CSPI04G18450.1 (mRNA) Wild cucumber (PI 183967)
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGGGGAGTCACTTCTTCAATCGCTGCTAAATTCGCCTTCTTCCCACCCACTCCGCCTTCTTACACTGTAATCGCCGATGAATCCCGCGATGGCCGTCTCTACATTCTCGAGATTCCCAGACGTGACGATGTTGATGTTCTTCGTCTTCGGACGCGTCGGGGGAATGATATTGTCGCCGTTCATGTTAAACACCTTAAACCTTCCGGCACTCTCCTCTACTCCCATGGGAATGCTGCTGATTTGGGCCAGATGTTCGAGCTTTTTGTCGAATTGAGTGTTCGGCTTCGTGTTAATCTTATGGGGTAATTTTTCTTCTTCTTTTTCTTTTTATGCTTCTTTGTTGATATTAGTAGCACCTAAGGCATTTCCTCCTTCTTTAATTTTGTTTGTTCTAATGTGGGTGATGCTTAATTTAGTATGTTTTTGTTATTGCGTTGGGGATTTCTCTCTCCTTCTTTATTTGGAAGCGATGTAGTTCATTTATAGTGGGGAGTTGAATAGGAGTTCAATTTCAGTTCAAATTATAGCGAAATAGTTCTGGGTTTTTCGATAGGACGTTTACCTTCAGTTTAAATTATTAGGAATTAATCCTCAGGAAGAACATTTTTGCAAATTTCCTTCTGTTGAGGCCTTTTGGAGTATTTTTATGACAACTGTTCGCGTTTTCTTGACTTCCAATTCAATTGTTTTGCGTGTAAAGCTGTCATCATTCCTTTTAGAGAACTCGTGTGTAAAAGTAGTTATATCCAAGGTTCTAATTTTAGATGATATCCTCTTAGAAATGAAATGAATGCTTTATTTTCAGATTTGTTTTCTCCATAGAAGTGGGGGAAAAGGGATGGGAGAAAAGCAGTAAAAGGGAGGACATGGAAGCACAGAAGAGTGGATTTTTCTCAAAGTGTACTTCAGAGCAAAGTCATGAGAAAGGAATATTTATGCATCCACTTTATTGTTTAAAATTAGGTCTACTTTAATTTTTTAACTGTAGGAAACACTCTTTCAATCACACGATGATATTACTAAGCAAGGTGCTTGAACTTACTTTGCAGAGTAGTATTTCCTATTTTCTCACTTTCTTATTGATTGGTTTTAAGGAAACTGGGTGGGAAGCTAGTGGGAGTGTTTGTTTCCTTGTGCTAGGTCATATGCAGGGTAATGATGATGGACTGCGACTCATTTCTATCCGTTTGATTTGTTGATCATTATAAGACAAGATAAGTGAATGGTGGAGGAAATTGAATGCTGTGAGGCAGTGATCTGCAATCTAGATTTGCTATAAATCTTTTGGGGCTTCGGGAATTATATTCGACTCTACTTGGATTTGCATAAGGTTCTTTGGAATTTATTTTTTAATGTTAAAAGAAAAGGATCCTTTGGCAGATAATTCACTATAGAGACAATCAAAAGGGTTAATGGGTGTAATTTGTAAATGGGTCATGGGAGGAGATCTGTAACTCAGGATGCATAGTGCTTCTTTTTGAACTTTTATGTGACTTTTAAAAGGGAAACACGTCTCTTTTATTAATAATAAATATAAGACAAAAGTTCAAAGTACAAGAGAATTATACATCGAGCAAAAGAACTTTTCTGTGACTTTTGTTTTCTGGAAAAGAAATTAATGATCATCATCTGTGTCTCTCTACATTTGGAGCCTTTTTTGTAATTCATAGTTGAGTTTTCTCTTGCATGTATGACCATCTGGTTTTGAAGTCTCATTCATTTTCATAAAAGTTGGTTTTTTATTTTGAAAAACAATATGGTTAGGAAGTTACTTCACTTCGGAGTACTTTTCTGCTAATTACTCATGAATGCAGTGATTACAACCTCTTTACTACCTGTAACTGCTGAAGCGTGCATTCATTGTACCTCAAATTTCTTAAAGTAGTTTTGTCTGTATCTACTTGCCAAATTGGTTCACGATCCTTTATTTTCTATCGTATGCAGGTATGATTATTCTGGCTATGGACAATCAACTGGAAAGGTAGGATGTATTTTCCTTTTTCTTTCTATCTTGTAAATTTGTACGTGTATTGCCTGTCTAAATTTTCATTTATTTGGGTTGTCTCTTCCAAGAAATGTAGCTAAGAATGAATTAATGCTTTGATATAATCGTGTTTCAAAATTTATGCATGTGCATTTTTCAAGTTTTGGTGCAAGTTTGTATTAAATCTCATATAAAGAGGGATCCTCTCATGTATTTGAATACACTTTGATTGATAATAAAGTTCTTGTGGTTTTTAATTATGGGAGAACTTGCTCCCTAGTCATTTTTAGGCTACATCAATTTGGTTTTAGGTTGCGTGAGTTGTGCTTGTTGTCAAACCATGCACACCTAATAAGAGGGGGGAGCCCTTTTAAGGTAGAAGAAATACAAAGAATGTTCAAGAAGTGGAACTTTACATCAAAACATATATGTTTAGAGACAGAAACTACTATCCTGGTTATGAAAAATGAACTTGAATGGCAGAAACCTATTCAAGAACACCCAATTTCTATATCAACCTAGAGTGTCGGAGGAAATGATGGAAGAAGTGACCAACGGCCAACATATCTTAGGAAAATGACTCAGAATTTTGATCAAGTTTTTCTTTTAAAAAAACCAGAATTCGTTAAGGAATAGTCTTTGTACAATGCAGAAGTAATTCAAGTAAATCTATAACTCACTCGAGAGAATGAATTTGGCAGAAATCCCACAAGGGATTTCAGTCAAGAAAAAAAGAAAACCAGCACCACGATGGTTCTTGTTGAAACCACAAAAAGTTGAAGATGAAAATTCAAGCAAATGCAATCAAACCCATGTCGAGAGGTGAAGACAAAAGCTTGTATTATCAACACAAAATCAAAATCGTGAGAAGGTTTTAGAATAGTAGATGAGGACCTAACTCCTAAATAAAGCTTTCTTCAGTAGGGTTTTTTCCTACGGGCTTGGTTCATTTTGTATGTCTTATTCTTTCATTTTTTCTCCATGAAAGCAGTCATTTTTATGCAAAAAGGTACATTAGTGGGGAATGAAGTTGGAGAAGGAGAATATGAAGATGCCGAACTGGAGGAATAAGACAATAGCCTTGCACAACTTGATTTGAAGAAGGGTAAATGATAGTGACATTGCGTGTGAAGATGATGAAGTTGGCCATGCCCTTTCTGTTCAAACCTACCACTATTTCCAACAAAGCTTTACAAGATGGAGTTGTTTGAACTTGGCAAAGCCAAAAATCTAAAATAGGGTCCCAAAATCCATAACCTCCAGATCAGCTTAAGTCATTGGAGCCCAAAATCCGAGCATGTCTCGATCAACCCTTTGAAATTCGTGGTGAAACCTTATCATGGATACTCCTAATTGATGGTTTGTTTCTAATTTTTCTACTTCAAAATATGTACAAGAATCGCCTCTTTAAGTTCCCTTGAAAGAATGGGAAGTTATGATTTGGGTTTGAGATTATTAGTGACATGGGGAAGCTTGCGAATCAGATTCCATTGATATGTTTTACATTTGATTCAGACATGGACATGGTATTAAGGAGTTTTATACAAAGAAGGGGAATTAGGAGCGTACTTACCTTTTTAAGGAGTTTCATAAGTACAAGAATTGTCTCTTTAAGTCCCCTTCAAAGATATTTTATGGAAAGTTATGGTTTGAGATTGTCGGTGATAATATTTATTTTTATTATTTTTAATTTTAAACTACCCACTTTTAATTATTAATTTATAAATAAGGGGCTAATTGCAACCATTAACAAACTTTAAGGCCATAATTGACCAAATTGAAAGTTGAAGGGTGTAATTGTAACCAACCACATAGTTCGGGGTGGTTTAATTTTTTTCAAGTTTTATATAAGCTTCCATATCAGCAAGCCCAGTCATCAATACTGTTAGTGATATATAATTAAATTTGCCTTCAACCACTAGCTTAAGCTTTTGGATGAATTGATGGTTCAATATACAACTTAAAGACTCCTCATGGATTCGCAAAATGAGGCATAATTCCATGGGCATTTAAAGAAAAAGGAAGGGAAAGTGCTTGTTCATTTTCTAGATCTTATAGCTTCAATAGGAACAGGGTTGAACTTAATTATGGTAATAGAAGAAACAACCTAAACTAGCTCATGATTAGTAAATGACTGCAATAGATATTTTAGTTTCTCTAAATAAAAGTATGCTGAGTTTAAGACTTGTAAGCACAACACCTTTAGTTGTTAAATTGTATCATGGTTGACTTGTTTCTTGTATAAAAGTAAGAGTTATCATGGTACATATTTCTTGTTATTTGAATAAGAATGATCACTATATCGTCAATGTTGAAATTTTATGTAGTCATGTGAGTTGTATATGGTCTCCACTCTCCATTTTACCAGTGCAATCGCAGACAATTAGTTTTTCACGCTATTTGCCAAATAATATATTTTGCTCTTATATTGCATTTAATGCAAGCATAGAGTTTTTTTTGTAGTTTGAATCTCAATGATACTTTGTGTTAGTTGCATTTAGATGCAATATTTTAGATCGCTAGAGCCTGTTTTTTGAGAGGGCATTCCCTTTTTTTTTGGCTTAGTTTTTGTACGCCATTGTATTGTTTCATTCTTCTCGATGATAATTGTTTCTTAAATGGGGAAAAAATTTATCTGGAAAGATTATAAATTTAAACTTGAAATTGAAACTTCCCTTTTCCTTTGGGAAGGCTTCCAATTACTTCCTGAACCAGCGATTCAGGGATTGGTTGATTGGAACAGTTAAGAGGTCCAATACGTGATCTGAATATCATCTGCTGAGATTGTCATTGCCATTGTTTTGATGACTGTTGAGTTTTGAACCTCAATAATGCTTAGTAACATTTAATACTATTTTCTTTTGGAACAGCCAACTGAATATAACACATATGCAGACATTGATGCTGCATATAAATGCCTCAAGGAGAAGTATGGGGTAAATGATGAACAGCTAATACTATATGGTCAATCGGTTGGTAGCGGCCCTACGCTTGATCTGGCTTCACGAGTATCGAACTTGAGAGGTGTGGTTCTACATAGTCCAATCTTATCTGGACTGAGGGTATTGTACCCTGTCAAACGGACTTATTGGTTTGATATCTACAAGGTGCATATTGCTACTTTGTTATTGCTGGTTTAATTTAGAAATTAGTGTCTTATTGTTCTGTTTCCTTGTTCAGAACCTCGACAAAATTGGTTTGGTGAACTGTCCAGTTTTAATCATACATGTAAGTCTCTCTTTTCTAAATATCTCATTCTCTCGGTCGCAGTCATACCTATAGAAATGAGCATGATTAGGAATATTAAATCCACGTACACTTTGCCACGTGGGGAATCCTCTTTTACACCAGTGCACAGGTCTGACAAACACTAAAGCTTTTAGATCCGTACCAGAGATCGGAAGCAATCACGTAAATTAAATTTATACTACTGTCATGTGAATGATTTCTCACACTGAAGAAGGATACAAGAATACGAGACACTAAATGGATTGATGGATGCAATGACACAAACACCGGAAAGACATGTTTATTAAAGTATATAAAAGTTGAAGTCAATAAAAAGCCTATATGTGCATTTATATGTTGAAAGAAACAAGTTTGAAGTATTTATTTATCTCTTGAATTTTAACATTTGTTCCATATTACTTTTTATTTCTATTTGTTACACAGTATTTCTATTTGTTATGTGTAACAAGTGTTCGATATGTGCAAACTAGTGTTAGATTCAGATTTAACTAGTATAACAAGTGTTTGACTTATGTCTATTGCCACATTATACAAGTCGAACTGTCCAGGCTTCATAGCCACTCATAAATAAACTTCATGGGATGCAAGCAAAAAATTAAATATTTTTAGTATTCTTGATTGTGCAATGATGTATTTTCTTATTAAGCAATTTTGTTAACGGTTAGAATCTTAGAATATTGATGGAAAGCTTATGGAAATCTTTTCCTTTTTTGTTCCCTTGTATATTCTATTTATTCTTCCTCAACAAAGAATCGTGGTTTTTCTTCTGGTACTCGAGTTTCCACGTAAATCGGTGTGTGCTCTTTGTTTCTCCTTTCAATATGGTATAAGGGCAGAACAATGAACACACCCTAGAAACCCTAGAAAACACAACTGATGATGGAAATCAAACAGAAGAGACAAACACCAGTTTTAGTGCTGCCATGGACCAATGGTTCATTTGCCTACAGAAAACGTTTAAAAATAAATTCTCGTCATTTCTGCAGTCGTTCGCACAACCAAGCATGCCTCACGCGCCTCCCACACACAGCCGTTGGACCTCCACGTGCCGTTGCCGGAGCTGCACGTGCTGGTTTTTCCTCCTCAGACAGTGCTGGTCATCCCATTTGTGTAACCCTTTTCTTCATATGCGGTCTATATTGCTCCTCACGCCTCGATTTATGTATTGCCACCCAATTTCGACCGGCCACCACCGCTTCTGTCGTCAAATCTATATGCCTTGCCACCCTAGTTATCATTCCGTTGTTAAGAATTCTTAAATTCACTCAACATTTGAGGTTGGTGAATCTTCGACACATTTCAACCCTAACGTGCAAGCTTCCTCGGAAATAGCTCAATAGCAACTGGAAGAGCTTCAACAACAGATAGTAGCACTTGAGGCTACCTTAGGGACGACATCCAATATTTCTGTACCGATGTATTATGAGCCGGTAAACTTGTTCTCTAATTTATCCTCTTCTTATGTGACCAATACAATGACCCAATCTTCGGCGTATCATCTTTCAAGGGAAAAGTTGAATGTCAATAACTATTTCTTATGGTCTCAGTCAGTGAAGATGGTTCTTGAAGGATGACATAAATTTAGCTTTCTGACAAGGAAAATACCTTATCCTCCACTGGGCGACCCACATGAATGATACTGGAAGGTAGAGGACCCTATTCTTTGGTCCATATTGATCAACAGTAAAGATCTTTATTAGGAATGTGAGACACCATTGAAGCTTTTATGTGATAATAAAGCCGCTATTAGTATTGCTAACAACCCTGTTCAACATGATAGAACTAAACATGTTGAGATTGATCGACATTTCATCAAAGAAAGACTTGACAGTGGGAGCATATGCATTTCGTACATCCCTTCGAGTCAACAGGTTGCTGATGTTCTTATCAAGGGGCTTTTCAGACCAAACTTCAACTATTGTGTTAGCAAGTTGGGCCTCATTGATATTTTTGTCCCAACTTGAGGGTGAGTGTTAGAAGTTTAGAATATTGATGGAAAGATGACGAGGATATTTTTCTTAATTCATAAATCTTTTCCTTTTAGAATCTTAGAATATTTATGGAAAGGTTATGAAAATATTTTCCTTAATTCCTAAATCTTTTCCTTTTTTTGTTCATTTGTATATTCTATTTATTCTCCCTTATACCTATTCTATTATTTATTAGAAAATAATAACAACAAAGAATCGTGGTTTTTCTCCTGGTACTCGGATTTCCACGTAAATCAGTGTTCCTTGTCTCTCCTTTCAATATTAACTATCCAATCATTTCATCCCTTCTGATCTACTGCTTGGTCACTGACTTAATAGTTTAAAATGATGGAAAGAAAAATAGACTACTACTAACCTAATGTGTTTGTCTTGCAGGGAACAGCTGATGAAGTTGTTGATTGGTCCCATGGAAAACAACTTTGGGAGCTTTGCAAGCAAAAGTATGAACCTCTATGGCTAAGTGGAGGTGGACATTGCAATCTTGAGCTATACCCTGAGTTCATTAGACATTTAAAGAAATTTGTACAGTCACTTGGAAAATCAAAAGCATCAACTAATGGTTCTGAGAAGGCTAAAGTAGAAATTGACAATCAGAACAAACCATCTGAAACTGGGCCTTCTGATACGTTCGAATTGGCTGCTGATCTTCCTGAAGTTTCCCGAAACAGTTTAGATAGTCGGCTTGAGAAGTCAAAAAAAGCAAACAAGCCTGAGAAATCTCGTATGAGCACTGATCGCGTCGATAGGTTTAGGAAAAGAAAGGGCTTAGTGTGGTAA ATGGGGGGAGTCACTTCTTCAATCGCTGCTAAATTCGCCTTCTTCCCACCCACTCCGCCTTCTTACACTGTAATCGCCGATGAATCCCGCGATGGCCGTCTCTACATTCTCGAGATTCCCAGACGTGACGATGTTGATGTTCTTCGTCTTCGGACGCGTCGGGGGAATGATATTGTCGCCGTTCATGTTAAACACCTTAAACCTTCCGGCACTCTCCTCTACTCCCATGGGAATGCTGCTGATTTGGGCCAGATGTTCGAGCTTTTTGTCGAATTGAGTGTTCGGCTTCGTGTTAATCTTATGGGGTATGATTATTCTGGCTATGGACAATCAACTGGAAAGCCAACTGAATATAACACATATGCAGACATTGATGCTGCATATAAATGCCTCAAGGAGAAGTATGGGGTAAATGATGAACAGCTAATACTATATGGTCAATCGGTTGGTAGCGGCCCTACGCTTGATCTGGCTTCACGAGTATCGAACTTGAGAGGTGTGGTTCTACATAGTCCAATCTTATCTGGACTGAGGGTATTGTACCCTGTCAAACGGACTTATTGGTTTGATATCTACAAGAACCTCGACAAAATTGGTTTGGTGAACTGTCCAGTTTTAATCATACATGGAACAGCTGATGAAGTTGTTGATTGGTCCCATGGAAAACAACTTTGGGAGCTTTGCAAGCAAAAGTATGAACCTCTATGGCTAAGTGGAGGTGGACATTGCAATCTTGAGCTATACCCTGAGTTCATTAGACATTTAAAGAAATTTGTACAGTCACTTGGAAAATCAAAAGCATCAACTAATGGTTCTGAGAAGGCTAAAGTAGAAATTGACAATCAGAACAAACCATCTGAAACTGGGCCTTCTGATACGTTCGAATTGGCTGCTGATCTTCCTGAAGTTTCCCGAAACAGTTTAGATAGTCGGCTTGAGAAGTCAAAAAAAGCAAACAAGCCTGAGAAATCTCGTATGAGCACTGATCGCGTCGATAGGTTTAGGAAAAGAAAGGGCTTAGTGTGGTAA ATGGGGGGAGTCACTTCTTCAATCGCTGCTAAATTCGCCTTCTTCCCACCCACTCCGCCTTCTTACACTGTAATCGCCGATGAATCCCGCGATGGCCGTCTCTACATTCTCGAGATTCCCAGACGTGACGATGTTGATGTTCTTCGTCTTCGGACGCGTCGGGGGAATGATATTGTCGCCGTTCATGTTAAACACCTTAAACCTTCCGGCACTCTCCTCTACTCCCATGGGAATGCTGCTGATTTGGGCCAGATGTTCGAGCTTTTTGTCGAATTGAGTGTTCGGCTTCGTGTTAATCTTATGGGGTATGATTATTCTGGCTATGGACAATCAACTGGAAAGCCAACTGAATATAACACATATGCAGACATTGATGCTGCATATAAATGCCTCAAGGAGAAGTATGGGGTAAATGATGAACAGCTAATACTATATGGTCAATCGGTTGGTAGCGGCCCTACGCTTGATCTGGCTTCACGAGTATCGAACTTGAGAGGTGTGGTTCTACATAGTCCAATCTTATCTGGACTGAGGGTATTGTACCCTGTCAAACGGACTTATTGGTTTGATATCTACAAGAACCTCGACAAAATTGGTTTGGTGAACTGTCCAGTTTTAATCATACATGGAACAGCTGATGAAGTTGTTGATTGGTCCCATGGAAAACAACTTTGGGAGCTTTGCAAGCAAAAGTATGAACCTCTATGGCTAAGTGGAGGTGGACATTGCAATCTTGAGCTATACCCTGAGTTCATTAGACATTTAAAGAAATTTGTACAGTCACTTGGAAAATCAAAAGCATCAACTAATGGTTCTGAGAAGGCTAAAGTAGAAATTGACAATCAGAACAAACCATCTGAAACTGGGCCTTCTGATACGTTCGAATTGGCTGCTGATCTTCCTGAAGTTTCCCGAAACAGTTTAGATAGTCGGCTTGAGAAGTCAAAAAAAGCAAACAAGCCTGAGAAATCTCGTATGAGCACTGATCGCGTCGATAGGTTTAGGAAAAGAAAGGGCTTAGTGTGGTAA
BLAST of CSPI04G18450.1 vs. Swiss-Prot
Match: AB17C_DANRE (Protein ABHD17C OS=Danio rerio GN=abhd17c PE=2 SV=1) HSP 1 Score: 256.9 bits (655), Expect = 3.1e-67 Identity = 130/263 (49.43%), Postives = 176/263 (66.92%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. Swiss-Prot
Match: AB17B_XENTR (Protein ABHD17B OS=Xenopus tropicalis GN=abhd17b PE=2 SV=1) HSP 1 Score: 255.8 bits (652), Expect = 6.9e-67 Identity = 128/265 (48.30%), Postives = 177/265 (66.79%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. Swiss-Prot
Match: AB17B_XENLA (Protein ABHD17B OS=Xenopus laevis GN=abhd17b PE=2 SV=1) HSP 1 Score: 255.8 bits (652), Expect = 6.9e-67 Identity = 129/265 (48.68%), Postives = 177/265 (66.79%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. Swiss-Prot
Match: AB17B_CHICK (Protein ABHD17B OS=Gallus gallus GN=ABHD17B PE=2 SV=1) HSP 1 Score: 253.8 bits (647), Expect = 2.6e-66 Identity = 126/265 (47.55%), Postives = 177/265 (66.79%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. Swiss-Prot
Match: AB17B_HUMAN (Protein ABHD17B OS=Homo sapiens GN=ABHD17B PE=1 SV=1) HSP 1 Score: 253.4 bits (646), Expect = 3.4e-66 Identity = 126/265 (47.55%), Postives = 177/265 (66.79%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TrEMBL
Match: A0A0A0L0Q0_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G410820 PE=4 SV=1) HSP 1 Score: 684.9 bits (1766), Expect = 5.1e-194 Identity = 337/342 (98.54%), Postives = 338/342 (98.83%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TrEMBL
Match: A0A061EI99_THECC (Alpha/beta-Hydrolases superfamily protein isoform 1 OS=Theobroma cacao GN=TCM_019386 PE=4 SV=1) HSP 1 Score: 611.7 bits (1576), Expect = 5.5e-172 Identity = 297/342 (86.84%), Postives = 316/342 (92.40%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TrEMBL
Match: A5AR53_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_14s0006g02620 PE=4 SV=1) HSP 1 Score: 607.1 bits (1564), Expect = 1.4e-170 Identity = 292/342 (85.38%), Postives = 318/342 (92.98%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TrEMBL
Match: W9SBF9_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_027065 PE=4 SV=1) HSP 1 Score: 604.7 bits (1558), Expect = 6.7e-170 Identity = 292/342 (85.38%), Postives = 314/342 (91.81%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TrEMBL
Match: A0A067KMF6_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_13025 PE=4 SV=1) HSP 1 Score: 600.1 bits (1546), Expect = 1.7e-168 Identity = 291/342 (85.09%), Postives = 318/342 (92.98%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TAIR10
Match: AT5G38220.1 (AT5G38220.1 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 529.6 bits (1363), Expect = 1.4e-150 Identity = 257/342 (75.15%), Postives = 293/342 (85.67%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TAIR10
Match: AT1G66900.1 (AT1G66900.1 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 472.6 bits (1215), Expect = 2.0e-133 Identity = 223/267 (83.52%), Postives = 245/267 (91.76%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TAIR10
Match: AT4G24760.1 (AT4G24760.1 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 416.4 bits (1069), Expect = 1.7e-116 Identity = 207/341 (60.70%), Postives = 260/341 (76.25%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TAIR10
Match: AT3G01690.1 (AT3G01690.1 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 413.7 bits (1062), Expect = 1.1e-115 Identity = 205/339 (60.47%), Postives = 256/339 (75.52%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. TAIR10
Match: AT5G14390.1 (AT5G14390.1 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 413.3 bits (1061), Expect = 1.5e-115 Identity = 204/326 (62.58%), Postives = 251/326 (76.99%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. NCBI nr
Match: gi|778694559|ref|XP_011653830.1| (PREDICTED: alpha/beta hydrolase domain-containing protein 17B [Cucumis sativus]) HSP 1 Score: 684.9 bits (1766), Expect = 7.4e-194 Identity = 337/342 (98.54%), Postives = 338/342 (98.83%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. NCBI nr
Match: gi|659086749|ref|XP_008444091.1| (PREDICTED: alpha/beta hydrolase domain-containing protein 17B isoform X1 [Cucumis melo]) HSP 1 Score: 684.1 bits (1764), Expect = 1.3e-193 Identity = 337/342 (98.54%), Postives = 339/342 (99.12%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. NCBI nr
Match: gi|590652655|ref|XP_007033206.1| (Alpha/beta-Hydrolases superfamily protein isoform 1 [Theobroma cacao]) HSP 1 Score: 611.7 bits (1576), Expect = 7.9e-172 Identity = 297/342 (86.84%), Postives = 316/342 (92.40%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. NCBI nr
Match: gi|225452099|ref|XP_002284149.1| (PREDICTED: alpha/beta hydrolase domain-containing protein 17B [Vitis vinifera]) HSP 1 Score: 607.1 bits (1564), Expect = 2.0e-170 Identity = 292/342 (85.38%), Postives = 318/342 (92.98%), Query Frame = 1
BLAST of CSPI04G18450.1 vs. NCBI nr
Match: gi|703146726|ref|XP_010108872.1| (hypothetical protein L484_027065 [Morus notabilis]) HSP 1 Score: 604.7 bits (1558), Expect = 9.7e-170 Identity = 292/342 (85.38%), Postives = 314/342 (91.81%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of cucumber (PI183967)
Date Performed: 2017-01-17
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