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Lcy13g008200 (gene) Sponge gourd (P93075) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAACTTTAAAAATTTATTTTATTTTTTATTTTTGTTCATTTCCCGGCCATCGGAGAGACACGATCGGAATTCCGAAGGCTTTTCTCATTCTCGCCGGCGGCCATGCCGTTGCCGAACTACAATCACCTGCAGACCCCACTCCGCCACTCTCAGCCGTCTTCCTCATCCTCTACTTCCAGACTCCTTCTTCTTCTAACCTTCCTCCCTCTCACTCTCGCAGCCCTTGCTTTCGTCCTCCAATGGCGCGGCGGACTCACCGACCCTGTCACCCGCTGGTCTCCGCGGGGATCCTACCAGTTCCCCGGCATGGACGCCTCGCCCCTCTCCCAGATTTCGCACCGCTCCTCGACGCCTTCTGGTTCTGGCTGCCTCAATCTTGGCCGGAGTGCTTCGCCCTCGTTCCCCTACTACCAGGACTGGAAGTTCGATCGCGGATCAGATTTGAAGCCCAAGGTATATTCCTCTTCTTCTTTGGAACTTTTATTTAATTGGTGTTCTGAAGTTGATTTATATGTTGTGTTGGTAATATTAATTGATATTTGATATGTGGTTAAGAATGCGGTTGTGACTAGAGTTTTGGAGTCAATCCCTGGATGTTAATTGATATCTCGATGTGTAGATATGCATTACAACGAGTACATCAGCAGGATTAGAGCAAATTTTGCCCTGGATGTTCTATCACAAGGTCATTGGGGTTTCAACCTTCCTACTTTTCGTGGAGGGAAAAGCTGCATCTCCTGATGTGACTAGAGTTTTGGAGTCAATCCCTGTGAGTTCAATTGCTCTCCACTTACTCCTAGTTGAAGCCAACCTTCAGTATATTTGATTTTTTCTGGTTGTTAAGCATGAATTTGACGTTGATTATCAGGGAGTGAAGTTGATATTCAGAACAAAAGAGTTGGAGGAGCAGCAAGCAAAAAGGTGGAAATTTTCTTCCATTTTTTTAAATAAATTATAAGAAGCCACTTTCATTTACGTGAATGGAAAGGCTAAGGAAGGGCTTATTTCTTCTATTAAGTTTCTCTAGAAATGCCACAATGTCTGACTGGAAGCTCTTGAACCTAGTTATTATTAGATGTGCTATTGATTCACGATCATTTTCTCCAGTAAGGGTGTAAATGAAAACTGAAACAATTGAAAGGATTGACGAAACCAATCTAGCTGAGTCATTTCCGTTAATTTTGACCAGTTTTTGACATCTGAACCAACCCAAGAACACTTCTGTTTCATGGAATATAAGTTTCTGCAATTTTTGATGAGTATGAAGATTAAAAGGTCTCTTCCATTATTATCTGCTTTTGAATTCTGGTACAACACTTGTGTGAATCACAGATACAGACACAAGAAACACATAGCTTTTTGTTGATGCATGCAAAGTGCAATTGAGAAGGCAAACTTGTAGCGAAGAAGTAAACAATAACACTCCAATCGGCATTTGCCAAGAAGAAATTATAATTACAGAAGTTCTAGAAAGAGTGCTCCAACTAGAAGACCCAAACTTTGCTTAGTTCCCAGTATCTTCATTAATCTAGAATCCATCTTTAAAATGTCTGGAAGTCCTTTTCAGCCAAACTTTCCAAAAATATAACTAAGGCTGCATTACACAAAGAATGGAAACCTTCTTCTTATATCTGGGGCCACACAATGGTTGTTGCAAATTTCCTTAGTTATCTTAGGAAAATTTGAAATAGAAATATTAAGAATAAGAAGCACCAACAATTTCAGATATAAGGGCAGGCAGTTGGTATACTGGTGATCTAGCTCTTCCAAAATATCAGCATAAATATCACCAATTTAGGTATAGGCACGTGGAGAGACTCGTTCTCTAGAGGAGTAAATCATTATCATATTTATTTAAGAGTACTGCCAATCAACGTTTTATATCTCATTATTTCTTAACGTTTTTTTTTTTTCCAATGTGGATGTCTGGTCTCTTGTGGCTCTCCTCAGTCGGATCTGGAACGAAACATGGCTTTCTGGTTTCTTTTACAAACCTTGCAATTATGAACTATTTGTGAAGCAAACTCTCAATATGGAGATGGCTATTGTTATGGCAAGGGTATGGAAAGTGTTCTTCTCATGGCTATTACCCTGTTGTTACTTGTTACTTATTGCCTAATGTATCACTATTAACTTGTGCTGTTTAGTTTCTTCTCTCCCTTTTTTAAAATATTAGGGTGCTGGCATGGATTGGATAATTCATCTTGATACTGATGAGTTGGTACATCCAGTCGGTGCTCAGGAGTACTCCTTGAGACAGTTGCTACTTGAGGTGCCTGGAAATGTTGATATAGTTATTTTTCCTAACTACGTAAGTGTTCATTATATCTTTTTGTTCTATAATTTGTTATTTTTGTTAATGAAAAGTTTCATGTCTTGTTCAAAAGTATTTTTTTTTTTTGTTGTGAAATGGTGAAGCTACTTGAACGTGTCAATGTTATTTTGCTTTTACGTATTGATTTTGTTGTGAGCCACAATATAATCGCAGTGTTGTTGTTATTTAGGAAAGCAGTGTTGAAAGAGATGATATAAAGGAACCTTTTACTGAGGTAGTTTCTCTCACTATCCATTCTTATTATTTTACTTATTAGAGCTGATTGGCTGTAAATTTTGATTTGTTATCCACCATGATTTGCACTAATGCATTTGTAAAGGGCTCTAAAAACATTGAAATATAAAATCTGCATGTGCATGCAACTAAAATTGGTTTCTGTTTCTTGCTGATACATGGAACGCTTGTAATTATCTTTTGTATATTGTTAGACCTCCAGTGGTGAAAGTCTACTTAAGAAAGGGCAAAAAGGGAAATATGACTTTAGATGACATCTAACTGGTAGCAGTTTTTATGTGGTTGGTACTTTTAAATGTTTTGAATGAATGAATAGGGAGTTATAACTTCCAAGTTGGTTGTGTCTTATCTTCTAGATATGTTAGTTCTTTTGGAGTCGGAGAGTGTGTAGAATTTTAACAGTAGTTGTCTGTAAGTGGAGAGAACAACGACCCTCTCGAATTGGTCATTCGTGGATAGGTTGTAATTCTCACTAGAGAAAGTTAGTAAATAAAGGATACCTATCATATTTTTTTTCTTCTTTCTGTTGCCATAGGTCATTCTTAATGCATGTCCATGCTTTAATTCTTTCACTTTTCTTAATGACATTGGTTTTTTTTTTTGTGAATAAATAAGAACTATGAGAAGTTGTTTCTGAAAACTGTACTCCCAGTTGATAGAAATTTAAAATTATTAGAAGGTCAAATTTCAAAATATTTCAAAATATTTCAAAATTTGATCTATATTTTGTGGCGTTTTATATTCAAGTTCTGAAAGGGGAAAAAGAAAACAAAAAAAACCAAAAACCAGAATTGAATACAGAATTGTTCAAATTGGCTCTATGGTCTCTTTGCCTCCCCAGCATTCTATTATTGCCAGGACACATCTTGAGCGCTTTTGGAGTTGTTGAATGAGTGCCGAAACAGAGGAGGAGGATATGGAGACTGAATCTGATTTTCATTTTAATATGGATGAGTGGGATTGAAGTGGTTGTGGTTGCATCTCTTAAACAGGAAATGGTGTCCATTAGTTTGCCATTCCAGTGTCATATTTTCTATTGAATACTACCATGTGGATATCTCATGTTAAAGACGGAGCATTTTAGTTGTAATGAGTCTTATATTTTGTTTTTATACATCAAGACGAAACTTGAGTAAAGAATTAGGTAGTGACTGTTCTTAAATATGCACCTATTATTTTGAGACAACTCTTTTTATGTCCTCAGGTCTGTTCTTAAATATGCACCTATTATATTGAGAATTTGAGACAACTCTTTTTATGACCACAGGTGTCGATGTTCAAGAAAAATTTTGACCACCTTCCCAAGGATACATATTTTGGCATGTACAAAGAATCAACTCGTGGTAATCCAAATTACTTTTTGACTTATGGAAATGGGAAATCGGCTGCTCGAATTCAAAATCATCTTCGTCCCAATGGTGCACATAGATGGCATAATTACATGAGAACCCCAAAGTAAATTGTTTACTGTGAACTTGTGGTTTCAGGATAGCTACTTTTGCTGCACTAACTGTTTTCTGTAAATATCTGCCAGTGAGATTAAATTGGAGGAAGCTGCCGTATTACACTACACATATGCAAAATTTTCTGATTTGACCTCTAGACATGACCGCTGCGCCTGCAAACCTACCAAAGATGATGTTAAAAGATGCTTTATGTTGGAATTTGATAGAGCTGTGAGTTAACTGTTCCCCGATTTTATTTATTTTTTTGTTCACAAGCATAAGCTGCTGTCCACACAAAAAGCTTCTGAGAACAGGGTTATGCAACAGTCGCAGATCAGTGTGAACAAATACTTCAATGTGATGTGGATGAAGAGATATTTTCATTTATTACTGCTTACATGTGGTGCGTTATAAATTAAAGAAGTGGGTTAGGATAGGATTGCTGGTAAAACTACTCTTTTTCATACAAAGAACTGGATTTGCCACATTAATTAGATGTTAGTAATTGACACGTAGGCATTTACATGAGATTATCAAACCATTTTTATCCTCTTTCCTAGTGCCACTTTGCATGAGATAATTGTTTAAATTATACTTTTTTTGCACACTACACTGTCCTAAAATTTCCATGATTTGGGAACAAATTTATCTCGATATAAGCTGCCATCCAGAACTTAAGAGTTTGTTTTACTTTATACTTCTTGATGACCTTATCTCATTATTTTTAAATTTCTAACCAACGAGATGTATTGCAGGCATTCATAGTTGCTTCTACTGCAACCCAGGAGGAAATGATGACCTGGTATTCTCTTTATGTAGAAAATATTTCTTTGTTTATGTTTTGGATGTGACATATTTGCTTCTTTACTAGGTACCGAGAACGCGTTGTGTGGGGTGATCAAGATGTAAAACTCAAGTTGTTGAGGAAGGGCATTTTGACACGAATCAATGCTCCTATGGTAAGAACTATATTTGATGTCTGTAGTGACAAATTAGAAACAGCTACAAGAGTTCACTTGGAAAACTATTTTCATCGGAGTGTCCAAAGAGATGTGGAAGCATTGGGCTTTTGTAATAATAAATTTCCTATTATTTATTATTATTTATTTTTGAAACATAAAGTTTCCTATTATTTCTGCCTTTTAACCCTCCCTTCTTCTGATAGCTTGAAACTGCTTAGGAATGAGAAGAGGTTCAAGACAGAGAATGTTACATAGGTGTGACCTATGTAACATTCTCTGTCTTGAACCTATTGGTTTTGGGGAGCATAGTACTTACCCTTTCTCTCTTTTTTGTATACTCGTTATTTCTTCAATGAAATTATTTCTTAAAATAAAAAGAAGAAGAGAAAAAGAATTTGTTGCATTAGGAATAGACAGACATCCAGATTCTGACTGGTTGGAAGTTTAGTTTCCGGGAACTAAAGAGGACATTTTCTCATGTCAGTACAAGTGTTCATATCCAACATGAGTAGAATATGGAATTATAATTGTGAGTGATGTAAGGATTTGAACCAACTTATATAGCAACGATTATTGATAAATGCCATATTCTAAAAAAATAAGTGTTCAGATGCTCAGTGATCGTGGATACTTATTGCACCCTGTCCTTGATACGTTTTCCCCCTCTTTTTGGTCAGGTGATTATACAGGGATTAAGGGAGAGTGGCATCTTCGATTCTGTTACTGCTTCAGCTTCTGAAACTCATGCAAAGGAGAAATTTTTATCATCCATCACTACCAGCAACTCGAGCAAAGCCGTTGCCTCCCAATCTCTTCCATCTAGGAGGGTAGGCACAAGTAAAAAGTACCAAGCAACTGCAAGGAAGGCTCTGCAAATTGAAGCTGAAGAGTGGCATGCATCTGCCGTTCCACCACAATCTCCTCCAGGAATAGACTACGAAACTCGAAACCTGGTAGGGGGTACATGATTCTTATTAATGGATTGTCATTGTTTGGTCTCTGGTTTTTGGTGTGTATTGTATTTGACTTTCCATCATACATTACAGTACTTAGCCACCAAGAGCTGTTAGGAGTGAGAAAAGAACAGCAGATAAAAACTATTCTTTCTTCATTGTATAATATAATATTGTTGTGATTGAATTATGCAATCAATTTTGAGTAAGTTTCTCAGTTCTTTTGTATAGATGTCATATATTTTATAGGGTTCTTTAATCAAGCATTTTAGCATCAAAGCATGTCAGCTACAGAAAGGTTGAGGAATCATCTTGGTGGAAGAACTTCAAAGGTCAGTTCATTTGATTGAATGCACAGAAACTTCATAGACAATAACTGGAAAACGATTTATAGAGTATTGAAGTTTAAACTGATAGTACAGAATTTACACAAAGAAACCCTGTGAGCGAATATGGCTTCTGCAATAGACACACAGTACAGTGAAGAATTGAACTTGGATCTGATTACTAATCAAACGTTGGCGGAATTATCAGGTTTGAAAATCGGCTGCGGTGGTGGCGAGGCATGAGCAGCACCGCTACCGGGAGGTGGCGTGGGCACCCCGAATACCTGCGCATTAGTCCGGATGTCCTGTCTCCCTTTTGCTCTGCCTAAAAAGTAACATCCGAAACCGAGCAACAAGCAGAAGAGAATCAATGGCAGAGAGATCACCACCACCAAACCCATCTCCGATCACAAGCAAAGAGCTAGAGTTGAATGGAAGGAAGAATGTGTGTGAGAGAATATATACAGAGAAAAGGGGAAGAAGGAACTGGGCTTATTGTTGAAGGTTTCAGATTCTGTCCAGAAGAGAAAAGTAAGGTTTGATATATTTATATCCTCGAAATTCCATCCAACGGTCAGCTTAAGGTTGAAGCTTCAACGGTCACTTTTTCAAACAGAGACAACCATTCAAATGACAGCTGGATAAATGCTTTCTTTTCTTGTCTTAACTTCTTATTCTTCCTCTTTGCTGAATGATTTCATCCTCAGGTTGGCTGCCTCCAGAATCTTCTTTTGCAGCTTTACCTAGTATTAGGTTAAATAATTTTGTTTGTTGATGTGATTTTAAAAGTTTCAATTTGTTTCCACACGTTTAGAAAGATTTGTGATATATTCGAAGAAGATATGTTATGTGGAACAATTCTGAACCTTGTGAGATGTTTAGGTTGTTTGGAAGATTTAATGAAATTGTAATAGTGAAATTGAAACTTTAAAATGAAATCAAAGTTCAAACTATAGGAACTAAAATGTTACTTTATCAAGTGAGAGTAGTTTGACTCAAAA AAAACTTTAAAAATTTATTTTATTTTTTATTTTTGTTCATTTCCCGGCCATCGGAGAGACACGATCGGAATTCCGAAGGCTTTTCTCATTCTCGCCGGCGGCCATGCCGTTGCCGAACTACAATCACCTGCAGACCCCACTCCGCCACTCTCAGCCGTCTTCCTCATCCTCTACTTCCAGACTCCTTCTTCTTCTAACCTTCCTCCCTCTCACTCTCGCAGCCCTTGCTTTCGTCCTCCAATGGCGCGGCGGACTCACCGACCCTGTCACCCGCTGGTCTCCGCGGGGATCCTACCAGTTCCCCGGCATGGACGCCTCGCCCCTCTCCCAGATTTCGCACCGCTCCTCGACGCCTTCTGGTTCTGGCTGCCTCAATCTTGGCCGGAGTGCTTCGCCCTCGTTCCCCTACTACCAGGACTGGAAGTTCGATCGCGGATCAGATTTGAAGCCCAAGATATGCATTACAACGAGTACATCAGCAGGATTAGAGCAAATTTTGCCCTGGATGTTCTATCACAAGGTCATTGGGGTTTCAACCTTCCTACTTTTCGTGGAGGGAAAAGCTGCATCTCCTGATGTGACTAGAGTTTTGGAGTCAATCCCTGGAGTGAAGTTGATATTCAGAACAAAAGAGTTGGAGGAGCAGCAAGCAAAAAGTCGGATCTGGAACGAAACATGGCTTTCTGGTTTCTTTTACAAACCTTGCAATTATGAACTATTTGTGAAGCAAACTCTCAATATGGAGATGGCTATTGTTATGGCAAGGGGTGCTGGCATGGATTGGATAATTCATCTTGATACTGATGAGTTGGTACATCCAGTCGGTGCTCAGGAGTACTCCTTGAGACAGTTGCTACTTGAGGTGCCTGGAAATGTTGATATAGTTATTTTTCCTAACTACGAAAGCAGTGTTGAAAGAGATGATATAAAGGAACCTTTTACTGAGGTGTCGATGTTCAAGAAAAATTTTGACCACCTTCCCAAGGATACATATTTTGGCATGTACAAAGAATCAACTCGTGGTAATCCAAATTACTTTTTGACTTATGGAAATGGGAAATCGGCTGCTCGAATTCAAAATCATCTTCGTCCCAATGGTGCACATAGATGGCATAATTACATGAGAACCCCAAATGAGATTAAATTGGAGGAAGCTGCCGTATTACACTACACATATGCAAAATTTTCTGATTTGACCTCTAGACATGACCGCTGCGCCTGCAAACCTACCAAAGATGATGTTAAAAGATGCTTTATGTTGGAATTTGATAGAGCTGCATTCATAGTTGCTTCTACTGCAACCCAGGAGGAAATGATGACCTGGTACCGAGAACGCGTTGTGTGGGGTGATCAAGATGTAAAACTCAAGTTGTTGAGGAAGGGCATTTTGACACGAATCAATGCTCCTATGGTGATTATACAGGGATTAAGGGAGAGTGGCATCTTCGATTCTGTTACTGCTTCAGCTTCTGAAACTCATGCAAAGGAGAAATTTTTATCATCCATCACTACCAGCAACTCGAGCAAAGCCGTTGCCTCCCAATCTCTTCCATCTAGGAGGGTAGGCACAAGTAAAAAGTACCAAGCAACTGCAAGGAAGGCTCTGCAAATTGAAGCTGAAGAGTGGCATGCATCTGCCGTTCCACCACAATCTCCTCCAGGAATAGACTACGAAACTCGAAACCTGATGTCATATATTTTATAGGGTTCTTTAATCAAGCATTTTAGCATCAAAGCATGTCAGCTACAGAAAGGTTGAGGAATCATCTTGGTGGAAGAACTTCAAAGGTTTGAAAATCGGCTGCGGTGGTGGCGAGGCATGAGCAGCACCGCTACCGGGAGGTGGCGTGGGCACCCCGAATACCTGCGCATTAGTCCGGATGTCCTGTCTCCCTTTTGCTCTGCCTAAAAAGTAACATCCGAAACCGAGCAACAAGCAGAAGAGAATCAATGGCAGAGAGATCACCACCACCAAACCCATCTCCGATCACAAGCAAAGAGCTAGAGTTGAATGGAAGGAAGAATGTGTGTGAGAGAATATATACAGAGAAAAGGGGAAGAAGGAACTGGGCTTATTGTTGAAGGTTTCAGATTCTGTCCAGAAGAGAAAAGTAAGGTTTGATATATTTATATCCTCGAAATTCCATCCAACGGTCAGCTTAAGGTTGAAGCTTCAACGGTCACTTTTTCAAACAGAGACAACCATTCAAATGACAGCTGGATAAATGCTTTCTTTTCTTGTCTTAACTTCTTATTCTTCCTCTTTGCTGAATGATTTCATCCTCAGGTTGGCTGCCTCCAGAATCTTCTTTTGCAGCTTTACCTAGTATTAGGTTAAATAATTTTGTTTGTTGATGTGATTTTAAAAGTTTCAATTTGTTTCCACACGTTTAGAAAGATTTGTGATATATTCGAAGAAGATATGTTATGTGGAACAATTCTGAACCTTGTGAGATGTTTAGGTTGTTTGGAAGATTTAATGAAATTGTAATAGTGAAATTGAAACTTTAAAATGAAATCAAAGTTCAAACTATAGGAACTAAAATGTTACTTTATCAAGTGAGAGTAGTTTGACTCAAAA ATGCCGTTGCCGAACTACAATCACCTGCAGACCCCACTCCGCCACTCTCAGCCGTCTTCCTCATCCTCTACTTCCAGACTCCTTCTTCTTCTAACCTTCCTCCCTCTCACTCTCGCAGCCCTTGCTTTCGTCCTCCAATGGCGCGGCGGACTCACCGACCCTGTCACCCGCTGGTCTCCGCGGGGATCCTACCAGTTCCCCGGCATGGACGCCTCGCCCCTCTCCCAGATTTCGCACCGCTCCTCGACGCCTTCTGGTTCTGGCTGCCTCAATCTTGGCCGGAGTGCTTCGCCCTCGTTCCCCTACTACCAGGACTGGAAGTTCGATCGCGGATCAGATTTGAAGCCCAAGATATGCATTACAACGAGTACATCAGCAGGATTAGAGCAAATTTTGCCCTGGATGTTCTATCACAAGGTCATTGGGGTTTCAACCTTCCTACTTTTCGTGGAGGGAAAAGCTGCATCTCCTGATGTGACTAGAGTTTTGGAGTCAATCCCTGGAGTGAAGTTGATATTCAGAACAAAAGAGTTGGAGGAGCAGCAAGCAAAAAGTCGGATCTGGAACGAAACATGGCTTTCTGGTTTCTTTTACAAACCTTGCAATTATGAACTATTTGTGAAGCAAACTCTCAATATGGAGATGGCTATTGTTATGGCAAGGGGTGCTGGCATGGATTGGATAATTCATCTTGATACTGATGAGTTGGTACATCCAGTCGGTGCTCAGGAGTACTCCTTGAGACAGTTGCTACTTGAGGTGCCTGGAAATGTTGATATAGTTATTTTTCCTAACTACGAAAGCAGTGTTGAAAGAGATGATATAAAGGAACCTTTTACTGAGGTGTCGATGTTCAAGAAAAATTTTGACCACCTTCCCAAGGATACATATTTTGGCATGTACAAAGAATCAACTCGTGGTAATCCAAATTACTTTTTGACTTATGGAAATGGGAAATCGGCTGCTCGAATTCAAAATCATCTTCGTCCCAATGGTGCACATAGATGGCATAATTACATGAGAACCCCAAATGAGATTAAATTGGAGGAAGCTGCCGTATTACACTACACATATGCAAAATTTTCTGATTTGACCTCTAGACATGACCGCTGCGCCTGCAAACCTACCAAAGATGATGTTAAAAGATGCTTTATGTTGGAATTTGATAGAGCTGCATTCATAGTTGCTTCTACTGCAACCCAGGAGGAAATGATGACCTGGTACCGAGAACGCGTTGTGTGGGGTGATCAAGATGTAAAACTCAAGTTGTTGAGGAAGGGCATTTTGACACGAATCAATGCTCCTATGGTGATTATACAGGGATTAAGGGAGAGTGGCATCTTCGATTCTGTTACTGCTTCAGCTTCTGAAACTCATGCAAAGGAGAAATTTTTATCATCCATCACTACCAGCAACTCGAGCAAAGCCGTTGCCTCCCAATCTCTTCCATCTAGGAGGGTAGGCACAAGTAAAAAGTACCAAGCAACTGCAAGGAAGGCTCTGCAAATTGAAGCTGAAGAGTGGCATGCATCTGCCGTTCCACCACAATCTCCTCCAGGAATAGACTACGAAACTCGAAACCTGATGTCATATATTTTATAG MPLPNYNHLQTPLRHSQPSSSSSTSRLLLLLTFLPLTLAALAFVLQWRGGLTDPVTRWSPRGSYQFPGMDASPLSQISHRSSTPSGSGCLNLGRSASPSFPYYQDWKFDRGSDLKPKICITTSTSAGLEQILPWMFYHKVIGVSTFLLFVEGKAASPDVTRVLESIPGVKLIFRTKELEEQQAKSRIWNETWLSGFFYKPCNYELFVKQTLNMEMAIVMARGAGMDWIIHLDTDELVHPVGAQEYSLRQLLLEVPGNVDIVIFPNYESSVERDDIKEPFTEVSMFKKNFDHLPKDTYFGMYKESTRGNPNYFLTYGNGKSAARIQNHLRPNGAHRWHNYMRTPNEIKLEEAAVLHYTYAKFSDLTSRHDRCACKPTKDDVKRCFMLEFDRAAFIVASTATQEEMMTWYRERVVWGDQDVKLKLLRKGILTRINAPMVIIQGLRESGIFDSVTASASETHAKEKFLSSITTSNSSKAVASQSLPSRRVGTSKKYQATARKALQIEAEEWHASAVPPQSPPGIDYETRNLMSYIL Homology
BLAST of Lcy13g008200 vs. ExPASy Swiss-Prot
Match: Q9C9Z9 (Glycosyltransferase-like KOBITO 1 OS=Arabidopsis thaliana OX=3702 GN=ELD1 PE=1 SV=1) HSP 1 Score: 748.8 bits (1932), Expect = 4.2e-215 Identity = 385/534 (72.10%), Postives = 445/534 (83.33%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy Swiss-Prot
Match: Q5XV99 (Glycosyltransferase-like At3g57200 OS=Arabidopsis thaliana OX=3702 GN=At3g57200 PE=2 SV=1) HSP 1 Score: 697.6 bits (1799), Expect = 1.1e-199 Identity = 354/515 (68.74%), Postives = 419/515 (81.36%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy Swiss-Prot
Match: B3H5R0 (Glycosyltransferase-like At2g41451 OS=Arabidopsis thaliana OX=3702 GN=At2g41451 PE=3 SV=1) HSP 1 Score: 652.5 bits (1682), Expect = 4.1e-186 Identity = 326/455 (71.65%), Postives = 375/455 (82.42%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy TrEMBL
Match: A0A1S4DX39 (glycosyltransferase-like KOBITO 1 OS=Cucumis melo OX=3656 GN=LOC103488753 PE=4 SV=1) HSP 1 Score: 954.5 bits (2466), Expect = 1.8e-274 Identity = 469/522 (89.85%), Postives = 495/522 (94.83%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy TrEMBL
Match: A0A5A7SS67 (Glycosyltransferase-like KOBITO 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold65G00400 PE=4 SV=1) HSP 1 Score: 949.9 bits (2454), Expect = 4.6e-273 Identity = 469/523 (89.67%), Postives = 495/523 (94.65%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy TrEMBL
Match: A0A6J1GYV9 (glycosyltransferase-like KOBITO 1 OS=Cucurbita moschata OX=3662 GN=LOC111458136 PE=4 SV=1) HSP 1 Score: 944.1 bits (2439), Expect = 2.5e-271 Identity = 471/534 (88.20%), Postives = 497/534 (93.07%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy TrEMBL
Match: A0A6J1CBQ5 (glycosyltransferase-like KOBITO 1 OS=Momordica charantia OX=3673 GN=LOC111010107 PE=4 SV=1) HSP 1 Score: 941.4 bits (2432), Expect = 1.6e-270 Identity = 464/531 (87.38%), Postives = 497/531 (93.60%), Query Frame = 0
BLAST of Lcy13g008200 vs. ExPASy TrEMBL
Match: A0A6J1KG65 (glycosyltransferase-like KOBITO 1 OS=Cucurbita maxima OX=3661 GN=LOC111493600 PE=4 SV=1) HSP 1 Score: 938.7 bits (2425), Expect = 1.1e-269 Identity = 470/534 (88.01%), Postives = 495/534 (92.70%), Query Frame = 0
BLAST of Lcy13g008200 vs. NCBI nr
Match: XP_038891964.1 (glycosyltransferase-like KOBITO 1 isoform X1 [Benincasa hispida]) HSP 1 Score: 956.1 bits (2470), Expect = 1.3e-274 Identity = 476/523 (91.01%), Postives = 498/523 (95.22%), Query Frame = 0
BLAST of Lcy13g008200 vs. NCBI nr
Match: XP_016900290.1 (PREDICTED: glycosyltransferase-like KOBITO 1 [Cucumis melo]) HSP 1 Score: 954.5 bits (2466), Expect = 3.8e-274 Identity = 469/522 (89.85%), Postives = 495/522 (94.83%), Query Frame = 0
BLAST of Lcy13g008200 vs. NCBI nr
Match: KAA0034054.1 (glycosyltransferase-like KOBITO 1 [Cucumis melo var. makuwa]) HSP 1 Score: 949.9 bits (2454), Expect = 9.4e-273 Identity = 469/523 (89.67%), Postives = 495/523 (94.65%), Query Frame = 0
BLAST of Lcy13g008200 vs. NCBI nr
Match: KAG6601048.1 (Glycosyltransferase-like KOBITO 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 945.3 bits (2442), Expect = 2.3e-271 Identity = 471/531 (88.70%), Postives = 496/531 (93.41%), Query Frame = 0
BLAST of Lcy13g008200 vs. NCBI nr
Match: XP_022956384.1 (glycosyltransferase-like KOBITO 1 [Cucurbita moschata]) HSP 1 Score: 944.1 bits (2439), Expect = 5.2e-271 Identity = 471/534 (88.20%), Postives = 497/534 (93.07%), Query Frame = 0
BLAST of Lcy13g008200 vs. TAIR 10
Match: AT3G08550.1 (elongation defective 1 protein / ELD1 protein ) HSP 1 Score: 748.8 bits (1932), Expect = 3.0e-216 Identity = 385/534 (72.10%), Postives = 445/534 (83.33%), Query Frame = 0
BLAST of Lcy13g008200 vs. TAIR 10
Match: AT3G57200.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G41451.1); Has 94 Blast hits to 94 proteins in 31 species: Archae - 0; Bacteria - 12; Metazoa - 0; Fungi - 0; Plants - 77; Viruses - 0; Other Eukaryotes - 5 (source: NCBI BLink). ) HSP 1 Score: 697.6 bits (1799), Expect = 7.8e-201 Identity = 354/515 (68.74%), Postives = 419/515 (81.36%), Query Frame = 0
BLAST of Lcy13g008200 vs. TAIR 10
Match: AT2G41451.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: endomembrane system; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G57200.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 652.5 bits (1682), Expect = 2.9e-187 Identity = 326/455 (71.65%), Postives = 375/455 (82.42%), Query Frame = 0
BLAST of Lcy13g008200 vs. TAIR 10
Match: AT3G61030.1 (Calcium-dependent lipid-binding (CaLB domain) family protein ) HSP 1 Score: 107.8 bits (268), Expect = 2.7e-23 Identity = 47/63 (74.60%), Postives = 55/63 (87.30%), Query Frame = 0
BLAST of Lcy13g008200 vs. TAIR 10
Match: AT3G60950.1 (C2 calcium/lipid-binding endonuclease/exonuclease/phosphatase ) HSP 1 Score: 107.8 bits (268), Expect = 2.7e-23 Identity = 47/63 (74.60%), Postives = 55/63 (87.30%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06 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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