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Bhi07G000859 (gene) Wax gourd (B227) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTTAAAGAATCGAACCATCATTATTAAATATAGGATTCCAAACAGCATCCGTGTTCAGCTCTTAGGAGGACGCACTTTTCATTGGGCATACCCTTCCTTACACTTGACTATGTTCTCCTGGTTTAGTCTCTTTACTCGATTGAATTTTGTTTTTGTTTTTGACATTTTTTTAGTTGCCTTCCCTTTAAACCTACAAAGCGAGAATTCAAAAATGAAAGAAAAAGAGACCAAACCAAATCAGTGGATTTCACGAACACGTCGTTCATGTGCAAACGAACGTCCGTTGAAGACGTGCATCAAAAAGTAAGCAGTTGAAAATGGAAGAAAATATGCGAAACGGAATTTCTGAATATTCGGATGCCAAATGTTGGTGTCAGATCAGTGGCTTTCTGAATGAATCTAGGGTTCATGATTTCACCAGCAAAGAGAACGCAACCGATTCAATTAGGTCAATTCCTCTACGTTTGAATTCGAAGGATTGATTCTCTCTTCACTTTCCCGGAAAATTTACTCTCAGTTTCTCGAGAAAGTGATCTGGAAGAACTTTCCATTTCGTTTTCGTTTTGGGAAGTTCTTCGATTCATATTTTTTTTAGGATTTTTGCTATTTTTCCTTTTTGCCAATTAGGAAAGAAGATGAGCAGAAGTAGCCTACAATGGCGGGTTCGTTAAAGGCCAAAGTCAATGAGTCCAGGCAATAAATTAGAAAACCATAACTGAAGAGTGCCAAATTTAGTAAGTCAAGAAGAGCCTTTCGAAAGCTAGGGCTTTTTTCTGTTTTTTTCCTTCGTTTCTTAAATTGTTCCCAATCCAAGGGATTCTGTTGTTGGAGAGTGATCCATCTGTTTCTTTGGCTCAAAGAAACAGAAAAATAAAATAAAAAAAAAAATAGAAAAGAAAAGGAAGGAACCCTAAGGAGGAGGAGGGCCAATTAAACTTGCAGGAATTCTCTCTTTCCAGATCTACCCGTTTCATTGTTCTGACAGTTTTTTTCTTCTGTCAGAACACCCGAAATTCTTTTTACTCGATTCCCTTTTTTTAATTTCATCATATAATGCCTTTCTCAATTTATAATTGAGCAATTTTGCAGAATAGGGCCTGCAAGATCTCTCGGCAATCTGTGCTCAAGGTTTGTAATAGCAACTTGTTTTCCTTGTTATTGGTGTCATTGTATTCTTTATTGTTTCTAGGTTCAATTTTGTAAAGACGGTGATCACATTTTAATTCTTGAGGCGATTATACTGTTTATATACTGTTGTTCTATATGTTTATATGTATCAGGTTTGAATTTTCTTTTTTATTTACTGTGACCATTGTGTTTGCAGTTCCTACATATAGCCATCAAGAAACCCAATGTTTTCTCATTGAAACATTAATGGTTGCTGCTTTGATCAATGGTTTTCTGACATCTGAAACTTGTTATTTTGATTCATATATTTGTGAACGAAATCAAGCAAACTTCTGGTTTTAATACTATCCTTCTGGCCTGTTTGAAGAATGGTTTTTGATTCTGGATCATTTGGGTGAGAATATGTAAGGGATGGTATCTGAAACTTTGATGAAGATTGTATCACCTTGCTGGAAACCCTTGGTTGAAGGTGAAAATTCCAGCAGAGGTGGGGATGCAAGTGGTCGGGTTGACGGGCTGTTGTGGTACAAGGATTCTGGCCGCCATATTAATGGGGAATTCTCAATGGCAGTTATTCAGGCAAATAATTTGTTGGAAGATCGTAGCCAACTTGAGTCAGGGCCACTGAGCTCATTTGAATCGGGTCCTGTTGGAACGTTTGTTGGAATTTATGATGGCCACGGAGGACCAGAAGCTGCAGAATTCATAAATGATCGTCTTTTCAATAATATGAAGAGTAAGTCTTACATTTACTTATGCTGAATATCTCTGGTATAAGCCTATTGGAAGTAGTTCGTACCTTTTGTGTGCATACCATGTGATTGTCCTCATTAGATCAACTTTTAAATTTGTTGTCTAATACCAAGTCCGTAATGACTTTTGAAAAATGTATTGATGCACTTTGGGGGAGAATCACTAATTAAGTGGTTATTAGATAAATATGAAATTTCATCTCAAAACCGAAGAGGAGTAGCCTTTGTATCTTTTAAAAATTGCGAGGTCTTTCCGTCTTTCTAATGTTGGATCCTCAACATGCCTCTTTAGACTTCAAGTGATGGTCCTCAACACGCTTGGGCTTCACAGGCTAAGATACCATATTAGCTAAACATGAAGTTTTATCTCAAAACCAATTGAGAGTAACCATATATCTTTCAAAGTTTGTGAGGTCTTCCCATCTTTCCAATTGGGATCCTCACTAGTGGTTACTCTAGTAGCACTTGTGTTTCTAGAATTTTCAGAATTTCTTTGGCTTCTATCTAACCATAGATTATGAGAATTTTGAAACATGCTTTTAATTGGTTAATGCACTTTTTGCCCTCGCAAAAGTCATCCTAAATGCGACTAACTATCAACTTTATTCCTTCTTTTTAGACGAGGTTAATGGATCCCAATCCTGAGACATTAGTATTGCTTTATCGTGAATTAATCTATCTCCACCTTTTTGTAATTTCAACTTATCTACACTCCTATCATAATGGAGTTGTTTCTTGTAACTATCACAAATAGGATTTCCTTTTGTATTCTATTTCATCAACCAATCAAATTGTTTTTGTTTTCTATATATACATATATAGTTAGATGATATGGTATTAAATTTGCCTTCAGTCATCAACTTAAGTTTTTTGGTCAATTGGTGATTTAAGATGGTATGAGAGTAGGTTGGTTTAGGAGGTTATGGGTTCAAACCCCTAAAGTGTTATTTCCTCTTGAATTAATATTGATTTCCACTTGTTGGGTGTTCTTCATATTTCAAGCCCACAAGTGAGGAGGAGTGTTAAATGATATAATTAAATTTACCTTCACTCATCAACTTAAGTTTTTGGGTCAAAGGCGATTGTTACATGATATAATTAAATTTACCTTCATCCATCAGCTTAAGCTATTGGGTCAATTGACGATTTAAGATAGTATCAGAGAAGGTGGTCCAGGAAGATCCTATGTTCAAACCCCTGCAATGTTATTTTTCTCCCTAATTAATATTGATTTCTACTTATTTGGCTTTTCTTCATATTTTAAGCCCACAAGTGAGGGAGAGTGTTAGATGATATGATATTAAATTTGGTTTCACCTATCTGCTTAAGCTCTTGGGTCATACATACATATTACTAGACATTGGCCTGCAAGTGGATTCGACACGAATTTGACTGTCTTAGCCGAAGGACTTGAGATTGCCTTAAAATACAAGGAACCATTAAATGGAAATGCATGTTTTCCGTGCTTGAGTCGCACGTGCATGAGAGGAACCATTGCATCCTGTAGAATGTTAGTCTTTTACGTGAAAATGAATGAAATAGAACAAGATGTTTTGTTGACCTCAGCATTTTGGTTGGACAGAAAGTAGGGCCTTCATCAATATGCTGGATTTGCAAATGCTGATTTAGTGGAAATTGACATTTTTCTTCCAATTCCTTATTTGGTTACTTGTCAGAAGTTGTGAAAATCTGCAACGCTGATCTTGAAGAAAGTGCATTATCTTAACTTCAAAAGAATTCGATGTCCTCCTTTCATTGGGTGCATGTGGAAGTATTTTGGGTTGGAAAGTATGTTCATGTACATAAATTTTCTAGATCGTAACTGAAATTTGTCTAATTTGAAGCACAAAGAAAATGTTGGAAGGGAACTTTCCTGGAGTCTGGTTGTGACTTTGTGAGTGCTTATGGTCTCCTACCAATTTTCATTATATAGCTAATTGGAATGTTTACACTTGACAGCTTTTCATGGTGCAGAATTTATTCCAGAAAATCAGGGAGTATCTGCTGAAATTATTAACAAAGCATTCTTGGAGACGGAGGAGGAATTTTTGTCTCTTGTAAAGAAACAATGGCTTGTTAAGCCTCAAATTGCTTCGGTTGGTTCATGCTGTTTGGTAGGCATAATATGTTGTGGATTACTGTATATTGCAAATGCTGGAGATTCTAGAGTGGTGTTGGGAAGATTTGAAAAAACTCATAAAGAGGTTAAAGCCATCCAATTGTCATCTGAGCACAATGCTAGTATCGAATCTGTGAGAGAGGAGCTGCACTCGTTGCACCCCAATGATCCACAGATCGTGGTGCTAAAGCACAAGGTGTGGCGCGTGAAGGGTGTTATACAGGTTTGTTCTCGAGCTCTTTTCTTTGATAGAAAGAGAATACATATATATATATATATTGAAAAAAAAAAGCATTTTCAATGTAGCTGAACAATTGGTTATAAACTTAAAAGTATCACTCTGCTGATGTAGCTGTTCATGTGTAGGTCTCAAGATCCCTTGGTGATGCTTATCTCAAGAAAACAGAGTTCAACCGAGAGCCTCTTTTGCCAAAATTCAGATTACCAGAACCATTCCACAAGCCAATACTTAAAGCCGAGCCTGCTATTGTAGTGCAGAAACTGTACCCAGAGGATCAGTTTCTTATATTTGCTTCAGATGGTCTTTGGGAGTATATAAGCAATCAGGAAGCTGTCGACATCGTCCATAGTTGTCCACGTAATGTATGATTTCTGCTTAACTTCAGTTCTCTTTTTCTTTTGCTCTATCTTTGCTAGGCTCTTCTGTTTGCTTAGAGGTACAGCCAACTTCTGTGGGAAGGATTTCTTGCCATTGGCAAGCTATCGAAGCAATATGTCTAAAAATGGCTGAAGTCTTTGAATGAAGTTTGGTCTGATGCTCAGGGTGACGCCTCCTTTTGAATTTCTTGAAATATGTTTCCTGGTTCCCCCTTTCCTTTTACAATCAAGGAAATTATTTTGACTCTATAATCGGTCTTTCTTGCCTTTTTTGGTTGTCATCTTGTTTTTTTATCTACTTAACTTTCTTGTCTCCTTTTTCTTCAACTTCTCTCCATGAAAAAGTGGGTTTCGAGTTAAAAGGTAGAATATGTCATTCCTTTATGTTGTTATAGAATAGGAATATAATGTCCAAGAAAAAAAAAAGGAACAGAGAGAGAGGGTTGAAGAAGAAAAAAGAATAGAGAGAGGGTTGAAGAAGTAGGATAGTACGCCATTACTTTCTATTTTGTTAAAAATGGTTTAATTACAAATTTAGTTCATGAAGTTGGTTTGTGTCTATTTGAATCTTAAATAGGTCGTGTATGTTCGATTTCTGATTTTAGAAAGTGACTAATAAGTCACTAAACTTTCAATTTTGTGTCCAATAGGCCCTTGAATGTTGAATTTTATGTTTAATGTCTTGTGACTATTTGATATTCTTTAAAATTTACGGACCTACAAGACACAAAATTACAATGGACGAAACATTGTAAAAAAATGACTCATGCCATTTCCATGACCGACTTATAGGGGGTTGCAAGGAAACTCGTTAAAGCTGCACTTCATGGAGCTGCAAAAAAAAGAGAAATGAGATACACAGACTTGAAGAAGATTGATCGTGGGGTAAGAAGGCATTTTCACGACGACATCACTGTTATAGTTTTGTTCCTTGATTCGCATCTGATTAGTCGCAGTCCAAGCTATGGACCTATGCTTTCAATCAGAGGAGGTTCTGGTATCCTCGCTAGATCATAGTTTGTGAAGCCTTAGCACCATCATCTCTTGTGCTTTTTTACATCCACCTACCTCCATTTTTTCTCATTTGTATTGCAAAATTATTGTTTTTTTGTATTCAAAAGAGGAAAGATTTGGAAACCATGACCCTTTTCTTTTCCCATTCCCCTTTTCCTTTTTTCTTTTTCTTTTTCTTCTTTCATTTTGTGTTTCCTTTTTCATGTATATCACTGTTATTCTCTAAGAAGTCTCCTTATTGACATTTTTGTCAATAGTATAAGAGAGAGAGATAATATTTGATCAGGAGTTTTCAATCTCTTAAATTTATGAGATGATAATTAAAAAGGGTTCAACTTTATTCTGGCCA CTTAAAGAATCGAACCATCATTATTAAATATAGGATTCCAAACAGCATCCGTGTTCAGCTCTTAGGAGGACGCACTTTTCATTGGGCATACCCTTCCTTACACTTGACTATGTTCTCCTGGTTTAGTCTCTTTACTCGATTGAATTTTGTTTTTGTTTTTGACATTTTTTTAGTTGCCTTCCCTTTAAACCTACAAAGCGAGAATTCAAAAATGAAAGAAAAAGAGACCAAACCAAATCAGTGGATTTCACGAACACGTCGTTCATGTGCAAACGAACGTCCGTTGAAGACGTGCATCAAAAAGTAAGCAGTTGAAAATGGAAGAAAATATGCGAAACGGAATTTCTGAATATTCGGATGCCAAATGTTGGTGTCAGATCAGTGGCTTTCTGAATGAATCTAGGGTTCATGATTTCACCAGCAAAGAGAACGCAACCGATTCAATTAGGTCAATTCCTCTACGTTTGAATTCGAAGGATTGATTCTCTCTTCACTTTCCCGGAAAATTTACTCTCAGTTTCTCGAGAAAGTGATCTGGAAGAACTTTCCATTTCGTTTTCGTTTTGGGAAGTTCTTCGATTCATATTTTTTTTAGGATTTTTGCTATTTTTCCTTTTTGCCAATTAGGAAAGAAGATGAGCAGAAGTAGCCTACAATGGCGGGTTCGTTAAAGGCCAAAGTCAATGAGTCCAGGCAATAAATTAGAAAACCATAACTGAAGAGTGCCAAATTTAAATAGGGCCTGCAAGATCTCTCGGCAATCTGTGCTCAAGTTCCTACATATAGCCATCAAGAAACCCAATGTTTTCTCATTGAAACATTAATGGTTGCTGCTTTGATCAATGGTTTTCTGACATCTGAAACTTGTTATTTTGATTCATATATTTGTGAACGAAATCAAGCAAACTTCTGGTTTTAATACTATCCTTCTGGCCTGTTTGAAGAATGGTTTTTGATTCTGGATCATTTGGGTGAGAATATGTAAGGGATGGTATCTGAAACTTTGATGAAGATTGTATCACCTTGCTGGAAACCCTTGGTTGAAGGTGAAAATTCCAGCAGAGGTGGGGATGCAAGTGGTCGGGTTGACGGGCTGTTGTGGTACAAGGATTCTGGCCGCCATATTAATGGGGAATTCTCAATGGCAGTTATTCAGGCAAATAATTTGTTGGAAGATCGTAGCCAACTTGAGTCAGGGCCACTGAGCTCATTTGAATCGGGTCCTGTTGGAACGTTTGTTGGAATTTATGATGGCCACGGAGGACCAGAAGCTGCAGAATTCATAAATGATCGTCTTTTCAATAATATGAAGACTTTTCATGGTGCAGAATTTATTCCAGAAAATCAGGGAGTATCTGCTGAAATTATTAACAAAGCATTCTTGGAGACGGAGGAGGAATTTTTGTCTCTTGTAAAGAAACAATGGCTTGTTAAGCCTCAAATTGCTTCGGTTGGTTCATGCTGTTTGGTAGGCATAATATGTTGTGGATTACTGTATATTGCAAATGCTGGAGATTCTAGAGTGGTGTTGGGAAGATTTGAAAAAACTCATAAAGAGGTTAAAGCCATCCAATTGTCATCTGAGCACAATGCTAGTATCGAATCTGTGAGAGAGGAGCTGCACTCGTTGCACCCCAATGATCCACAGATCGTGGTGCTAAAGCACAAGGTGTGGCGCGTGAAGGGTGTTATACAGGTCTCAAGATCCCTTGGTGATGCTTATCTCAAGAAAACAGAGTTCAACCGAGAGCCTCTTTTGCCAAAATTCAGATTACCAGAACCATTCCACAAGCCAATACTTAAAGCCGAGCCTGCTATTGTAGTGCAGAAACTGTACCCAGAGGATCAGTTTCTTATATTTGCTTCAGATGGTCTTTGGGAGTATATAAGCAATCAGGAAGCTGTCGACATCGTCCATAGTTGTCCACGTAATGGGGTTGCAAGGAAACTCGTTAAAGCTGCACTTCATGGAGCTGCAAAAAAAAGAGAAATGAGATACACAGACTTGAAGAAGATTGATCGTGGGGTAAGAAGGCATTTTCACGACGACATCACTGTTATAGTTTTGTTCCTTGATTCGCATCTGATTAGTCGCAGTCCAAGCTATGGACCTATGCTTTCAATCAGAGGAGGTTCTGGTATCCTCGCTAGATCATAGTTTGTGAAGCCTTAGCACCATCATCTCTTGTGCTTTTTTACATCCACCTACCTCCATTTTTTCTCATTTGTATTGCAAAATTATTGTTTTTTTGTATTCAAAAGAGGAAAGATTTGGAAACCATGACCCTTTTCTTTTCCCATTCCCCTTTTCCTTTTTTCTTTTTCTTTTTCTTCTTTCATTTTGTGTTTCCTTTTTCATGTATATCACTGTTATTCTCTAAGAAGTCTCCTTATTGACATTTTTGTCAATAGTATAAGAGAGAGAGATAATATTTGATCAGGAGTTTTCAATCTCTTAAATTTATGAGATGATAATTAAAAAGGGTTCAACTTTATTCTGGCCA ATGGTATCTGAAACTTTGATGAAGATTGTATCACCTTGCTGGAAACCCTTGGTTGAAGGTGAAAATTCCAGCAGAGGTGGGGATGCAAGTGGTCGGGTTGACGGGCTGTTGTGGTACAAGGATTCTGGCCGCCATATTAATGGGGAATTCTCAATGGCAGTTATTCAGGCAAATAATTTGTTGGAAGATCGTAGCCAACTTGAGTCAGGGCCACTGAGCTCATTTGAATCGGGTCCTGTTGGAACGTTTGTTGGAATTTATGATGGCCACGGAGGACCAGAAGCTGCAGAATTCATAAATGATCGTCTTTTCAATAATATGAAGACTTTTCATGGTGCAGAATTTATTCCAGAAAATCAGGGAGTATCTGCTGAAATTATTAACAAAGCATTCTTGGAGACGGAGGAGGAATTTTTGTCTCTTGTAAAGAAACAATGGCTTGTTAAGCCTCAAATTGCTTCGGTTGGTTCATGCTGTTTGGTAGGCATAATATGTTGTGGATTACTGTATATTGCAAATGCTGGAGATTCTAGAGTGGTGTTGGGAAGATTTGAAAAAACTCATAAAGAGGTTAAAGCCATCCAATTGTCATCTGAGCACAATGCTAGTATCGAATCTGTGAGAGAGGAGCTGCACTCGTTGCACCCCAATGATCCACAGATCGTGGTGCTAAAGCACAAGGTGTGGCGCGTGAAGGGTGTTATACAGGTCTCAAGATCCCTTGGTGATGCTTATCTCAAGAAAACAGAGTTCAACCGAGAGCCTCTTTTGCCAAAATTCAGATTACCAGAACCATTCCACAAGCCAATACTTAAAGCCGAGCCTGCTATTGTAGTGCAGAAACTGTACCCAGAGGATCAGTTTCTTATATTTGCTTCAGATGGTCTTTGGGAGTATATAAGCAATCAGGAAGCTGTCGACATCGTCCATAGTTGTCCACGTAATGGGGTTGCAAGGAAACTCGTTAAAGCTGCACTTCATGGAGCTGCAAAAAAAAGAGAAATGAGATACACAGACTTGAAGAAGATTGATCGTGGGGTAAGAAGGCATTTTCACGACGACATCACTGTTATAGTTTTGTTCCTTGATTCGCATCTGATTAGTCGCAGTCCAAGCTATGGACCTATGCTTTCAATCAGAGGAGGTTCTGGTATCCTCGCTAGATCATAG MVSETLMKIVSPCWKPLVEGENSSRGGDASGRVDGLLWYKDSGRHINGEFSMAVIQANNLLEDRSQLESGPLSSFESGPVGTFVGIYDGHGGPEAAEFINDRLFNNMKTFHGAEFIPENQGVSAEIINKAFLETEEEFLSLVKKQWLVKPQIASVGSCCLVGIICCGLLYIANAGDSRVVLGRFEKTHKEVKAIQLSSEHNASIESVREELHSLHPNDPQIVVLKHKVWRVKGVIQVSRSLGDAYLKKTEFNREPLLPKFRLPEPFHKPILKAEPAIVVQKLYPEDQFLIFASDGLWEYISNQEAVDIVHSCPRNGVARKLVKAALHGAAKKREMRYTDLKKIDRGVRRHFHDDITVIVLFLDSHLISRSPSYGPMLSIRGGSGILARS Homology
BLAST of Bhi07G000859 vs. TAIR 10
Match: AT3G12620.1 (Protein phosphatase 2C family protein ) HSP 1 Score: 593.6 bits (1529), Expect = 1.2e-169 Identity = 290/388 (74.74%), Postives = 338/388 (87.11%), Query Frame = 0
BLAST of Bhi07G000859 vs. TAIR 10
Match: AT3G12620.2 (Protein phosphatase 2C family protein ) HSP 1 Score: 593.6 bits (1529), Expect = 1.2e-169 Identity = 290/388 (74.74%), Postives = 338/388 (87.11%), Query Frame = 0
BLAST of Bhi07G000859 vs. TAIR 10
Match: AT3G55050.1 (Protein phosphatase 2C family protein ) HSP 1 Score: 554.7 bits (1428), Expect = 6.0e-158 Identity = 274/389 (70.44%), Postives = 327/389 (84.06%), Query Frame = 0
BLAST of Bhi07G000859 vs. TAIR 10
Match: AT3G55050.2 (Protein phosphatase 2C family protein ) HSP 1 Score: 554.7 bits (1428), Expect = 6.0e-158 Identity = 274/389 (70.44%), Postives = 327/389 (84.06%), Query Frame = 0
BLAST of Bhi07G000859 vs. TAIR 10
Match: AT3G51370.1 (Protein phosphatase 2C family protein ) HSP 1 Score: 497.3 bits (1279), Expect = 1.1e-140 Identity = 243/378 (64.29%), Postives = 299/378 (79.10%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy Swiss-Prot
Match: Q9LHJ9 (Probable protein phosphatase 2C 38 OS=Arabidopsis thaliana OX=3702 GN=PP2C38 PE=1 SV=1) HSP 1 Score: 593.6 bits (1529), Expect = 1.6e-168 Identity = 290/388 (74.74%), Postives = 338/388 (87.11%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy Swiss-Prot
Match: Q94CL8 (Probable protein phosphatase 2C 48 OS=Arabidopsis thaliana OX=3702 GN=PP2C6 PE=2 SV=1) HSP 1 Score: 554.7 bits (1428), Expect = 8.4e-157 Identity = 274/389 (70.44%), Postives = 327/389 (84.06%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy Swiss-Prot
Match: Q5Z8P0 (Probable protein phosphatase 2C 60 OS=Oryza sativa subsp. japonica OX=39947 GN=Os06g0717800 PE=2 SV=1) HSP 1 Score: 532.3 bits (1370), Expect = 4.5e-150 Identity = 262/386 (67.88%), Postives = 315/386 (81.61%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy Swiss-Prot
Match: Q10S32 (Probable protein phosphatase 2C 28 OS=Oryza sativa subsp. japonica OX=39947 GN=Os03g0137200 PE=2 SV=1) HSP 1 Score: 499.2 bits (1284), Expect = 4.2e-140 Identity = 245/378 (64.81%), Postives = 298/378 (78.84%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy Swiss-Prot
Match: Q9SD12 (Probable protein phosphatase 2C 46 OS=Arabidopsis thaliana OX=3702 GN=At3g51370 PE=2 SV=1) HSP 1 Score: 497.3 bits (1279), Expect = 1.6e-139 Identity = 243/378 (64.29%), Postives = 299/378 (79.10%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy TrEMBL
Match: A0A1S3BDK8 (Protein-serine/threonine phosphatase OS=Cucumis melo OX=3656 GN=LOC103488730 PE=3 SV=1) HSP 1 Score: 774.2 bits (1998), Expect = 2.5e-220 Identity = 382/389 (98.20%), Postives = 388/389 (99.74%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy TrEMBL
Match: A0A6J1JR22 (Protein-serine/threonine phosphatase OS=Cucurbita maxima OX=3661 GN=LOC111487073 PE=3 SV=1) HSP 1 Score: 771.2 bits (1990), Expect = 2.1e-219 Identity = 382/389 (98.20%), Postives = 386/389 (99.23%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy TrEMBL
Match: A0A6J1GXE2 (Protein-serine/threonine phosphatase OS=Cucurbita moschata OX=3662 GN=LOC111458395 PE=3 SV=1) HSP 1 Score: 771.2 bits (1990), Expect = 2.1e-219 Identity = 382/389 (98.20%), Postives = 386/389 (99.23%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy TrEMBL
Match: A0A1S3BD37 (Protein-serine/threonine phosphatase OS=Cucumis melo OX=3656 GN=LOC103488730 PE=3 SV=1) HSP 1 Score: 755.4 bits (1949), Expect = 1.2e-214 Identity = 376/389 (96.66%), Postives = 383/389 (98.46%), Query Frame = 0
BLAST of Bhi07G000859 vs. ExPASy TrEMBL
Match: A0A0A0KS12 (Protein-serine/threonine phosphatase OS=Cucumis sativus OX=3659 GN=Csa_5G177060 PE=3 SV=1) HSP 1 Score: 754.2 bits (1946), Expect = 2.7e-214 Identity = 376/389 (96.66%), Postives = 382/389 (98.20%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
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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