CSPI07G11200 (gene) Wild cucumber (PI 183967)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTTTAGTCTGCACTCTGCACTCTGCACGTTGGTATTCGTGGATACTATATAGTTTATATATACATATATCCACTTGCATTGGGTTGGATAAAGAGGAAGAGGAAATGGCGTACGCTCTTGCTCCCGTGATTAACATACGTCCATGGAGTTTCGGATTTGTAACTACGGCTTCAAGTATTCGTTACCTATCCCGATCACTAAACTTGAGCACATTTCGGAGATATGTACCATATTCCTCCGTTGGAAAATTGACCAAGGCCACTGGTGATGCCAGCTTCCGGAGGGTTGAGGACGAAGATGAAGAGGAAGAAGTATTTCAAGTCTTGACCGCAGTAACTAGCGACTACAATGACATTGTAATTGTAGACACTCCCAAATCCAGAATGTTGCTTCTCGATTCTTCTTGTACCACTGCTCCTGCTCTCCCTTATCCTCAATTTTTTTCTTGCTTCAAAAGGGGAATCCAGACATTCTAAACTATGCCCCCACATTGTTGACGCAGATAATGTCCACAGCATTCTTTATAAGGAGCAGATGTGGACAGGTTCTTATTGGGTCAGTAAACTCGGTCTCTTCGCCGAACCTAAAAGGGAAAAAAAAGAGAGCAATATGTTTTTGTTAAGGTTTATATGTTCTGTCTATTTGATTTGATGCGTTTTGAATCCCTTTGTTTTGAGGAGTTTTGGTTCTCCATTGTCTTTATTTAACTACATATTCTCGGTCCATATAAAGTTGTTGTTGTTGCCCTTTCTTAGTCTTCGGAGTGGTTTTGCCTCAGTCAAAGATTCCAGCCTGGGTGTTTAGTTGGTTTTGTTTGCTGTCTTAGAGGGCTGTGTTAATTTCCGTTTCAACTTTGCTTACAGTCTTTGGTTTAAAGAAGCTTTTAGCGTTGTTTAGTAGTAGCTTTGTTCTTCTTGCGGGACTAGAGCATTTCTTCCTTTTAGCATTCTCTTTGTTGCAGCTGTTTTGTATGATTGTTGGTCTGTGTGTCTAGCTCATCTGGAAGATTGTATCTCTAAACAAATCTCTTCCTTTTCATCGATCAATTAAAGTTTTGTTTTTTTATTAAAAAAGAAAAAAGTTTAATCTTTGCATTTCCAACTTCTATTTCTTATTTCCTTCTATCTAGAGATTTATTCTCTTTTTATTACATCAATCAAAAGTTCTGTTTTCGTTTAAAGAAAAATCCATAATTATTGATATTTAGTTACTTCATCTTTTTGTAATTTCCTTTTATGAGCATAGTAATTAAAAGGTTCTGTTTCAAATCCAATGATTCTCGTCTGCCTTTGTTATATTTTTTTGGGGCTAAAAAACGCTAACTACCAACCGTTTTTGTATTATTTTTTATATTGTGAATTTATTTTTACTACCGACTGCTGTATATTTTTGTATCTTGTAGGATGAGTTTGCTAGCCTGCCAGCTATAATTCCGGAAGGGCCAATTGCTATACTTGGATTGGTACATCACTTTATACTGCAATAGTTGACGTACCTTTTTATATCAAATTACTGATTTCATTACTGGAGTTTTATACTATTTAAACAGGGAGGGGGAACTACTGCTCATTTGATGCTTGCTTCATGGCCCTCGTTGCAGCTTGAAGGTTGGGAGATTGATGGAATCGTAAGCTAGATTTGGTTTCTTTACGTATCAGTTTTTGAAATTTCTGAAGTTGAGTAACGATGTAGATCATCTATAGGACTTCCCATTCTTGTCTTTCTCCTCTGGGGTCATTTAATGCACGGGAAAGAAGGGAATAGGTATCCTTAACTCATGTTAGTATTTGAAGTTGATATCTTAGACCACCAAAAATTATTAGAATAAAGATTTGGATTTAACTGTAGCATGAAGATGTGCAATTTCCATAAGTGATAGAGATTCATTTCTCATTTAAAATTTGATTGAGAAGTGTTGCTCTGTTACCATATTTTCCACTTGAGCATTAAACCTTGTTCCAACAAGAGAAGTGGAACCCAGACCCATTACCATCATCGCTCCCGTCCTCTTTACCTTGGTCTAAACACCTCTAAATGGATGGTGAATGCAGACCTGTGTGAATCAACTTCCTTGTTCAAACTTATAATCGAGTGATCAAGCGAGCTAGTCTCAGGTTTATCCCATTTGATCTGTTTCGCTCCTTGTTTCAACTTTCAATTCTTTTAGCTTATAAGTATTTTAAGTGATTTCTAGTCATTAGTACTTTCAAACAATATACTGATTCTGGCTATCCTAGTGTGAAATTGCTTTTAAAATGGTTTTGTTTTTACGTAGGGGTGGAGATTCAAACATCCTTATTTCTTGGTTGAAGTTATATAATGCTTTAACCATATGAGCTATGTTTTGGTTTGCATTTTTAAAATGGTTACATATGAAAGTTAAAACTACATCAATCTTTTCTACCCTGTGACTTCATCTTAACAGCTAATTGACAAAGCAAGAAATTTTCTGGGGCTATCTGATCTTGAGAAGCATTCTGCTGATGGCGGGATACTTAACATTCACATCGGAGATGCTCTTGATCCATCAGTCCGAATCTCTGGGGGTTATGCTGGTAAAGTTCTACTTTTCTCGGTTCTTATGGAATAAATGTGAAATCTGTAGTGTAAAACTTATTCTCTTGTGTGGTAGTTAGAGCAAAATATGAAATAACTCCTCACTTCATTTTATACAATAGATTTCAATATATATAGACATACATGGAAACCCTAAATAGAGATTAATAAATTACAATAAAGGACAAAAGATTAATAAGCTCCTATGCTCCTATCGTTACACATATACTATAACATATTGGTTTGGTAGGCAGTGTGAATAATATTCTCCAAATCTGTTTCCGAATTTTGTAATCTAATCATCTAAACAGTGCAAATTCTAAAAATACATATTTATGTTACGAATTCTGAATATGAAATTTTGAAATGCAGAATTATAGTAGAAAAGTTAAAAACAATAATAAATATAGCATTTCATGTTATAAACTCAATTATTTTTGTTAAATTAAAATATGTGTTATATAGTACATAACATTACAAAATAATAATTATAGAAAAATTTAACCTAAAACAAGATCATAAATTAATTAGTCATATTTTATATATTCAACCGAATATTTAGTAACTATCATTCAGTTTTATAGTTTATAAATATATTATCAACTACATTTTGAAATTTTTTTAAATTGGAATTTAATTTCAAATCCGCACCAAACACATATATGAAAGCATGACATACTACTTTTTCTTGTTTTCAAAAATTCTATTTTCAGATTGCTACTAAACATGCCCTTGATTACACCCATTTATGCCATTCCCCTCGTTTAATTTTTCTTGGCACAATTTTTTTTTCTGGGGAGAAGAGTTCCATGGAAAAGGTTGGGCAGCATAAATTTAAATCTACATCATCCAGTCATCCATCCATTATGATCACATACAATATTTTTGGTATGTGTATGTGTATAATAGGAATCAGGACTTCCATTTGAAGAAGTACCAGATGCTGCTAAGATGGGGAACTCGAACCCATAAGAAGCACCCACTAGAAAGTAGGTCCCAAAAGCTACAGATACCCATAGACTAGCTACATAAGCTTTACAACTGACCCTCATTGTCTCAAATTTAGAAAGGAAGGGAGGAAGGGAAATATCTTGTATGTGGGAGAGTTTTTTATTTTTTATTTTTTTTTAAAGAAAAGGATACACGACTTTTCATTACGAGGATAAAAAAAGGCTAATGCTGAGATTCAAAAGAAACTTACAAGAGATTAATGCTCAGGAATACAACAAATCTTAGAAGCATGTAAAAAAGACTTGGAACATCAGCAAAACTTAAAAGGGAACATAATTATAAAGGAGCAATGAAAGCTCGCCAATTACCATAAATGTCTTGAATCAAGAAACCTTGAAATTTTTTTGATAAGATGCTCCAAGCCTACTTAAGATGAGTCGGGTCATGGATTTTGAAAAAAAAAATTCTAAAAAATATGATCTCATAAAAGTAGTGCTTTGACAAGCATTAACCTACAATAAGTAAGCTTTAGAGGTCCATCTAATGCCACAAAGAAGCTGGAAATGTTGTCCTCGAATGATTCAAGAGCACCCAATTAATGTTACAAACATGAGCATCAGGAGGCAACAACTTTGAGAAAAAGTACATTCGAAGAGAATGTGGAACGTTGTCCTCCCAGTGATCCAAGAACACCCAATTAATGTTAAAGGTATTGAGCGTCAGGAGCCAACAACCTTTAGAAAAGGTACATTTAAAGAGAATGTGATTTAAAGATTTCCCGGACTTGTAACATAGAGGGCATACTGCAGGCATGAGAGCTTGAGAGGAAGCTTTTTTCTGAAGACTGTTGAGAATATAAAATGCTCATATTATTTATGAGAATTTGAAGGTTTATAGGAATTAAATTGATTTGTGACTTTAGGTTTTTATATTAAATTGTGTCCATTGAGTTCTTTGGGAGTTTTTAACAATTATGAGAGTTAAAATATTTATGGTTTCTTAACCATTGAAATTCCATTGTTACATTTTGTAAGCCTGTATAAGACATGTTTAGTTGAATGAAAAATTACTCTCCACCCTTGTGTCATCCACACCCTTTCTATTCTAACAAAGACCATCAGCTGAATTATGACTCCCATTAAGTACAATCCAAATAAAATAATGTTCGTTTTCTTTGGATTCTTTGTCTTCTAAATTGCGGAAATAAACAACCATTCATGGTATTTGAGAAGTCTAGAAAACTTATCAATGACTTGACTGAAAAGAAACCAGAAGGCTCCGAAGGCCACGGTCTCACATCCTAGAGTTCAAAGATGTAGTTGAAAGAGGGTGTAAAAGGTTCTGGAAATCTATTACCCATTCATATATCATATTAGAGAGTTGAAACTTATAATTGAAATAAACTAAGATTACTCATATTCTACGTCTTCGAATTTGCACTCCAACCAAATAATCCAAACTACCCATTTAACAACCTCTGCTGAAGGATCTTTCTTTTGCCAGAGAATAGTGCCCGTACGTTTCCTCCAAGAAATTCTCCTGTCAGCTATCAAGGTGGTTTTACACGTTTGGGCACCAAATAGTGTATGATATAACCAATATTTCACCAAAAGATGCGCAAATCTAATTCTGAGTGTGAAACACCCCATGGGAGTTGAAACATGGATGCATATCCCTTCACTACATGAGATTCCTGAGAATTCAATCATCTAATTTGTCATAAATTCATTAGTCACCTGGCAGTTACTACAACTAAAAAATACTATTGTACAAGGGATATTTGACTAATTAGTATGAATTGGGCATATCTCATACTAGAACCATCTCAAGTTTATTCAATAGCAGTTTTGTTTTACATCTTTTTATATTAACCAACTTTTTCTTTATTCTGTATGGGAAACTAGAAGCTATACTTTCCTTTTATATATGTTGACACTAGCATAGGGTCAGAAAGGTTTATAGGAAGGGGAAAATTGTATATGGAACTTTTTATATATGAAAATCTCTGTTCTGAAAAGTTAGGAAGAGGGAATTTCAGTAAGAACATTTTAAAATCTTAATTATTATGTATATATCTTTTTAATCTATGACAAATCAAGGGGTGAGAACTGCCCCCTTCTTTCCTCTTTTCTCCCGCTTAGAACTGATGTGTATTTGTAACATTCAGGAATTGTTATTGACTTGTTTTCTAATGGAAAGGTTTTGCCTCAGTTGCAACAGGTACGTACCTTGTGCGTGTAAATGTAATTGTGGTTATTGTGTTTGATTTTTTGTGTCCCACCCCAGTAATATTTTTAAATTTCTGAATCTAGTTTGGAATTACCTAACTTCTTCCTTCTGATCTTTTCTGTCTGAGAATTTGGTTCAATCATTTCTTTTATCTTTTCTTTTTTCCTTTTCCCTTCCTTTTGAACTAGAAAGAACTTCTCATTGATATAATGAAAGGGAATAAATGTCCAGAGAAGCAAACTCCTAAAAAGAGTGAAAAAGGAAAATACAAACAGCAAATACAACCAATGTAGATTAGCCATATAAATAAATAAACATTTAAAGCACCAACAACTTTTCCAAAATATTCATCTGAAGGACTTGGAGAGTTTGTGAATGAATGATGAAACTATGAAGAAGGCCTCCACCAAATACTGAAAACCAATATCTACTTCAGATCTTCCAAAGAAAAGCAAGAATCGGTCACCAACCAACAACAAAAAACCTTCCAAAGCTCCTCATAAAGCAACCAAATGCCTACATAAAATAGGAAGTTTCTTTATACCAAAAAGATAAAATTTTATCAAGCTCCCAAACTTCAAGCCATTTCTGCCATGACCCCTACACAAACTCTTCAGTTTTGCAAGAACTTCGGAAGAACCATCACCGGCAATAGAATGAAAGATCTCCTCATGCAAGTCAATCTAAATAACTCAAAGAAGACGAATCAAAATTTTGCAAAGCTAAACCATGACACTTTTCTCGTGCATTTCATTTCTATAATAGGTTGGACTCTGGTTGGATCTGAAAGATAGATTGATGGTTGGGGGTCGGATCATGATTAACTGTGGAGGGAATGTAGTCCATGTTACTGAAAATGGTATGTGTAGTGAAGTATCCTCAACCGATTGCTTCTTGCCACATATTTCTGTGATTGAGGCTCTTTCCGAAGTATTTCCTAAACAGGTATGTCATGATATTAAGTTATACTTAGAAAAGGCAGAACTGTTATGCACTAGCTCGTCATGTGAAAATTAGAAAGCTCCAATATTTTGGTATATTTAAATTGTAGTATAAGGTGTGATTTAGCCCTAAATTATTACAATGTTTGTTTGAGGTTATCCTATGGTAGTGATGATGAAAGTTGGTTAAAATACAATTTTGGTCTATGTGGGGTTTGTTTTATTTTAGTTTTTGTAATTTCAAATGTGAGTCGGCTAAAAAGAAGGATAAAGTTTCTTCTCTCCCCGATTGCCCACCCTTCTCGAAACCCTAGCTGTTTGCCTTAGATTGTTCCAATTGCTACTGATCACCACTAAACACTTTTGGCCGACGCCGAACATCGTCGGCCTTTGTCGTCTGTCCTCCGCCTTCCACCTTCAATCTCATGACATCTTCCCTTGCCTTCTTGAATCACTTCATCAATTCCTCTCTCCTCGTCCTCTCTCTCTCTCTTCTCAAACCACAACCCTAGCTTAGAGGCTTCCAAAGTTACAATTTGACCATTTGGAAATGGAAAGTATCTTATAACAATGTAACCAATTTGAGGGAAAGGGGGAGTATTGGTTTGTGCTTTAATGTATCTTTTGTATACAATACCAACCACAGCATATTTTGTTAGTATTATTAGATAGTATATGAGCATGCCAAATGAATATCGTCTTGGCGGCTATAGATAGGATCTTGAGAATCTTGAAAGGTACACTAGGTCATGGTAGTTTTTTCACAAGTCCTCTAAAAGATCATTAGAACTCTATAAAGATATCAATTGGGTGGATAATTAACTAATAAAAAATATTAGTAGAACTCTATAAAGTTTTTCTATATGAGATTTTGTCGGAAAGGAATCAGAGAATGTTTCACAATGAGTCTCTTCCTTGGATTGATTATTTTGGTTCAAATCGCCTCAAAGTCTTCATGGTTTTCTTTCTCAAGCATTTTGCGGATTATTCTATTCAAGATCTTGGTCTTAACTAGAATGCCTTTTTTTTGCCTGCACAATTTCTAATGCATTGTTTCTTGGTTGTCTTTGTGTTTTTCTCTTTTAAGAAATAATTTTTCATTATTTCAATGAAAAGTTTCATTTCCTTAGAAAGAGGTAAGCTATGGAGAATTCAACTTCTAGCTTGGGTTGAGGGGGAAGTGTCAAATATGTTTTTATTGAAATCTAAATATTATTTTTATTTAAATTAGATTTTAATTGAATTTTATATTTTTAGTTAGATTCGTCTCAGGTAGTCCAAGTTCTCACTTTGTACTCTTAATTGCAGGTGTGTTGGAAAAAATTGCCGAAAGAGAAGGGTGAGAACTATCTTGCTTTGACTGGACCATTTCCCGAATTGCAGTCCTGGTCTGCTGTTGTTCCAGAGCCATTAAGAGGGAGTGTGAAGGAATGGAGTCCGTATGAGCCTCTTTCATGATCTACAACAACATGTTCTTTCAGATTTGTTTGATGGTTGAAGATGACGGACACTAACCATGTCTTCAAATATCCTTGTGAGCTTTTGAGTTGTTTCGTATAATATGTTCGCAGCTCCCAATTTCATTTGAGCTACTATTGTGTATGTATGGGATATGGGTAGTATTGAAAAGCTTGGATTTCATCTTTTGATTTTGATTGCTATTGTTAGTCTCCTTGATAAACTCATTATATCCATTCGATGAAATTTGAACTATATTCCTAGACAAACTAGGATTACATTTCAAAATTTTAAAGTAAGTACAATATGATTCAATCT ATGGCGTACGCTCTTGCTCCCGTGATTAACATACGTCCATGGAGTTTCGGATTTGTAACTACGGCTTCAAGTATTCGTTACCTATCCCGATCACTAAACTTGAGCACATTTCGGAGATATGTACCATATTCCTCCGTTGGAAAATTGACCAAGGCCACTGGTGATGCCAGCTTCCGGAGGGTTGAGGACGAAGATGAAGAGGAAGAAGTATTTCAAGTCTTGACCGCAGTAACTAGCGACTACAATGACATTGTAATTGTAGACACTCCCAAATCCAGAATGTTGCTTCTCGATTCTTCTTATAATGTCCACAGCATTCTTTATAAGGAGCAGATGTGGACAGGTTCTTATTGGGATGAGTTTGCTAGCCTGCCAGCTATAATTCCGGAAGGGCCAATTGCTATACTTGGATTGGGAGGGGGAACTACTGCTCATTTGATGCTTGCTTCATGGCCCTCGTTGCAGCTTGAAGGTTGGGAGATTGATGGAATCCTAATTGACAAAGCAAGAAATTTTCTGGGGCTATCTGATCTTGAGAAGCATTCTGCTGATGGCGGGATACTTAACATTCACATCGGAGATGCTCTTGATCCATCAGTCCGAATCTCTGGGGGTTATGCTGGAATTGTTATTGACTTGTTTTCTAATGGAAAGGTTTTGCCTCAGTTGCAACAGGTTGGACTCTGGTTGGATCTGAAAGATAGATTGATGGTTGGGGGTCGGATCATGATTAACTGTGGAGGGAATGTAGTCCATGTTACTGAAAATGGTATGTGTAGTGAAGTATCCTCAACCGATTGCTTCTTGCCACATATTTCTGTGATTGAGGCTCTTTCCGAAGTATTTCCTAAACAGGTGTGTTGGAAAAAATTGCCGAAAGAGAAGGGTGAGAACTATCTTGCTTTGACTGGACCATTTCCCGAATTGCAGTCCTGGTCTGCTGTTGTTCCAGAGCCATTAAGAGGGAGTGTGAAGGAATGGAGTCCGTATGAGCCTCTTTCATGA ATGGCGTACGCTCTTGCTCCCGTGATTAACATACGTCCATGGAGTTTCGGATTTGTAACTACGGCTTCAAGTATTCGTTACCTATCCCGATCACTAAACTTGAGCACATTTCGGAGATATGTACCATATTCCTCCGTTGGAAAATTGACCAAGGCCACTGGTGATGCCAGCTTCCGGAGGGTTGAGGACGAAGATGAAGAGGAAGAAGTATTTCAAGTCTTGACCGCAGTAACTAGCGACTACAATGACATTGTAATTGTAGACACTCCCAAATCCAGAATGTTGCTTCTCGATTCTTCTTATAATGTCCACAGCATTCTTTATAAGGAGCAGATGTGGACAGGTTCTTATTGGGATGAGTTTGCTAGCCTGCCAGCTATAATTCCGGAAGGGCCAATTGCTATACTTGGATTGGGAGGGGGAACTACTGCTCATTTGATGCTTGCTTCATGGCCCTCGTTGCAGCTTGAAGGTTGGGAGATTGATGGAATCCTAATTGACAAAGCAAGAAATTTTCTGGGGCTATCTGATCTTGAGAAGCATTCTGCTGATGGCGGGATACTTAACATTCACATCGGAGATGCTCTTGATCCATCAGTCCGAATCTCTGGGGGTTATGCTGGAATTGTTATTGACTTGTTTTCTAATGGAAAGGTTTTGCCTCAGTTGCAACAGGTTGGACTCTGGTTGGATCTGAAAGATAGATTGATGGTTGGGGGTCGGATCATGATTAACTGTGGAGGGAATGTAGTCCATGTTACTGAAAATGGTATGTGTAGTGAAGTATCCTCAACCGATTGCTTCTTGCCACATATTTCTGTGATTGAGGCTCTTTCCGAAGTATTTCCTAAACAGGTGTGTTGGAAAAAATTGCCGAAAGAGAAGGGTGAGAACTATCTTGCTTTGACTGGACCATTTCCCGAATTGCAGTCCTGGTCTGCTGTTGTTCCAGAGCCATTAAGAGGGAGTGTGAAGGAATGGAGTCCGTATGAGCCTCTTTCATGA
BLAST of CSPI07G11200 vs. TrEMBL
Match: A0A0A0K7K7_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_7G252690 PE=4 SV=1) HSP 1 Score: 580.5 bits (1495), Expect = 1.3e-162 Identity = 292/298 (97.99%), Postives = 292/298 (97.99%), Query Frame = 1
BLAST of CSPI07G11200 vs. TrEMBL
Match: A0A0B2QME9_GLYSO (Putative spermidine synthase OS=Glycine soja GN=glysoja_026555 PE=4 SV=1) HSP 1 Score: 361.7 bits (927), Expect = 9.7e-97 Identity = 184/321 (57.32%), Postives = 227/321 (70.72%), Query Frame = 1
BLAST of CSPI07G11200 vs. TrEMBL
Match: A0A0R0ISU3_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_08G161400 PE=4 SV=1) HSP 1 Score: 361.7 bits (927), Expect = 9.7e-97 Identity = 184/321 (57.32%), Postives = 227/321 (70.72%), Query Frame = 1
BLAST of CSPI07G11200 vs. TrEMBL
Match: K7L734_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_08G161400 PE=4 SV=1) HSP 1 Score: 361.7 bits (927), Expect = 9.7e-97 Identity = 184/321 (57.32%), Postives = 227/321 (70.72%), Query Frame = 1
BLAST of CSPI07G11200 vs. TrEMBL
Match: W9R8Q3_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_023994 PE=4 SV=1) HSP 1 Score: 361.3 bits (926), Expect = 1.3e-96 Identity = 178/273 (65.20%), Postives = 213/273 (78.02%), Query Frame = 1
BLAST of CSPI07G11200 vs. TAIR10
Match: AT5G44600.1 (AT5G44600.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 306.6 bits (784), Expect = 1.9e-83 Identity = 153/267 (57.30%), Postives = 195/267 (73.03%), Query Frame = 1
BLAST of CSPI07G11200 vs. TAIR10
Match: AT5G44590.1 (AT5G44590.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 275.4 bits (703), Expect = 4.6e-74 Identity = 150/283 (53.00%), Postives = 186/283 (65.72%), Query Frame = 1
BLAST of CSPI07G11200 vs. TAIR10
Match: AT5G63100.1 (AT5G63100.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 172.9 bits (437), Expect = 3.2e-43 Identity = 108/279 (38.71%), Postives = 155/279 (55.56%), Query Frame = 1
BLAST of CSPI07G11200 vs. NCBI nr
Match: gi|449461128|ref|XP_004148295.1| (PREDICTED: uncharacterized protein LOC101213378 [Cucumis sativus]) HSP 1 Score: 681.4 bits (1757), Expect = 7.9e-193 Identity = 334/334 (100.00%), Postives = 334/334 (100.00%), Query Frame = 1
BLAST of CSPI07G11200 vs. NCBI nr
Match: gi|659092439|ref|XP_008447062.1| (PREDICTED: uncharacterized protein LOC103489616 [Cucumis melo]) HSP 1 Score: 611.3 bits (1575), Expect = 1.0e-171 Identity = 309/338 (91.42%), Postives = 318/338 (94.08%), Query Frame = 1
BLAST of CSPI07G11200 vs. NCBI nr
Match: gi|700189079|gb|KGN44312.1| (hypothetical protein Csa_7G252690 [Cucumis sativus]) HSP 1 Score: 580.5 bits (1495), Expect = 1.9e-162 Identity = 292/298 (97.99%), Postives = 292/298 (97.99%), Query Frame = 1
BLAST of CSPI07G11200 vs. NCBI nr
Match: gi|657960726|ref|XP_008371943.1| (PREDICTED: uncharacterized protein LOC103435335 [Malus domestica]) HSP 1 Score: 388.7 bits (997), Expect = 1.1e-104 Identity = 192/276 (69.57%), Postives = 224/276 (81.16%), Query Frame = 1
BLAST of CSPI07G11200 vs. NCBI nr
Match: gi|694371491|ref|XP_009363294.1| (PREDICTED: uncharacterized protein LOC103953285 isoform X2 [Pyrus x bretschneideri]) HSP 1 Score: 382.5 bits (981), Expect = 7.6e-103 Identity = 190/276 (68.84%), Postives = 220/276 (79.71%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber (PI183967)
Date Performed: 2017-01-17
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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