Csor.00g095670 (gene) Silver-seed gourd (wild; sororia) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSstart_codoninitialpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCTTTCTTCTTCTTCCTCCTCCTCCTCCTCCTCTCCCCCGCCGCCGCCGCCGCCTCCTGGCCGCCCTCCCCCGGATTCTGGCCGAGCACCCACGTCCGCTCCATGGAATTCTACAAAGGCTTCCGCAACCTCTGGGGCCCTCAACACCAAAGCCTTTCCCAAGACACTCTTTCCATTTGGCTCGATCGCACCACCGGAAGTGGATTCAAGTCCCTCCGCCCTTTCCGATCAGGATACTTCAGCGCCTCCATTAAACTCCAACCCGGCTATACCGCCGGCGTCATCACCGCCTTCTATGTATGTAATTTTAATTTCATGTTTCTGGGTTTTTAATCTTTCCTGTTTTGTAATCCACCTCTGGTTTTTTAATGGCAGCTCTCCAACAACGAAGCTCACCCAGGATTCCACGACGAGGTCGACATCGAATTCTTAGGAACCACATTCGATAAGCCTTATACATTACAAACCAATGTTTACATCAGAGGAACCGGCGATGGTCGAATCATCGGAAGAGAAATGAAATTCCATCTCTGGTTCGACCCCACTAAAGATTTTCACAATTACGCCATTCTATGGCGCCCAAACGAAATCATGTACGTTCATCACCCACATCATTCAATTTCATCTGGGTTCTGTTCCACTCTGCTAACGACTCTGTTTTCTTCATCCTCTGTTTTCAGATTTCTCGTCGACGACATACCCATCAGAAGGTACCCAAGGAAGAGCGCTGCGACATTCCCACTAAGGCCAATGTGGGTTTATGGCTCGATATGGGACGCATCTTCATGGGCCACAGAGGATGGGAAATACAGAGCGGATTACAGATACCAACCATTTGTGGCTAAGTATAGGAATTTCAAAGCAAGGGGTTGTTCGGCGTACTCGCCGGCGTGGTGCCAGCCGGTATCGGCGTCGCCGTTCCGGTCAGGGGGGCTGAGTAGGCAACAGGAGAATGCAATGAAATGGGTACAGAGCCATCAGTTGGTTTATAACTATTGTTGGGATAACAAGAGAGACCATTCCTTAACACCAGAGTGTTGGCATTAGAATTTTGCGGGGGATTGAGCTTTATCATGCACTGAAAGTGAAAACTCCATTAAATTTTTGCTGTTTTTTTTTTTTGGATTTGGTGATTTTATTATTGGTTTGAAAAATTATATTTGGAAAGATGTTGACAAATGGGGGGGTCCCACGTGGAAAAAATGGCTTAGAAAAGGAACAGATGCAAGCATTTTTTTGACCTTATAGCGTCCAAAATCCCCTGTGATCCGAACAGCAACAAAAAAAATAATAATAATAATAAATTAATATTGTGCGGTGTTTTATTTTATTTTATTTATTTATTTTCCGTTCATTTTTGTTGTGATTTCATGAGAAAATGACACGTACTCTTAATGATTCTGAGTTGGATATTACTTTGGGTAAGTTCAAAATTCTTTTTAGCTTATGATTCATAATTTTGAATTATTATTATTATTTGATAATAAAGTTTATAGGTAATTAATTATAAATATTGTTAAAATATTTAATTTATTTAGATCCGGAATGAAGATATATTGGAATATATTATCCGCGTTTTGTTTATTATATAAAATAAAAGCATACCACAAACGTCTTGTCAACTCATTGAATTTGTCATAAAGACGGAAGACAAGGAAAAAAGGAGTTTACCAAAATAATTTTATTAAATGCAACTCATAAAGACAAGAGACAAGGAAAAATGGGATTACCAAAATAATTTAATTTAGTGTTCAAAGTCACAAAATTTTATTTATTATAAGAATCAACCCTAGATATTGTCGAAAAACCCGAACTCATTACCAGTAGATATTGTCTGTTTTGACTGTTACGTATCATCAAGCTCACAATTTTAAAATATGTCTACTCGGGTGATGTTTTCATACTCTTATAAAAAATGTGTATAATAGGGAGAAGTTTTCATACTCTTTATCAATCGATGTGAAATCTCACAATCCACTACTTTAAACTCATCGCTAACAAGTATTGTTCGCTTTGGCTTATGAGATCTCACCCTGGTAAACCTACCGTTAGCAGATATTGTCCACTTTGACTCATTAGTATTACTGTCAACCTCACGTTTTTAGAACACGTCTACCATTAATAGGTTTTCACACCCTTGAATGTTTCGTTCTCCTCTCCAACTAATCTGAGATCTCGTGATCTCACATCTCGCGATCTCACAATCTCACAATCCACCCCTTTGCGTTATGGCACATCATCGCCCAGTGTCAAGCCCACCACTAACAGATATTGTCTGTTTCAGCCCATTCCATATTATCGTCAGTCTCACAGTTTTAAAAAGGCATCTACTACGTAGTGTTGGATGATGAAAGTCCCACATCGACTAATTTAGGGAATGATCATGAGTTTATAATCAAATAATACTATCTGGCCTTTTAGGGAAGCCCAAAACAAACCCATTAAAAGCTTGTGCTCAAACACGTCAAACACGCCTAACAGAAGCAGACTTTTGTACATATATCTCTGGAAGGGTCATGTAAAAAGTTGGAAACTTTACCTTTGAGTTCTCTAAAAATGGTGCAAGTATGGAAGTAAAGGCTTAATGATTAATGAAAACTTTAGCTATTGCATTTTATGAGTATGATATCAAATTGAGTGACAGTGAGGGGTCAAATAATTTGGGTGGGGTGGCACAAAGGGCCCATACCCATACTTGGATAAGGGTATATGAAGAGCCATGTGCCCAAACGCCAGAAATCTCAATCTTCCTGTGCATCACAGAGCAAAAGAATACCCCATTATTGTATATCACCACACTCTTGTCTTTGCTTTCAGTTTCACCTGTTACATCTGAACTCAACATAACCCTCTCATTATATAAAGGATTTTGCTTTCTTATTTTGTCATTTTTTAATCATTCAACTTCAATGATCATCGCTTCCCAAAGCTTTCATGGGCTACCGTGTCGCTCACACGAACAAAAAAGGAAAGGGTGACTACTAGCGAGAGAATTATATTAAACTTTGGTACCCTTTATCATATTTCACCTCTCGAATCTAAGATACTACACGTTTATGCAAATAGTCGTATGATTTCCCTAAAAAAACATTACATGACACATGATAATTTAGAACAATTTGTTGAACACAACTTTTTGTGAGAAACACTCCATTCTTTATCAATACAAATTGAGAAGAGATTATAAAACACTGCGTAACAACTATTCTACTCTGTTTACTCTTTAAATATCTGAATCTTATTGAGCTTGTGATGATATTTTTAACACAATTTAGTTGTCCTATAATTGTCCTATAATGTGAATGGGGAAATTCAAAATAAGAACACATTCTTTTTTTGATATTTATGGATGAAATTGCAATAGATATTAAGATTATAATTTTAATTCATAAAAACGAGTAAAGAAAATAGATTTTTAATTTGCCGGGTAACTTAATAGCTTGGGTAGTTAGGGCGTTGGTGTACGTACTACTACTCAAAGGTCGGTAGGTTCAAATCTGGCGCCGATCATTTTCTGAATTTTTTTTTTTCTAACCCTTTTCGTTTAATCAATTTGGACGGTTTTGATCTTTATTTCCTTGACTCAGATTGGGTCAGATTCATCGAAGGCGCCAGTTCGTCGGAGTTGCGATCGTCTTCTTCTATCTTTTTGCTAATCGATTCGAAAATGGTAAATCCCTCAATTTCTTGCGATTGGTAGCTTGAAATTTTCTTTTACGCTTGTTTTTCGTTGGATTAGGTTTGCTTGGCGTGTTTGTTGCCTCTGTTTCTCATACCAGTCGTCAACGCGCTGCCTCTTCTGTTCGATTTAATTATGGTACGCCCATATGATTCATTTCTCTTTTGGATCTCATCTTTTCGCCTGTTCATCAAATCGCCTCAAAGATTTCGGATTTTCTGTGGTGTTGAAGGCAATTTTGATAATATTCGTCGTAATTTTCAGCTTTTTCTTTTGTTGTTTTTCTTGAATTTTCTCTTAGGGCAAAATTTATGGAATTTTTGGCTGGGAATACAGAAAACCACAGAGGGTACCGCCGGCTTGCCCCTATCGCCCTGCTGCCAAACAAAATAGCAATGTGAGTGGTCTGCTATCGTTTTTACTCTATTTGTGTTGTCTATTGGTCTTTTGAAGAAGTAATACACGGAATGTTGGGGAAATGGATGAATTTTTGTTGAGAAATTGGATATGAATGGAGCGTGTGTTATGAAGAAGTTTAAGCTTTGATGGATTAATCTCTCTTGTGCATACGTCTGGCTCATACACTATGGTGACGGTGAGAAAGGATATATATTGCATCCTGGAGGGGCTATAATTGGAGATTCTATTTTTTGGTACAAAAGTTCCAATAGAAATAGGAAATACCCTACCTTTGAGTGCAGTTTGAACTATTGACTATGTAATTAGAAGTAACTAATTAGGTTTATGATGAAACCTAGAAATCGATCGTTAATCCACTTTGAGTACCTTCACATGATAAGACCTCAACAAAAAACCGAAGAGTAACGACATCAGGTGATTGTGTTCAGCAGTTCCTCATATAAAATTATTGACTCTAGAGATATTTTGGTTAATTGTTTTCTCAAAGAAGCCACTTTGATAGCATGGGCATACTGAGGAGATTGCCAGGATTGTGCATCGTTACTTCATGTGACAACTAATAATGAATCATGATGTTGATTAAGTACGTGTGGCTAGTGTATTGCAATGCTAGGGTAGTGTCAAAAGAGCAATTACCTTACTTAGGAAAACTTCACTGAAGCAGAAGTTGAGAGAGACTCTTCTCTTTGTTATGCCCCACGTTGTCTCCTTGCTTGCTCTTCAGCTCTCCAAGAGGAAAACCCTCAAGTTTTCCTTCCGCCTTTTAAATCGTTGTTATTAATGGTTTTAGGACCTGCTAGAATCAATTTTTGTTAGTTGTAAACGAATAAATTAAAGATGACTTCTTTTGAATCGGATGACATCCCTCGATTTTTCTCCCCCGCCATTTTTCTCTTCTCTACCTTAAGCGTGATGATTTTGGGAGCACCATATCCTTTTTAGTTTATGTATATACTCGAGCTGCAGCAGACATCAGACATTTGTACTACCCTAAGATGAAAGTTCATATAACGATATGTGTTTTTATTTTCTTGTGTTAAACGAGAAGTGCCTTCGTTTTGTTTTGCTTGTGTTAGTATTTTGTATTTTGCTGTTTTTTTTTTTTTGTCGGACTTCCTGACAGCGGATATGTGTGTGTTCTACACTGCACCTATCGTCTAGTGGTTTAATTCTTAAGGTTTGCTCGTCTGGCTGGTTGAAGCAAGCTTTTTCTTAATCTTAATAGGTGGAGTTAGAACCTCTAGTCGGTCAGCAACTCCCACCTCCAAAAGTCGTGGATGCCGTGGATGAGAAGCAAGACTGAATGGCTTTCTTCTTCTTCCTCCTCCTCCTCCTCCTCTCCCCCGCCGCCGCCGCCGCCTCCTGGCCGCCCTCCCCCGGATTCTGGCCGAGCACCCACGTCCGCTCCATGGAATTCTACAAAGGCTTCCGCAACCTCTGGGGCCCTCAACACCAAAGCCTTTCCCAAGACACTCTTTCCATTTGGCTCGATCGCACCACCGGAAGTGGATTCAAGTCCCTCCGCCCTTTCCGATCAGGATACTTCAGCGCCTCCATTAAACTCCAACCCGGCTATACCGCCGGCGTCATCACCGCCTTCTATCTCTCCAACAACGAAGCTCACCCAGGATTCCACGACGAGGTCGACATCGAATTCTTAGGAACCACATTCGATAAGCCTTATACATTACAAACCAATGTTTACATCAGAGGAACCGGCGATGGTCGAATCATCGGAAGAGAAATGAAATTCCATCTCTGGTTCGACCCCACTAAAGATTTTCACAATTACGCCATTCTATGGCGCCCAAACGAAATCATATTTCTCGTCGACGACATACCCATCAGAAGGTACCCAAGGAAGAGCGCTGCGACATTCCCACTAAGGCCAATGTGGGTTTATGGCTCGATATGGGACGCATCTTCATGGGCCACAGAGGATGGGAAATACAGAGCGGATTACAGATACCAACCATTTGTGGCTAAGTATAGGAATTTCAAAGCAAGGGGTTGTTCGGCGTACTCGCCGGCGTGGTGCCAGCCGGTATCGGCGTCGCCGTTCCGGGCGTTGGTGTACGTACTACTACTCAAAGATTGGGTCAGATTCATCGAAGGCGCCAGTTCGTCGGAGTTGCGATCGTCTTCTTCTATCTTTTTGCTAATCGATTCGAAAATGGTTTGCTTGGCGTGTTTGTTGCCTCTGTTTCTCATACCAGTCGTCAACGCGCTGCCTCTTCTGTTCGATTTAATTATGGGCAAAATTTATGGAATTTTTGGCTGGGAATACAGAAAACCACAGAGGGTACCGCCGGCTTGCCCCTATCGCCCTGCTGCCAAACAAAATAGCAATGTGGAGTTAGAACCTCTAGTCGGTCAGCAACTCCCACCTCCAAAAGTCGTGGATGCCGTGGATGAGAAGCAAGACTGA ATGGCTTTCTTCTTCTTCCTCCTCCTCCTCCTCCTCTCCCCCGCCGCCGCCGCCGCCTCCTGGCCGCCCTCCCCCGGATTCTGGCCGAGCACCCACGTCCGCTCCATGGAATTCTACAAAGGCTTCCGCAACCTCTGGGGCCCTCAACACCAAAGCCTTTCCCAAGACACTCTTTCCATTTGGCTCGATCGCACCACCGGAAGTGGATTCAAGTCCCTCCGCCCTTTCCGATCAGGATACTTCAGCGCCTCCATTAAACTCCAACCCGGCTATACCGCCGGCGTCATCACCGCCTTCTATCTCTCCAACAACGAAGCTCACCCAGGATTCCACGACGAGGTCGACATCGAATTCTTAGGAACCACATTCGATAAGCCTTATACATTACAAACCAATGTTTACATCAGAGGAACCGGCGATGGTCGAATCATCGGAAGAGAAATGAAATTCCATCTCTGGTTCGACCCCACTAAAGATTTTCACAATTACGCCATTCTATGGCGCCCAAACGAAATCATATTTCTCGTCGACGACATACCCATCAGAAGGTACCCAAGGAAGAGCGCTGCGACATTCCCACTAAGGCCAATGTGGGTTTATGGCTCGATATGGGACGCATCTTCATGGGCCACAGAGGATGGGAAATACAGAGCGGATTACAGATACCAACCATTTGTGGCTAAGTATAGGAATTTCAAAGCAAGGGGTTGTTCGGCGTACTCGCCGGCGTGGTGCCAGCCGGTATCGGCGTCGCCGTTCCGGGCGTTGGTGTACGTACTACTACTCAAAGATTGGGTCAGATTCATCGAAGGCGCCAGTTCGTCGGAGTTGCGATCGTCTTCTTCTATCTTTTTGCTAATCGATTCGAAAATGGTTTGCTTGGCGTGTTTGTTGCCTCTGTTTCTCATACCAGTCGTCAACGCGCTGCCTCTTCTGTTCGATTTAATTATGGGCAAAATTTATGGAATTTTTGGCTGGGAATACAGAAAACCACAGAGGGTACCGCCGGCTTGCCCCTATCGCCCTGCTGCCAAACAAAATAGCAATGTGGAGTTAGAACCTCTAGTCGGTCAGCAACTCCCACCTCCAAAAGTCGTGGATGCCGTGGATGAGAAGCAAGACTGA MAFFFFLLLLLLSPAAAAASWPPSPGFWPSTHVRSMEFYKGFRNLWGPQHQSLSQDTLSIWLDRTTGSGFKSLRPFRSGYFSASIKLQPGYTAGVITAFYLSNNEAHPGFHDEVDIEFLGTTFDKPYTLQTNVYIRGTGDGRIIGREMKFHLWFDPTKDFHNYAILWRPNEIIFLVDDIPIRRYPRKSAATFPLRPMWVYGSIWDASSWATEDGKYRADYRYQPFVAKYRNFKARGCSAYSPAWCQPVSASPFRALVYVLLLKDWVRFIEGASSSELRSSSSIFLLIDSKMVCLACLLPLFLIPVVNALPLLFDLIMGKIYGIFGWEYRKPQRVPPACPYRPAAKQNSNVELEPLVGQQLPPPKVVDAVDEKQD Homology
BLAST of Csor.00g095670 vs. ExPASy Swiss-Prot
Match: Q9SJL9 (Probable xyloglucan endotransglucosylase/hydrolase protein 32 OS=Arabidopsis thaliana OX=3702 GN=XTH32 PE=2 SV=1) HSP 1 Score: 444.5 bits (1142), Expect = 1.2e-123 Identity = 198/247 (80.16%), Postives = 224/247 (90.69%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy Swiss-Prot
Match: P93046 (Xyloglucan endotransglucosylase/hydrolase protein 31 OS=Arabidopsis thaliana OX=3702 GN=XTH31 PE=1 SV=2) HSP 1 Score: 372.5 bits (955), Expect = 5.7e-102 Identity = 166/249 (66.67%), Postives = 203/249 (81.53%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy Swiss-Prot
Match: Q38908 (Probable xyloglucan endotransglucosylase/hydrolase protein 30 OS=Arabidopsis thaliana OX=3702 GN=XTH30 PE=2 SV=2) HSP 1 Score: 212.6 bits (540), Expect = 7.6e-54 Identity = 109/253 (43.08%), Postives = 151/253 (59.68%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy Swiss-Prot
Match: Q8L7H3 (Probable xyloglucan endotransglucosylase/hydrolase protein 29 OS=Arabidopsis thaliana OX=3702 GN=XTH29 PE=2 SV=1) HSP 1 Score: 196.4 bits (498), Expect = 5.6e-49 Identity = 95/211 (45.02%), Postives = 135/211 (63.98%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy Swiss-Prot
Match: Q38909 (Probable xyloglucan endotransglucosylase/hydrolase protein 28 OS=Arabidopsis thaliana OX=3702 GN=XTH28 PE=2 SV=1) HSP 1 Score: 194.1 bits (492), Expect = 2.8e-48 Identity = 90/207 (43.48%), Postives = 137/207 (66.18%), Query Frame = 0
BLAST of Csor.00g095670 vs. NCBI nr
Match: KAG6580623.1 (putative xyloglucan endotransglucosylase/hydrolase protein 32, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 769 bits (1986), Expect = 8.29e-281 Identity = 374/374 (100.00%), Postives = 374/374 (100.00%), Query Frame = 0
BLAST of Csor.00g095670 vs. NCBI nr
Match: KAG7017381.1 (putative xyloglucan endotransglucosylase/hydrolase protein 32, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 538 bits (1387), Expect = 7.87e-191 Identity = 254/255 (99.61%), Postives = 255/255 (100.00%), Query Frame = 0
BLAST of Csor.00g095670 vs. NCBI nr
Match: XP_022935114.1 (probable xyloglucan endotransglucosylase/hydrolase protein 32 [Cucurbita moschata]) HSP 1 Score: 536 bits (1380), Expect = 9.16e-190 Identity = 253/255 (99.22%), Postives = 254/255 (99.61%), Query Frame = 0
BLAST of Csor.00g095670 vs. NCBI nr
Match: XP_023528306.1 (probable xyloglucan endotransglucosylase/hydrolase protein 32 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 530 bits (1364), Expect = 2.59e-187 Identity = 252/256 (98.44%), Postives = 254/256 (99.22%), Query Frame = 0
BLAST of Csor.00g095670 vs. NCBI nr
Match: XP_022983052.1 (probable xyloglucan endotransglucosylase/hydrolase protein 32 [Cucurbita maxima]) HSP 1 Score: 517 bits (1332), Expect = 1.73e-182 Identity = 246/255 (96.47%), Postives = 250/255 (98.04%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy TrEMBL
Match: A0A6J1F4G9 (Xyloglucan endotransglucosylase/hydrolase OS=Cucurbita moschata OX=3662 GN=LOC111442081 PE=3 SV=1) HSP 1 Score: 536 bits (1380), Expect = 4.43e-190 Identity = 253/255 (99.22%), Postives = 254/255 (99.61%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy TrEMBL
Match: A0A6J1IY76 (Xyloglucan endotransglucosylase/hydrolase OS=Cucurbita maxima OX=3661 GN=LOC111481713 PE=3 SV=1) HSP 1 Score: 517 bits (1332), Expect = 8.37e-183 Identity = 246/255 (96.47%), Postives = 250/255 (98.04%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy TrEMBL
Match: A0A0A0LE67 (Xyloglucan endotransglucosylase/hydrolase OS=Cucumis sativus OX=3659 GN=Csa_3G741330 PE=3 SV=1) HSP 1 Score: 504 bits (1299), Expect = 8.84e-178 Identity = 237/255 (92.94%), Postives = 247/255 (96.86%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy TrEMBL
Match: N0DX89 (Xyloglucan endotransglucosylase/hydrolase OS=Cucumis sativus OX=3659 GN=xth25 PE=3 SV=1) HSP 1 Score: 503 bits (1295), Expect = 3.59e-177 Identity = 236/255 (92.55%), Postives = 246/255 (96.47%), Query Frame = 0
BLAST of Csor.00g095670 vs. ExPASy TrEMBL
Match: A0A5A7TQ87 (Xyloglucan endotransglucosylase/hydrolase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G002780 PE=3 SV=1) HSP 1 Score: 493 bits (1269), Expect = 3.63e-173 Identity = 234/258 (90.70%), Postives = 243/258 (94.19%), Query Frame = 0
BLAST of Csor.00g095670 vs. TAIR 10
Match: AT2G36870.1 (xyloglucan endotransglucosylase/hydrolase 32 ) HSP 1 Score: 444.5 bits (1142), Expect = 8.4e-125 Identity = 198/247 (80.16%), Postives = 224/247 (90.69%), Query Frame = 0
BLAST of Csor.00g095670 vs. TAIR 10
Match: AT3G44990.1 (xyloglucan endo-transglycosylase-related 8 ) HSP 1 Score: 372.5 bits (955), Expect = 4.1e-103 Identity = 166/249 (66.67%), Postives = 203/249 (81.53%), Query Frame = 0
BLAST of Csor.00g095670 vs. TAIR 10
Match: AT2G36870.2 (xyloglucan endotransglucosylase/hydrolase 32 ) HSP 1 Score: 293.1 bits (749), Expect = 3.1e-79 Identity = 130/165 (78.79%), Postives = 148/165 (89.70%), Query Frame = 0
BLAST of Csor.00g095670 vs. TAIR 10
Match: AT1G32170.1 (xyloglucan endotransglucosylase/hydrolase 30 ) HSP 1 Score: 212.6 bits (540), Expect = 5.4e-55 Identity = 109/253 (43.08%), Postives = 151/253 (59.68%), Query Frame = 0
BLAST of Csor.00g095670 vs. TAIR 10
Match: AT4G18990.1 (xyloglucan endotransglucosylase/hydrolase 29 ) HSP 1 Score: 196.4 bits (498), Expect = 4.0e-50 Identity = 95/211 (45.02%), Postives = 135/211 (63.98%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) v1
Date Performed: 2021-10-25 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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