Csor.00g037720 (gene) Silver-seed gourd (wild; sororia) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSinitialstart_codonpolypeptideintronterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGATCTTCAGCACCAGCTTCGAAAACCAACCTTGGAGCCAGACCCGCACCTACCCAACATCAAAATCCACCATCCAGCTTCCCCTCGCCACACCTCCACCGCCACCCCCGTCGCCACCCCCACCCCCACTGCCGGCGCCCGCCGCAGGATTGGGGTGGCTGTCGACCTCTCCGAGGAGAGTGCTTTTGCTATTCATTGGGCTGTTCTACACTACATTCGTCCTGGTGATGCTGTCATTCTCCTCCATGTTAGCCCTACTTCCGTCCTCTTCGGTGCCGATTGGGGCTCCATCGACATTACTCTCGATACTGCTGATGATAATCCTGATGATCATAATTCTGGTAACTCTGTAAATGGTCAACATCTGAACCGTACGGAGCGTTCGAAACGTAAATTGGAGGATGATTTTGATGCTTTCACTGCCTCCAAAGCTGCTGATCTTGCTAAGCCGTTGAAAGATATTCAGATTCCGTATAAGATTCATATTGTGAAGGATCATGATATGAGAGAGAGGCTTTGTTTAGAAGTGGAGAGATTGGGGCTGAATGCGCTGATCATGAGCAGTCGGGGTTTTGGTGCTGCAAAGCGTGGAAATGACGGTGGGCTCGGAAGCGTTAGCGATTATTGCGTGCATCATTGTGTGTGTCCTGTTGTGGTGGTGCGTTTTCCGGATGAGAAGGATGTTGGGATCGGTTGTGATTCTGTTGCTGTGAAGAAGCAGGACAATGGCACCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGCGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGAGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGAGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGCGCCCCCGAAAAGTCTGTTGCTGTGCAGAAGCAGGATAATGGCGCCCCCGAAAAGTCTGTTGCTGTGCAGAAGCAGGACGATGACGCCCGGGAAAAGCCTGTTGCTGAGGCCGTGGAGTCCAAAGGTTAGGCATCTCTGTTTTCCATGATTGGTTCTTGCATTATAACTAATGATTTTATTTCATCTCTGAAAATAGAATCGATTTTAAATTAGCCGTAGCTTAGTTTTCAATCTTCATAAAGTTGAATGCTAAGTGTATCGTAATGTTATAAGTTTCCTGTGTGTACTTCTGAATTTCATGCTCAATTATATCTTTTTAACTTTAATTTGAATTGCATTGTGATGTGGGGTTTCTCCCAAAATATGGGAAATTAGGATTTGGTATTAGTGAACTTTGGAATATCTGAAAATTCTTGTTTTTGAGTGAAATTATGATGATATATGTAACCGCCCAAGCCTACCGCCAGCCGATATTGTCCTCTATGAGCTTTCCCTCTTGGGCTTCCCCTCAAGGTTTTTAAAACGCTAGGGAGAGGTTTCCACACCCTTATAAAGAATGCTTAATTCTCCTCTCCAATCGACGTGGGATCTCACAATCCATCCCCCCTTTGGGGTCTAGCGTCCTCGATGGCACTCGTTCCCTTCTCCAATCGATGTGGGACCCCCTTCGGGACCCAGTGTCCTTGTTGGCACACCACCTTGTGTCCACCCCCCTTCGGGGATCAGCCTCCTCGCTGGCACATCGCCCGATGTTTGGCTCTGATACCATTTGTAACGGCCAAGCCCACCGCTAGCAGATACTGTCTTCTTTAGGCTTTCCCTCGAGCTTCCCCTCAAGGTTTTGAAATCGCATATGTTAGGGAGAGGTTTCCACACCTTGTAAATAATGCTTCGTTCTCCTCCCCAACCGATGTGGGATCTCACATTATATTTTTTCAGTTCTTCTTTTAATGTTATATGGATGGTGAAATTCTGATATTGAAAGTTCATAGTTCTTGTTATCTTGAGTGATCTATCTTTTCGCAAAACTCTTTTCCCTGCCTCTTTGGATCCATGGCTGATTCCCCAAATGTACATGCTGCGAGTTTGGTCTGCAGATGACATTACTTGACGTTGAAGGTTTATTACTAATCATTTTCGAGGACTATGTGCACGGAGAATTGCAAGCCCAAGTGATCTGTCTAATGTCCCAGCATCTTTAACTAGTGATCCAACACTAGTATCGATAAGATTAGAGATACTCATACAGAAAATATACTTTAATTTACTGGCTTGATATCGATACTAGTTTTTCACCGTGGCCTATTTCTGGAAGTCAAAGACACATGTTGTCAGGTAACCTCATGAAAGCCAAAATTTCCAAGCAATGCATGGTTTAGGCTCGTGTAAAGATCCTGTGCCTAATGGTTTTACTGCAAAGTTCTTTCAAAGAGGTTGGAGAATTCTCATGTCAAATATATTGAGAGAGAGAGAGTTCGATTATCAGTTCTTGGGCCAAAGAGACTTACACATGCCTTATTCCATAGAGTAATGATGCTAAAAAGAGAACTTTATTCAAGACCATACGTCTCACCATCTGCCCTTTCAAGATCATTACTAAAGTCCTTACTAAACATCTAAGGTAGATTCTTCCAGATATGATAATTAAATTGCATTTAACTTTTATCGAGGGAAGGCAAATAATTGATTCTTGTGTCGTTGCCGACAAATAGATTGTTGATTGGAAATGAGAAAAAAAGGAGTGCCCCTCCACACACGTTTATCTTCTCTTAGAAAGAATTAAGTTTTGGTCGTGGGAAACAACAAAAAATATCAAAATTTAGAAGGATCTTTGTACTGACCATGTCAAGAACATCCAAACTGTAAAAATTATCTTATCAGTTATGTGTGGAAATTTTAGTCTGACTTCTTGGGATTTAGTTTTCAAAAGGAACATCAATAATCATGGGACAACCAAATGGATATCACATATGGACCTCATTACTCATTAGTTGGTGCAACCTCCTTCCTCGCCAAGATAGATGGTTGTGGCTCAAAGACAAGACCGTATGTGCTTTCAAATGTAAGTGTGCCTTTTTGGAGTTGGAGCGTTAATTATCCTTAGAGAGTAAAGATTTTCATGTCGGAGTTTTTGTTGAAGATTACCAACGCTCATGACAAAGTTCATAGGAAAATCCCCATTTGTTGTCTTTCTCCTAATTGGTGCTTAGTATATGAAGATGGTGAAGGATCTGAAGACCATCTCTCTTTGATTAGCTTATTGTTTTTCTAAGGAGCATGAACAGAATTCTTTAAGTTTCTCCAATGGCCTTCCTTTCAAAGTGAAACCTACGTCTCTTTGTAAGAATATTATTAGAGCTTTTCTTTGGACATTCCGGTTAGAAAGTTTTTTGTAGGGCTAAGGGATCTTTTTTCTTTTGTTGAACCATATTCTTATAGTTGCCTGGTCTTGGTTCAACATATCTAAACCTTTTTTAACTATCATTTTCGTCTGTCTGCACTAGTTGGAAGGTTCTTGTTTGCGTTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTATAATTAATCTTCTTTTTTTGTAACTCCCATACCCCAGGCTGAGGCTTTCCTTCCACTTTTTGTATATTCCAATTTATCAATGAAATAGCCTCTTATTAGGGAAATAATTGCTTGTTTGTGGGAGAAATTCTTTCTGTAAACGTATGTGTGCTTTTTCACTCTTTGCATGGTATATTTTTGGTTTACAACCCATTTTTGCTAAAAAGCTTGGACACTAACACGGTGACACATCAATTTCTAAAAAAGTAGGTCATAGATACGTTGAAGACACGTTTTTTAAAAATAAAAAATATATGTATATGTTGATATATTAGTATTTCTCTAATGATAAAACATGCAAATTTAATAAAAATATAAAATATACTTCTCTACAAACCTATAAAGTTAAGCTAATTAACAATATTCGAAAAGATAAAGAAAAATTTAGTTAGCTAGAACCAGAGGAAAAAGATGTCATCCCAATACTTCAGGATTGGTTAATATATAAGATTCATGTCTATAAGAAAATTTCTAATTTTTTTTTCTCCAATTTTTAGGTTAAATGTTTTCTAGAGCCATGTCCATGGAGGAAAAAAGATTGAGACACATTCTTTTAGCATGTCGGACATGTGTCTAGAGCATGTCCATATGTATTTGTGTTCATGCTTCCTAGCATTTTGGTCCCTGAACTTTCAAAAGGTCAACTTTGGTCCTAAACTTTTATGTTTTTCTTTTTTCTTTTTCATTTTGGTCCCTAAATTTTCATAATGTGTATTTTAATTCTTAAACTTCTAATTTTTTTTTTGTTCCTTGTTATGTTGTTTTCCATCTAATTTCCATGTTCCCTCATCTCTAACTTATGTGGCTTGAAATCATGCTCATATTAACATGCTAGTACTCATATTCCAACCCTCGCCATTAATTTGTTAAAAATAAAATAAAATGAAGGACCAAAATGATTGTTTTGGTCCTTAAATGAATATTTTTAATGTCTTGGCACTAAAAGTTAAAATGGAACAAATCTGAAAATTCAAGGATCTATTTTGAAAGTTTTTTAATGACCAAAATACAGCTCGAGAAAAGGAATAAGTTGAAAGATTATGAAAGGAGCATCTGAAAAACAGCTCTACAAAAGGAACTGCCGAAGTATTTACATGATATTTAGGGAAGTCGAAACTTGAAAATGTTCCTATACAGAAAATAACAGAACTCAGCCACCTAAACATTTTTTAGGTGAAACATTCTTGTTGTTTTTTATACTATATTTTGATAAGTAGTGAAACCATTTTTTTATTTGATTCAAGAAATATAACCATATTTGAGAATTAGTAGGAGCTCTTTGTTATGATGCATAGCCAAGTATTGTTCTGGAGACTGCCTGTATTCCTTGTTGTGGCGCAAATGCTAGTTATTCATTAAAGGACCTGTTATTATCAATGGATATATGAATGCCCTTTGCTTGTCTAAGTTGAAACTTTGCCACTCCCTTGCAATATCTACTGAATGGAAATTTTTTAGTAGAACTACGGGAGTAATCTTTATATTGTTATTTCTTCTAATCCTTGTGTTCACAATGCACCACACAAGAGTTTATTATTTCGATGTTTCAGTGTTTGAATTTACTTTTAGAAGGAAAATTATATTATGTGAACTATGGATAAATTGTTAGAAATTCCAATTCCGTTTTGACAATTCAACACATAAGCTTAATGTTTTTTTTAATATACATATATATATATATTGAAAAATGTTGTATTTAGATAAGTATATTTTGTTTAAGATAAACCTTAAATGACTTGAAATTGCTTTGAAATAATGTTTTTTTAATAATTTTTAATTTATCAAAGATAAGTGTCTAAAAAAAATTTCGTTTAGTCATCTGAGCAAAAATATATGAAAAAATATATAATAATAATAACAATAAATTTTCATTTGGCGTGATCTTCATTTGGAATTAAGTTGTATAATATAGCAGTTAAATATATATGCATATAGGTTAAAATACCATTTTGGTTCTCGTCCTTTCAAATGTCTAATGTTAGTCTTTGTACCTTCAATAATAAATGTTCATACAAGAAAAGACACTGAATTTATTTTTATAATTTATAAAGGGAATGCTAATAGAAACTAAATGTTTAGGAAAAAAATCAACAATAAACTAACTATGTGGACTAATTTTAAGATTTATTGAAGGTACCTTCAGTTTTTAATCTGGCTAAAGGATGTAAACCTCGTTTGCAATGTGCTGCCAATAACATCTTCAAATCTAGGAGGGGGTTCTTTGGCCAATCATGATAGGGTTCCTATCGGAGGTTGAATCTATCCGTGGTTTAAATGTATATTAGGAGAGCTGCTGTGTGACTGATATCAACTGAGATCTGCTTTGGTAGGTTAGGTAGGTACAACTTTGTGGGGTGCAAGGTTTTTCTGTTGCTCATAATATACTTGGGCTTTCTTTATGACCATATTCTTAAACCCTCTTTTTGGGGCTCAATTGTGGAGGAAGGTTATAAAGAGTCTCTCGTATTTGAAAAAGGCATGGTTCCCAAGGGGGTTTAGGCTTGCCCATTTTTAGACTAATCTCGAAATCCACTCTCCTTTTTGCCTTTAGAATGTCCTCTTCATTTCTTTGAATCTTTGTTCGGTTCTAAATATTGAGGAGCCTTTTATCTTTAACGGAGAAACAGTTTATAAAAGAAGTGATGATTGATGAGGGGAAATTAACTTAAAGAAAACCTCTATATGGTAGTCGATTATGCTGATTCAAAGAATTGGTGCCTTGATCCTTCAGGTACTTTCACGGTTAAATCTCTCTTTAAACATTTGCCAGCATCATTTCCAATCCATTAAGAGACTTTCTCGACTTTATGGAGGTCTAAATGTCTTAAAATTAATATCATTATCTGGATTTGGATTTTGATTAAGAGCAGCTTGAATTTCTCAAATGTTTTACAATAGAAGATTCCATCATCCTCACTTATGACATAAGTTGACTACTGTGCTGCTTGGATTCAAAAAGCTGGAAGCATCTATTAATTGATTGCTCTTTTGCGTTATCATGTTGGCAACAGCTTTTTGGGTTCTTCAGTACTCGTAGTTCTTCAATAACTGTAAGTGCAATGCACTATATTTGCTCACTGGTTCTTGTTTTCCTTCAAGGCCTCTATTATTATGGGAAAAGTAAATGCAACTAAAGTTATTATTTCAGAACTTTGGCAGGAACACAATCAAGAATTTTTTTTTAAGCCAGCAAAGTTGCTGGTCGCTCTGTTTTGAGTCGGCTAAACTGAAGTCCAAGCTTTTCCATGGGTTCGCCCTACAAGATATTTGTCTTAAAAGAATTGCCCTCTTGATTTAGTGGTTATGGTGCCTTCCCTCTTGGTTTAGTGGTTTGTCCTACGTATATGTGTCATTTTTAAAGTTAAAAGAATGAAACATTACACTTCAGTTTGATTGTTATTGCGTTTAAGTGTTGCTATCTTAGATGTGCAGTCAACTTTTGGCACGATACCCAAAGTAACATATATATTTTGTTTGTGTTTTGCAGTTTACAAGATTATAAATTAGATTAACAAATCTTAGCCCTGCCGTGTTCCATTCAAGTTTGTAGAATGTATTTCACCACTATCGTTTCTTGAGTGATATGTATATGTTTAACATGTTGCTTTTCGATGTGCTTGTGCTTCCCTTAGAGCTTAAATGGGTATGTGTTTTCGGGAGTTATGATACTTTTTAAACTGTGGGATCCCACATCGGTTGGGGAGGAAAATGAAACATTCTTTATAAAGGTATGGAAACCTCTCCCTAGTAGACGTGTTTTAAAAATCTCGAGGGAAACCCCAAAAGGGAAAGACTAAAGAGGACAATATCTGCTAGCGGTGAGCTAGGGTCGTTACATTAATGGCAGCTTAAATGGGTATGTGTTTTCGGGAGTTATGATACTTTTAAATTGTGAGATCCCACATCAGTTGGGGAGGAGAATGAAGCATTCTTTATAAGGGTGTGGAAACCTCTCCCTAGCAGACACGTTTTAAAAATCTTGAGGGGAAGCTCAAAAGGGAAAGCTCAAATAGGACAATATCTGCTAGGAGTGGGCTAGGATCGTTACATAAATGGCATCAATAAATGACTATGACTAGGTGCCGCCTCTCTTTCCACGGGTGTTTAGATGGTAATATCCAAATCAAAGACGGGTTTTCCCATGAGGATATGTACCCAATTCCTCTGTCTGGATCTCTATACAACTAACTCCCTGGCTCATTTTGTTTTTCATGAATTTCATATCATCTGTATATTGGTGTTTAATCTTCGTTTGTATTCCTTCTTGTAGTTTGTCATGAAAAGCTTGCATCATCCTGAATGGATCTTCAGCACCAGCTTCGAAAACCAACCTTGGAGCCAGACCCGCACCTACCCAACATCAAAATCCACCATCCAGCTTCCCCTCGCCACACCTCCACCGCCACCCCCGTCGCCACCCCCACCCCCACTGCCGGCGCCCGCCGCAGGATTGGGGTGGCTGTCGACCTCTCCGAGGAGAGTGCTTTTGCTATTCATTGGGCTGTTCTACACTACATTCGTCCTGGTGATGCTGTCATTCTCCTCCATGTTAGCCCTACTTCCGTCCTCTTCGGTGCCGATTGGGGCTCCATCGACATTACTCTCGATACTGCTGATGATAATCCTGATGATCATAATTCTGGTAACTCTGTAAATGGTCAACATCTGAACCGTACGGAGCGTTCGAAACGTAAATTGGAGGATGATTTTGATGCTTTCACTGCCTCCAAAGCTGCTGATCTTGCTAAGCCGTTGAAAGATATTCAGATTCCGTATAAGATTCATATTGTGAAGGATCATGATATGAGAGAGAGGCTTTGTTTAGAAGTGGAGAGATTGGGGCTGAATGCGCTGATCATGAGCAGTCGGGGTTTTGGTGCTGCAAAGCGTGGAAATGACGGTGGGCTCGGAAGCGTTAGCGATTATTGCGTGCATCATTGTGTGTGTCCTGTTGTGGTGGTGCGTTTTCCGGATGAGAAGGATGTTGGGATCGGTTGTGATTCTGTTGCTGTGAAGAAGCAGGACAATGGCACCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGCGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGAGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGAGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGCGCCCCCGAAAAGTCTGTTGCTGTGCAGAAGCAGGATAATGGCGCCCCCGAAAAGTCTGTTGCTGTGCAGAAGCAGGACGATGACGCCCGGGAAAAGCCTGTTGCTGAGGCCGTGGAGTCCAAAGTTTGTCATGAAAAGCTTGCATCATCCTGA ATGGATCTTCAGCACCAGCTTCGAAAACCAACCTTGGAGCCAGACCCGCACCTACCCAACATCAAAATCCACCATCCAGCTTCCCCTCGCCACACCTCCACCGCCACCCCCGTCGCCACCCCCACCCCCACTGCCGGCGCCCGCCGCAGGATTGGGGTGGCTGTCGACCTCTCCGAGGAGAGTGCTTTTGCTATTCATTGGGCTGTTCTACACTACATTCGTCCTGGTGATGCTGTCATTCTCCTCCATGTTAGCCCTACTTCCGTCCTCTTCGGTGCCGATTGGGGCTCCATCGACATTACTCTCGATACTGCTGATGATAATCCTGATGATCATAATTCTGGTAACTCTGTAAATGGTCAACATCTGAACCGTACGGAGCGTTCGAAACGTAAATTGGAGGATGATTTTGATGCTTTCACTGCCTCCAAAGCTGCTGATCTTGCTAAGCCGTTGAAAGATATTCAGATTCCGTATAAGATTCATATTGTGAAGGATCATGATATGAGAGAGAGGCTTTGTTTAGAAGTGGAGAGATTGGGGCTGAATGCGCTGATCATGAGCAGTCGGGGTTTTGGTGCTGCAAAGCGTGGAAATGACGGTGGGCTCGGAAGCGTTAGCGATTATTGCGTGCATCATTGTGTGTGTCCTGTTGTGGTGGTGCGTTTTCCGGATGAGAAGGATGTTGGGATCGGTTGTGATTCTGTTGCTGTGAAGAAGCAGGACAATGGCACCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGCGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGAGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGAGCCCCCGAAAAGTCTGTTGCTGTGAAGAAGCAGGACAATGGCGCCCCCGAAAAGTCTGTTGCTGTGCAGAAGCAGGATAATGGCGCCCCCGAAAAGTCTGTTGCTGTGCAGAAGCAGGACGATGACGCCCGGGAAAAGCCTGTTGCTGAGGCCGTGGAGTCCAAAGTTTGTCATGAAAAGCTTGCATCATCCTGA MDLQHQLRKPTLEPDPHLPNIKIHHPASPRHTSTATPVATPTPTAGARRRIGVAVDLSEESAFAIHWAVLHYIRPGDAVILLHVSPTSVLFGADWGSIDITLDTADDNPDDHNSGNSVNGQHLNRTERSKRKLEDDFDAFTASKAADLAKPLKDIQIPYKIHIVKDHDMRERLCLEVERLGLNALIMSSRGFGAAKRGNDGGLGSVSDYCVHHCVCPVVVVRFPDEKDVGIGCDSVAVKKQDNGTPEKSVAVKKQDNGAPEKSVAVKKQDNGAPEKSVAVKKQDNGAPEKSVAVKKQDNGAPEKSVAVQKQDNGAPEKSVAVQKQDDDAREKPVAEAVESKVCHEKLASS Homology
BLAST of Csor.00g037720 vs. ExPASy Swiss-Prot
Match: Q8L4N1 (Universal stress protein PHOS34 OS=Arabidopsis thaliana OX=3702 GN=PHOS34 PE=1 SV=1) HSP 1 Score: 287.3 bits (734), Expect = 2.3e-76 Identity = 149/224 (66.52%), Postives = 174/224 (77.68%), Query Frame = 0
BLAST of Csor.00g037720 vs. ExPASy Swiss-Prot
Match: Q8VYN9 (Universal stress protein PHOS32 OS=Arabidopsis thaliana OX=3702 GN=PHOS32 PE=1 SV=1) HSP 1 Score: 287.0 bits (733), Expect = 3.0e-76 Identity = 151/242 (62.40%), Postives = 175/242 (72.31%), Query Frame = 0
BLAST of Csor.00g037720 vs. NCBI nr
Match: KAG6592001.1 (Universal stress protein PHOS34, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 677 bits (1748), Expect = 2.43e-245 Identity = 350/350 (100.00%), Postives = 350/350 (100.00%), Query Frame = 0
BLAST of Csor.00g037720 vs. NCBI nr
Match: XP_023535107.1 (universal stress protein PHOS32-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 631 bits (1627), Expect = 5.31e-226 Identity = 340/406 (83.74%), Postives = 343/406 (84.48%), Query Frame = 0
BLAST of Csor.00g037720 vs. NCBI nr
Match: XP_022936444.1 (universal stress protein PHOS32-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 612 bits (1578), Expect = 6.92e-220 Identity = 321/350 (91.71%), Postives = 321/350 (91.71%), Query Frame = 0
BLAST of Csor.00g037720 vs. NCBI nr
Match: XP_022936445.1 (universal stress protein PHOS32-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 582 bits (1501), Expect = 2.22e-208 Identity = 307/350 (87.71%), Postives = 307/350 (87.71%), Query Frame = 0
BLAST of Csor.00g037720 vs. NCBI nr
Match: KAG7024876.1 (Universal stress protein PHOS34, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 582 bits (1501), Expect = 2.13e-204 Identity = 306/337 (90.80%), Postives = 307/337 (91.10%), Query Frame = 0
BLAST of Csor.00g037720 vs. ExPASy TrEMBL
Match: A0A6J1F8B4 (universal stress protein PHOS32-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111443060 PE=4 SV=1) HSP 1 Score: 612 bits (1578), Expect = 3.35e-220 Identity = 321/350 (91.71%), Postives = 321/350 (91.71%), Query Frame = 0
BLAST of Csor.00g037720 vs. ExPASy TrEMBL
Match: A0A6J1FDP6 (universal stress protein PHOS32-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111443060 PE=4 SV=1) HSP 1 Score: 582 bits (1501), Expect = 1.08e-208 Identity = 307/350 (87.71%), Postives = 307/350 (87.71%), Query Frame = 0
BLAST of Csor.00g037720 vs. ExPASy TrEMBL
Match: A0A6J1IG26 (universal stress protein PHOS32-like OS=Cucurbita maxima OX=3661 GN=LOC111476915 PE=4 SV=1) HSP 1 Score: 516 bits (1329), Expect = 6.08e-183 Identity = 276/350 (78.86%), Postives = 277/350 (79.14%), Query Frame = 0
BLAST of Csor.00g037720 vs. ExPASy TrEMBL
Match: A0A5A7SZQ0 (Universal stress protein PHOS32-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold110G00950 PE=4 SV=1) HSP 1 Score: 430 bits (1106), Expect = 2.41e-149 Identity = 216/251 (86.06%), Postives = 226/251 (90.04%), Query Frame = 0
BLAST of Csor.00g037720 vs. ExPASy TrEMBL
Match: A0A1S3C097 (uncharacterized protein LOC103494984 OS=Cucumis melo OX=3656 GN=LOC103494984 PE=4 SV=1) HSP 1 Score: 430 bits (1106), Expect = 2.50e-149 Identity = 216/251 (86.06%), Postives = 226/251 (90.04%), Query Frame = 0
BLAST of Csor.00g037720 vs. TAIR 10
Match: AT4G27320.1 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 287.3 bits (734), Expect = 1.6e-77 Identity = 149/224 (66.52%), Postives = 174/224 (77.68%), Query Frame = 0
BLAST of Csor.00g037720 vs. TAIR 10
Match: AT5G54430.1 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 287.0 bits (733), Expect = 2.1e-77 Identity = 151/242 (62.40%), Postives = 175/242 (72.31%), Query Frame = 0
BLAST of Csor.00g037720 vs. TAIR 10
Match: AT1G11360.1 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 242.7 bits (618), Expect = 4.5e-64 Identity = 126/214 (58.88%), Postives = 155/214 (72.43%), Query Frame = 0
BLAST of Csor.00g037720 vs. TAIR 10
Match: AT1G11360.2 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 242.7 bits (618), Expect = 4.5e-64 Identity = 126/214 (58.88%), Postives = 155/214 (72.43%), Query Frame = 0
BLAST of Csor.00g037720 vs. TAIR 10
Match: AT1G11360.3 (Adenine nucleotide alpha hydrolases-like superfamily protein ) HSP 1 Score: 242.7 bits (618), Expect = 4.5e-64 Identity = 126/214 (58.88%), Postives = 155/214 (72.43%), 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:
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