Spg016312 (gene) Sponge gourd (cylindrica) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTTAAATCACTTGATCGTTGGCGTGAAGTTTTGCCAGCGAAAAGAGATACGCTCTTATAATAATAGTAGACGAACGAAGAAAAAAGAGTGAAGAGAGAGAGAGGGAAACTCGGAGGGCCACAAGAAGGAGAGTTCTCGTCGTTGTCGTCGTCGCATTGGCGGTCTCTGTGAGGTCCTGGTTCTGTACTCAGGAAAAATGGTGGATCAGTCCTTAGGTTGGATCTTGGCCTCAGTTCTAGGAGCCGCGGCACTGTATTTCCTCCTGTTCGGCAGGAAATCGAATGAACGGAGGCGTGAGGGCCTAAAGAATATCGCCACCACCAACGGAGAATGCAACTCCATAAATAGCGACGGCGACATTATTATTGTCGGAGCTGGAGTCGCCGGATCGGCACTTGCCTATACTCTCGCCAAGGTAATATCGTCATTCTCAAACTAAGCGCTCTCTCTTGTTTAAATTTTTCCTGTTAAACGGATGGAGATTTATGATTGTTTCACTTCAGAAATGTTAAGGTGGAAAATCGCATTCGAATTATTAGAAATGGTTGGAACTAAAATTCGTTTTGATGTGCTTAGGTATTGTATGCTATGCTCTATGTATAATCTGCACTTATATTCTCTTTCTCGATGACATTTTGCGCGTTATAGATAGGCGTTATCGTTCACAAATGAAGTATCACATGGCGGCACGTTGTTAAGTCGGTATAACCATTTTATGCTTAGCTATCGCTTATGTAAGCATAGATTGAATGTTCTTCTATTTGATTATTTCTTTTGAAACTCGAGCGGATTCTGAAACATATGCTGAAATTATGGGTAAATCTATACAGATTTATTGTATCAGAGACCGAGTATTCTCAATTGAAAACTATTTTGTCATTTCATTTATGATCTAGAGTTTTTCTCTGCGGATAAGAATTTCAGCATTATTAACAGTGATATGTTTCCGAGAAAAGTTATTTTTGAATTCGGAGGTTTTGCATAGCCACTAGCCAGATTCTGAAGTTCGATTGCTTGATTCATGGACAGTCTTGAATTCTTGAACGAAACACTTTCTATTAGTACTTTTGAATGAAATACCTTATCATGTCATGAGATGTTTGTTTGTTTGTTTGTTTATATTTTTGTTTTAGATTTATCAAATACTTCTTGATACGTGGTGAAATGAAATTAAATTCTTGAACGTAGATGATGTTTGAAGTTTAAATTTGACAGTGTTTGGGAGTGTTTTTTTTCTTCCAAATATTCAAGAGCGATTTTAAATGTTCACTAACTGAATCTCTCTCAAAATGTTTATATTTCGTTACACATAAATATTAATGATAAATAAAAGAAGAAAAACGATTAAAAGTGTTGGAACTTTTGAGAGAAGCACTTATTTAGCTTTTTCTTTCTCTTCTTTTGAGAGTGCTTGGAAGAGAAGTGTTTCATTACGAAAATACTTCTTATAAATACAGAGCCCCATACGTCTTTAGATAATTCAAAGATTTTCCTTAGGACTTAATATTTTGCTGTCAAATGTGGAGGCTAAAGGAAAAAAGGCTCAAGAGAGAAGGAAAATAGACTTGTTATAGATTTGAACAGTCTGCTTTGTCGTTGTGTCAAATTTGGCAGTTGGACTTTTATCGCACTACTTTTTTGGTTGGTCAGCTGCCATAAAAATGTATATGTCGAAAAGCATGTTCATGTATCTGGAGCTTGCATGAAAACTAATTTCTACCCCGTCCATCTCATTAACATTCGTTCTCGTAATTGTACACTTATAGTAGATGGATTTTATATTTTATACTCCTTGCTTATAGTTAAATCTGTTAGCTTATGTAGTTGTTGAAATTTTTTAGGAACGAATGAACTATTGTTTTAGTCATTTTCGTTATGTTGAATGATTTTTCCCTATGGTTACCCGACTATAGCCAGTGGATGTTATATATTTATGTTGCTTTTTTGAAATGCAGGATGGTCGTCGAGTACATGTGATTGAAAGAGACTTGACAGAACCAGACCGAATTGTTGGTGAATTATTACAACCTGGGGGCTATCTTAAGTTAACAGAGTTGGGACTTGAAGGTTGGTTTATTTCATCAATATCCAATGGTTGTTTCTCTTGAGAGGATTTTTATAGACATCTTCTTCCGAGTGTTTGAGTAAACTAGAGTTGATTGTTGAATGAGCAATATACTGTTTCCTATGCAGATTGTGTGGATGATATCGATGCCCAACGAGTGTATGGTTATGCTCTGTTTAAGGATGGAAAGGATACTAGACTCTCTTACCCTTTGGAAAAGTTTCACTCGGATGTGTCTGGGAGGAGCTTTCACAATGGGCGCTTCATTCAGAAGATGCGTGAGAAGGCCGCATCCCTTCCCAAGTAATTCCCTTTTATCTGTTTTATGTCTTTTGTAATGTATCTAGAGCTATTGATGCTTATGCTTATACTCTTCTTTGTTGCATTTGTTATTTTCCTCTGATTTAAATGTAATTCCTTTTAAAATCGAATGATGCAATGGAACTCTGATAATTCACAGTTTTTATCATGTTGCACCATTACGAAGCTTTACTTGCGGATTTGACAGAAAAGGCATATATGTAGTTATAAGTTCTGGTCACAAGAGACACTTTAATGCTGGAGTAGTGATATAGATGCTCAGGGATTGGATTCAGTCATGTTAGGGAAACATTTTGTAATGAATCTTATGCAACTTCATTGATTGTTCGGAGTTGAGATTAAATCTGTAATCCTACATCCTTGTATTAAGATCGAGTTATATTGCACTAATGTCTTTCTTTTTTATCAAGCAATTCTCCTCGTGCTTTATTTATGAGTTAGTATATATTCATTTCCTAATCTGTTCCTCTACCTTTCCAGTGTGCGCTTGGAGCAGGGAACAGTCACTTCTCTGCTCGAGGAAAATGGTACAATTAAAGGTGTGCAATACAAAAACAAATCTGGCCAAGAGATGACAGCTTATGCACCTCTGACTATTGTTTGTGATGGGTGCTTTTCAAATTTACGACGCTCTCTTTGCAATCCTAAGGTGCTTTTCAAGTTTGTTTTAGTTTTGTTAAGAACTAAGAGACTGTTTCAATGCCGAGAAGATTTTAAATACTTGAATCTTTTCCAGGTGGATGTTCCCTCTTGTTTTGTTGGCCTCGTACTTGAGAATTGTGACCTTCCTTACGCAAATCACGGACATGTTATACTAGCAGACCCTTCTCCTATTTTGTTCTATCCCATTAGCAGTACAGAGATCCGCTGTCTGGTGGATGTGCCTGGTCAGAAAGTTCCTTCCATTTCAAACGGTGAAATGGCTAACTATTTGAAGAAAGTTGTTGCTCCTCAGGTGCGAATGCACTCCCTATTCTTTTCTTCCCATTAATCTCATCTGGGATTTTTCTTCACCCATTCATTTCAAAATGATTGAGCCCGAACCTATTTATTGACCTTATAAAGTTTGTTATACACAGATACCTCCTCAACTTTATGATTCCTTCATAGCTGCTATTGACAAGGGTAACATAAGAACAATGCCAAATAGAAGTATGCCAGCTGATCCTTATCCTACTCCTGGAGCTCTGTTGATGGGCGATGCATTCAACATGCGTCACCCTCTTACTGGCGGAGGAATGACCGTCGCATTGTCTGACATTGTTGTTCTTAGAGATCTTCTCAAGCCTCTGCGTGATCTGAACGATGCACCCACTCTGTGCAAGTATCTTGAAGCATTCTACACTCTCCGCAAGGTAAGTTTTCAATTGTCTGCCTTTTGTTTCATTTCTCTTGTTGTATGTAATAATTGGCAAACCTGCAAAAAGAATTTCTTTTATCCTTAGAAGTTGAATTTGTAAGGATAGAAACTTTAAAAAGTGCCAAACCTAGTGTTTAATAAGGTCATTGAAAACTTTATTGGGTCTAAATATGAACTTGAAAGGGTGTCTAATAAGTCATTGAGTTCAATTTTTGTTATCCCTTAAAAGTGGTTAAAGGTAACCTATTAGACATTTTTTTTTAAAATTAACAAAACTATTAAATATAAAATTGAAAATTTCAATACTATTAGATACCTTAGATGTTTAGAGATTTATAAATTTATTAGACATTTTTTTTTTTAAGTTCAAAGTCCGGAATTAAACTCCTAAATTAACGCTAACAAGAGCATAGCTGAACTGGCTTAAAATTGTATTGATAACCACGAGATATGTGGTTCAAATCCCCCCACCCCATATTGTCAAAAAAAAAAAAAAAAAAAAAAAAAACTCCTAAATTAACGAATTATAATGAGTTTGTTATATTTTTGTACTTGCAGCCAGTGGCTTCGACAATAAACACGTTGGCAGGTGCACTTTATAAGGTATTTTGTGCGTCACCAGATCAGGCTAGAAAGGAAATGCGTCAGGCTTGCTTTGACTATTTAAGCCTGGGTGGAATCTTCTCTAATGGACCGGTTTCTTTACTCTCTGGGTTGAACCCGCGGCCGTTGAGCTTGGTTCTCCATTTCTTCGCGGTGGCAATATACGGTGTTGGCCGGTTGCTGATCCCATTTCCTTCGCCCAAACGCGTCTGGATCGGAGCGAGATTAATTTCGGTAAGTGCATCTGACGCTGCTCTTTTATTTTGTTTTGATAACATTTGAAGCCAATTCCATAAAACTTTCAAGCATTTCATTGAAATAAATAAGGCATTCAATTGGATTTAATAGGGTTTAATTATACCTAATCAATACTACAATCAATTCTGTTAAAAGGCGTTGAATTAACTTATGTAGTGTAGACTGTAGAGAGGGCATGCATCTTACACAAATTTTCAAATATGGCTTTTAATGTTTTTTTTTTTTTTTTAATAAAAAAATATGAATATTTTTTAGAGTATTATGTTTATAAAATATAATTTGATTTTATATTGGCATATTTTTTAAAATAGTCGATCAAAATATTTTCAATTTTCTTTTTCTGGTGTTAGACTCTCTTACGAAAGCTTTTCTGAAAACATACCTAAAGTTAGTTCCCGATTCTTTATTGTTATATTTATTTTTTTAAAAAAAAAAATTGGAATATAGTTTTAAATAATTTTTCAAAAGTGGAGGGCAGAGCAAATAGTGAATTGCATATTTTTTTTAAAAAAAAAGCTGAAAACAAACAATTGAACAACTAATGTTTTGTTTGATAGTGATTTTTTTTCCCCTTTAAAAATCATGTTCAATTTTTTATCCATTCATTTTCTTGAAAACATATATATGAGAATTATTCTTTTTAATTCTTGAAATTTGACTAAGGTTTCTTTTTTAAAAATTGAGTGGCGAGTTAATAAAGCGTTAATTTTTAAAACATAAAAAAAAGTTATAAGTTTACTTTTTAATTTTTTAAAATAGAGAAGATTAATAGAGCGCCAATTCTTAAAACATAAAACTATGAAGAAAGTTAAAAAGCTTAATACCATCTTATCAAAAAAAATAAAAAAATAAAAAGCTTAACACCATTATCACAGTGCTTAATTAGTGTACATTAGCACTCATCATAAGTTAGAAATTTGTAACCTATAGTACAAGGATGTAGTTCAATTGATGAGAACCTTCCCATATTCACAATTTTTTTAAATTAAAAAATCCAAATAAACTGTTGGCTAATTTAGAGGAAAATAAGATTACGTAAATTAGACAATTATTTAGAAAAAGTAATCAGAATTAGAGATAAACACGGTTAGTTAAGGATCATTTATATATTGAAACTTGCGTTACATTGCAGAGTGCATCAGCCATTATCTTCCCCATTATCAAGGCAGAAGGAGTAAGGCAGATGTTTTTTCCCAAGACTGTTGCAGCTTATTACAGAGCTCCACCGAGAGAGAGGTGACACTTCCTGAATAAGAGAAGAGAGGACAAAGGTTGTGTGAGAAAATACGTTTGAATGCAGCAGGGGCTTTGTGGCAAACCATTTTGATTCTGAAGATTTTCCTTCTAGCTGCCGTTTTGATGATGCTTGTAAATCCACTTACTAATTATTCTTTCCTTTCTATGAACTTGTGTGATGCTAGTTGTTCATAACCTAGTTTGCTCGTTTGCTCCAGTTGGGATGTTATTCTAAAGACGCCAAACCTATAAAACATTCCAGACAAACAAATCCCACAAACGAAATAAGAAATTGAATTTTAAATCAATTAAATTTAAAAATCCATTAGATTCTGGTTCTTCCTAATAAACATCTTTATTAAAAATGTGAACGATTGGCACATTTTATATATTCCTATTAGATGCATTTTTAACTTTCCATTTTTACATCTACTCAACACAAATTCCATTTTCGTTAAAAAAAAAATTGTTTGAAACCTATTAAGCTTTCAAAATATAAAATTTAAATATTTATATAAAACATAAGATTTAGAAACATTTATACATCAAATATAAAGTTTGAAAAACAAATAACCTCTATTATTATTCTATAATATTAATATAAAAAATTTCTAAAACTATATTTGAACATAAATAAAGTTTAATTTAGTTTCAGTTAGTAAGGACCAGAGAATACAATTAGCCTTTTTATGATTTAAAATTTTTATTTTTTCTTTATTTTGTTTCTTTTTAAATACTATCATATATATTTCGAGTTGTTTTATTTTTTAAAAAATAAGAAATTATTACTCGTGTTCTTTTTATGATAGTATTACTCTTTTTTAAAGAGAGATTTAAATTCTTAACCAAATTCCAATTTACAAAAACAAGTTCTTAAAACTACGTTTTTTAGCTTTCAAAACTTAACTTGGATTGTTTTAAATTCTTAGCCAAATTCCAAATTACAAACAAAAGTTTCTAAAAACGACGTTTTTTAGCTTTCAAAACTTTTTAAATTCTTAGCCAAATTCCAAATTCCAAATTACAAAAACAAGTTTCTTAAAACTAACTACTTAGATTAGGTTGGACAATCCTTGATTTAGCGCTTTCACTATAATCCCATTTTCTAATCCCTGCCATTTCCCATTTAGTCTAGCCCTTTTAGCCCTTCCCTCAATTGAGTGGCCTATCTTCTCCTCGATTTTGAAAACACATTTGTAAAAAATAGATAACAAAACAAAGTTTTTTTCCATTAAAAAAAATAACAAAACAAAGAAGTAGAAGTATATTTATAAGCTTAATTTTAAAAAACAAAAAACCAAACGAGTTATCAAACAAACCCTACACTATTGAAAAATAGCCAACTTCGCTCTATGTGGGTAACATCTTTAGCTTTACGTTTTAGACCTTACTCAATAAAGGTGCAAGCTCCGCAGAAATAAAGAAACGCCTAAAATGTGAACCACCCCCAAGAAAATTATGCAACAATCAAACAGTAGCTTCCCGACCTACCATAGTTGCAAATTTTCATTCTTCAAGCTTTAATTATTTAATGCAATATCGAAGACTTCCTTTAGTTAGTTTGATGAGCGGATTGTTCACTAACAAGCTATCAGATTGTTTTAGAGTGAATGTCGTCAATAAGATAAGTAGACATTCAAATTCTGAGGTAAGTTTTTACTGAGAACGAACTAGCATTTATGAATTACGTCCAAGGGTGAATCAATTCTCCAGGCAAAGCTTCTATATTTATTTACCCTTTTTTGTCAAAGGGTGACCACCTATTGAACTCCCAAATCCAATGTGATCATGACATTGTAGGTGATTGCACCAGGAAAAACTCAACTTTTAGGCAGCTTGGTCAGCCAGGCTCAAGTACCAAAGACCTTCAAGGCTAATAACCTAGAAGCTTGATTGTTTCAAAACGAAAAATAAATAAATCTTGGCCTAGAAGCTTGATGAGGGGAAAGCAAAATTGACTAACTAGAGGGAAAAACCAAACATCTTGACCTGGTAATGCTATCCAGAGAAGAAAAAGTGGAAGGAATGCTGTTGAATCTAAGATAGAGGAAGAATACCAAATTCAGCTGATGCCTGATGTTATACTTAGGAAAGTACGGTAGGAAAACCGGTCTGACAAGTGTTCCATATTACGAAATATTTCTTTCCATAATTTGTTGCAGTAGTTCTCCGTAGTTAAAAGAAGACCTACTATCTATCTAAATTTGGGAAGGGACTTCGCTCTGCTCTTGAGTTTCATTCTATGGTGATTTCTGTAAGAAGCACCAGTAGTTTCCTTCCCCCATTAGAAACTCTTTTGCTCTTTTTTTGAAGTTATGTTAAATGACTGAGGAAACTATTGAAATTATTAGCAGGGAAGAAGGGAGAAACAATGGAAATATACCTAGCCACAGCCACAGGCCCACAACCAGAAACGGGGACAATAGTGTATTACCTATTTTAGTTGCATTCTGAAACAATAACTATAACCTGATAGAGGCTCCATTATTGCATATACCATCCTCAATGGTTGATTCATCTTTAAAAAATAATAAAAAATTATGCCGCCAAAATGGGCATGGAAAAAGGCTAGCTATGACGAAATTAATGCAGAAACTCATATTCTAACGGGAGAAGAAGAAAAGCATTTTTTTACTCACCTGCCTTCTGCAAGAGTCAATGGCAAAGGTTTCCCATCACACCATTATTTTCCTGCTTCTGATCTGGGTGATACTGCTTTGCCTTGGTTCAAAATGCTGTCTGCAACAATAAAAGGTTGACGCATTATGTATCCGGATCCTGGATTCGACCATACAAATTTGATGGGTTACTGATGGAAATATCAATATGACACTGCGTGTAAAGAAGACGTCTCAAAACACACCAATACAATGAACTTTGCCCTCTGGTTATATCAGAATTTAAACTCCGTCTAAAGAATTGACGATGAATTTTATAATAAAATTAACTTTTATGAGATTGAAATACCTAGTTGACATTGATGGAGTACAATAAAGTTTAAGATTTTAGAAAAATTAATCATATCAGGAAAAGATGCAGGGGAAGTTGTAGGCACAGTTTAGAAATATTTGCTCATTAAGAAATGGCATACATCATTAGAGAATACTACAAAATAAGGCATTCCCATGATTAAATACAAAGCCACAACTTTTTTTGGACAAAAACAACATATTGGCGTTGCTGCTTTAATGGCAATATATACAGAAGATAATTCTACAATGGAATGAGCACCTTTCATCATTTGTGCATTTTATTTTTGTTCTTAATTTTCCACAAAAAGGACAGGTAAATATACCAAATCAAGTCCAATTTGTCATCTTGAATTCTTTTAGGAAGAAAGAATAATAACTTCATATCTATAAACAAATAAAAAAAAGGTATAGCTTTCACTCATTTAGTTGACCTTTATTAGGTATAGCTAAATGAACATAAATAATGGACATGATATCATATTAGCAAAGAATATCAAAGCAACATGCTCACCTGTCCAGACCTGAAACTTAGTGCTGTGATAACGTCACATACTGATCTCACTTGGAGTGTATAGTCAATCTACCAACTACTGTGTGATGTGATAGTCCCCCAATACCAACCATTTTGGTGGATTTGTTGAATCATATTCCCCCGGATCATTTCCTGACCAGCCATCATAAGTTTTCTTATATTTGTTCCTCTCTGAGCATTCTGCATATGTTATACACACCTGCCTAGACATACAATCCAATAATGTAAAGTCCTAATTACACAATACTGTAATTGATAGAAGTTTGTGATGAGGGACTAGCAGGTTAAGATGTAGCTGTAATGTAGCTGAAGGAACACAAGCATGCATAGCCTTGCAAGTTATGAAAATTATCATATATGCGATGATGGTTCAAAATTAGACATTAGGCACGCAGCCTTGGTATATAAAGAGAAAATTCAAGCAAGGCCTTCATAGTTAGATTGATAAAACAAGATACATGCACATGCAAGTTAGATCCATAGAAACTGATGTGAAAGATCATGTAGTAACATGCAACTATTGATCAACTTTGGCTGCTCATACCCTAAGTTCAGTTTAGGCATGAAAGACGCTTCCCATTTGTTCATATTAGTTGGGAGTAGTAAAGATCAGAAGAAGAAGTGCCAGAACAATGTAAATTGACAAAAGAAAAGACCCGAAAAAACTGGTCAAGGCCTTAAAAGTTTCAGATAAAAATGTGAAATGATACCAATAAAGAGACAATGTAATATTAATGTTTTTTAT ATGGTGGATCAGTCCTTAGGTTGGATCTTGGCCTCAGTTCTAGGAGCCGCGGCACTGTATTTCCTCCTGTTCGGCAGGAAATCGAATGAACGGAGGCGTGAGGGCCTAAAGAATATCGCCACCACCAACGGAGAATGCAACTCCATAAATAGCGACGGCGACATTATTATTGTCGGAGCTGGAGTCGCCGGATCGGCACTTGCCTATACTCTCGCCAAGGATGGTCGTCGAGTACATGTGATTGAAAGAGACTTGACAGAACCAGACCGAATTGTTGGTGAATTATTACAACCTGGGGGCTATCTTAAGTTAACAGAGTTGGGACTTGAAGATTGTGTGGATGATATCGATGCCCAACGAGTGTATGGTTATGCTCTGTTTAAGGATGGAAAGGATACTAGACTCTCTTACCCTTTGGAAAAGTTTCACTCGGATGTGTCTGGGAGGAGCTTTCACAATGGGCGCTTCATTCAGAAGATGCGTGAGAAGGCCGCATCCCTTCCCAATGTGCGCTTGGAGCAGGGAACAGTCACTTCTCTGCTCGAGGAAAATGGTACAATTAAAGGTGTGCAATACAAAAACAAATCTGGCCAAGAGATGACAGCTTATGCACCTCTGACTATTGTTTGTGATGGGTGCTTTTCAAATTTACGACGCTCTCTTTGCAATCCTAAGATACCTCCTCAACTTTATGATTCCTTCATAGCTGCTATTGACAAGGGTAACATAAGAACAATGCCAAATAGAAGTATGCCAGCTGATCCTTATCCTACTCCTGGAGCTCTGTTGATGGGCGATGCATTCAACATGCGTCACCCTCTTACTGGCGGAGGAATGACCGTCGCATTGTCTGACATTGTTGTTCTTAGAGATCTTCTCAAGCCTCTGCGTGATCTGAACGATGCACCCACTCTGTGCAAGTATCTTGAAGCATTCTACACTCTCCGCAAGCCAGTGGCTTCGACAATAAACACGTTGGCAGGTGCACTTTATAAGGTATTTTGTGCGTCACCAGATCAGGCTAGAAAGGAAATGCGTCAGGCTTGCTTTGACTATTTAAGCCTGGGTGGAATCTTCTCTAATGGACCGGTTTCTTTACTCTCTGGGTTGAACCCGCGGCCGTTGAGCTTGGTTCTCCATTTCTTCGCGGTGGCAATATACGGTGTTGGCCGGTTGCTGATCCCATTTCCTTCGCCCAAACGCGTCTGGATCGGAGCGAGATTAATTTCGAGTGCATCAGCCATTATCTTCCCCATTATCAAGGCAGAAGGAGTAAGGCAGATGTTTTTTCCCAAGACTGTTGCAGCTTATTACAGAGCTCCACCGAGAGAGAGGTGA ATGGTGGATCAGTCCTTAGGTTGGATCTTGGCCTCAGTTCTAGGAGCCGCGGCACTGTATTTCCTCCTGTTCGGCAGGAAATCGAATGAACGGAGGCGTGAGGGCCTAAAGAATATCGCCACCACCAACGGAGAATGCAACTCCATAAATAGCGACGGCGACATTATTATTGTCGGAGCTGGAGTCGCCGGATCGGCACTTGCCTATACTCTCGCCAAGGATGGTCGTCGAGTACATGTGATTGAAAGAGACTTGACAGAACCAGACCGAATTGTTGGTGAATTATTACAACCTGGGGGCTATCTTAAGTTAACAGAGTTGGGACTTGAAGATTGTGTGGATGATATCGATGCCCAACGAGTGTATGGTTATGCTCTGTTTAAGGATGGAAAGGATACTAGACTCTCTTACCCTTTGGAAAAGTTTCACTCGGATGTGTCTGGGAGGAGCTTTCACAATGGGCGCTTCATTCAGAAGATGCGTGAGAAGGCCGCATCCCTTCCCAATGTGCGCTTGGAGCAGGGAACAGTCACTTCTCTGCTCGAGGAAAATGGTACAATTAAAGGTGTGCAATACAAAAACAAATCTGGCCAAGAGATGACAGCTTATGCACCTCTGACTATTGTTTGTGATGGGTGCTTTTCAAATTTACGACGCTCTCTTTGCAATCCTAAGATACCTCCTCAACTTTATGATTCCTTCATAGCTGCTATTGACAAGGGTAACATAAGAACAATGCCAAATAGAAGTATGCCAGCTGATCCTTATCCTACTCCTGGAGCTCTGTTGATGGGCGATGCATTCAACATGCGTCACCCTCTTACTGGCGGAGGAATGACCGTCGCATTGTCTGACATTGTTGTTCTTAGAGATCTTCTCAAGCCTCTGCGTGATCTGAACGATGCACCCACTCTGTGCAAGTATCTTGAAGCATTCTACACTCTCCGCAAGCCAGTGGCTTCGACAATAAACACGTTGGCAGGTGCACTTTATAAGGTATTTTGTGCGTCACCAGATCAGGCTAGAAAGGAAATGCGTCAGGCTTGCTTTGACTATTTAAGCCTGGGTGGAATCTTCTCTAATGGACCGGTTTCTTTACTCTCTGGGTTGAACCCGCGGCCGTTGAGCTTGGTTCTCCATTTCTTCGCGGTGGCAATATACGGTGTTGGCCGGTTGCTGATCCCATTTCCTTCGCCCAAACGCGTCTGGATCGGAGCGAGATTAATTTCGAGTGCATCAGCCATTATCTTCCCCATTATCAAGGCAGAAGGAGTAAGGCAGATGTTTTTTCCCAAGACTGTTGCAGCTTATTACAGAGCTCCACCGAGAGAGAGGTGA MVDQSLGWILASVLGAAALYFLLFGRKSNERRREGLKNIATTNGECNSINSDGDIIIVGAGVAGSALAYTLAKDGRRVHVIERDLTEPDRIVGELLQPGGYLKLTELGLEDCVDDIDAQRVYGYALFKDGKDTRLSYPLEKFHSDVSGRSFHNGRFIQKMREKAASLPNVRLEQGTVTSLLEENGTIKGVQYKNKSGQEMTAYAPLTIVCDGCFSNLRRSLCNPKIPPQLYDSFIAAIDKGNIRTMPNRSMPADPYPTPGALLMGDAFNMRHPLTGGGMTVALSDIVVLRDLLKPLRDLNDAPTLCKYLEAFYTLRKPVASTINTLAGALYKVFCASPDQARKEMRQACFDYLSLGGIFSNGPVSLLSGLNPRPLSLVLHFFAVAIYGVGRLLIPFPSPKRVWIGARLISSASAIIFPIIKAEGVRQMFFPKTVAAYYRAPPRER Homology
BLAST of Spg016312 vs. NCBI nr
Match: XP_016901349.1 (PREDICTED: squalene monooxygenase-like [Cucumis melo] >KAA0064475.1 squalene monooxygenase-like [Cucumis melo var. makuwa] >TYK20113.1 squalene monooxygenase-like [Cucumis melo var. makuwa]) HSP 1 Score: 823.5 bits (2126), Expect = 8.5e-235 Identity = 432/525 (82.29%), Postives = 440/525 (83.81%), Query Frame = 0
BLAST of Spg016312 vs. NCBI nr
Match: XP_004141303.1 (squalene monooxygenase SE1 [Cucumis sativus] >KGN55303.1 hypothetical protein Csa_012944 [Cucumis sativus]) HSP 1 Score: 822.0 bits (2122), Expect = 2.5e-234 Identity = 431/525 (82.10%), Postives = 440/525 (83.81%), Query Frame = 0
BLAST of Spg016312 vs. NCBI nr
Match: XP_038900155.1 (squalene monooxygenase SE1-like [Benincasa hispida]) HSP 1 Score: 820.5 bits (2118), Expect = 7.2e-234 Identity = 426/519 (82.08%), Postives = 431/519 (83.04%), Query Frame = 0
BLAST of Spg016312 vs. NCBI nr
Match: XP_023536393.1 (squalene monooxygenase-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 812.4 bits (2097), Expect = 2.0e-231 Identity = 420/520 (80.77%), Postives = 432/520 (83.08%), Query Frame = 0
BLAST of Spg016312 vs. NCBI nr
Match: XP_022935797.1 (squalene monooxygenase-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 810.4 bits (2092), Expect = 7.4e-231 Identity = 419/520 (80.58%), Postives = 432/520 (83.08%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy Swiss-Prot
Match: O48651 (Squalene monooxygenase SE1 OS=Panax ginseng OX=4054 GN=SQE1 PE=2 SV=1) HSP 1 Score: 678.3 bits (1749), Expect = 5.8e-194 Identity = 350/520 (67.31%), Postives = 393/520 (75.58%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy Swiss-Prot
Match: B7TWW5 (Squalene monooxygenase SE2 OS=Panax ginseng OX=4054 GN=SQE2 PE=2 SV=2) HSP 1 Score: 671.4 bits (1731), Expect = 7.1e-192 Identity = 345/522 (66.09%), Postives = 390/522 (74.71%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy Swiss-Prot
Match: Q9SM02 (Squalene epoxidase 1 OS=Arabidopsis thaliana OX=3702 GN=SQE1 PE=1 SV=1) HSP 1 Score: 656.4 bits (1692), Expect = 2.4e-187 Identity = 336/523 (64.24%), Postives = 388/523 (74.19%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy Swiss-Prot
Match: Q8VYH2 (Squalene epoxidase 3 OS=Arabidopsis thaliana OX=3702 GN=SQE3 PE=1 SV=1) HSP 1 Score: 638.3 bits (1645), Expect = 6.6e-182 Identity = 327/496 (65.93%), Postives = 371/496 (74.80%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy Swiss-Prot
Match: O81000 (Squalene epoxidase 2, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=SQE2 PE=1 SV=1) HSP 1 Score: 616.7 bits (1589), Expect = 2.1e-175 Identity = 321/514 (62.45%), Postives = 372/514 (72.37%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy TrEMBL
Match: A0A5D3D983 (Squalene monooxygenase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold134G002380 PE=3 SV=1) HSP 1 Score: 823.5 bits (2126), Expect = 4.1e-235 Identity = 432/525 (82.29%), Postives = 440/525 (83.81%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy TrEMBL
Match: A0A1S4DZE1 (Squalene monooxygenase OS=Cucumis melo OX=3656 GN=LOC103493632 PE=3 SV=1) HSP 1 Score: 823.5 bits (2126), Expect = 4.1e-235 Identity = 432/525 (82.29%), Postives = 440/525 (83.81%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy TrEMBL
Match: A0A0A0L0L0 (Squalene monooxygenase OS=Cucumis sativus OX=3659 GN=Csa_4G645290 PE=3 SV=1) HSP 1 Score: 822.0 bits (2122), Expect = 1.2e-234 Identity = 431/525 (82.10%), Postives = 440/525 (83.81%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy TrEMBL
Match: A0A6J1F6K9 (Squalene monooxygenase OS=Cucurbita moschata OX=3662 GN=LOC111442598 PE=3 SV=1) HSP 1 Score: 810.4 bits (2092), Expect = 3.6e-231 Identity = 419/520 (80.58%), Postives = 432/520 (83.08%), Query Frame = 0
BLAST of Spg016312 vs. ExPASy TrEMBL
Match: A0A6J1CDH7 (Squalene monooxygenase OS=Momordica charantia OX=3673 GN=LOC111010224 PE=3 SV=1) HSP 1 Score: 800.0 bits (2065), Expect = 4.9e-228 Identity = 416/520 (80.00%), Postives = 429/520 (82.50%), Query Frame = 0
BLAST of Spg016312 vs. TAIR 10
Match: AT1G58440.1 (FAD/NAD(P)-binding oxidoreductase family protein ) HSP 1 Score: 656.4 bits (1692), Expect = 1.7e-188 Identity = 336/523 (64.24%), Postives = 388/523 (74.19%), Query Frame = 0
BLAST of Spg016312 vs. TAIR 10
Match: AT4G37760.1 (squalene epoxidase 3 ) HSP 1 Score: 638.3 bits (1645), Expect = 4.7e-183 Identity = 327/496 (65.93%), Postives = 371/496 (74.80%), Query Frame = 0
BLAST of Spg016312 vs. TAIR 10
Match: AT2G22830.1 (squalene epoxidase 2 ) HSP 1 Score: 616.7 bits (1589), Expect = 1.5e-176 Identity = 321/514 (62.45%), Postives = 372/514 (72.37%), Query Frame = 0
BLAST of Spg016312 vs. TAIR 10
Match: AT5G24150.1 (FAD/NAD(P)-binding oxidoreductase family protein ) HSP 1 Score: 423.3 bits (1087), Expect = 2.4e-118 Identity = 218/463 (47.08%), Postives = 290/463 (62.63%), Query Frame = 0
BLAST of Spg016312 vs. TAIR 10
Match: AT5G24160.1 (squalene monoxygenase 6 ) HSP 1 Score: 413.7 bits (1062), Expect = 1.9e-115 Identity = 212/464 (45.69%), Postives = 288/464 (62.07%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
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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