATTGTTGATTATTATTTAACCATTCCCTATTATCCCAATACCTTTCTTAATTAAAAGGATTGTAGGAGAATTAATAACTCAACTTTGTGTCTCGAACACAAATAATACTACAAATAATACTATATGATTAATTTATTTTGGTACTTGAACCAAAACAAGTACACTGTCTTTAAACTGATTTTTTTAGAAAAAGAAAGAAAAAAAAAGTTAAATTTGAAGAACTAAATAGAAGAATATGGAATGCAGGTGAAGGAGATGTTAGCAGAATTAGCAATGGTGGAAAGTGAAATAGCAAGGCTTGAGATTCAAATAACTCAACTCCAAAAGGACTTGAAATTTGAGCAACAACAAACCACAAAGTCCAAGCAATGGAGCTCGGAACAGCAACCTCAAACTAATAACAATAAACCACCATTGAATTGGAACCCAATTAGCAAAACAACTTTTGACACTAAGGCTCTTCATTTCATTAGCAAAGCCATCAAGGGTGATTATGCGCCTCTCAATCATCACTTCAAGTTGGATACTTCCAAAAATAATGAGTTAGATCCTAGAGATGCCAAAGACTCTCATCATCCTCTTCATGAGGTTAAACTCCATGAAAGATCAGTTTCTCGAAAGAGTGGCCTTCTCGTTGCTTCATCCCCATTGCGAGACCCCCGACATCCTTCTCCAAAGGTACACATTGCATTTCGTTTATCATTTTTATTTGATTCGTTCTTTCAAGTTTTACATATAACTCATTCTCTTCTTTGGTTCTTCCGTTTATCATTTTCCTTGTTCATATTATATATTTTTTAGATTCTTATACTAATGATCAAATCCTAAGTGTGTGCTAATGCAGAATGACCCAATACTAGAAACCAATCAAAACTAACCTTCTACTAACATCACAAAGTTCTCAACAACTTGGAACTTCTTTCCAACCATCATGGCACTTCTCATTCATCGCAAAATATTTGATACCCAATAAAATTGCAGTCGAGCTCTCTACTATAATTTTGTAGTGGTTGAGCACCCACAACTGCAAATCGCGTTAGAAATCGATGGTAAAAGCTGCAATCACGAGACGTAGTTTCAAGTTGTTGAGTGCTTATATAACATAAGTAAAACGTTTAATTTTCTAGGATTTAGACATTTCATATTAGCACACTTAAGATTTGGTTATCGGACTAGAATTATTCCACCTTTGCTTTGTTTTCTAATCTTGAGTTGATAGTTTATAATATATTTAATATTCAAAATACAAATTATCATTTATATTAGTGATAGATATATCGATAGAAAGTCATGTCTATCATTAATAGAATTTAAAATTTTGTTATATTTTGTAAATATTTTCAATAGTTTTGTTATTAATTTTCCTTTCCAAATCCTCAAAAGATTAGGTTTTAAACATCTCTTATAATTTTTTATTTACTTTAAAATAGTTACATGATCGTTTGAAATAAAAAAAACGTTAACATAAAATAATTTTAGATGGAAGAAATAGCTTCTAAACAATTGAACTTCTTAACATTATTTTTTCTAGTCGAGATAAAAGTTTACGATATCATCCTCCTCCTAAACCTATTTTAAAAATTCAAATTGCAGGGACCAAATGTACACTCTTGAAGAACTTTATTATTAAAAATGTGTATTTTGAAAAGTTTGAGATCAAACATATTTATTCTTTGAAACTTAGGGATTCAACATGTAACTTTTGTGTTAATTATGTAGATCCATCTATTGATAAGTTTTTTTTATTTTTCTTTCTTTCGGAAATCATTTTTGTGTTAGCAACGAGAGAGAAATCCATTAGACATACCACTACCAAAATCCATCCCAATGCTAACTCAAGCAGAAGAAAACATCCAAAATTGGCATCCCAACAAGCTATCGGAGAGTATCATGAAATGCTTGAACTTCATATATGTGAGGCTGCTAAGAGCCTCAAGAACAATGGAGCTAGAGAAGTCAGGTCCCATTTCAAGATCTTTGCATTATTCTTCTTTGAGCTCGAGAAGCTTCCGAGTCGAGAATGGTTTGAACTCAAGCCTTTCGGCGCACAAAGAACTAAGGCAACAAGATCCTTATGGCATCTTCGAAAATGAAGAATCGTTACCGAGGGATATTGGCCCTTACAAGAACTTGGTCATATTCACATCAACTTCCATGGATCCCAAATCCATATCAAGTGCCACCTTCATCCCTCTCATGAGGAAGCTAAGGTATTTTTAACCCACTTCTTTAAGCTTCATGAGTCTAATTAGTATTTGAGGAGCTATGCGGTCCATCTAAACCTGATTACGTTAACGTTGAATAATTAGAATTCTATAAACAATAAAAACTATTTTTTTTCTTTTGCTTATCTTTCTGTAAAACGCAACGAACAACGTGAAATTTTTGCTTACCATTCATGAATGCATGGGATATTTGACACATTTTCAAATTGCATTGCAGTTTTTAAGGAAAAAAAACTAATTTGATCGTTTAGCATTGCCATGGTTAAAATTTCACGTTGCACATTGCTTTGTGACCTAAACAAAATGCTAATTTTCACTATTTTTATAATCTAGCTACGTCATTCAACATTGATCCAACCATATTTGGGTTATTCATACCAAAATAAAATGAAAAAAAAAAAACTCGTATTCAAACGTCCACTCCTTTAAAGCAAAAAAAAAAAGATTGAAACTTTCTGTTGTTTTTATTTTTAAATTTTTAGTTTTGACCGTTCTAATTCATAGGTTTCAAAATATTATACCTTTAGTCCCTAGACATTAAAATGGGTAGATTTTAAGTTTTGAACTTTCATTTCTCTAAGTTTAATTAATTTTACAATTTTACTTATGCTATATTTTTGTCGCGGGTCAGTTTGAAAGTTATCTTGATAATTATTTTAAATGAATCAATAATATAAAAGTGGGTATTTAATAAAAAACTGATGTTTATTGTACGTATTAGAATCAAGAATTTAGATGAATTATAACATTTTGAAATCTAGGAATTAAATCAAATTCAAACTCAGAATTTAAACCATGAAAGTAAATGTATTTTGAAAGGCATAACCAAAGAGAGTCATAGACACACTAGGTAGACTCAAAACCTAGAACCAAAAAACAAAGGTTTTTTTTCTTTTTCTTTGTTTTGATTCTTGGCTTTGTGTTCTCACTTTTGTGGAATGGTGCAGGGTGTTGATGAGCAATTTACAAAAAGTAGATCTAAGGCCATTGAGTTACCAACAAAAACTAGCATTTTGGATCAACATGTACAATGCTTGTATCATGAATGTAAATTCCTGTGGATCAAAACACCATCTTCTTTTACCATTTCAACTCATTCAATTTCTTTTTAAGATCAGCTTTGCTATAACAAAAGAATGATATTTTTTGTAGGGATTTCTTCAATATGGAGTTCCTTCGTCTCCAGAAAAACTAGCCACTTTGATGAACAAGGCAAGTAAACCCTATCAATCATAACCGTGTATTTTCAATCTTTTTCTTTCTTCTTCCTCTTCTTTTTCTTTTTTGACAAATTCTTTTCTTTCTTATCTGTGTGTAAATTGTTGATGTTTTTTTAGACACTAGCATGCTTAGTATATACATAACCCAAGTCTCACTTAAACTTTATACTCTTTATATAATATGTACAAAAAATCTGATATGATATCAAAGTTAGTAATCTAATTAAAAAAAACCGATATGATATCTATGTTAGTAAAAACTGATATGATATCAATGTTAGTAATCTAATTAAAAAAAACTGATATGATATCAATGTTAGTAATCTAATTCAATGGTAAAATTGTTATCTAGTCTTGTCATAGACCTAGATTCAAGCATTACATTTTATATTTTTTCTATATTATTTTTACTAAATTATAAATCTTCCATCAACAAAATTTATAGATCTGTCACAATTGCATGTAAAGGCATAGAACGACGGTTCAAATTTACCTTTTAATCTTTTTTTATCGAGAATATATGTTTTAGTATAAGTTATAATTAATATCTAAGTTGTATGATTTTTCACTCTAATGCCACTTCTAACCCTAATGTTTTAGAATAAAAACCTAAATTTATAGCTAATCATAATTGCATATACTTTTGAATAACATGTTTGAATGTTTTTTTTTATAATTATAATAGGTACAATGAAATAATTAAATATATAACAACATTTTAACAAAATTATAAATATAGCAAACTCTATCAACGTGATAGACTATTACGGTCTATCAGTGCTAGACTATTATAGTCTATTAGTGATAGACCAATATTTTAACATAGTTTAGCAGTGATAAATTTTTATTATTGCTAGACTTTGACACAGATTTGGTTATATTTATAATTTTTTAAAATGTTACTATATATATATATATATGCAAATATTTTTAATTTAATATTATACTTGCAACTATTCTTTGTTTCTTTGATTTCAGGCGATGATTAACGTAGGAGGCAACACCATAAATGCACAAGCCATAGATCATTACATTTTAAGGAAACCAATGTCTATTAACAAAGAGGTAATTCATCTCATGTTGAAAAAATATTCCAAAACATAATTTTGTAAATAAGACATCAATTAACATTTTTAAAAAGGATTCAATCCTATAATCATACTTTTGATATAGATACTAGAAAAATTCAAAGAAAAAAATCCTCTCTATCATAAAATTATAGGATCGTTTGACCCACTGAGTAAAGTTAATAAATTTGTACGTGCCTATAGTGTATAGTAGTTAATAAATTTGTACATGTCTATAGTGTATAGTTTTAAAACGTAGTTTCTTGATAATTGTAGAAAATCTAGAGCAAAATGAACAAATAAGTTATTTAATAAAGGATGGTTTGATCCACCAAAGTATTAAGTTCATGTAAACAACACAATTTCAATTTCAATAGTAACGGCTTTCCACATTTATGGATTAAATACCCATATTTCCTTCTTTTTCCACTTCTTACATTCATCTAGTGATTTCATCTATCTTTTCATTTTTATTTATGTTTTACATTTATCGTGTAATTCCATGTTTCCTTCTTTCTTTGCATTTTCAAAAAAAAAAAATATTGGTCTTACTAGCTAACTTCAACCTATAAACTCTAAAACTTATTAATTCTACGTTATTAAGCCAAACAGCCTCTAAATTTGAGAAGTAAAAGAAGTAGAAGAGGAAGAGTGAATTTCTCAACAATGTAAAAATAGAAAAATAAAAACATTACGATTAAAGTTGAAGTTGAGATTTCTTTATGACCGGTCAATTTATATACCTCTTTCTTTCTAAAAATTTCATCTCCCAATAACTTGTATTTAAAACTTCCATCCATCTCTTCCAAAACTAAAAGGCTTTGCTTCAATAATGTGTGTTATTCCATATTAACTAGGACGACAACAAAGAAGCCATAGTTCGGAAGCTCTACGGCCTAGAATCATCAGAACCCAACGTCACATTCGCCCTATGTTGTGGGACACGCTCATCGCCGGCTGTGAGAATATACAGTGGCGAGGGGGTGGGGGTGGAGCTCGAGAGATCCAAGCTCGAGTATCTGCAGGCATCGGTGGTGGTCACCAGCTCCAAGAGGGTCGCAGTGCCGGAGCTTCTGGTTCGAAGCTTGCCGGAATTTTCATCAGCGGACATGAAGACGGTGGTGGAGTGGGTGTGTCACCAGCTGCCAACGTCGGGGAGTTTGAGGAAATCAATGGTGGAATGCTTTCGAGGACATCCCAAAACGCAGCCTACCATTGACACTTTGCCTTATGACTTCGAGTTTCAATATCTTTTGCCTTTGTAAAATCTAATTCTTTAAATTTGAGGAATAATCAATTATTTGGATAAGGGGTTCTTTTTTTCATTATTATTATTTTGAATTAATTTTGATGGGTTTGATTTGTATATTGGATAATTCATAATCACAACTTTTTTAT ATGGCTCACATTATTGCTCCTCCTCCTCCTCACTCTCCCTCCCAATTTCTGAAGAAGAAGCTTAGTGGGCAAAGAAAGAAGGAGGAGCTTGAAAGAGAGGTGTTGATGCTTCAAAAATTATTAAATCAAGAAGAAAAGATGCATGAGATTTTAGAAGGTGTTAGTAAACAACAAAATGGTTCAGCAATTGGCATCTCAAATTTGCTTCCTCCCAAGGTGAAGGAGATGTTAGCAGAATTAGCAATGGTGGAAAGTGAAATAGCAAGGCTTGAGATTCAAATAACTCAACTCCAAAAGGACTTGAAATTTGAGCAACAACAAACCACAAAGTCCAAGCAATGGAGCTCGGAACAGCAACCTCAAACTAATAACAATAAACCACCATTGAATTGGAACCCAATTAGCAAAACAACTTTTGACACTAAGGCTCTTCATTTCATTAGCAAAGCCATCAAGGGTGATTATGCGCCTCTCAATCATCACTTCAAGTTGGATACTTCCAAAAATAATGAGTTAGATCCTAGAGATGCCAAAGACTCTCATCATCCTCTTCATGAGGTTAAACTCCATGAAAGATCAGTTTCTCGAAAGAGTGGCCTTCTCGTTGCTTCATCCCCATTGCGAGACCCCCGACATCCTTCTCCAAAGCAACGAGAGAGAAATCCATTAGACATACCACTACCAAAATCCATCCCAATGCTAACTCAAGCAGAAGAAAACATCCAAAATTGGCATCCCAACAAGCTATCGGAGAGTATCATGAAATGCTTGAACTTCATATATGTGAGGCTGCTAAGAGCCTCAAGAACAATGGAGCTAGAGAAGTCAGGTCCCATTTCAAGATCTTTGCATTATTCTTCTTTGAGCTCGAGAAGCTTCCGAGTCGAGAATGGTTTGAACTCAAGCCTTTCGGCGCACAAAGAACTAAGGCAACAAGATCCTTATGGCATCTTCGAAAATGAAGAATCGTTACCGAGGGATATTGGCCCTTACAAGAACTTGGTCATATTCACATCAACTTCCATGGATCCCAAATCCATATCAAGTGCCACCTTCATCCCTCTCATGAGGAAGCTAAGGGTGTTGATGAGCAATTTACAAAAAGTAGATCTAAGGCCATTGAGTTACCAACAAAAACTAGCATTTTGGATCAACATGTACAATGCTTGTATCATGAATGTAAATTCCTATCAGCTTTGCTATAACAAAAGAATGATATTTTTTGTAGGGATTTCTTCAATATGGAGTTCCTTCGTCTCCAGAAAAACTAGCCACTTTGATGAACAAGGCAAGAAACCAATGTCTATTAACAAAGAGGACGACAACAAAGAAGCCATAGTTCGGAAGCTCTACGGCCTAGAATCATCAGAACCCAACGTCACATTCGCCCTATGTTGTGGGACACGCTCATCGCCGGCTGTGAGAATATACAGTGGCGAGGGGGTGGGGGTGGAGCTCGAGAGATCCAAGCTCGAGTATCTGCAGGCATCGGTGGTGGTCACCAGCTCCAAGAGGGTCGCAGTGCCGGAGCTTCTGGTTCGAAGCTTGCCGGAATTTTCATCAGCGGACATGAAGACGGTGGTGGAGTGGGTGTGTCACCAGCTGCCAACGTCGGGGAGTTTGAGGAAATCAATGGTGGAATGCTTTCGAGGACATCCCAAAACGCAGCCTACCATTGACACTTTGCCTTATGACTTCGAGTTTCAATATCTTTTGCCTTTGTAA ATGGCTCACATTATTGCTCCTCCTCCTCCTCACTCTCCCTCCCAATTTCTGAAGAAGAAGCTTAGTGGGCAAAGAAAGAAGGAGGAGCTTGAAAGAGAGGTGTTGATGCTTCAAAAATTATTAAATCAAGAAGAAAAGATGCATGAGATTTTAGAAGGTGTTAGTAAACAACAAAATGGTTCAGCAATTGGCATCTCAAATTTGCTTCCTCCCAAGGTGAAGGAGATGTTAGCAGAATTAGCAATGGTGGAAAGTGAAATAGCAAGGCTTGAGATTCAAATAACTCAACTCCAAAAGGACTTGAAATTTGAGCAACAACAAACCACAAAGTCCAAGCAATGGAGCTCGGAACAGCAACCTCAAACTAATAACAATAAACCACCATTGAATTGGAACCCAATTAGCAAAACAACTTTTGACACTAAGGCTCTTCATTTCATTAGCAAAGCCATCAAGGGTGATTATGCGCCTCTCAATCATCACTTCAAGTTGGATACTTCCAAAAATAATGAGTTAGATCCTAGAGATGCCAAAGACTCTCATCATCCTCTTCATGAGGTTAAACTCCATGAAAGATCAGTTTCTCGAAAGAGTGGCCTTCTCGTTGCTTCATCCCCATTGCGAGACCCCCGACATCCTTCTCCAAAGCAACGAGAGAGAAATCCATTAGACATACCACTACCAAAATCCATCCCAATGCTAACTCAAGCAGAAGAAAACATCCAAAATTGGCATCCCAACAAGCTATCGGAGAGTATCATGAAATGCTTGAACTTCATATATGTGAGGCTGCTAAGAGCCTCAAGAACAATGGAGCTAGAGAAGTCAGGTCCCATTTCAAGATCTTTGCATTATTCTTCTTTGAGCTCGAGAAGCTTCCGAGTCGAGAATGGTTTGAACTCAAGCCTTTCGGCGCACAAAGAACTAAGGCAACAAGATCCTTATGGCATCTTCGAAAATGAAGAATCGTTACCGAGGGATATTGGCCCTTACAAGAACTTGGTCATATTCACATCAACTTCCATGGATCCCAAATCCATATCAAGTGCCACCTTCATCCCTCTCATGAGGAAGCTAAGGGTGTTGATGAGCAATTTACAAAAAGTAGATCTAAGGCCATTGAGTTACCAACAAAAACTAGCATTTTGGATCAACATGTACAATGCTTGTATCATGAATGTAAATTCCTATCAGCTTTGCTATAACAAAAGAATGATATTTTTTGTAGGGATTTCTTCAATATGGAGTTCCTTCGTCTCCAGAAAAACTAGCCACTTTGATGAACAAGGCAAGAAACCAATGTCTATTAACAAAGAGGACGACAACAAAGAAGCCATAGTTCGGAAGCTCTACGGCCTAGAATCATCAGAACCCAACGTCACATTCGCCCTATGTTGTGGGACACGCTCATCGCCGGCTGTGAGAATATACAGTGGCGAGGGGGTGGGGGTGGAGCTCGAGAGATCCAAGCTCGAGTATCTGCAGGCATCGGTGGTGGTCACCAGCTCCAAGAGGGTCGCAGTGCCGGAGCTTCTGGTTCGAAGCTTGCCGGAATTTTCATCAGCGGACATGAAGACGGTGGTGGAGTGGGTGTGTCACCAGCTGCCAACGTCGGGGAGTTTGAGGAAATCAATGGTGGAATGCTTTCGAGGACATCCCAAAACGCAGCCTACCATTGACACTTTGCCTTATGACTTCGAGTTTCAATATCTTTTGCCTTTGTAA MAHIIAPPPPHSPSQFLKKKLSGQRKKEELEREVLMLQKLLNQEEKMHEILEGVSKQQNGSAIGISNLLPPKVKEMLAELAMVESEIARLEIQITQLQKDLKFEQQQTTKSKQWSSEQQPQTNNNKPPLNWNPISKTTFDTKALHFISKAIKGDYAPLNHHFKLDTSKNNELDPRDAKDSHHPLHEVKLHERSVSRKSGLLVASSPLRDPRHPSPKQRERNPLDIPLPKSIPMLTQAEENIQNWHPNKLSESIMKCLNFIYVRLLRASRTMELEKSGPISRSLHYSSLSSRSFRVENGLNSSLSAHKELRQQDPYGIFENEESLPRDIGPYKNLVIFTSTSMDPKSISSATFIPLMRKLRVLMSNLQKVDLRPLSYQQKLAFWINMYNACIMNVNSYQLCYNKRMIFFVGISSIWSSFVSRKTSHFDEQGKKPMSINKEDDNKEAIVRKLYGLESSEPNVTFALCCGTRSSPAVRIYSGEGVGVELERSKLEYLQASVVVTSSKRVAVPELLVRSLPEFSSADMKTVVEWVCHQLPTSGSLRKSMVECFRGHPKTQPTIDTLPYDFEFQYLLPL*
BLAST of Csa1G118870 vs. TrEMBL
Match: A0A0A0LSP4_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G118870 PE=4 SV=1) HSP 1 Score: 1147.5 bits (2967), Expect = 0.0e+00 Identity = 574/574 (100.00%), Postives = 574/574 (100.00%), Query Frame = 1
BLAST of Csa1G118870 vs. TrEMBL
Match: A0A0D2TN77_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_009G109700 PE=4 SV=1) HSP 1 Score: 611.3 bits (1575), Expect = 1.2e-171 Identity = 347/585 (59.32%), Postives = 419/585 (71.62%), Query Frame = 1
BLAST of Csa1G118870 vs. TrEMBL
Match: A0A0D2THP0_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_009G109700 PE=4 SV=1) HSP 1 Score: 609.0 bits (1569), Expect = 6.0e-171 Identity = 347/583 (59.52%), Postives = 417/583 (71.53%), Query Frame = 1
BLAST of Csa1G118870 vs. TrEMBL
Match: A0A0D2RYE5_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_009G109700 PE=4 SV=1) HSP 1 Score: 608.6 bits (1568), Expect = 7.8e-171 Identity = 352/586 (60.07%), Postives = 423/586 (72.18%), Query Frame = 1
BLAST of Csa1G118870 vs. TrEMBL
Match: A0A0D2UJZ8_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_009G109700 PE=4 SV=1) HSP 1 Score: 600.5 bits (1547), Expect = 2.1e-168 Identity = 345/583 (59.18%), Postives = 415/583 (71.18%), Query Frame = 1
BLAST of Csa1G118870 vs. TAIR10
Match: AT5G60720.1 (AT5G60720.1 Protein of unknown function, DUF547) HSP 1 Score: 505.8 bits (1301), Expect = 3.6e-143 Identity = 302/648 (46.60%), Postives = 404/648 (62.35%), Query Frame = 1
BLAST of Csa1G118870 vs. TAIR10
Match: AT2G39690.1 (AT2G39690.1 Protein of unknown function, DUF547) HSP 1 Score: 186.8 bits (473), Expect = 3.7e-47 Identity = 121/336 (36.01%), Postives = 191/336 (56.85%), Query Frame = 1
HSP 2 Score: 42.7 bits (99), Expect = 8.7e-04 Identity = 29/84 (34.52%), Postives = 47/84 (55.95%), Query Frame = 1
BLAST of Csa1G118870 vs. TAIR10
Match: AT3G12540.1 (AT3G12540.1 Protein of unknown function, DUF547) HSP 1 Score: 186.0 bits (471), Expect = 6.3e-47 Identity = 157/552 (28.44%), Postives = 264/552 (47.83%), Query Frame = 1
BLAST of Csa1G118870 vs. TAIR10
Match: AT5G42690.2 (AT5G42690.2 Protein of unknown function, DUF547) HSP 1 Score: 151.8 bits (382), Expect = 1.3e-36 Identity = 113/339 (33.33%), Postives = 176/339 (51.92%), Query Frame = 1
HSP 2 Score: 53.1 bits (126), Expect = 6.4e-07 Identity = 37/133 (27.82%), Postives = 63/133 (47.37%), Query Frame = 1
BLAST of Csa1G118870 vs. TAIR10
Match: AT4G37080.2 (AT4G37080.2 Protein of unknown function, DUF547) HSP 1 Score: 140.2 bits (352), Expect = 4.0e-33 Identity = 94/275 (34.18%), Postives = 146/275 (53.09%), Query Frame = 1
HSP 2 Score: 58.9 bits (141), Expect = 1.2e-08 Identity = 33/117 (28.21%), Postives = 57/117 (48.72%), Query Frame = 1
BLAST of Csa1G118870 vs. NCBI nr
Match: gi|700209722|gb|KGN64818.1| (hypothetical protein Csa_1G118870 [Cucumis sativus]) HSP 1 Score: 1147.5 bits (2967), Expect = 0.0e+00 Identity = 574/574 (100.00%), Postives = 574/574 (100.00%), Query Frame = 1
BLAST of Csa1G118870 vs. NCBI nr
Match: gi|449443572|ref|XP_004139551.1| (PREDICTED: uncharacterized protein LOC101221529 [Cucumis sativus]) HSP 1 Score: 1057.0 bits (2732), Expect = 1.2e-305 Identity = 542/584 (92.81%), Postives = 548/584 (93.84%), Query Frame = 1
BLAST of Csa1G118870 vs. NCBI nr
Match: gi|659071987|ref|XP_008462917.1| (PREDICTED: uncharacterized protein LOC103501181 isoform X1 [Cucumis melo]) HSP 1 Score: 1011.9 bits (2615), Expect = 4.4e-292 Identity = 524/585 (89.57%), Postives = 539/585 (92.14%), Query Frame = 1
BLAST of Csa1G118870 vs. NCBI nr
Match: gi|659071989|ref|XP_008462925.1| (PREDICTED: uncharacterized protein LOC103501181 isoform X2 [Cucumis melo]) HSP 1 Score: 949.5 bits (2453), Expect = 2.7e-273 Identity = 490/550 (89.09%), Postives = 505/550 (91.82%), Query Frame = 1
BLAST of Csa1G118870 vs. NCBI nr
Match: gi|763789205|gb|KJB56201.1| (hypothetical protein B456_009G109700 [Gossypium raimondii]) HSP 1 Score: 611.3 bits (1575), Expect = 1.7e-171 Identity = 347/585 (59.32%), Postives = 419/585 (71.62%), Query Frame = 1
The following BLAST results are available for this feature:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
The following mRNA feature(s) are a part of this gene:
The following transcribed_cluster feature(s) are associated with this gene:
Analysis Name: InterPro Annotations of cucumber (Chinese Long)
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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