Carg16438-RA (mRNA) Silver-seed gourd
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.TCCGTTGTTCTTCCGCGAGACTCTAAGCCGCTATTGTTCGTCTCCAGTTCAGCTTTCATCTTGTTCGTTTCAATTCCAACGATTTCTTGTTTCCTTTTCCAATTCACTTCCACCCCCAGATCCGCCTACTATATATTATTACTCCTCAATCTTCACCAAAGGTGATGATTCTCTATCGATTTCTTAATCTCTGAAAAATTTCAATTATGGCGTTTCGTACGAGTTCTCATTCTATTCGTTTTTGGATTCTGTTAGTCTTTTCAATGCCATGCGGAATGAACTGAACGTTCAGCTGCCGAAGTCGTTTGACGATTTCTTTTTGGGGTCTGCCTCCAGTTAATTGTTCATTTGGTGGCAGACTAGGGTTTCTGTCAATCTTCTCCTTGTTTTCGAGATCAGGCTTCTGAAGCAGCAACAGGCAAGGGGAGATTTCCTTTTTTATTTTTATTTTTCTATTTTTTTTCCTGTTTGATGTGTCTTGTTCTTGGTAAATCATCTTCCTCACATACATTACTTTAATTTTGATCCTGTTGATAATTTCCGCATACACCTTGGTGTTCATTTTGCAGTATGGTGGATGCGGTTCAAATCTACTACAGTATTATTGCGTTTTTTTGCACGGTTGGAGCCATTGCTCTGGCGGTCCTTCATATTTATCGGCATCTTTTGAACTATACGGAGCCTACTTATCAGAGATATATCGTGCGAATCATCTTTATGGTCCCGGTTAGTTTTCCTTCCCCACGTTTCATTTTTAGTTCAGGAAAGATCCTTTTGCTTTGTTTGGTTGTGGGTTCGTTAGAAGGCTTCCTTATTGACATGTTCATGGTTGAACACCACGTATCTCTGATTTATGCACCACATTATGTTCCTTTATATCCTAGATGATATGCATGTTTCGAACTTGATGATTTAATGACAATTTATATGTATGTGTTCATCTTTGTTCTGTTTTCTTGTTGTGTTACCTTGTATGAATTCTTGGACTTTGTATATTATTGCTTCGAGGAGGAAGCCTCAAGTTGCATCTTGTTGGAAAATCGCAAGAGTCTTAACTTTTGACACAGAGAAAGTCGAGTAAAAGTTTCAAGTGTCGGGGGGCAGTTTATATAGCTTTTCTCTCTAGATGTTTTAGCCACCATTCTTACGTACTTTCTTTCTTACCTCATTCCATATAAGCAGCATAAATCTCGTAGAAATTCCAGAGAAATTTCAATTGGGAAGGTTCTAAGATTGAAAGAGGATACAATTTAGCTGAGGATTAAATCTCTTTGACCCTGGTTGAAGGATGTCCAGGCATTGGAAATATTTGAAAAGAAAATGATGCTCTTTTCATATGGAGATTCCCAGAGAAGAAGAATCTCTATGGCACTTAATTATAAAGAGAAATTATGGATCTAATTTCAATGGTTGTTGTACTGACAATAGCAATTTTTTTAGCGATAAGAAATGATTATTGAAGTCAGCATTCTTTTTGTTGTTATTATTGATAATGGCATTACATTCATCGAGGAAAATGCAAGAATTACAATAAAAGCTACACCAAAAACCATGGCAATATAAGGGGCAACCACAGCCTAAAGTGAGAGAAAATTACAGAAAGGAAACAAGTTGCAGCCAAAAATCTCAAGGAATATATTGAAATGAGCATCAGAACGAACATCGTCCCACACTTTCTCCTTCCCTTGAAATGGCCATTTGTTTTTATCCAGCCAAATGTGTCACTACAAGCATGAGTTTCTTCTTCATCCTAGATTGGCATACATTATGAGAGTTTAAAAAATGGGAAGGAAATAGAGAGGGATAACACTCAAAATAGTCTAAATAAGGGTGAATCTTTTTCTTTTAAAGAAAGATGTCTTCTAAGAAGAACCATCTTTCTAAATCACTGATCATCATTGGATTCCGGAAGCAACTTGTTTAGGATTATCACCCAAAAGCAAACCTAAGTAGGGAGAAAGGAGTTCAATCTCTAGTTGTATTCTTTATACAAGATTGGTTTTCTTTTTTTCTGTTTTTTTTCCTTCTTCTTCTGTGTTGCCCCATTTACTGAAAACTTATTATTTTCTTTTCTATAAGAAAAGATTTTTCATCCATGGGTACTGCAACCTACAATGTTACTGAACTTATTATGTACTGATGATACCATCTCGCCAGACTTCTTCCTAGGGGACACCTTCACAGTTCCTAAAACTCTTACCTTTAACTTCAAACAAAAGTCAAAGATCAATAGAATGTGCAAGGTTCAAAGAAAATTGTTTGATGTGGAAAGGAATAAAAGAGTTGGTTTTGTTCTGAATTATTAGGTGATGTTGTGTAAAAATTCAGTGAGATGTTTTTGTAACTTAGAAAGCTCAGGAGCTTTCCTTCTAACTCCAAACAAGAGTTAGGATCAATAGAATGTGCAATCTGTAAAGAAAATTATTTGTTGCGGAAATGAACATAAGAGTTGGTTTTGTTTTGAATGATTAGCTGATGTTGCTTCAAAAGTCAGTGAGATGTTTTGTAGCTTAGATAGCTCAGGAGCTCTCTTGTAAATTCCTTGCCTTCTGTCTTATCAACAATCCTCAATTCTCAAAAGAACCACTCTTATCTGATTTGGAAAGGAAAAACCCACAAGTAAAAAATTTCCCTTCATTCCTAGTTCCTTGAGTATTAATATACTGGATTAACAAGCGGAAACCTCGATGGCCTTTCTTCTATTAGTGTTTCAAATGCAAGATAGGTGGTGAGGACATGACAACTTGTTTATTCACCATCCGTTTGTGTATGGTTTGGTGGACTCAACTCTTAAAGATATTCAATGCTTTTAGTGCTCCCCCATAAAGTTAGAGTTCTATGTTGAAATGCCTTCAAAGCCTATTCGTCACGTTTTGTGAATCAATAGATTATTATTATTATTATTTTTTAGGGATTAGAAACCAAATTTTCAGTGAGAAACATTTAGGGATATACAAGAGCATTAAAAAAGACAACCCAATCCTGTAAAAGGGTCTCCAATCCAAAAGAGTAACACTTAATGAATAATTACAAAAGGCCTTAGAGGTCACCACTCACAAGAAGGTATTAAATCTGGTATTTTCCCAAAGAACATCTCAAGATCGATCAACCCTTAAAGATTCTGCTATTTCTTTCCCCATGGCGATCTCAGAAAGAAAAAAAGCCTGTCAAAGAACTTTCCATTTATCCTTAAAGGGAGGGAACAACACGATATCTGTTGGATCTTCAATCCCTATTACGAACAAACGGAATCCCAAAGGTGTCCTAAAACTTGTCCAAATCAAGTGAACAGATTGGCAACTCTACAATAAATCATCAATATCCTCAGAATCTCCTATACACACAAATGCACCACTGAGGATTGAAACACGAAGAGCATCTTTGAAATGCGATCCAAACTTGACTTTCCCATGCAAAACTTGCATGGCAAATATTTCGATAGAAAATAATTTGAAATTTAGGGTTTAGGGTATCTTTGGGAGGGAACCGGTAGAAAATAATTTGAAATTTAAGAAGGGAAGACTTCCTTTTTACGGAAATAATTAGTTCATTGCCTCAAAATAGAGTGCTTTTCACATAGATTTTTGTTACTTCTCTTATTTCCTTCTAAACACCAATTGGAGGGTGTGCTTACAAGGCCTTGGTTGTAGGATTGGGTTCCCCCTCCCATCTAAACTTTGATCCCTTTTTTGGGGAATCTATCAACCCCTGCTACCCCTGCAATAAGTTTTCCTGGATTACTACATGCCGAAAGAGGTGTTGGAGCTCAAAATAGCTGCTTGAAACTTGCCATGGGTCTTTTGGAGTTTTCTCAAAAGGCATCGTAAGTTTGTAAAGGGTTGGGATGAAGTTGCTCTATTAAACCCTTGGTGAAGAAACTGGGATTTACTTTAAAGAATGGAGCGTTGAAAACCATTTATAAATTGTGTTCTAAGATTACAAGTGGTTAAACTGGGACAACAAAAATACTTCTAACTAACTACCACTTTTGTTTGCGTAATTTGCTACTTGTTCATCTTTCCTTTTCACACCATCTTTCCTCCAAACTTTTTACATTTACGTTTTTGCTTCGTTATATGTACTTTCATAGTAAAACCTTTGTGTTTATTCTTTCTTTCTTTCTTTTTCTTGTTTGTCTTCCTTTTTGCATTATGTTATTAGTAAATCCTAAAATTGCACCCTTGCATCACAGGTATATGCACTGATGTCCTTCTTGTCTCTTGTTATACCTTCGAGTTCAATCTATTTTAATTCAATTCGAGAAGTGTAAGTAGTCCTTGCTTAATCAATTCTTTATGGAATTTTGAAGTTTGTCTGTTTCTACTTTGTTGCAAATCCACTCATTTACTTTTCTTGTGGCTTTTATTTCTACTGTGAGGTCTATTTGTGGAAGATTACTGAGGCCTACCAAGAATAATATGAACTTTTTTTTGGGGTGGGCATGGACTTTGTAAAATGAGAAGAGTACAATTTTTTTTCTTCACGATCGAATCATGTATTTAACAGCTTCTTGGTCATTCCTTTTTCTTGTATTGTTGGATTTCTTTAATGGCCATCTAAAACATGCTTCTTGAATGCTCCTTTCTCCCAAAAGTTTGTGTAGAGAAGTTATATGCAAATAAACAAATTTAATAAGAATGAAATGCGGTCATTTCAGTTCTCATGCCTTCATTTAAACAGTAAAAACAATTTCGTATCATTGTCCTTTCGGTTATGGTTATGGATCAAATATCTAATCATTAGTTTTGATTTTTTTTAGCTATGAAGCTTGGGTCATTTATAATTTTCTGTCATTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTAATAAGTTTAAGTGGTCGTGTACTGAAGCCATCATGGGGCTTGATGACGTGTTGTCTTCCTCCTGTACAACTAGATGGGTAAGTTCGCAAAAGTTCAATTTTTTTGGATTGATGTAATGATTGAGTTATTAATGGCAGCATATACTAGTCAGCATTGAATTATGTTAACTCACTTGAATATAATAGATGTACACCATACATGTAGGCATAGTTAGTGCATGCTTCATTTTTTTTCATGGCATTAATGCCTTTTAACGGAGAGTGTCCATGAAAAGGATGCTGCTGAGAGATGCCTATTTTAATGTAATTTAAAACACTGTGCTCCACTTAGCTACTTGTATTAGGATTTTCTGCTAAATGTATTTTCAACAAATCCTACTCTTTTTGCAATGATTCCCCCCTCTACTATTTCCTAAGCTTTTCATATGTTTCCAGTATTGGATCTCCCTTATGAATTCTCTTGCTACTACAAAATGCTTTTTCTATGGATCTCCTAAACTCGTGAGAAAAAAAGAGGGAGGGAGAGAGATCCTCAAACCATCCTTTCTCTTGCGTCTCAATTCTTCGAACATTGTTGGAGTTCTGGACAATTTAGGGAGAGAAACGAGTTTTTTAAGAGTGAATAAAGATCTCTCTCCCTCCAACAATGTTCGAAGAATTGACTCTTAAAAGAAACAAGTTTTTTTTAGAGTTCAATTCTTCGAACATTGTTGGAGTTCTGGGATATTATTCTTTTCTTTCCATGTATTATGCGAGTTATATACCCCTCATTCTGTCACCTCGTTTGGTTAATGTAATAAACTAAATTAAAAATAGTGGATTTTTTATGATCTTTTGAGAACTGTACGTGTTTTGTGGAATTGGTGAAAATAAATAAAATGCTCAAGAATACGAACTCCATTAGGAGAGAAAAGAACAAAAGCCCAGCCAAACTAAAAACACAGCCAAAAAAAAAAAAAAAAAAAAAGAAAAAAGAAAAAAAGAAGAGAATATAGGCTCTCCAAGAACAAAAGGACCCAAGCATTGAATTTCTCAGAAATGCTCAGGGTATTGTTCCATCTCTAGACTCCAAGAGTGAAGACATTTTAGGCATATGTTGGTATAATCTTAGCCATTTTGCAAATGCGCAGGGTATTGTTATCTTTCGGTGGAAATGTTCTGGGTATTGTTCCATCTTATGTAACTATGAAGTTTTTGCTGGGCTATTTAGAGCAGTAAGAAACTAGCCCATATTTAGGCAAATATTATGGATGGGAAGTTATTTATGTGAAGAACGTAAAATGATGTTAAAGGTTGCTCCAGTATATATTTATCTGAAAGTTAATAATTCCTGTTTTGTAGATTAACATCTTAAAACTGTCTATAGTTGTATTAATTCTGGAAACTGTTTGAAAAGATATCTTTGGTTCGTTGTTTTATTCATTCTTCATATAGTTTAGAAATAAACACAGTTATATGTGAGAAAAAAAATAAGATCAATATGTTTAATTTAAGTTTTACTTAAAAAAATAATTAGTATTGGGCAAAGCACCAGCCAAAGGGCAAATTAAGTAAAGATGAAGGTAATATTCCCCATTTATATTAATTCTTTGTCTAGTAGCCATGGGTTTTTTATGACACCCATTAATCCTTTGATTATCTTGCTGAATGTTTGGATTTGAATGAATAATTTCTGGTTTTAATAATACCCAAGTACATTCAAAAGTTGGTTCAATTGAATTTCTGTTCTCCAACTAATGATTTTGAAATTATCTCTATACTTTCCTCCATTTTCACCAAAAGAATCAGTTATTGCTTCTCAGTTCTAGATCCATAGCCACATTGATAAATCTCTTAGGAGACTTTTTCTTGTGATCCACCTAGAATTCCCAAACTAGAGGGCTCAAAACCTTGAGAGCGGACACAATTTAGTCGAGAAAGTAGGCATCTACACACGTTGAACTGTATGTTTCTTGTTACCTGGATGTGCTTGCTATTCTTCTATTCATCTAAAGTAAGCGTCTTTCCCCAGTTGTTCTTTCGATCATGTTAGACAACCTTACGAGCAACAGCAAGTTGAGTTTTAGCAAGTCTAATATAAACTCCTTTTGATCTGTGAAGTATCTTGTCATATTCAATACCTACTAATCTCCAATCGTTTATTGAAAACATTTACTCTGTAAATGTAGCGCCTTTCTGCAGCCATCATGCATTGACCAAGTAATCATTGGGGCTAGTGAAGAAGTAAATGGACTTATAGGGAATGAGTTGAAACCAAGATGGTTACGTACATAGGATTTAAATTCCTACAAGTTTCTTTGACATGGACGCTGAGATTAGCTGAGATGTGTGAAAGTTGGTTTAGACACCTGTGGATATGAAAAAAAGTATCCTTTTCCTCAAATATGTGGATAACCTTTCCTTAGTCCACACCTTTCTAGTATATTTTGCTAGGAATGACATATTCATAATCACCGAACACCATGTTGGATCTCTTTTGGACCTTTTTTATCGACATCTATGCTAACATATGACAAAAATAATCAATCAAATCAGCATTGTTCGATTATTATAGATTACTAATAGATATAGAGAGAGTGAGAAGAATGAATTATAAATATTAAATAGCTCACCCTTTGAATTCAAGATGGTCAAAGCTCAAGAAATTCTTGAATTTTTACGCAAATAGCTTTTGGCATCTCTGAGCAGTTAACAATGTGCAAGGAAAACCATCATCTTAGAATGTGTTCCAAGCGAGTATGAGAGAGTGAATTGAGGTTTAAAATAGTGGAAGAGATAGATAGAGACCATGGAGGGCAGAGGGGCAAAGAGTGAAACGAGTCAGAGAGAGGCAGAAAAGAGTGAGATAGAGAGGCAGAGAGAGAGCTTATGAGAGGAACAGAGAGAGAGAGTGAGATGGAGAGATGACTAATAGAGCATCCAATGGATAGAAGGGCAGAGGGAGAATTGTTGGAGAGTGAGAGGAAGAGAGATTGAGAATGAAACGAAGGGATAGATAGGGAGGGTTGGAGGGACTACCGAGAGAAATAGAGAGACCTTACTTAGTTGTTGCATGCTTTGATGAGAGAGAGAGAGAACAAACTAGACATTTCATGAATGGGGTTCAGTTGAGTAGGTTGGGTAAGGAGACTAACATAAGTGCCCGAATCTGTTGCCTCATGTCTACACATTATTAGCACAAGTGCGCTTCACAAGGGCACCATGCCTACCTAAGGGAAGGTGCTGTTCATGCTATTGCTTCTCCTTCTTGCTTTCATTTGGAGAAATGAACCTAGTTGTATTGTTTGCTGAGCTTTCTTTGTATTGTTAATTGCTTTCTGCTGTCCATTTGCAGAGGGCTTTTAATTATTTGTAATTATAATCTATTTCAAATAGTACAGAATATTTAAGTAAGCTTCTCAATGTTTGTGATGTTTAGTAGTAATTTCCTCTAAAACCTAACCAGGATAACCCTTTATCTAATATCTAGTTATTGGGCATTATATCTTTCCTCACTTATCAGGAAAACAAAAGTATCAATCTGAAACTTCATCAGATAACCTTACGGGTTGCTTTCTATGCAGGCGTTTTATACGGAGGTGCAAGCAAGGCTGTTTGCAATTTGTCATTCTGAAGCCTATACTAGTTGCTGTTACACTTATTTTATATGCAAAAGGGAAGTATGAGGATGGAAATTTCAATCCAAAACAATCATACCTTTATCTCACCATCATCTATACTATGTCATACACAATGGCTCTTTATTCATTAGCATTGTTTTATGTGGCATGCAAAGACTTACTTCAACCATTTAACCCGGTCCCGAAGTTCATCATCATTAAGTCTGTTGTCTTCTTGACTTACTGGCAGGTGAGTGATCTTTAGGTTCTTTTTCTTTTTCAAATCACTTGCTTCTCTATATGGATGTTTCTTTCGTTAGTGTGTGTGGTGTGTGTGGCGTTGTGTTGATTCTTACAACATACTCAGAGGAAGGTTATAAATATGGTGGCTTTGAAATGTGAGTGTAATCTACTATGGGAAATAATGTGTTTTACAATTTAGTTTTAGAAAACTTATGGAATGAACGCAAGTTAGACTAGAGATAAAATGTGATGCTAATCTTCGTTACAACCACTCAAACATTGAGCGGTTACCCGGTATTATTCAGTAGGCTGGAGTGTGCGCGTTTTGTGGGGTCCTTGGGATAGAGGAACTATTTAATTTTTAGAGGGCTTAAGAGATTTTGTGAGATCCCATATCGGTTGGGGAGGAGAACGAAACACCCTCTATAAGGGTGTGGAAACCTCTCGCTAGCAGATGCGTTTTAAAAACCTTGAAGGGAAGCCCGAAAGGGAAAACCCAAAGAGGACAATATCTGCTAGCGGTGTGCTTGGGCTGTAGCAACGTTTGATCCCTAGGTAGATTCTACGTTTCTCTGACTTTTGTGGTAAAACTTTGTTGTAATTACTTGTTGGGTCTAATTTTACTGGATTGGAGGTCCTTTTTGTAGTTTGTCTTGCGGAGTTGTTCTTTGTATGACCTTGTATTCTTTCATTTTCGGTTTTCGTTAAAAAAAACATCCTGGGTAATGTACTTGTTTCTCAAATTATAGCTTAATTTATAGACCAAAACAACTAGTATGCGATCATCAAAATGTCTTTTTAGTTCAGAAATTGTTGTCACAACCTGAAGCATGTAGAATGAACATCAACTGATTCTATAATATAATCTCTTCCCTATGTAATTTGGTTTAGGGCGTCCTCGTTTTTCTTGCTGCAAAAACTCAATGGATCAAGAATGCTGAGGAGGCTGCTCAATTTCAAGATTTCCTCATATGCATTGAGATGCTTATAGCCGCTTTGGGCCATCTTTATGCATTCCCATACAAAGAATATGCAGGAGCTAACATTGGTGGTTCGCGTGGTTTCACCGGAAGTCTTGCACATGCCTTAAAGTTGAATGACTTTTACCACGATACAGTCCACCAAGTGAGCTTTATTTGATATAGTTTTCAAGTTTGAGATTGTTTTGCATCTCTTTGCTGGATTCTTCATTGCCCTCACCACTTTTCTCTTGCAGTTTGCACCAACTTATCACGATTACGTTCTTTACAACCATAGCGACGGTGACGAAGGAACGAGGAAGTACCGATCGCGCACCTTCGTGCCTACCGGCCCCGAAATGGACACTGTTAGAAGAAACAAACACATGTTTGCAAACAAGGTAGAGGACATTCCACTTTCCACAATCCCTCAGAATTCCTATACCGTTCTCGAACCAGCACATCCCGATGCAATGAAGTCATCTCTTCTCATGGATGCCTCTAACTCTTTATCCACACCGTACGATATGTCGCTTATCGACTTGGATATGTCGAGCTACCCCTCGAAAGTTCCTGCAGCAAATGAAACTGAAACGAGGTGACGAGAATTGTCGGACAGGTAGGAAAAAAACGATCGTGTGAGGAACTTAATACGCAAAGAAAGATATAATACAAATAGAGATTTTAGAGAGTATGTATGCACACTGGCATTGCGGCATAACAGAAAATTGTGTACAATGGCGTGTTCTTCAGTCCATGGTGATGTATATACATACAATACACGATTCTGATTTGTTATGAATTAGGATTTGATACACAATCATGCAATATAAATTCATTTTAATTACCATACTGTAATATGTGGAGGGAATAACCTTGATTTGAAGAATATTGGTGTAATTCCATTTCATAAGGGAAATTAACCTATTTAATA TCCGTTGTTCTTCCGCGAGACTCTAAGCCGCTATTGTTCGTCTCCAGTTCAGCTTTCATCTTGTTCGTTTCAATTCCAACGATTTCTTGTTTCCTTTTCCAATTCACTTCCACCCCCAGATCCGCCTACTATATATTATTACTCCTCAATCTTCACCAAAGGTGATGATTCTCTATCGATTTCTTAATCTCTGAAAAATTTCAATTATGGCGTTTCGTACGAGTTCTCATTCTATTCGTTTTTGGATTCTGTTAGTCTTTTCAATGCCATGCGGAATGAACTGAACGTTCAGCTGCCGAAGTCGTTTGACGATTTCTTTTTGGGGTCTGCCTCCAGTTAATTGTTCATTTGGTGGCAGACTAGGGTTTCTGTCAATCTTCTCCTTGTTTTCGAGATCAGGCTTCTGAAGCAGCAACAGTATGGTGGATGCGGTTCAAATCTACTACAGTATTATTGCGTTTTTTTGCACGGTTGGAGCCATTGCTCTGGCGGTCCTTCATATTTATCGGCATCTTTTGAACTATACGGAGCCTACTTATCAGAGATATATCGTGCGAATCATCTTTATGGTCCCGGTATATGCACTGATGTCCTTCTTGTCTCTTGTTATACCTTCGAGTTCAATCTATTTTAATTCAATTCGAGAAGTGTAAGTAGTCCTTGCTTAATCAATTCTTTATGGAATTTTGAAGTTTGTCTGTTTCTACTTTGTTGCAAATCCACTCATTTACTTTTCTTGTGGCTTTTATTTCTACTGTGAGGTCTATTTGTGGAAGATTACTGAGGCCTACCAAGAATAATATGAACTTTTTTTTGGGGTGGGCATGGACTTTGTAAAATGAGAAGAGTACAATTTTTTTTCTTCACGATCGAATCATGTATTTAACAGCTTCTTGGTCATTCCTTTTTCTTGTATTGTTGGATTTCTTTAATGGCCATCTAAAACATGCTTCTTGAATGCTCCTTTCTCCCAAAAGTTTGTGTAGAGAAGTTATATGCAAATAAACAAATTTAATAAGAATGAAATGCGGTCATTTCAGTTCTCATGCCTTCATTTAAACAGTAAAAACAATTTCGTATCATTGTCCTTTCGGTTATGGTTATGGATCAAATATCTAATCATTAGTTTTGATTTTTTTTAGCTATGAAGCTTGGGTCATTTATAATTTTCTGTCATTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTAATAAGTTTAAGTGGTCGTGTACTGAAGCCATCATGGGGCTTGATGACGTGTTGTCTTCCTCCTGTACAACTAGATGGGCGTTTTATACGGAGGTGCAAGCAAGGCTGTTTGCAATTTGTCATTCTGAAGCCTATACTAGTTGCTGTTACACTTATTTTATATGCAAAAGGGAAGTATGAGGATGGAAATTTCAATCCAAAACAATCATACCTTTATCTCACCATCATCTATACTATGTCATACACAATGGCTCTTTATTCATTAGCATTGTTTTATGTGGCATGCAAAGACTTACTTCAACCATTTAACCCGGTCCCGAAGTTCATCATCATTAAGTCTGTTGTCTTCTTGACTTACTGGCAGGGCGTCCTCGTTTTTCTTGCTGCAAAAACTCAATGGATCAAGAATGCTGAGGAGGCTGCTCAATTTCAAGATTTCCTCATATGCATTGAGATGCTTATAGCCGCTTTGGGCCATCTTTATGCATTCCCATACAAAGAATATGCAGGAGCTAACATTGGTGGTTCGCGTGGTTTCACCGGAAGTCTTGCACATGCCTTAAAGTTGAATGACTTTTACCACGATACAGTCCACCAATTTGCACCAACTTATCACGATTACGTTCTTTACAACCATAGCGACGGTGACGAAGGAACGAGGAAGTACCGATCGCGCACCTTCGTGCCTACCGGCCCCGAAATGGACACTGTTAGAAGAAACAAACACATGTTTGCAAACAAGGTAGAGGACATTCCACTTTCCACAATCCCTCAGAATTCCTATACCGTTCTCGAACCAGCACATCCCGATGCAATGAAGTCATCTCTTCTCATGGATGCCTCTAACTCTTTATCCACACCGTACGATATGTCGCTTATCGACTTGGATATGTCGAGCTACCCCTCGAAAGTTCCTGCAGCAAATGAAACTGAAACGAGGTGACGAGAATTGTCGGACAGGTAGGAAAAAAACGATCGTGTGAGGAACTTAATACGCAAAGAAAGATATAATACAAATAGAGATTTTAGAGAGTATGTATGCACACTGGCATTGCGGCATAACAGAAAATTGTGTACAATGGCGTGTTCTTCAGTCCATGGTGATGTATATACATACAATACACGATTCTGATTTGTTATGAATTAGGATTTGATACACAATCATGCAATATAAATTCATTTTAATTACCATACTGTAATATGTGGAGGGAATAACCTTGATTTGAAGAATATTGGTGTAATTCCATTTCATAAGGGAAATTAACCTATTTAATA ATGACGTGTTGTCTTCCTCCTGTACAACTAGATGGGCGTTTTATACGGAGGTGCAAGCAAGGCTGTTTGCAATTTGTCATTCTGAAGCCTATACTAGTTGCTGTTACACTTATTTTATATGCAAAAGGGAAGTATGAGGATGGAAATTTCAATCCAAAACAATCATACCTTTATCTCACCATCATCTATACTATGTCATACACAATGGCTCTTTATTCATTAGCATTGTTTTATGTGGCATGCAAAGACTTACTTCAACCATTTAACCCGGTCCCGAAGTTCATCATCATTAAGTCTGTTGTCTTCTTGACTTACTGGCAGGGCGTCCTCGTTTTTCTTGCTGCAAAAACTCAATGGATCAAGAATGCTGAGGAGGCTGCTCAATTTCAAGATTTCCTCATATGCATTGAGATGCTTATAGCCGCTTTGGGCCATCTTTATGCATTCCCATACAAAGAATATGCAGGAGCTAACATTGGTGGTTCGCGTGGTTTCACCGGAAGTCTTGCACATGCCTTAAAGTTGAATGACTTTTACCACGATACAGTCCACCAATTTGCACCAACTTATCACGATTACGTTCTTTACAACCATAGCGACGGTGACGAAGGAACGAGGAAGTACCGATCGCGCACCTTCGTGCCTACCGGCCCCGAAATGGACACTGTTAGAAGAAACAAACACATGTTTGCAAACAAGGTAGAGGACATTCCACTTTCCACAATCCCTCAGAATTCCTATACCGTTCTCGAACCAGCACATCCCGATGCAATGAAGTCATCTCTTCTCATGGATGCCTCTAACTCTTTATCCACACCGTACGATATGTCGCTTATCGACTTGGATATGTCGAGCTACCCCTCGAAAGTTCCTGCAGCAAATGAAACTGAAACGAGGTGA MTCCLPPVQLDGRFIRRCKQGCLQFVILKPILVAVTLILYAKGKYEDGNFNPKQSYLYLTIIYTMSYTMALYSLALFYVACKDLLQPFNPVPKFIIIKSVVFLTYWQGVLVFLAAKTQWIKNAEEAAQFQDFLICIEMLIAALGHLYAFPYKEYAGANIGGSRGFTGSLAHALKLNDFYHDTVHQFAPTYHDYVLYNHSDGDEGTRKYRSRTFVPTGPEMDTVRRNKHMFANKVEDIPLSTIPQNSYTVLEPAHPDAMKSSLLMDASNSLSTPYDMSLIDLDMSSYPSKVPAANETETR
BLAST of Carg16438-RA vs. NCBI nr
Match: XP_022937992.1 (transmembrane protein 184B-like [Cucurbita moschata] >XP_022969621.1 transmembrane protein 184B-like [Cucurbita maxima] >XP_023537772.1 transmembrane protein 184B-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 605.1 bits (1559), Expect = 1.3e-169 Identity = 299/299 (100.00%), Postives = 299/299 (100.00%), Query Frame = 0
BLAST of Carg16438-RA vs. NCBI nr
Match: XP_004144735.1 (PREDICTED: transmembrane protein 184A [Cucumis sativus] >XP_011648889.1 PREDICTED: transmembrane protein 184A [Cucumis sativus]) HSP 1 Score: 547.7 bits (1410), Expect = 2.4e-152 Identity = 274/305 (89.84%), Postives = 288/305 (94.43%), Query Frame = 0
BLAST of Carg16438-RA vs. NCBI nr
Match: XP_022999694.1 (transmembrane protein 184A-like [Cucurbita maxima] >XP_022999695.1 transmembrane protein 184A-like [Cucurbita maxima]) HSP 1 Score: 545.0 bits (1403), Expect = 1.5e-151 Identity = 271/306 (88.56%), Postives = 286/306 (93.46%), Query Frame = 0
BLAST of Carg16438-RA vs. NCBI nr
Match: XP_008452971.1 (PREDICTED: transmembrane protein 184A-like [Cucumis melo] >XP_016902321.1 PREDICTED: transmembrane protein 184A-like [Cucumis melo]) HSP 1 Score: 543.9 bits (1400), Expect = 3.4e-151 Identity = 271/305 (88.85%), Postives = 286/305 (93.77%), Query Frame = 0
BLAST of Carg16438-RA vs. NCBI nr
Match: XP_023545279.1 (transmembrane protein 184A-like [Cucurbita pepo subsp. pepo] >XP_023545280.1 transmembrane protein 184A-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 543.5 bits (1399), Expect = 4.5e-151 Identity = 270/306 (88.24%), Postives = 286/306 (93.46%), Query Frame = 0
BLAST of Carg16438-RA vs. TAIR10
Match: AT3G05940.1 (Protein of unknown function (DUF300)) HSP 1 Score: 474.9 bits (1221), Expect = 3.6e-134 Identity = 230/301 (76.41%), Postives = 268/301 (89.04%), Query Frame = 0
BLAST of Carg16438-RA vs. TAIR10
Match: AT5G26740.1 (Protein of unknown function (DUF300)) HSP 1 Score: 456.8 bits (1174), Expect = 1.0e-128 Identity = 224/307 (72.96%), Postives = 264/307 (85.99%), Query Frame = 0
BLAST of Carg16438-RA vs. TAIR10
Match: AT1G77220.1 (Protein of unknown function (DUF300)) HSP 1 Score: 115.5 bits (288), Expect = 5.5e-26 Identity = 64/157 (40.76%), Postives = 86/157 (54.78%), Query Frame = 0
BLAST of Carg16438-RA vs. TAIR10
Match: AT4G38360.2 (Protein of unknown function (DUF300)) HSP 1 Score: 112.1 bits (279), Expect = 6.1e-25 Identity = 70/175 (40.00%), Postives = 97/175 (55.43%), Query Frame = 0
BLAST of Carg16438-RA vs. TAIR10
Match: AT1G23070.1 (Protein of unknown function (DUF300)) HSP 1 Score: 91.3 bits (225), Expect = 1.1e-18 Identity = 52/137 (37.96%), Postives = 72/137 (52.55%), Query Frame = 0
BLAST of Carg16438-RA vs. Swiss-Prot
Match: sp|A2VDL9|T184B_BOVIN (Transmembrane protein 184B OS=Bos taurus OX=9913 GN=TMEM184B PE=2 SV=1) HSP 1 Score: 162.2 bits (409), Expect = 9.2e-39 Identity = 84/208 (40.38%), Postives = 121/208 (58.17%), Query Frame = 0
BLAST of Carg16438-RA vs. Swiss-Prot
Match: sp|Q8BG09|T184B_MOUSE (Transmembrane protein 184B OS=Mus musculus OX=10090 GN=Tmem184b PE=2 SV=1) HSP 1 Score: 162.2 bits (409), Expect = 9.2e-39 Identity = 85/208 (40.87%), Postives = 121/208 (58.17%), Query Frame = 0
BLAST of Carg16438-RA vs. Swiss-Prot
Match: sp|Q9Y519|T184B_HUMAN (Transmembrane protein 184B OS=Homo sapiens OX=9606 GN=TMEM184B PE=1 SV=2) HSP 1 Score: 161.8 bits (408), Expect = 1.2e-38 Identity = 84/208 (40.38%), Postives = 121/208 (58.17%), Query Frame = 0
BLAST of Carg16438-RA vs. Swiss-Prot
Match: sp|Q6ZMB5|T184A_HUMAN (Transmembrane protein 184A OS=Homo sapiens OX=9606 GN=TMEM184A PE=1 SV=1) HSP 1 Score: 159.8 bits (403), Expect = 4.6e-38 Identity = 91/245 (37.14%), Postives = 134/245 (54.69%), Query Frame = 0
BLAST of Carg16438-RA vs. Swiss-Prot
Match: sp|Q4QQS1|T184A_RAT (Transmembrane protein 184A OS=Rattus norvegicus OX=10116 GN=Tmem184a PE=1 SV=1) HSP 1 Score: 159.8 bits (403), Expect = 4.6e-38 Identity = 84/208 (40.38%), Postives = 121/208 (58.17%), Query Frame = 0
BLAST of Carg16438-RA vs. TrEMBL
Match: tr|A0A1S4E266|A0A1S4E266_CUCME (transmembrane protein 184A-like OS=Cucumis melo OX=3656 GN=LOC103493816 PE=4 SV=1) HSP 1 Score: 543.9 bits (1400), Expect = 2.3e-151 Identity = 271/305 (88.85%), Postives = 286/305 (93.77%), Query Frame = 0
BLAST of Carg16438-RA vs. TrEMBL
Match: tr|A0A0A0LGL5|A0A0A0LGL5_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G035400 PE=4 SV=1) HSP 1 Score: 524.2 bits (1349), Expect = 1.9e-145 Identity = 265/296 (89.53%), Postives = 278/296 (93.92%), Query Frame = 0
BLAST of Carg16438-RA vs. TrEMBL
Match: tr|A0A2N9FQL0|A0A2N9FQL0_FAGSY (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS17093 PE=4 SV=1) HSP 1 Score: 517.3 bits (1331), Expect = 2.3e-143 Identity = 254/306 (83.01%), Postives = 281/306 (91.83%), Query Frame = 0
BLAST of Carg16438-RA vs. TrEMBL
Match: tr|A0A2P5DRD7|A0A2P5DRD7_9ROSA (Organic solute transporter subunit alpha/Transmembrane protein OS=Trema orientalis OX=63057 GN=TorRG33x02_244550 PE=4 SV=1) HSP 1 Score: 510.4 bits (1313), Expect = 2.8e-141 Identity = 249/306 (81.37%), Postives = 279/306 (91.18%), Query Frame = 0
BLAST of Carg16438-RA vs. TrEMBL
Match: tr|A0A2P5D8G5|A0A2P5D8G5_PARAD (Organic solute transporter subunit alpha/Transmembrane protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_086690 PE=4 SV=1) HSP 1 Score: 510.4 bits (1313), Expect = 2.8e-141 Identity = 249/306 (81.37%), Postives = 279/306 (91.18%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Analysis Name: InterPro Annotations of silver-seed gourd
Date Performed: 2019-03-07
|