Csor.00g283520 (gene) Silver-seed gourd (wild; sororia) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSinitialstart_codonpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGAAGCCGTCTTGGCCTTCGGAGAAACAGGTGATTTTTTAACTTCTATTCAATTTGCAATGCGGTTCCATGTTGTTTTTGCTTTTTTTGAATCTCTTTCGCTTAGTTTCTGTGTGGATTTCACTGGTTTCTGGATTGTTTGATGTTTGTTTTCATGATTTCGCTGGTGTTATGCGTGTTCTGTTTAATTATTTATGGCTGGAATCTTTTGTTGATATTCTGTACGTGTTTGCTCGGATGTTGATTTTGATTCACCTTGTATATTCTGTATTGGATCTGTGCATCATTAGTTAGCTCAATGCTAGTATGGAGATCTAATGGGAGATTGTTCCTGGCATAAATCTTAATCTCTTGTGATTTTATATTGGATCTCTCATGGTTCATTTGTAATTGATCTGCTTGTTTGTTTTAGCTTAATAGAATCAAGGAAATTGTTTCGGAAATGTCCAAGAGAAGTATGGAGCACGTTCGCATAGTTGTCTCTCCGTATCGCATTTGTCCACTGGGAGCTCATATTGATCATCAGGTTAGTCCGACATGATGATTCTAAAAAATTTGCATCTGCATCTCATTGAAGTTCATATTTGTGCTGTTAACTCAATAAGAGTAGCGGCATTTTGCCTGGGTTACATTGTTAGTAAATAACGGAGTCAGAAGATGACATTAAAGTTCTTTTGAACTCTTATGTTGGTTGCTAGGGTGGGAATGTTTCAGCGATGGCCATAAATAAGGGAGTGCTTTTAGGATTTGTTCCTTCTGGCGATGCTCAGGTAATGATTATGCCATTATAAAATTCTTTGTAGCCATTTGAATTACAATTTCCTGAATCTCAAATGAGGGACTAGTAGCATTTTTTAAAGAATGTAGCATTACCATAGGGTTTTTATTGCCTTAAAACAGCTACTCACATGTGGGTTTAAATCTGTGTTATATTCGATGTATATGGTGAAATCAGAATGTTTTGGTTTATATCTGCATATGGTTGCAGCGCCTTGATGCAGTCATAGAAAACATCGTTAACAGACTTTTTATAATGAAAAAGTGTGGGGTTTTGAACTTCGATTATAAAACCTGCAACGGTAACTATAAGCGTAGATCCCATTGACTGTTATGTTTTGCATGGAAGGTGATGATCGACTACTGACTATGCGCCTTAAAAAGAAACTGTTCTTCAATCAATTTCTAAAGACACTCTTGCTGAGTTGAGGACTCGTTGATAGACTTGATAGTGAGTGAGACCACACAGAAACCGGGTTATTGATGCTTTATAGTAGCAACGTTAAGATGGCTTGAAATGTGTTCTGTTTTTGAATTGATGTAAATAGACTATGATGTTTCAGCTTTATCAAACCATGGATCAAGTAGTTCCTACATCAAGGCAATTTAAAATCAATGTTCAGTTAATCTGATCATGCCATCTACCTTATTGGTAATCATGGTAAGTACTGGAAAATATTTCCTTAGATTTTAGAATATATGTGAGCTCCCACGTCGGTTCGAGAGAAGAACGAAAACCCTTTATAAGGGTGTGGAAACCTCTCCCTAGCAGACACGTTTTAAAAACCTCGATGGGAAGCCTAGAAAGCCCAAAGAGGACCATATCTACTAGTGGTTGGCTTAGGCCGTTACAAATGGTATCAGAGCCAAACACGAGGCGATGTGTCAACGAGGAGGCTGAGCCCCGAAGGGGGGTGGACACGAGGCGGTGTGTAGGGGGTGGATTGGGGGGTCCCACATTGATTGGAGAAGGGAACGAGTACTTGCAAGGACGTTAGGCCACAAAGGGAGGTGGATTGTGAGATTCCACATCAGTTGGGGAGGAGAACGAAAAACCCTTTATAAGGGTGTGGAAACCTCTCCCTAGTAGACGCGTTTTAAAAACCTTGAGGGGAAACCCAGAAAGCTCAAAGAGGACAATATCTGCTAGTGGTGGGCTTGGACCGTTATAATACAACTCCTTTCTTGGTACCAAAGTGTAAATGTGTACTACTCTAGTGTGTTCTGGGTATCACAATCACACTCTTCTGGTAGCATAACAACAATTGTGTGATACCTGTTAATTTTGCTTTAAATTGATGTTTAAAACCATGGTTGTTATGTATACTGTTAGTGTTTTAATTTCTTGGGGTGTTCAACTTCAGCTCTTAAACTTTCTCTGCACATGGAGATATTGATCTCTACCTGTTTATATTTCTTCACGAATAATCTATGCAAGAACAACATATTTTTATTTTGAAACCCAAGTTTCCGTCCTATTTAGATTTAAAGCAATTTTTGGAGCTCTTGCAGGTTGTACTCCGTTCAGCTCAGTTCAAAGGAGATGTTAACTTCAGGTGCTGTACACGCTAAATTTTTTTTCTTTCATATCTTATAACTCTTGTAGAAGTATGCATCAATAACAACCCTAGTAACACTTTTATTATTAGCAAGTGAAAACTGCAGGCTTTCATTCCTGAATTCATATCAACAAATCATCACCACTAGATTGCCTACAGGCTGAAATGAAATAATCCTATACCATGCAATATCGAACGAAATCTTCTAATGCTGCTGTGATTGTGAATTGCCTGTGGGACAGGCCAAAGAAGCCAATTCATGTTTACTAGAAATAACATAATCACTAACTTAATGTGAATGTCTCCAACCAGTTCAATCCCTCCCTCTACATCCGTTCTTTCTCAAAGAAAGTTTCTACTGTAGTTTGTTCGACTCTTTCTAAATTTTCTGCTTAGGTGGAAGATTTGTTCTCCTTGGATCTTATTTCTTGCTTTTATTATATCACTATATAGCTGAGTACAAAGGGGACTATAATTGTATCTATAAGGTTTCACCATGTGAGTTCCTTTCCCTTTTGAAACTAGAGTTGTTTGTTATTCTGTATTTTCCCCAAAATTTGGGAGAAATCAAAATCATGCTTGCTTTGAATGATGTAAAATGTGGTAGGACTTCAATTTTTGGATTTCCTGTCAATATTAGCCTACTTTTTCACAGGCGTATGTAAATGCAAACTTTTCGTGCACACTGCTGCAATAAACATTCATTGACTTATATCGTGGAAACTGCAGAGTTGATGAAAAACAGTATCCAAATCACTCTAACAACAAGAAGGAAGAGACTAATGCAAATGGTCATACTAAATTGGAGGGGGATAATAACTGGGGAAGGTATGCTAAAGGAGCATTATATGCACTACAACAAAAAAAGAGCATTGTCTTTCTCAGGTTAGCGAATTTTCTTTGTTTTGGAGCTTATTACTAGTTTGTGATGAACCCAGTTAAAAAGTCAGTGCCAAAGAGTATATTGAATTGCGTGATGCATAGTGTTTGCTTTTATTCTGTGATTAGTTTGTTTTAAACGAATTAGCAGCGAAAGTAGTTCAGCTTTATAGCTTGGAGACTTGGAGTCATTACCTAATGTTTTGGCTGCAAGCATCCGCTGGAATTTAGAATGTTTGGGTTATTAGAATTATCAGAAGGTATCATATCACTTTATCTTTACGTAATTGTTTTAAACCAGTATCATATACAATGCTCTACTTATCAGTTTCCACCTACTTAAGAAGGATGTACCATGCTGCAAAAGGCTATCCAGCTACCATAAAGTCTTTGTTTGTTGCCTTGAAATCCTCAATGTCTCAATACTTTGTTAGGGATATAGGTTAGTTTCGTTGGACCGTCATTATAAGTGCCTTGTTGTTGGAATCCTGATTATGCATGGGGAGTTTGTAAACATTGGGGTTGGAGTGTGTATCAAGAATTAAAAAGTTCAATAGAACTTATTTCTCTATTGCAGGGCATAGTAGGATATATTTGTGGTTCTGATGGTCTTGACAGTTCAGGCCTCAGCTCTTCTGCAGCTGTAAGTATATATTCTTTTTTTTTCTTTTCTTCTCATTCTTGATGCCTCCTTTTGCATTCTGACAGCTTTAAAGTTGGTCGATTGTTAATAGGATTAAATTACTATATACGATTTTGTTTAGTACCACAACTCGAGAGAGTCTTTTCTTTACCAACAAATTAGATTAACAAGTTATGAGTAAGAATTTTTAAATGATCTTATTTTATATAGAAAAAAATGATATACATTTGGATAATCATTCTCATTTTGAACAAGGAAATAAGATTTAAGATTAAATCTATGTGAAATATATTTCTTAAAAAGAGACTTTTCAGATGATTGCAATGAAGTACATAGTTACCTACAACCCCCAATTGGAGTTCACAAAAGACTATTATGTTATTTAAATAAAAAAATTCAGTGATGAGCTTGAGTCTCGAAGGAATTGGTAGTATGCAGTCCGCATCACTTGAAGTCTGTGTTATCAGTCTTCAAAGGAAGAATTGAATATCAAGTTCTGTAGTGCAGACTGTAATGTAGTTATACAGTAGACTGAATTGTAAGAATAAAGTAGAAACATAATGGTATGTTTTTTCCCTATTTATTCTTGGAAAATTGCATTGCTAAAGCTAATTATGATGCTCATACGATTATACAAGAGGCCTCAGCTTCAATAACCATGTTTTAATATTCGTAGTTTATGGTTGACAGGTTGGATTGGCTTACTTGTTAGCGCTGGAAAACGCTAATAATTTAAAAATATCTCCCACAGAAAATATTGACTATGATAGGTGGGTAGTTCGATTTCTTGATTATATTTCTGCTGCATATAGTCAATTGGTCTTTCTGAGATAATAATGCTGCTAGGTTACATGTTCAAATTACTGTGGTAACAAAAATGAGTTACCTGCTTTTATAATAGTGGAGCTTAAAGACAGTTATATTATTTCTAAATCTCCTTCCTGTAGCCCTTCTATCATGCACTCTTCCATTAACTTCAAAATTTAACTCGTTGACACAGAAAACTTGAATTTAAATTTAATTTGTTTCAAGTGCATGCTTTGTTTTGAAATCATCTTGTGGGGCCGCAACGGCACAATTGCCTAAGCACCAGCATTCAGCCTGCCAATTGATAATCAAGTAATCTTGTGAGCTTTTGGTGGGGTTACAGATGAACAGTTAATGTCCGGATATCTGACACGAGACATTTTCTGGAGATGGATGAATACTTGGGGTGATATTATTTGGGTTAGTTTTGTATTTCTTTTGAAAGAATCAACTGCATAAAAAATTGGTCAAACAATTTACTGCGGCGATGTAGCTTTCTAGAAAAGGTAATTGTTGGTATGATTTTTTGCTAATTTGAGAAAATATTATTTAATAAAGATTTTAATAACAATGAGGTTAATTATTAAAAAAATTATGAATAAACCGTCGAGTTGATTCTCAAATTTCTCAATAAATCAATAAAGCATATTTCCAAATCAATATGTGATGGTTAAAATTATTATTTCCTTTACTAGATTCAAAAGCAATACCGCATGCAGCTAAATTTGTATGCATGCTCGATTTAAATACTCACATGTTTTTGTATGTTGTTTTCCCTTTGTGATGTAGGCTAATTGAAAATGGATACTTGGGTTTGAGAAATGGCATACTGGACCAATCTGCAATATTACTTTCAAGCTATGGTTGTCTATTGCATATGAACTGCAAGGTAGTGAATTGATCCTCCACTGGTGTTTAGCAATTTCTTATAATAAAGTACAGAAGGATTGATTTCATCTACCATTTTATCATTTTGCATCTTTTCCAAGTTTCTAACTACGTGATATACTTGGTTTATTGATTTTGTTTGTTTTTATGCCGGTTTGTTCCAAAAATTCAATACTTATACAGTGATACTAATAAATCGCTCTTTATTTTGAAAAAGCAATAAGGATTTTTTGGTGTTCACAATATTGGCTAGGATTAGGAGACAGTTTCTGTATTCAATTTTTCAGATTAATTCTTTTAAGTAATACTTTATTCACTTTTGTGTGCGCGTGTGTGAACCTGTAAAATATTTGGATTTCATTATGTTGCTTCTTCATATTTTAATTCTATAATAGGAGTTCTGTTTTTTCAACTGCATTTCCTTTCCGTTTGATATATCCCATTTTCTAGTCGGTTGAACAAGCGTAGTATATAAATTCAAGTTTTTCCATTTAGTTCAAAAATACCTGGAATATTCTTTACATGATACATAAGTAAAACTAGGTATAAACATTGCTTAACCTAGTAGAACAATTTGTGTATTTAAAATATAGACTCTGTACTGAGCCAGGGTGGGTTTCTGTGTACTTATTAGCCTATGGGGAGTGCTTTTCATGTTCTTCCATTTTGTTTACTTTTCATATGTATCTAAAGGAAAAAGGCTTGTTTCTTATATATAAAAAAAGGTAACATTATGGGGGACACAACCAAAGTTAGGATGTGTTTGGAATGACTTTCTAAGTGCTTAAAACTTTTAAAGCCTTAGAAAGTCAAACCAAACAAGACCTTAATGTAAGTGTAAACATTTTGCTTCCTTCTGTAAAACCATACAAAGGAACCAATATATATATTTGGGTGCACCTTATATTTTAGCTTTCTGGGTTATTGTTGTCTTCTTTTGGGTAGCCTTTATTCCCATTCTACCTCTAATCAGCCTTGCAAATGGTGAAACAGGTATTTCACCTTTACTTTTTTTTGCTTCGACTATTCTTTACAATCGAACAGCAGAATTTATGCTGCTCAGGCCTAATACTTGTTTCTCAGGCAACTTCTGGTTCTTTTCTAATGATGGCATTTTGATGTTGGTTGTTCTTCTATCTCATCTCAATAATATCTTTCAGAAGCAAACCTTTAATCCTTTTGGACTGTACTTGCTTTGAGTGTTTGAATGTCTCTCTCTATCTCTATTTCCGAAGTTTTGTCTTGTGACATGTTTTATACTTTAGTAGTGACCATAATTTGTTTCATGATTATTATTTGACATGTGAAGACTAAGGATTTCAAGCTTATACGCCCACTTGATATGGAAAGCAGTCTAAAATCTGAGACGCAGAAGGAATACCAAATTTTATTAGCATGTTCAGGATTGAAGCAGGCTTTGACAAATAACCCTGGATATAATTACCGCGTTGCCGAGTGTCAAGAGGCTGCGAAAATTCTTCTGAAGTAAGATTTACACCTTCTTGCTGACTGGACCCCCCTATTTTATTGGGTTTTAGTAGTACTGATCTATTCGTATCAGAACATCTTCCTTTTGCGTTTTTGAACCGTTCCACGTTTGAGGTTGTAAGTAATGCTTGAATTTGAGGAAGGAAATAGTATACTCAGAGAAAATATCTTATTGAGTTACTATTTCAAGTGCCTCGAATTTTCATTTATATAAAAGGAGAAACCTTTAGAATAATAGAGGAAGTTAAATTGGGAAAAATAAAATGGACTGCCTGCATTATTGTAAGCAACTCTCTTTTACTGAATCAAAAGAAGAGCTTGGGGTGGCCTCGGTGTTGTAATGCCAGTGTACATTGAGAATCGGATGATTTGATGCAAGGTTGCAGCTGAAAGAATGATCTAAAGATGTCTGGCGAGAACATTGGAAAAGTAAATAGGAGAAGGAATAAATATTTCGAAGGGAACCTTATACCTGCAAGGAGAAGTCATATGGCGAAGGGAAGTAAAGGCTCGGTTTAGAGGAAACACTTGTGAATTCATTACCTTGCCTGACAGATAATCTCTAGACGTTTATAAACAAGACTATGACTTACCGGGACAATAATTTGAGATCTAAATGCATTAGGGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGAGAAGATTACCTCTCATGTGGGCTGGTGGGTGCATGCAAATATAGAACCTCTTAGAGGAAGTAAGGATGCCTTAACCACCAAGCTATGTTACGTAGGCTTTTCTCTCTTCTTGCATGTTAAATGAGTATGATATGAAATCTGTTGTTTTCAATGGATCAACGGTATTTATTACTCGTTTTTCATTCTATAGTGCGTCTGGCAATTCGCATCTGGAGCCACTCCTTTGTAATGGTAATATTTCTGCCGACCTTGTAAAGTTTGCTTTTTTGTTTTGGTTATTTTTTAATCCTCGTATGATGACCTTGATTCTTATCTCCTTTCTGAATCTTGTCGTCTTATCAGTTGAACAGGAAGCTTATGAAGTTCACAAGGTAATGTCATTTTAACAATGATGCAAGGATTTCTCTCTATATTCTACATCCATCAGTGTCTTTTAGTTTCACTTATTTTATAGTCCTACCCTAGGTTTCTAGCAAATAGCAATGGCTGTTATAAAATCGATTTGATTTCTATGCATTCGGGTATTAAATCAATTTTAACTGAAAAGAAATCTGGAATGGCCATTTATTCAATGTTCATGGAAATGCAAACGCCTGGTCAACTTCATTCGTTTTCTTGTTGTTGGACATGGTATAGTTCAGCTCATGTTTCCCAGTTTGCACCTTGTTTATAATGAAGTCTAGCATTATTAGCAAAACTGTCGATAACCTTGGACTTTATTTTTGTAACTTTTTATTAAATTTCACCTCATTCGGATTTTCTTGTACAGTCGAAATTAGAGAAAAACTTGGCAAAAAGAGCAGAGCATTATTTCTCAGAAAACACGCGGGTCTTACAAGGTACTCTTTCACAGACGTTCTTGTTTGCAAAGCCATTCTTATCTTCCTTTATTCAAGTACCAGTTTCTTTTTTTTTTTTCCCTCTTAGTTGTAGTCATGTCGAGGACTTGAACAGAACTATAATATAATGGTCATTTCAGGACTCGAAGCTTGGGCTTCAGGAAAGTTGGAAGACTTTGGAAAACTCGTTGCGGCTTCTGGGCGAAGTTCAATTGTAAACTACGAATGTGGTATGCCTTCACTTTCTTATATAAAGAGCCTTCCTTGGGCATAACATGGAGTTGTTGATATAACCTTAAAAATACCCCACCAAGGAATATATGTCTATTGGTACGAGGCCTTTTGGAAAAACCAAAAGCAAATCTACGAGAGCTTATGCTCAAAGTAAACAATATCATACCATTGTGTAGAATCGTGGTTCCTAACAATTATTCCTCCTATTCCTTACATCATAAGCATCCCCACTTATGGTTCCAGGATCGTTCAGTTAAATAAATTTCAGATTTCTCCATTGGATTTCGAATACTGAATGACATTGATTCCTTGGTTCTTTGCTTGAATGTGATTGCCTGGATTTTTTATATACGCTGAAAACCATAAAAACCATAACACCATAATAAATGATTTCCATGAAGGTGCGGAGCCACTGGTTCAACTATATGAGATCCTGTTGAAAGCACCAGGAGTATGTGGAGCGCGGTTCAGTGGTGCTGGATTTAGAGGGTGTTGTATCGCTTTCGTAGATGCGGACTATGCTGCTGAAGCCGCAAAATTCGTGCGGAAAGAGTATCAGAAGGTGCAGCCGGAGTTAGCTGCACAGATAGACCCCGAGACGGCCGTGTTGATTTGTGAGCAAGGCGATTGTGCTCGTATCCTTTGA ATGGAGAAGCCGTCTTGGCCTTCGGAGAAACAGCTTAATAGAATCAAGGAAATTGTTTCGGAAATGTCCAAGAGAAGTATGGAGCACGTTCGCATAGTTGTCTCTCCGTATCGCATTTGTCCACTGGGAGCTCATATTGATCATCAGGGTGGGAATGTTTCAGCGATGGCCATAAATAAGGGAGTGCTTTTAGGATTTGTTCCTTCTGGCGATGCTCAGGTTGTACTCCGTTCAGCTCAGTTCAAAGGAGATGTTAACTTCAGAGTTGATGAAAAACAGTATCCAAATCACTCTAACAACAAGAAGGAAGAGACTAATGCAAATGGTCATACTAAATTGGAGGGGGATAATAACTGGGGAAGGTATGCTAAAGGAGCATTATATGCACTACAACAAAAAAAGAGCATTGTCTTTCTCAGGCTAATTGAAAATGGATACTTGGGTTTGAGAAATGGCATACTGGACCAATCTGCAATATTACTTTCAAGCTATGGTTGTCTATTGCATATGAACTGCAAGACTAAGGATTTCAAGCTTATACGCCCACTTGATATGGAAAGCAGTCTAAAATCTGAGACGCAGAAGGAATACCAAATTTTATTAGCATGTTCAGGATTGAAGCAGGCTTTGACAAATAACCCTGGATATAATTACCGCGTTGCCGAGTGTCAAGAGGCTGCGAAAATTCTTCTGAATGCGTCTGGCAATTCGCATCTGGAGCCACTCCTTTGTAATGGTAATATTTCTGCCGACCTTGTAAAGTTTGCTTTTTTGTTTTGGTTATTTTTTAATCCTCGTATGATGACCTTGATTCTTATCTCCTTTCTGAATCTTGTCGTCTTATCAGTTGAACAGGAAGCTTATGAAGTTCACAAGTCGAAATTAGAGAAAAACTTGGCAAAAAGAGCAGAGCATTATTTCTCAGAAAACACGCGGGTCTTACAAGGACTCGAAGCTTGGGCTTCAGGAAAGTTGGAAGACTTTGGAAAACTCGTTGCGGCTTCTGGGCGAAGTTCAATTGTAAACTACGAATGTGGTGCGGAGCCACTGGTTCAACTATATGAGATCCTGTTGAAAGCACCAGGAGTATGTGGAGCGCGGTTCAGTGGTGCTGGATTTAGAGGGTGTTGTATCGCTTTCGTAGATGCGGACTATGCTGCTGAAGCCGCAAAATTCGTGCGGAAAGAGTATCAGAAGGTGCAGCCGGAGTTAGCTGCACAGATAGACCCCGAGACGGCCGTGTTGATTTGTGAGCAAGGCGATTGTGCTCGTATCCTTTGA ATGGAGAAGCCGTCTTGGCCTTCGGAGAAACAGCTTAATAGAATCAAGGAAATTGTTTCGGAAATGTCCAAGAGAAGTATGGAGCACGTTCGCATAGTTGTCTCTCCGTATCGCATTTGTCCACTGGGAGCTCATATTGATCATCAGGGTGGGAATGTTTCAGCGATGGCCATAAATAAGGGAGTGCTTTTAGGATTTGTTCCTTCTGGCGATGCTCAGGTTGTACTCCGTTCAGCTCAGTTCAAAGGAGATGTTAACTTCAGAGTTGATGAAAAACAGTATCCAAATCACTCTAACAACAAGAAGGAAGAGACTAATGCAAATGGTCATACTAAATTGGAGGGGGATAATAACTGGGGAAGGTATGCTAAAGGAGCATTATATGCACTACAACAAAAAAAGAGCATTGTCTTTCTCAGGCTAATTGAAAATGGATACTTGGGTTTGAGAAATGGCATACTGGACCAATCTGCAATATTACTTTCAAGCTATGGTTGTCTATTGCATATGAACTGCAAGACTAAGGATTTCAAGCTTATACGCCCACTTGATATGGAAAGCAGTCTAAAATCTGAGACGCAGAAGGAATACCAAATTTTATTAGCATGTTCAGGATTGAAGCAGGCTTTGACAAATAACCCTGGATATAATTACCGCGTTGCCGAGTGTCAAGAGGCTGCGAAAATTCTTCTGAATGCGTCTGGCAATTCGCATCTGGAGCCACTCCTTTGTAATGGTAATATTTCTGCCGACCTTGTAAAGTTTGCTTTTTTGTTTTGGTTATTTTTTAATCCTCGTATGATGACCTTGATTCTTATCTCCTTTCTGAATCTTGTCGTCTTATCAGTTGAACAGGAAGCTTATGAAGTTCACAAGTCGAAATTAGAGAAAAACTTGGCAAAAAGAGCAGAGCATTATTTCTCAGAAAACACGCGGGTCTTACAAGGACTCGAAGCTTGGGCTTCAGGAAAGTTGGAAGACTTTGGAAAACTCGTTGCGGCTTCTGGGCGAAGTTCAATTGTAAACTACGAATGTGGTGCGGAGCCACTGGTTCAACTATATGAGATCCTGTTGAAAGCACCAGGAGTATGTGGAGCGCGGTTCAGTGGTGCTGGATTTAGAGGGTGTTGTATCGCTTTCGTAGATGCGGACTATGCTGCTGAAGCCGCAAAATTCGTGCGGAAAGAGTATCAGAAGGTGCAGCCGGAGTTAGCTGCACAGATAGACCCCGAGACGGCCGTGTTGATTTGTGAGCAAGGCGATTGTGCTCGTATCCTTTGA MEKPSWPSEKQLNRIKEIVSEMSKRSMEHVRIVVSPYRICPLGAHIDHQGGNVSAMAINKGVLLGFVPSGDAQVVLRSAQFKGDVNFRVDEKQYPNHSNNKKEETNANGHTKLEGDNNWGRYAKGALYALQQKKSIVFLRLIENGYLGLRNGILDQSAILLSSYGCLLHMNCKTKDFKLIRPLDMESSLKSETQKEYQILLACSGLKQALTNNPGYNYRVAECQEAAKILLNASGNSHLEPLLCNGNISADLVKFAFLFWLFFNPRMMTLILISFLNLVVLSVEQEAYEVHKSKLEKNLAKRAEHYFSENTRVLQGLEAWASGKLEDFGKLVAASGRSSIVNYECGAEPLVQLYEILLKAPGVCGARFSGAGFRGCCIAFVDADYAAEAAKFVRKEYQKVQPELAAQIDPETAVLICEQGDCARIL Homology
BLAST of Csor.00g283520 vs. ExPASy Swiss-Prot
Match: Q8VYG2 (Galacturonokinase OS=Arabidopsis thaliana OX=3702 GN=GALAK PE=1 SV=1) HSP 1 Score: 453.0 bits (1164), Expect = 3.8e-126 Identity = 253/470 (53.83%), Postives = 302/470 (64.26%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy Swiss-Prot
Match: B1YIH8 (Galactokinase OS=Exiguobacterium sibiricum (strain DSM 17290 / CIP 109462 / JCM 13490 / 255-15) OX=262543 GN=galK PE=3 SV=1) HSP 1 Score: 95.5 bits (236), Expect = 1.5e-18 Identity = 107/404 (26.49%), Postives = 158/404 (39.11%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy Swiss-Prot
Match: A5VME2 (Galactokinase OS=Lactobacillus reuteri (strain DSM 20016) OX=557436 GN=galK PE=3 SV=1) HSP 1 Score: 95.1 bits (235), Expect = 2.0e-18 Identity = 103/403 (25.56%), Postives = 164/403 (40.69%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy Swiss-Prot
Match: B2G9P6 (Galactokinase OS=Lactobacillus reuteri (strain JCM 1112) OX=557433 GN=galK PE=3 SV=1) HSP 1 Score: 95.1 bits (235), Expect = 2.0e-18 Identity = 103/403 (25.56%), Postives = 164/403 (40.69%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy Swiss-Prot
Match: Q8R8R7 (Galactokinase OS=Caldanaerobacter subterraneus subsp. tengcongensis (strain DSM 15242 / JCM 11007 / NBRC 100824 / MB4) OX=273068 GN=galK PE=3 SV=1) HSP 1 Score: 94.0 bits (232), Expect = 4.5e-18 Identity = 104/434 (23.96%), Postives = 172/434 (39.63%), Query Frame = 0
BLAST of Csor.00g283520 vs. NCBI nr
Match: KAG6589659.1 (Galacturonokinase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 841 bits (2172), Expect = 2.17e-307 Identity = 426/426 (100.00%), Postives = 426/426 (100.00%), Query Frame = 0
BLAST of Csor.00g283520 vs. NCBI nr
Match: KAG6589667.1 (Galacturonokinase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 808 bits (2088), Expect = 8.41e-294 Identity = 421/474 (88.82%), Postives = 424/474 (89.45%), Query Frame = 0
BLAST of Csor.00g283520 vs. NCBI nr
Match: KAG7023348.1 (Galacturonokinase [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 802 bits (2071), Expect = 3.27e-291 Identity = 418/474 (88.19%), Postives = 422/474 (89.03%), Query Frame = 0
BLAST of Csor.00g283520 vs. NCBI nr
Match: XP_022921351.1 (galacturonokinase [Cucurbita moschata]) HSP 1 Score: 717 bits (1851), Expect = 2.66e-258 Identity = 381/474 (80.38%), Postives = 385/474 (81.22%), Query Frame = 0
BLAST of Csor.00g283520 vs. NCBI nr
Match: XP_023516455.1 (galacturonokinase [Cucurbita pepo subsp. pepo]) HSP 1 Score: 711 bits (1834), Expect = 1.03e-255 Identity = 377/474 (79.54%), Postives = 384/474 (81.01%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy TrEMBL
Match: A0A6J1E153 (galacturonokinase OS=Cucurbita moschata OX=3662 GN=LOC111429648 PE=4 SV=1) HSP 1 Score: 717 bits (1851), Expect = 1.29e-258 Identity = 381/474 (80.38%), Postives = 385/474 (81.22%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy TrEMBL
Match: A0A6J1JJT8 (galacturonokinase OS=Cucurbita maxima OX=3661 GN=LOC111485744 PE=4 SV=1) HSP 1 Score: 703 bits (1815), Expect = 3.90e-253 Identity = 376/474 (79.32%), Postives = 381/474 (80.38%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy TrEMBL
Match: A0A0A0LXI8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G434140 PE=4 SV=1) HSP 1 Score: 636 bits (1641), Expect = 1.19e-226 Identity = 336/474 (70.89%), Postives = 362/474 (76.37%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy TrEMBL
Match: A0A1S4DZQ3 (galacturonokinase OS=Cucumis melo OX=3656 GN=LOC103494213 PE=4 SV=1) HSP 1 Score: 629 bits (1623), Expect = 6.54e-224 Identity = 334/474 (70.46%), Postives = 363/474 (76.58%), Query Frame = 0
BLAST of Csor.00g283520 vs. ExPASy TrEMBL
Match: A0A6J1C161 (galacturonokinase isoform X1 OS=Momordica charantia OX=3673 GN=LOC111007426 PE=4 SV=1) HSP 1 Score: 580 bits (1496), Expect = 9.79e-205 Identity = 312/474 (65.82%), Postives = 347/474 (73.21%), Query Frame = 0
BLAST of Csor.00g283520 vs. TAIR 10
Match: AT3G10700.1 (galacturonic acid kinase ) HSP 1 Score: 453.0 bits (1164), Expect = 2.7e-127 Identity = 253/470 (53.83%), Postives = 302/470 (64.26%), Query Frame = 0
BLAST of Csor.00g283520 vs. TAIR 10
Match: AT3G06580.1 (Mevalonate/galactokinase family protein ) HSP 1 Score: 52.8 bits (125), Expect = 8.1e-07 Identity = 72/295 (24.41%), Postives = 122/295 (41.36%), 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
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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