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Lag0020710 (gene) Sponge gourd (AG‐4) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGAGATAATCTCTCAAAAGCCAGATTGGTGGTGGAAGATATCGAGAATCTTGCGAGGGAGAAGGGAAATATTTCTTTCAGTTGGTGCCCAAGATCGTGTAATCGGGCAGCTCACGCGTTGGCAGTTGATGCCGCCAAATCCGCTTCGATCTCTCCTCTTTCGAACGGATGTAGTTCGGGCCCGCAGGGCCAATCTGACAGAACTCGTTCTCCTCCATGGAGGATGTGGGTGTTTTTTGTGGGTCTTCAGATCCCCTGTTTGGCTGGCCTCTATTATAAATGAGGAAGCCCATGGTTGTTGTGTTAGTTGAGTTGGTTTTTAATGAAGTATTCCTTTTCAAAAAAAAAAAAACATTCACAGCTTCTTTTCATGAGCTGAAGGCTGAATCTTCGCAAGGTGCAGAGAAAATTCGGAACAAGTTCGTCCTGCTTGATAGCTTCGTTTCACTTATCGTAATCTGGTTGACATTTTCCTTTTCTTAATTTTTCGTTTTTTCATTGATGGTACAGAGACTATTGCAGTATTGCTTTCGGTAGCAATGAATCCGGTTCCGCATCAGTTTGTGGCTCAACCTCCGGGGTTCCTGATGCCACCATTGAATCTGCCGCCGTCTTGTTCATCTTTCTGGGATAACCTAAATGTTCGGGATCGTTTAAGGGATTTGCAAGACACTCTCGATCTCGCGAAGTCAATGTATGTGTTTGTGTGTAATTTGTGGCATACTACTTCCCAGTTGATGATGGGTTTTTTTTTTTCTCCTGCTGTTGTGTTCTAGCTTTCAAATGCTCTTGTTCTAAATTGTGATTGAAGTATAAATATTGACAGGCAGAAAGAGCTTGAAATGTTGATGATGATTAAAGATCGCAAATCATCCGAGCTGAGTGTGGATAATGTGCGTAACGAAACTTCTATCGGTGAACTTTCTGAATACTTGGAAGATAGAAGGGTTAATTTGGAGTTGCAAGAATCGCATTCTGTCGAAGCTGCAGCTGCTTTGATGAGAAGGTTAAGAGCTGAGCTTCATCCATTTAGGATGGTCGCTGATGAATCGAGCCCATGGGAAGAAAAACATGCTGCCATTAGGTTATCTAATAAATTATTGAAGGCCAAGAGAAATAAGCAGTGGAGAAAGAGAAAAAGGAAGCGCGTTGCTGAATCACTTGCAAAGGTAGTACTATTTAGGTAATTTGTCTCGAATTATCTTTCGTATTTGCCATAATGTTGCTTGTTTTTGCCTTCTGGACATCTTAGGAACGTGAAAATTTTGACCAAGTTGATCGAGAGGCTGATGAATGGAGGGCCAGGGAGATTGCCAAGGATATTGCAAAACGCAAGGTGCTGGAATATTTATATGCATCAACTGATATATTTTTATCTATTCTATTATTGACAAGTTAAGAATTTAATATGCTTTTAGTTTGGCTCTCTTTTTGTGGGTTCTTTTATACCTGTTTTCTTTCGTTTTTTTTTCTCAATAAAAGTTCAATTTTCATTCAAAAAAGAAGGTTTTTTTTTTGGGGGGGGGGGGGTTCTTTTTTGGATTGGTGTAAAGATGATTCCTAAATCTCAAATTGATTAGTGGGTTCCATTGTAATCTGATGTTTAGTCTAGACACGTGGAAACAGACAGTGTTGTTTATCTATTTATATTCTAATAAGAAACTAGGTTTTATGGAGATAAATGAAAGTGCATGCGATAAGACCATTAGACGATAGGTTTGTTACTAGATGGAAAAGTATTAAGTTTTTTCTCTTTCAAATTCAGAATGCGTAACCACATTTGCAGTCATGCTTGATTTTTATGGACAGACAGGGTTATGTCACAAGGACATCGAAGTACGATAAGGCTGGGGTTTCTAGAAATATATAGATCCAACTCATTTAAGCAGCCTATATTATTATTCCCCTATGACTATTTGTTCTTTATTCATTTTACGTATGTTTTTTTTAGTTCAACATGTGGAGGTGGGAATTCGAAGTTCTAACCTTTTAATAAATGCTATAATATGATACCTTAACCAGTTGAGTTGTGCTCATGTTGCATTTAGGTCATTTGCTTCGCATATCATGTGCACTTCTTGGAACTTTGGTTAGGGGTGTTGATGCAAGATTAATGTAGTGTCTGATGTTAATATACTAACAGCCATTTACATTTTTCACAGTTTTTTAAATGAAATTTTGAATTTTTTTCTTCATGTTTTTCACTTGATTACTATTGTGTTTTTGCTTGCCTAGCTCTTGCGTAGAGAACATTGGCACAATTTATTAACAGAATAGTGTTAATTGTTGATGAGTAATCAATTCATACAATGAAATTGGCGAATGGGTTTCAGGTGGAGAAGATGAAAGAAATTGCAAGAATTAAAGCAAAAGAGGAGAAAAAGAAGCTAGACTCTGAGGTGAGAATCAATTGTAGTCTCAGAACTATTCTTGCTGCCTTTTTTTCCCCCCTCTTATGAACTTCTAGCTTACGTTAGATATCATGTAGCTTGAACTAGCACTAATAGTGGAAAAGTTGCAAGAACTGCGCTTCATCAGGATCCAAAAACTGAAGAAACAAGGTTTGATTTCTTACTTCTTCTTCTGCTTCTTCATTTTATAACTGCATTCTTGACATGCAGATGGTTTTTTTTACTGTTTTAGCAGATTTGTTACATTCTTTTTGGTCTTTGGCACTTTGTTAGGTGTATGAGTACGATGGATAGAAGAACTAAATCTAAATCATTGTTTATTTTCTGTTGTATAAATGGCAGTATGATATCTAGCTAGCAAAATGTACTTAGGTTCTTGCATTCCTGAACTCACTAGCAATTGCTCATATGATTGTGATTTCATTGAACATTGAATAAGTGAGAGAGATTAAGGAAGCTGAAAGAAAGAAAGAGGATATGGGTAGCAATACCCTTCTAGGACTGTCGTTGAAACTAAATCATTTAGAATCTTCTTTGATGAAAGAATTAAGGAGGGAGAGTGAAGATTAAGGAAAGAGAGAGATGTTTAGCTTTTGTTTCTATCCAATTGGTTATATAACATGTTGGATAGGGAAGATCCTGCAAAGTCTTTTGAGAAATCCTAGAAATAACATATTTTCCTAGCAAACAAGATATGGTTATTGTACTATTTGGATGAAGAAAACGATCAATAAGAGTGTGCTAGAGATTTGTAAGATCGATTCAGTTGGAGGGTAATCTAATTCTTTTGTTCCAAAAGATGAGGTAACTTGAATTGGCATGACTTTGTGCTTTCTGAACCTTAGACCTAAAGGTATGGTATTGGTGCCTTAACTCTGGAGTTATGCTCATGTTAGCCAAGAAAGGATGCCTTTTGATAGTGTTAGCAAAAAGAACTTGAAGGATAAGGTGAAAGGGTTGGAAGGCTTGGGAAAGGGAGGATGAAAAGTTGTGGAGGAGGCTGTCAAGTGAAAGGAAAATGTAAAGTCATCTATCATTGAGTGGAAAAAAACACAATTTCGATCTTTCCACAACAATTGGCTGGTCAGTTTAGAAGCCTCAAGGAAAAGTACTAATGAACTCATATGCTCCTCAATCCATTCCACCCAAAAAAAGTTGTGATTAGACACTTAGATGAATATAAGGCTTGGGCCTTTGCAAATATTTTGGGTGGGTTATTGAGTTTCAGAAGTGGAATGCTGGATAAAATTAACATGGTAACCTTGTATGGGAGGGTGGATCAATCTGAGACATCTACTAGTGTCATTGTGGACTCATAAAACCTTGGAGAAACTAGGGAACATTTATGGAAGTTTCTACCATGCACTACAAAACAATTAATTTACTGGACTATTTGGAAGCCACGTAGAAATTAGAGGAATATATTGTCGTTTTATTCCAGCTGAGGTGGTTATTGGAGATTTGAAAAATGGGGAAAAAAGGGAGATTCTCTTTAGTCTTTAGGATAGGTCATAGGAATAATGTTGTAAACGGGAAGTTACAGGGTTGAAAAGGGTACGTTTGGTTTTCTTGGATTGTATTTATCGGGAACTTTGGGAATTTGAGGTTTAATTTGTTCCTTGGAGCTATTTTCTTTCTTACTTTTTCACTATGACAATAAAAATATTTGTTTATTTTAAAGGAAAAAGAACGATTGCTGATGTGAGTTTTAATTACCTTCTGTATCATAAAATTGCGCACTTTATGTATAGATATGTGAACTATGAAAAGTAGTATTTTGGATCTCTATATACGGTATATACTTTTGGATCCTCGTAAACAAATAAAATTGACACTTGGATCTGGTTATGGCCTAATGATAGTAGTGGTCGGCGATATATTTTTCCAGGTCATTTTCTACCTGAGGAGGATGATAAGTTCCTAGAGAAGGTTCGAGCTGCAGTTGAGGAAGAGGAACGTCAAGCCCTTGCCGCAGCTGATACAGATGCTGCCAAGGATGCCATTGCAACTGCAGAGGTGTCTAGGAAGACTCTTCCAAGTTATGACTCTGAATCAAAGGATCAAAATAGTAATACAGAAAAGTGTGAAGAAAGAAATGATCAAAGAACTGCAAGTGCAAATGATAGGGTCCCTAGTACCAACGTTAATAAGGAACCAGGGAGGCAGTTTGGAGAAGGACAAGGTCATGGAAAAGTTTATGATTATGCAGCCAATTTACCGATGGAATTCTATCATTATTATTATGGGAGTAACACTGATATGGGTACATTAATTGAGGTAATTTCAGTAACTATTTTTGTGCTCTTCCCTTGTTGCAAATGTTGTGTCATAATGTATTTTTGTGCTATACACAAATTTGGGAAACCTATATCTGTATTGTCCAAAGGAATGGGTTGTAGACTATGAGTTGGTGTAACATGTAATTTGTAGGTTTTGTATTTCTATTAGTGACCTAGTGTAATTTTATGGCTTGAATTTGCGGGATTAGCTGATTAGTAAGTCTATGATAAGCAAATTTAGGGCTGCATCCCAAGTGCTTAAAAAAAGGTTTTCAAGTGTAAAAAAATGGTTTTAAGCACTTAGAAAGTCATTCCAAACGGACCTTCACTTGATATATTGCTCAGAACTACATCGTGAGTCCAAAAATCTTACTCAAAATGGCTCCTTGGTATGTGTGTTCTATAATCTCTGCCAACACTGTAAAAGTTACCGTGTGATAATTGTCTTGTATTAGTTCAAAGTGTTTTAGGATATTGAAAAACACTCCCTTACGTCAGTCTGTTAATTGACCTTAATACAACTATGAGCACATTTGATTTTAAATTACAACTATGACCTCTTTATGTGCAGGTAAGAAGATCATGGGATGTATATATAAGACCTGGCGGAAGGTAAGATCCGATTCTTTACTCTAGTCATTCCTCTTCTCTAGTATTAGCTTTAGTTTCCATGGGAAACCGGTAATTTGAAGGAAGTAACTAACACCGCGCTCGATATATTTGAATGTCCATGAATGCATCACAAATCTACAACAAACACCACCATCAGTTGTAACTTACGAGTAGGGCTGCAAAGCTCCAAGCGTGCTCGTTTCAGTATACCTTATGACATCTCTGCTGTTTCTTCTAGTTCTTGCCCATTCGTAATAGTATATATTATATTCTACTGCATGCCTGGATAGGTGGGATAGTTGTATTAATTGAATTTCCCTACGTGATTTCATGCAGCCGAATACCAGGACATTGGGTTCAACCACCACCACCTTCAGATGAAATTTGGGCAGCTTATTTGGTGCGACCAAAATGAAACCAGCCAAGCCATACATGCAGATTTGTTTTCCAAAAAGTGCTGGTGCAGATTGGTACGAGCAACAAATACGTCAATGACAAGCTTAACATTGATGTACACACATCGGTATGTAATTCTATGATCATTTGCGGCAATGTAAATATTTTGCACTTGTTTATGTAAGAAGATAATCAGAAAATTTCCTGTTTGTTGCTTAAACTGCCATAAAAATTCAGCTGAGTTCACCATGTCGAGTTAGAAACTGTGACGAGTTTGTCGAGGTAGCTCAGGATTGTGAAGATATCTAACAAAGGCTTTCATCAAGGCAAGAGCAGAGTTCCAAATGGATTGGTGATTTGGTTCTGATTCGACTTATTTGAGCTGAAGAAGCTTTCTTGATGATTTATTTATTTTTTGTTTCTAATCTTTTAGTGTGTTAGTAGAGGTTTCAGAAGGAAACTGACATGCGAAATGAACTATGTAAATAGAAATTTTGGATATTGCATCTACTGATCTACATGGATCAATTCAATTTTGGTTTAAATTGTTTGCTTTCTTTTTTTCTTAAGAGGATAATAATAATAATCATTATTATTATTTTGAAAGCAATGCATTTGAAATATGCATATTTTAACAGAGAACACTATGGTCAAATCAGAATTCACTTAATTGTTATTCAAAAAAAAAAAAAAACACTTAATTGAGAATCTGAATAATGATGAAATATGTATATGATCAAACTTAAGTATTATCAACGTTTGGGATGTACGGAAAATTGTCATAAATGAAATGAGAAGTATCAAGTATAAATGCATTCAAAAGTATCCATGTAAAACTTCATTCTAGTCATTCAACGATAATTAGCATGAACTCATTTGATTTTTTAAATTCTCATATTTCTACCTTTGTTGTGCTAAAAAAGTGTTCAAATGATATTTACAAGCTTCAAATATTAGTATATTCCATCGAAATGAAGTCAGAAATCTTTTCTGCACTTTTCAAAATTAATGGAAAATCTTATTAAAGAGAATTTTGCTACGAAGCATCTTTGTTTGTTCTACAAAAGCACCAAACGACGACGTTTTCCATGCTGCACGATTTGGTAAATTAATGTAAAGAAAAAAAAAATGAAACTGTGGCTGCTGGGATTCGAGCCCAGGTCTCCACGGCCACAACGTGGAATTCTCACCACTAAACTACAGCCACCTTTTGGTTAAAGATTAGTCATTCTTTTATATAAACAAAACTTACTAAAGTTTTGCCAAAGACTACCATCTACCCGTTATAGGTTGGAACATGTCCTTATTATTTTTTTTTTCTAAGGTTTAAATACATATTATTTGTGTGTAACAAAGTTTTATCCTATTTCTTAAACTTTTTGTTGTTGATTTGGAGTCATACTATAGTTTATTTCAGATGTTCCCTGCATTTTTTTTTTTTTTGTTATTGGTGACAAATTAGTTATTTTGCCCTAATAACTAGTCCTTTAATATTCAAAAGAGAAAATTTTAGGTATGAGATATTATAATTAACTGTATCACAGGGAGATTTCTAGGAAAAGTTCTTTGGTGGTAGAGTGAAATTACTTCTTCGTGGTATCTGAGAGTTAATGAGATTGACAGTCTAGCATGCATAGTGGATGTGGACCTTACAGTCAAACCACAATAAATACTTTCCTATTCTATGCTTTTCTTTCTATGTTGATTGTTCAGTCGATTTCTTAGTTTTGGTTTAGCTGATATATATATATATATATATATATTTGATTAATCAAGACAATTAAATTCTTCAAATGGTACAAAAGCTTGGTTTGGATAAAATTCTTGAACAATTAGTTCGAATCAGCAAGCTATAATACTTCAAAATGCTTTGTCCTACAAGGAGGTAAAGATGAGTATGAAATGAATCCATACTCCTTCTATACCTCCTTGGCCATTCGATGCTTTAAGGTCTATAAGCTTTGAAACATTAGTGTTATAAGGTAGAGGGAAGATCAGAAAAATAAATGAAAACGTCAAGATAAACAATAAAGAACATTTCATGAAGAGATGACTTTCAATTGAAGAATAAGAATAAAAATCAAGAAAGAATGAAGATTCAAAGCTAGCAAACATTCATAAGGCTTATGATTCCTTTCAAAATCGTCCTTAACAAAATGAAGACAATCATCGAAGCTATTTCCACACTATTGTTAGGCTTGGACTCGGTGACCTTCAACCATTGTCAGAAGCCCACTGTATTGCCAAGTTAGCTAAGGGCTGGTTTTTGAACCCTTGATTTCCTTTGTGGCTCTTCCCTCTTCTTTATGAGGGCAGTTGTAACTTTCATCCTTAGTTAATGCATTTCTTGATTGAGAAATGAAGCTTTGTTTCCAATGGTTCATAACACATAGACTCCTTACAAACTTTACTTCAGAAATGGAACTGTGCTTCTGGGCAATGACCACAATGTGAGTCCAGATTGATCACTTTTTTTAGATCCCATATTTCCTTCTCAGTCCTTGATCTTGGTAAACACCTCAAAGCAATGAAATATTTTTGTGACACCAATACTAAACAAAAGTTTTAGTTGATATTTATCTTTAATTGTTGATTTTTGAGAGCAAAGATTAATTGATATGGTGTTTTATAGTTCATTTAAGTCACACAAATGATGTCTAATTTACTAAGTCGATTGATTATCATTAATTTCCATAATTCTAGTCAATAATTTCATCCGTATATAAACATTAGTTATGTTATTAAGCCACAATCAAAATTTGGTTTACTAATTTAAACCTTTCTTTTTAATCTCCATAATCTTCTGAATTTTGGTCAAGGTCAATTCTTCGAACTTAGCTTAACACTACTGGCTAACAGAAAAGAATTTTGAAGAAGAGAAATTTTGAGTTCAACATTTTCTTCAGTGTTAAATATGCTAATACCGAAAACAACAGACCAGAATCTTCAATAATCTAGTAATGAAATCCTAAATTTAACACTTCTTCGAGTGCAGACAGTTTTGATAAAACAATATCAACAAATCCAATTGATCAAAAACAATGAAAACAGGGAGAAAGAATGTTGCCGAGGGTTCCGGACGATCCAAAATCAGAGAAAATTAGGGCGTCCTACGATTCGGCAGATTAATCTGCGAAGGATTAAATTCAAAGTTAGAGGGGTCTCAATCTCAGAGTTAACCTCCCCTCTGCTGGGACCTTCGCTCGAATCAACCAACTAGAAAATGGAAGTAAATTTCTGTATGAAAAAAGAAATCGAAAACCGAACCAGTTATTCAGAGCTTGGCTCGGCGATCTGGTTTCACTGCGATTTCCGAAGGCAAACTTGGAGCAAAAGCGCATTGATTAG ATGGGAGATAATCTCTCAAAAGCCAGATTGGTGGTGGAAGATATCGAGAATCTTGCGAGGGAGAAGGGAAATATTTCTTTCAGTTGGTGCCCAAGATCGTGTAATCGGGCAGCTCACGCGTTGGCAGTTGATGCCGCCAAATCCGCTTCGATCTCTCCTCTTTCGAACGGATGTAGTTCGGGCCCGCAGGGCCAATCTGACAGAACTCGTTCTCCTCCATGGAGGATGCTGAATCTTCGCAAGGTGCAGAGAAAATTCGGAACAAAGACTATTGCAGTATTGCTTTCGGTAGCAATGAATCCGGTTCCGCATCAGTTTGTGGCTCAACCTCCGGGGTTCCTGATGCCACCATTGAATCTGCCGCCGTCTTGTTCATCTTTCTGGGATAACCTAAATGTTCGGGATCGTTTAAGGGATTTGCAAGACACTCTCGATCTCGCGAAGTCAATGCAGAAAGAGCTTGAAATGTTGATGATGATTAAAGATCGCAAATCATCCGAGCTGAGTGTGGATAATGTGCGTAACGAAACTTCTATCGGTGAACTTTCTGAATACTTGGAAGATAGAAGGGTTAATTTGGAGTTGCAAGAATCGCATTCTGTCGAAGCTGCAGCTGCTTTGATGAGAAGGTTAAGAGCTGAGCTTCATCCATTTAGGATGGTCGCTGATGAATCGAGCCCATGGGAAGAAAAACATGCTGCCATTAGGTTATCTAATAAATTATTGAAGGCCAAGAGAAATAAGCAGTGGAGAAAGAGAAAAAGGAAGCGCGTTGCTGAATCACTTGCAAAGGAACGTGAAAATTTTGACCAAGTTGATCGAGAGGCTGATGAATGGAGGGCCAGGGAGATTGCCAAGGATATTGCAAAACGCAAGGTGGAGAAGATGAAAGAAATTGCAAGAATTAAAGCAAAAGAGGAGAAAAAGAAGCTAGACTCTGAGCTTGAACTAGCACTAATAGTGGAAAAGTTGCAAGAACTGCGCTTCATCAGGATCCAAAAACTGAAGAAACAAGGTCATTTTCTACCTGAGGAGGATGATAAGTTCCTAGAGAAGGTTCGAGCTGCAGTTGAGGAAGAGGAACGTCAAGCCCTTGCCGCAGCTGATACAGATGCTGCCAAGGATGCCATTGCAACTGCAGAGGTGTCTAGGAAGACTCTTCCAAGTTATGACTCTGAATCAAAGGATCAAAATAGTAATACAGAAAAGTGTGAAGAAAGAAATGATCAAAGAACTGCAAGTGCAAATGATAGGGTCCCTAGTACCAACGTTAATAAGGAACCAGGGAGGCAGTTTGGAGAAGGACAAGGTCATGGAAAAGTTTATGATTATGCAGCCAATTTACCGATGGAATTCTATCATTATTATTATGGGAGTAACACTGATATGGGTACATTAATTGAGGTAAGAAGATCATGGGATGTATATATAAGACCTGGCGGAAGCCGAATACCAGGACATTGGGTTCAACCACCACCACCTTCAGATGAAATTTGGGCAGCTTATTTGATTGGTACGAGCAACAAATACGTCAATGACAAGCTTAACATTGATGTACACACATCGCTGAGTTCACCATGTCGAGTTAGAAACTGTGACGAGTTTGTCGAGACTCCTTACAAACTTTACTTCAGAAATGGAACTGTGCTTCTGGGCAATGACCACAATAGGGGTCTCAATCTCAGAGTTAACCTCCCCTCTGCTGGGACCTTCGCTCGAATCAACCAACTAGAAAATGGAAGTAAATTTCTGTATGAAAAAAGAAATCGAAAACCGAACCAGTTATTCAGAGCTTGGCTCGGCGATCTGGTTTCACTGCGATTTCCGAAGGCAAACTTGGAGCAAAAGCGCATTGATTAG ATGGGAGATAATCTCTCAAAAGCCAGATTGGTGGTGGAAGATATCGAGAATCTTGCGAGGGAGAAGGGAAATATTTCTTTCAGTTGGTGCCCAAGATCGTGTAATCGGGCAGCTCACGCGTTGGCAGTTGATGCCGCCAAATCCGCTTCGATCTCTCCTCTTTCGAACGGATGTAGTTCGGGCCCGCAGGGCCAATCTGACAGAACTCGTTCTCCTCCATGGAGGATGCTGAATCTTCGCAAGGTGCAGAGAAAATTCGGAACAAAGACTATTGCAGTATTGCTTTCGGTAGCAATGAATCCGGTTCCGCATCAGTTTGTGGCTCAACCTCCGGGGTTCCTGATGCCACCATTGAATCTGCCGCCGTCTTGTTCATCTTTCTGGGATAACCTAAATGTTCGGGATCGTTTAAGGGATTTGCAAGACACTCTCGATCTCGCGAAGTCAATGCAGAAAGAGCTTGAAATGTTGATGATGATTAAAGATCGCAAATCATCCGAGCTGAGTGTGGATAATGTGCGTAACGAAACTTCTATCGGTGAACTTTCTGAATACTTGGAAGATAGAAGGGTTAATTTGGAGTTGCAAGAATCGCATTCTGTCGAAGCTGCAGCTGCTTTGATGAGAAGGTTAAGAGCTGAGCTTCATCCATTTAGGATGGTCGCTGATGAATCGAGCCCATGGGAAGAAAAACATGCTGCCATTAGGTTATCTAATAAATTATTGAAGGCCAAGAGAAATAAGCAGTGGAGAAAGAGAAAAAGGAAGCGCGTTGCTGAATCACTTGCAAAGGAACGTGAAAATTTTGACCAAGTTGATCGAGAGGCTGATGAATGGAGGGCCAGGGAGATTGCCAAGGATATTGCAAAACGCAAGGTGGAGAAGATGAAAGAAATTGCAAGAATTAAAGCAAAAGAGGAGAAAAAGAAGCTAGACTCTGAGCTTGAACTAGCACTAATAGTGGAAAAGTTGCAAGAACTGCGCTTCATCAGGATCCAAAAACTGAAGAAACAAGGTCATTTTCTACCTGAGGAGGATGATAAGTTCCTAGAGAAGGTTCGAGCTGCAGTTGAGGAAGAGGAACGTCAAGCCCTTGCCGCAGCTGATACAGATGCTGCCAAGGATGCCATTGCAACTGCAGAGGTGTCTAGGAAGACTCTTCCAAGTTATGACTCTGAATCAAAGGATCAAAATAGTAATACAGAAAAGTGTGAAGAAAGAAATGATCAAAGAACTGCAAGTGCAAATGATAGGGTCCCTAGTACCAACGTTAATAAGGAACCAGGGAGGCAGTTTGGAGAAGGACAAGGTCATGGAAAAGTTTATGATTATGCAGCCAATTTACCGATGGAATTCTATCATTATTATTATGGGAGTAACACTGATATGGGTACATTAATTGAGGTAAGAAGATCATGGGATGTATATATAAGACCTGGCGGAAGCCGAATACCAGGACATTGGGTTCAACCACCACCACCTTCAGATGAAATTTGGGCAGCTTATTTGATTGGTACGAGCAACAAATACGTCAATGACAAGCTTAACATTGATGTACACACATCGCTGAGTTCACCATGTCGAGTTAGAAACTGTGACGAGTTTGTCGAGACTCCTTACAAACTTTACTTCAGAAATGGAACTGTGCTTCTGGGCAATGACCACAATAGGGGTCTCAATCTCAGAGTTAACCTCCCCTCTGCTGGGACCTTCGCTCGAATCAACCAACTAGAAAATGGAAGTAAATTTCTGTATGAAAAAAGAAATCGAAAACCGAACCAGTTATTCAGAGCTTGGCTCGGCGATCTGGTTTCACTGCGATTTCCGAAGGCAAACTTGGAGCAAAAGCGCATTGATTAG MGDNLSKARLVVEDIENLAREKGNISFSWCPRSCNRAAHALAVDAAKSASISPLSNGCSSGPQGQSDRTRSPPWRMLNLRKVQRKFGTKTIAVLLSVAMNPVPHQFVAQPPGFLMPPLNLPPSCSSFWDNLNVRDRLRDLQDTLDLAKSMQKELEMLMMIKDRKSSELSVDNVRNETSIGELSEYLEDRRVNLELQESHSVEAAAALMRRLRAELHPFRMVADESSPWEEKHAAIRLSNKLLKAKRNKQWRKRKRKRVAESLAKERENFDQVDREADEWRAREIAKDIAKRKVEKMKEIARIKAKEEKKKLDSELELALIVEKLQELRFIRIQKLKKQGHFLPEEDDKFLEKVRAAVEEEERQALAAADTDAAKDAIATAEVSRKTLPSYDSESKDQNSNTEKCEERNDQRTASANDRVPSTNVNKEPGRQFGEGQGHGKVYDYAANLPMEFYHYYYGSNTDMGTLIEVRRSWDVYIRPGGSRIPGHWVQPPPPSDEIWAAYLIGTSNKYVNDKLNIDVHTSLSSPCRVRNCDEFVETPYKLYFRNGTVLLGNDHNRGLNLRVNLPSAGTFARINQLENGSKFLYEKRNRKPNQLFRAWLGDLVSLRFPKANLEQKRID Homology
BLAST of Lag0020710 vs. NCBI nr
Match: XP_022147279.1 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein [Momordica charantia] >XP_022147280.1 U11/U12 small nuclear ribonucleoprotein 59 kDa protein [Momordica charantia]) HSP 1 Score: 637.9 bits (1644), Expect = 9.2e-179 Identity = 339/406 (83.50%), Postives = 370/406 (91.13%), Query Frame = 0
BLAST of Lag0020710 vs. NCBI nr
Match: KAG6582639.1 (Protein ABIL1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 636.0 bits (1639), Expect = 3.5e-178 Identity = 339/411 (82.48%), Postives = 371/411 (90.27%), Query Frame = 0
BLAST of Lag0020710 vs. NCBI nr
Match: XP_022924846.1 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein isoform X2 [Cucurbita moschata]) HSP 1 Score: 635.6 bits (1638), Expect = 4.6e-178 Identity = 338/406 (83.25%), Postives = 369/406 (90.89%), Query Frame = 0
BLAST of Lag0020710 vs. NCBI nr
Match: KAG7019034.1 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 634.0 bits (1634), Expect = 1.3e-177 Identity = 337/406 (83.00%), Postives = 368/406 (90.64%), Query Frame = 0
BLAST of Lag0020710 vs. NCBI nr
Match: XP_023526863.1 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 632.5 bits (1630), Expect = 3.9e-177 Identity = 336/406 (82.76%), Postives = 368/406 (90.64%), Query Frame = 0
BLAST of Lag0020710 vs. ExPASy Swiss-Prot
Match: Q8VYD3 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein OS=Arabidopsis thaliana OX=3702 GN=SNRNP59 PE=2 SV=1) HSP 1 Score: 362.8 bits (930), Expect = 7.5e-99 Identity = 218/414 (52.66%), Postives = 274/414 (66.18%), Query Frame = 0
BLAST of Lag0020710 vs. ExPASy TrEMBL
Match: A0A6J1CZQ3 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein OS=Momordica charantia OX=3673 GN=LOC111016273 PE=4 SV=1) HSP 1 Score: 637.9 bits (1644), Expect = 4.5e-179 Identity = 339/406 (83.50%), Postives = 370/406 (91.13%), Query Frame = 0
BLAST of Lag0020710 vs. ExPASy TrEMBL
Match: A0A6J1EAK8 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111432209 PE=4 SV=1) HSP 1 Score: 635.6 bits (1638), Expect = 2.2e-178 Identity = 338/406 (83.25%), Postives = 369/406 (90.89%), Query Frame = 0
BLAST of Lag0020710 vs. ExPASy TrEMBL
Match: A0A6J1IWF2 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111479855 PE=4 SV=1) HSP 1 Score: 632.5 bits (1630), Expect = 1.9e-177 Identity = 337/406 (83.00%), Postives = 368/406 (90.64%), Query Frame = 0
BLAST of Lag0020710 vs. ExPASy TrEMBL
Match: A0A6J1EAC6 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111432209 PE=4 SV=1) HSP 1 Score: 627.9 bits (1618), Expect = 4.6e-176 Identity = 337/411 (82.00%), Postives = 369/411 (89.78%), Query Frame = 0
BLAST of Lag0020710 vs. ExPASy TrEMBL
Match: A0A6J1IZE8 (U11/U12 small nuclear ribonucleoprotein 59 kDa protein isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111479855 PE=4 SV=1) HSP 1 Score: 624.8 bits (1610), Expect = 3.9e-175 Identity = 336/411 (81.75%), Postives = 368/411 (89.54%), Query Frame = 0
BLAST of Lag0020710 vs. TAIR 10
Match: AT2G46200.1 (unknown protein; Has 2968 Blast hits to 2381 proteins in 310 species: Archae - 16; Bacteria - 188; Metazoa - 1070; Fungi - 227; Plants - 145; Viruses - 4; Other Eukaryotes - 1318 (source: NCBI BLink). ) HSP 1 Score: 362.8 bits (930), Expect = 5.3e-100 Identity = 218/414 (52.66%), Postives = 274/414 (66.18%), Query Frame = 0
BLAST of Lag0020710 vs. TAIR 10
Match: AT2G46200.2 (unknown protein; Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 362.8 bits (930), Expect = 5.3e-100 Identity = 218/414 (52.66%), Postives = 274/414 (66.18%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (AG-4) v1
Date Performed: 2022-08-01 Position : 0 Zoom : x 1
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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