MC06g1989 (gene) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: utr5CDSpolypeptideutr3 Hold the cursor over a type above to highlight its positions in the sequence below.CACAAGATTAAGAGACACGTCAATTATAAAACTAAAAGTTTAAAAACTTATTGCATATTTTTTAAAACTGAGAGAACCAATAGACGTAAACTTGACTTTTAATTTATTTATTTTTTGTGTTGGTTTGTTTTTACTTTTAATTTTTAAATTAAAAATAGAAAACAAGAAAGAAGAAAAAGAAAAAGAAAAAAAGGCCTAAAAATTCGTAAATTCGTTTTATTACCGCCCGGAGAAGGTAGAAAGAGCATCTGGTCTTCACAATCGCAAACACCCAATTTCAGCAACACACAGAGATCGCGAAGCGAAAGAGATAGAGAGAGGAATTAGGGTTTCTGACAGAATGGCTATGGGACTAAGGACATACCCGGACAGAAGGCGTGATGGATTACCACATTTCGACGTCAACCAAGGCGAGGTTCTCATGCACATCGTGCCTGCCATCGCCCTCGTATTCGATAATCGCCTTCCCGAGTTCCCTGGTACTCTTTACGTCTCCTCTAGGTACATTCTTTCTCTCCGCTTTTTCGCGTTTTCGCATCATTTTCTTCGACAATGTCTGTTCTAGAGGAGGGAAACTGAAAGAAAATTTTGGGAATTAGGATCCCTTTTGCGTGGGGAACATGTCTTTTTCTTTTAAAATTGATTTTCGATGAGCGAGGGGAGGGGTGGAACGTATTGGTTTCTTGAAAATGAAGAGCGTTTCTGAATCTTGGGATGAAACGATCGCTTTTGGGAATTTGATTGCTGATGCGAGTATGAGAAAGAAAATACCACCCTCTAAAGATATAAAGATAAAAGGAAATCAATAAAAAAGTTGAAATTAAAAATAAATGTTGAAGAAAAAAAGAACAGAAATTATACTCAACTTGAACAGTGATGGTTATTTACCTTGCCTGCATATGATGCTCACCATATATTCAAATTCAATCATTATACATGATTGCCTAATGATCTTGTGTATGAAATTCATCAATTTACCAAAGTTAACATTAGACTTGTTGTGCACGAGATGCAGTTTTTGGTCTAACATTAACTTGTTAAATACTTTTCCTTATGAAAAGAAAACATATTGGTTAAGGTTCAGAAAAGGAATCCTTGGATTTTCTTGATACCTTTTTTGGTGTGTTGTGTGGATGGGTAGTGAGTGAAAGCCAACTGCCTTTTATTCACTGTAAGCAATCAGGTGAAAATCCCTGCTTTTTTGGGTTTTAATCATGTCTGGCCAATCTATAGTTTATCTTTGGTTGTATTTTGTTCGAGCAATTTTATGCGCTATTTGGTTAGAAAGGAATCATAGGGTTTTCCATGACCAAAAGCTTCCTTTTGATCCTTGTATTTGAATCTGTAGTCTTTGTAGTTGCGTCTTGGTGCAAATGTTTCCCTCTCTTTCATCACTTTAGTATATCTTTTTTGGCATCCAATTGGAGAGGTTTTTTGTAACTCATTTGGATTGGGATTATCCCCCTTTTGTACTTCTAATTTCATATCATCAATGAAATTGTTTCTTTAAAAAAAAAAAATAATAATGTCTGGCCAATCATTGTCAAAGTTTTATGTTTTCTCTAATTCAATCTTGCATGGGTTATCCTTCCATGGAGAAGACTAAAGTTTTGTGAATCATTCCATCTTTGCTATTATCTTGGGAGTTTGGTTTGAAAGTAGTAGAAAGAAGACTATTCTAAGACTTGATAAACCTTTGGTGTTTATTTTTCTCGAGGCCTCCAATTGGATCTGTCTCTCTTTTGGCTTTGTAATATATCTCTCCATCGTTTTAGCCAATTATAGTGTTCTATGATCTCTTTTGGTCTTGACTTGGGTGATTTTTTATCCATCCTTGCGTGCTTCCATTCTTGATGAGATGTTTTCATTTGCTGTCTCTCTCATATATGTATGTAGAGGCTTAAAGCGAAGATTTTTTGTGGCTTCCCCTCAATGCAACAGTGTCAGTTTTTTCAATGATTGCTCACTGGTTTTCTTTAAATATAAAGTTAAAAGTTTCCAGGTGGCTGCTGTATAGGCTTGCAATTAGGAGATTAGGCTAGAAAGGGTCTTTCCAAAATGTGGCTAGAGGGGAACAAGACGTTTGGGAGTTTGCCATTACAAAGTGTGTTTTTTATTTCTCTGTAATTTTTTTGGTAGTTGTTATATATGTTTCTTAATCGAAGCCCATTAGATGAAGTTTTTGTAACATCATTGGCTGGTTCCTTACCACCCTCTTTTGGAGTCTTTGTTTTTTGTTTTATTCTATTAAAAAAGGATAATGGGAAGATCATTGTAGTATTAGTTAATACCAAATCAATGGCAAGGCTAAGCCAACCACTATTGAACAAAATTTCTTAATTCTTTTTTATTACTTTGGTTTTTGATAGATAAGCTGATTTTTTCTAACATTTGTTCCTGTCGTTTCTTTTCCTGTTGTCTCCTTTTGTAGTTGGCATGCGAGTACTCTTCTTGTATCAAATGAAAAAAATTCCTTGGTTATTATCATATGTTTTTATGTAGAAAACTTATTTGTTAATTGAATATTTTGTTTTAATTGCATACTCTTCAATTGAACATGTTCTATTAAAAAAAAAAATTAATAGATTAACTTGTTGACATGTTGAGAAAATTTAACCTGTTTGTAGGCAACTGGTTTGGTTGAGTGACGCGATTCAGACAAAAGGCTTTGCAATTGATTTCCTATCAATGTCATTACATGCAGTTTCAAAAGACCCCGATGCCTATCCTCATCCTTGTTTATATGTCCAGGTATTTTCTTGTGCAGTTATACATAATTACTCATTAATTTTAGGGAAAATTACCTTTTTAGTCCCTAATTTTGAGGAATAGATCAGTTTGATCCCCGATTTTTCAAAAGCTACATTTTAGCTATTGAGTTTGAAAAATAGGTTTAAAAAAGGTCTTTGGCTTCTCCTTTTCCATTAGCTACAACAATCTGGACATTTTATTAATAATTTTTTAATGTTGACATGGAATTGTTAGATTTTTTATTATTATTTTGTTGACATGGAATTTAAGATTAAAAGAAAATAAATCTCTTCCCTCGTCGTCCCTTTTTCCCCTCCCGTTGTCCCCCTCCCCCTTTCTACCGCCAACCACTCTCCCTCTAGTTTGGTTGCTGTCAACCCTCCCCCAATGCCAGTCCAGCATCATGAAACTTGAGCTTCATCGCCACTGATGAGGATTTACCAAAGAGGTGTTTTGGTCGTTGCCCACCTTCTTATGCACTTGATCTCGAGGCTTCTGTTGCTATAGCAACAACCTAAGCTTCCATTCTCTTTACTTCACATTTGACGCCACTGAAACCTTTTTTTTACATGAATCGCTTCACAACCATTGCTTCCTTCCACTTCTCTTCCAACAGTTTTGGCCATCTTTGACCTTATCTTTCCTCAACCCCCTTCTTCCTAACCCCACTACCACATATTTTTCATCACCATTTCTGTCACTCTCCTTTCCCTTGTTATCATCTTTCTCATTGTAGTATTCTTCTACTTACAGAGAAGAAACCAAATTCTTTGATATTGATAATGAGAATGGACCCTTAAATCTCTAATACAATATAAGGCTTCAAGGACTGGTAATCTCCCATTGTACCCACTTGACATTAACCCCTTCAATGGTGCCTATAAGCATCCTCAAGCACTCCAGCTCCAATATCTTTACCTCGATACTTCAGCGAAATATCGATAGGTTGCCAACTGATGCTCTAGGCTCAGACTACATTTGCAGTGCCAAAGATGCCTCGCTAGAAATCTTTGTCGGCAAGGGTGTAGCCCAAGTTTGATGACAGTGTACCCTCATTGGGGGAGGGTTGACCCTGATAGAAGGGGAGGAGGAGCGGCTGGTGAATGATAAGAGGGGGAGGGGAAGAGAAAAGAGAGGGGTAGGGTGAGAGTTTTTTCTCTTTAATCTTAAAGGCCATGTCAGGTTTTGCGCATTGTATCGAATTAAACCACATGCTCCACCGCTTGTGCAGGCCCCCAATTTCAGCATTAAAAACTTATTAATAAAATGTCCAGTTAGCCACCCTTACTATAGCCAACGGAGAAAGTGATGCCAAGGACTTTTTAAACACCTCTCTCAAAATTTAGGGGCTAAAGTGCAATTTTTGAAAGTTTAGGGACCAAAGTGACCTTGGTTTTGGTTTATAATTTTAGTTTCCTTTTGCACAGAATCCTGGCATCATGTCATGTAAAACCTACCAAAACTATTAGGTGGATTTGTTAAAATGAGACGTTAGATTTTCTATGTGGTATGATTCTTGCTATTGAGGAAATGTTATTCCCATAAATTTTTATATTATGGGAATAATGAAATAAATAAGAGATTAAAATAACATTTTTGTCCCTGCACCTTTAGATTTATTTTATTTTAGTCCCTAACCTTTTAAATGTCCAAATTTAGTCTCAATAAATAGTTCCCTCCGTCAGTTTGAGGTTGATTTCAATCTGACTTAGCCAATATATGTGTATATATATATGATAGGGCACAATGTGAATATGTTTGCCTAGAGGGAAGACCTACAGGAACTATATTTGTTTTGCGAAAATCGACCCAAAATTAACCATGGAGACTGTTATTAAGATTAGTTGCAATTAAATGGACTTAATATGGACATTTGAAAGTACATGGATGAAATAGAGTAATTCTCACAATGGTATTTTAACCTAAATGAAATTTATGATGAATCGAATTGTTTTATTATATCCTCTCTGAAACTTTTGAATCCTAACCTTGACTGGCTTCTCCCGTGCTTTTTTTCTGTTGATCCGTACAAACATAGATACATAATGGTTGATCTTGTACAGACATAAATACATAGTGCATGCACGATGTTAGAAATACCATTAGGGTATATGTTAGAAATATTATCAGGATATTAAGGGCATATCAGTAATTATAAGGTTGCATGTTCGATTCATGTAGGAGGTGGTTATAAATAGCGTGAGTGAAAGAGGGGAAGACAAGCAATGGTTTGTTTTCCCTTTTATTTCTTATATTTTTAAATAAATGAACAACCATGCTTTCTAGAGCAAATGAAAGGAAGGATATGTATGTACAATGGGTGAAAGGATATACAATGGGCAATACAAAAGACCAGCCCACAACAAACAGAGCCAAAATAGAAACAGATAGGCAAGCAATGGTTTAGTTGTTTAGGCTCGAGTTTACTCAAGAAGGTGGTGTCTAAGTTCCTCTAATTACTTGGGGGTATCTTACATTGTTTTCTTATTCTATAAGTTATCAATGCAATTCTTTGGTTTCTATCAAATTGGTATGAGAACATCAATTCTGATCATGGTTGATTGAGACCTAGAGGCTTGAATGGATGTAGTGGGATAAAGTTATATAGTTTACAGAATATTTTGCATCTAGAGGTTGATCGAACTAGGGAGCATATGGGCCAATAGGCCATGGCCAACTCAAAAAGAAAAGTGCGGGTCATGGGTGGAGCAAGGCTGTAACTGTAGGTAAATATGGGGGTTGGGTTACCAGTTTGACCCAGTTAGAAAATGAAAAATTCCACCATTCTCATGTAATACATCTTCCCCTGAATCAACTGAAGTAATGATCAAAGGCTGGTCGTACAGCAATGACAAGTCAAAACAATACCATTACACCTATGACGGATTCTCTAAGTGCTAATTGTGTAAATCTAAGCACAAATTTGAGACTGTATATTCAAATTTTCCAATTTGGTTGTAGGGGAGAATTTGTCTTTCTCCATTTTGTTGTGTTAATGGAAACCTTGGGACTCTTCTTCGTGGAATGCATTTAGATCTCGGGGTTTTTGTTGCCTTATGTTTCATGGTAAAGCAGTATGTTTGGTGTTCTGTGGGATTGAAGTTGGAATTTGGATGGATTTGGAGTTGTTTTTTTATTTTTCTTTTCAAAAGATAGAGAAGGAATTAAAAGATAAATGAAAAGAAAGTTGTTAAAACGAACAGAAAAGTCATTAAGAAAGAAGTTGTAAGAATAGAGGTGGAAAAAAAAAGAAAAGCAGTTGTTGACTTTTCTTTTTTCTTGGTTTTTGCTTTTTTTATAGTTTTTATTTTTCTTTGGAGAACCTATTGATCCTTCACACTTTGAGGACAAGGGGTGTTGTGTTTTGATTTTTAATTGTTTAGACTTGAGTTTACTAAGGAGAGAGGTGTCCAAGTTCCTGAAATCACTTGGGTGGTATCTTTAGGTAAATTCTTTTCTGGGAAGTTATTAATACAACATTTCCATCACGTGCACATACACATTTCGATAGGGAACAAAACCTTTTTAAATTATATGTAAAGTACACAGAAGTTAAAACCAAAACCTACACACACCTGCGACAGGGATCATGAAAATTTTGAATGTGAATGCAGCCATGGATGTAGGCGACTGTCCTTGGATGTTAGTTTTCCGCCGTTAATTGAACTATGCTCATATTTACCTTCCAACTTTGAGAAATTGAAAAGCAACATTTGATAAGAATTAGTTATTTGCCATCTAGCATTGTATTCAAGCATGATGAAAATTCGTTTATCTTATCTAAAAAAGGATGAAAATTCGTTTAAATATCTGCTCCTCAAGCACTGCTCTTTTTTCTGGTCCTTTTTCTAACAAAATTCTTTATTTCCCATGCCGTTTCCTTTGCTGATTGTGTTTGAAGATTGATACTGGAGCTGATGAAGAGTCTGAGAATTCAGATTCAGAATGTCGTATCACTAGTGATACCTTGGACTTAGCTGCGGTTAGAGAGCTGAGGCTTGTACCTTCAAACCCTGACGAATGTATTTTTCTCTCCTTTTTTTCTGCTGCAGTTTAGTTTAATATAGGTTTAGGGTAATATAATTACCACGAATGATATTGCAAAGTAGAATAATACCTTAATTTCCTTTTCAATAGTAGAAACTCTGTTCGAAATATGCTGTCAGTGTGCTGAGCTTAATCCGGAACCAACTGGAGGTTAGTGCAGTTCCATAATGGTCTTTGGTTTCTATTTTCACTAGTTGGCCTTTTGTATTAACTACATGCTTCCTTCAGATGAAGAAGAAGGGTACAACTGGTTTTTAAAACCCGAGCAGTTGAAGCGGCTTAAACTTGAAATGGCAGGTACGGAGTCAAGTAATTGTTAATTTTTTTAATGCTCTTTAGAAATGATGTAAAAGCATATTTTATAATGCAATATGTAGAACTAGAACATTTTGGAGAAGATCCGGAAGAAATTTTCCCCACATATCCAAAAAACTCAATCGGCCAATCAAATGTGGATGATGATCAACTAGCTCGCACGGTGCTTGAGGTATGTTCACGAACACAATATGTCCCTCGGCAAAGCATTTGGTGCTATCTCGGATGGTGATTTATTTGATATATGCCAATTCTACAGTTGTATTAAAATACATTTCTTTTGTTTTCAACCCTCTATTCTGGTTTTCTTATTGCTTTTTATCTGCAGCTTCAAATCAACGATAAGCGTTTTGAGGATGCAGAAGAGGCAGAACCCGGAAACGACAGTAACCGTCGGTGAGCTTGTACCTCGAGAAGTAAAGTGCCCTTATGTGTTACATTTCGTCAATATATAATACCTAAATCCTTGCTGTATATGCAAATTTTTGTGTTTCACATCAGACGGACAGATTGAGCTTTTGACTACCATGTTAAACTCGGCCTTTATTTACCGCTTAATGACAACTTCTATGGCTACAGTTTCAATGTTGAATGCTCATCCTGCTCATTTGGAATGTG CACAAGATTAAGAGACACGTCAATTATAAAACTAAAAGTTTAAAAACTTATTGCATATTTTTTAAAACTGAGAGAACCAATAGACGTAAACTTGACTTTTAATTTATTTATTTTTTGTGTTGGTTTGTTTTTACTTTTAATTTTTAAATTAAAAATAGAAAACAAGAAAGAAGAAAAAGAAAAAGAAAAAAAGGCCTAAAAATTCGTAAATTCGTTTTATTACCGCCCGGAGAAGGTAGAAAGAGCATCTGGTCTTCACAATCGCAAACACCCAATTTCAGCAACACACAGAGATCGCGAAGCGAAAGAGATAGAGAGAGGAATTAGGGTTTCTGACAGAATGGCTATGGGACTAAGGACATACCCGGACAGAAGGCGTGATGGATTACCACATTTCGACGTCAACCAAGGCGAGGTTCTCATGCACATCGTGCCTGCCATCGCCCTCGTATTCGATAATCGCCTTCCCGAGTTCCCTGGTACTCTTTACGTCTCCTCTAGGCAACTGGTTTGGTTGAGTGACGCGATTCAGACAAAAGGCTTTGCAATTGATTTCCTATCAATGTCATTACATGCAGTTTCAAAAGACCCCGATGCCTATCCTCATCCTTGTTTATATGTCCAGATTGATACTGGAGCTGATGAAGAGTCTGAGAATTCAGATTCAGAATGTCGTATCACTAGTGATACCTTGGACTTAGCTGCGGTTAGAGAGCTGAGGCTTGTACCTTCAAACCCTGACGAATTAGAAACTCTGTTCGAAATATGCTGTCAGTGTGCTGAGCTTAATCCGGAACCAACTGGAGATGAAGAAGAAGGGTACAACTGGTTTTTAAAACCCGAGCAGTTGAAGCGGCTTAAACTTGAAATGGCAGAAGATCCGGAAGAAATTTTCCCCACATATCCAAAAAACTCAATCGGCCAATCAAATGTGGATGATGATCAACTAGCTCGCACGGTGCTTGAGCTTCAAATCAACGATAAGCGTTTTGAGGATGCAGAAGAGGCAGAACCCGGAAACGACAGTAACCGTCGGTGAGCTTGTACCTCGAGAAGTAAAGTGCCCTTATGTGTTACATTTCGTCAATATATAATACCTAAATCCTTGCTGTATATGCAAATTTTTGTGTTTCACATCAGACGGACAGATTGAGCTTTTGACTACCATGTTAAACTCGGCCTTTATTTACCGCTTAATGACAACTTCTATGGCTACAGTTTCAATGTTGAATGCTCATCCTGCTCATTTGGAATGTG ATGGCTATGGGACTAAGGACATACCCGGACAGAAGGCGTGATGGATTACCACATTTCGACGTCAACCAAGGCGAGGTTCTCATGCACATCGTGCCTGCCATCGCCCTCGTATTCGATAATCGCCTTCCCGAGTTCCCTGGTACTCTTTACGTCTCCTCTAGGCAACTGGTTTGGTTGAGTGACGCGATTCAGACAAAAGGCTTTGCAATTGATTTCCTATCAATGTCATTACATGCAGTTTCAAAAGACCCCGATGCCTATCCTCATCCTTGTTTATATGTCCAGATTGATACTGGAGCTGATGAAGAGTCTGAGAATTCAGATTCAGAATGTCGTATCACTAGTGATACCTTGGACTTAGCTGCGGTTAGAGAGCTGAGGCTTGTACCTTCAAACCCTGACGAATTAGAAACTCTGTTCGAAATATGCTGTCAGTGTGCTGAGCTTAATCCGGAACCAACTGGAGATGAAGAAGAAGGGTACAACTGGTTTTTAAAACCCGAGCAGTTGAAGCGGCTTAAACTTGAAATGGCAGAAGATCCGGAAGAAATTTTCCCCACATATCCAAAAAACTCAATCGGCCAATCAAATGTGGATGATGATCAACTAGCTCGCACGGTGCTTGAGCTTCAAATCAACGATAAGCGTTTTGAGGATGCAGAAGAGGCAGAACCCGGAAACGACAGTAACCGTCGGTGA MAMGLRTYPDRRRDGLPHFDVNQGEVLMHIVPAIALVFDNRLPEFPGTLYVSSRQLVWLSDAIQTKGFAIDFLSMSLHAVSKDPDAYPHPCLYVQIDTGADEESENSDSECRITSDTLDLAAVRELRLVPSNPDELETLFEICCQCAELNPEPTGDEEEGYNWFLKPEQLKRLKLEMAEDPEEIFPTYPKNSIGQSNVDDDQLARTVLELQINDKRFEDAEEAEPGNDSNRR Homology
BLAST of MC06g1989 vs. ExPASy Swiss-Prot
Match: Q9LVA7 (Chloride conductance regulatory protein ICln OS=Arabidopsis thaliana OX=3702 GN=At5g62290 PE=2 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 5.2e-53 Identity = 113/226 (50.00%), Postives = 153/226 (67.70%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy Swiss-Prot
Match: Q61189 (Methylosome subunit pICln OS=Mus musculus OX=10090 GN=Clns1a PE=1 SV=1) HSP 1 Score: 90.1 bits (222), Expect = 3.5e-17 Identity = 43/116 (37.07%), Postives = 70/116 (60.34%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy Swiss-Prot
Match: Q04753 (Methylosome subunit pICln OS=Rattus norvegicus OX=10116 GN=Clns1a PE=1 SV=1) HSP 1 Score: 88.6 bits (218), Expect = 1.0e-16 Identity = 43/116 (37.07%), Postives = 70/116 (60.34%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy Swiss-Prot
Match: P35521 (Methylosome subunit pICln OS=Canis lupus familiaris OX=9615 GN=CLNS1A PE=1 SV=1) HSP 1 Score: 86.7 bits (213), Expect = 3.9e-16 Identity = 43/116 (37.07%), Postives = 71/116 (61.21%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy Swiss-Prot
Match: Q28678 (Methylosome subunit pICln OS=Oryctolagus cuniculus OX=9986 GN=CLNS1A PE=2 SV=2) HSP 1 Score: 86.3 bits (212), Expect = 5.1e-16 Identity = 42/116 (36.21%), Postives = 70/116 (60.34%), Query Frame = 0
BLAST of MC06g1989 vs. NCBI nr
Match: XP_022159658.1 (chloride conductance regulatory protein ICln [Momordica charantia]) HSP 1 Score: 471 bits (1211), Expect = 2.35e-167 Identity = 232/238 (97.48%), Postives = 232/238 (97.48%), Query Frame = 0
BLAST of MC06g1989 vs. NCBI nr
Match: XP_038906602.1 (chloride conductance regulatory protein ICln [Benincasa hispida]) HSP 1 Score: 323 bits (827), Expect = 6.95e-109 Identity = 163/229 (71.18%), Postives = 184/229 (80.35%), Query Frame = 0
BLAST of MC06g1989 vs. NCBI nr
Match: KAA0055130.1 (chloride conductance regulatory protein ICln isoform X1 [Cucumis melo var. makuwa] >TYK20729.1 chloride conductance regulatory protein ICln isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 320 bits (821), Expect = 6.09e-108 Identity = 163/234 (69.66%), Postives = 189/234 (80.77%), Query Frame = 0
BLAST of MC06g1989 vs. NCBI nr
Match: XP_008467268.1 (PREDICTED: chloride conductance regulatory protein ICln isoform X1 [Cucumis melo]) HSP 1 Score: 320 bits (821), Expect = 6.09e-108 Identity = 163/234 (69.66%), Postives = 189/234 (80.77%), Query Frame = 0
BLAST of MC06g1989 vs. NCBI nr
Match: XP_004143651.1 (chloride conductance regulatory protein ICln isoform X1 [Cucumis sativus]) HSP 1 Score: 320 bits (819), Expect = 1.19e-107 Identity = 162/232 (69.83%), Postives = 187/232 (80.60%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy TrEMBL
Match: A0A6J1DZF8 (chloride conductance regulatory protein ICln OS=Momordica charantia OX=3673 GN=LOC111026002 PE=3 SV=1) HSP 1 Score: 471 bits (1211), Expect = 1.14e-167 Identity = 232/238 (97.48%), Postives = 232/238 (97.48%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy TrEMBL
Match: A0A5D3DBS0 (Chloride conductance regulatory protein ICln isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold480G001310 PE=3 SV=1) HSP 1 Score: 320 bits (821), Expect = 2.95e-108 Identity = 163/234 (69.66%), Postives = 189/234 (80.77%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy TrEMBL
Match: A0A1S3CTC6 (chloride conductance regulatory protein ICln isoform X1 OS=Cucumis melo OX=3656 GN=LOC103504664 PE=3 SV=1) HSP 1 Score: 320 bits (821), Expect = 2.95e-108 Identity = 163/234 (69.66%), Postives = 189/234 (80.77%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy TrEMBL
Match: A0A0A0KPP2 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G171150 PE=3 SV=1) HSP 1 Score: 320 bits (819), Expect = 5.74e-108 Identity = 162/232 (69.83%), Postives = 187/232 (80.60%), Query Frame = 0
BLAST of MC06g1989 vs. ExPASy TrEMBL
Match: A0A1S3CUF8 (chloride conductance regulatory protein ICln isoform X2 OS=Cucumis melo OX=3656 GN=LOC103504664 PE=3 SV=1) HSP 1 Score: 319 bits (817), Expect = 1.08e-107 Identity = 162/233 (69.53%), Postives = 188/233 (80.69%), Query Frame = 0
BLAST of MC06g1989 vs. TAIR 10
Match: AT5G62290.2 (nucleotide-sensitive chloride conductance regulator (ICln) family protein ) HSP 1 Score: 209.5 bits (532), Expect = 2.8e-54 Identity = 113/225 (50.22%), Postives = 153/225 (68.00%), Query Frame = 0
BLAST of MC06g1989 vs. TAIR 10
Match: AT5G62290.1 (nucleotide-sensitive chloride conductance regulator (ICln) family protein ) HSP 1 Score: 209.1 bits (531), Expect = 3.7e-54 Identity = 113/226 (50.00%), Postives = 153/226 (67.70%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) 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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