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MS010610 (gene) Bitter gourd (TR) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGTGCTAATTCGAATCTCCTTCTTCCATTTGGACTTGTGCTCTGTTTTGTTCTCGTTTTTGGCAGCGCCGGTGCCGGAATCGTCACCGTCGACGTCAAGACGGCCAAGGAGCTGCTCGATTCCGGCTACGCTTTTCTGGACGTTAGGTTAGGTCGAGGCTGCTTAATTAATTTTGTTTAGTTTTCAGTTTCTCGTATAATTTCTCTGCGCGGTTGATTTTGTTTTGTAAAGAATTGTTGGTTGTTTGTCGTCGATTTTTTTGTAGAACTGTGGAGGAGTTCGAGGAAGGGCACGTGGCGACGGAGAAGATCTTCAATATTCCTTATCTCTTCAATTCTCCAAGTGGTTGCGTTTCTTAAATTATTTGATTCGAAATCTCCTTTCTTCCTTTTTCTTCTTCATTTTTTAAATTTCTTTTTCCGGTCAATTGACCGGAAAACGCGCCGTTTCCAGGTAGGGTGAAAAATGATCGGTTTCTGGAGGAGGTATCCGTGGTTTTCAAGAAAGACGACCGGGTCGTTGTGGTAACTTTTTTCTTTTTTTTATAACTCCGATCTCTTTTACTTGTTTTTTTTTTCTTTAAATATTATTTCCATCACCCTGATAAGGTTTATTTTGTTTAATCACTCTACAAAATTATGATTATATTTCGAGCACAAAGCTCATCGATAACATATATCTCTAACTTATTTTTTNNNNNNNNNNNNNNNNNNNNATATCTCTAATCATGAGATTGTGAGTTCGAATTCCCCTCCCAACATGTTGTATTAAATATATATATATATTTTATTTATTTATTTATTTATTGAGATTGTTAAATTTATGATATAAAAAATAAAATTTAGACAAAATTAAATTTTTTAAATTTAAAGTAGAGAAACTTAAATAATATTTCAACTTTAATCTTTTAGTTTGACTATACTAAGTTGGCTTATTTGCAGTGAGCCAGTGACTTGTTCAGATAGTTTTCAATACCACGATCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTGTGGTTATTACCAACTAATCCAAAATTAGCATTGGTTACTGACTTGATTTATCCTCAAATAATAATAATAAATAAACTGACTTGATTTTGTTGTATTAATTTAAATTTAATTCAATATGAAAAAATACACGTATGCTTTATTGGTTATCAGATGCAATCACTGCTAAATTTCTAATAGTGTTCATATCTATTTAATCGATTAGTGACTAAGTATTATTATTAAATATGATTTTGTACCTTTCACTAGGGTTGTCGAAGTGGGGTCAGATCTCTACAAGCCATTGAGGAACTCCACGTAAGTTATAATGTTATATTATATTTATTATATTTTTTCCTCGTAAATTAGTTATTGTTTTTCCCTTTTTCGTAAATTTTTTTTTTTCCTACAAAGTGGGTAACATATATTTGGTTTATTTGAATGGTAGGAACATGAGATGGTAAATTAATTTTGTAGATCAATAAATTACACATATAATAAATGAGTTAAGATTTCTGTGAAATGTTTAATATCAATCATTGAAATAGTTTTTATGCAAGATTAAAACAAAATTAGTAGATTTTAGTACTGTATTCTAAATTTGAAAATTCAATGAGTAAACCCGATTAAATATTAAATTTTAGAGGTCAGTGTAGTATTACTAAAGTATTTAATCGATACCATGTAAATTTGTATTTTAAAATATATAGAAAATAATTAATTGAATACTTAAATTGAATTAACTATTGAATCGATAGTAAATTTAAGTTCATAATTTAAATTTACCTTATCCTCTTATTCCATTTTCTCAAGAAAAATATATTGACTGTGATTTTAAGTTAAAAAGATATACAACATCAATGGGAGTATACTTCAACTAGGTTAAAAGATAGATTATTTACCCGGTTGAGGTTCAAACTTACCGAATTAAATTATTTTAATTATAATTTATTAACAACAAATCCATTATTTAGAGGAACAAATAAAATATATTAATTTTATAAAATTTGAGATTTCAGGATTACCAGCATTTGAAAGATCTGGGTGGAGGATATTTGACGTGGGTGGATAATGGATTTGCCGTGGCTAAACCAACAATCAAGACAACTGACTCAAAAGTAGCCAACCTTAAAGTTGAGCTATGATTTATCCATTACACAACATAGTAAATATATTTATGATTAGATACCTATCTAGACGTTGCCTACCACATGTATGAATGTATTATTCTAAAGAATTTCTGTCTTCTTGATGCATTTATATACCTGAATATCGTGGGCTAATTATAGTAATATATATACGCATATATCTTGTGGGATAATTGAATTTATGGGGATAAAAAAATATTGTTTATAAAAAAGAAAAAATTTGCTTAGTGTACCTAACAAAACAACAATAACAATGGGATATATATATCTTGTCGGGATAATTGAATTTATGGTGGTTAAAAGACATTGTTTCTAAAAAAGTAAAAATTTGCTTAGTGTACCTAACAAAATAGTAACAACAACTGTATGTATGTATATATATCGTTGGGGTAATTAGATTTATGGTGGTTAAAAAGTAAAAATTTACTTAGTGTACCTAACAAAATAATAACAACCGGATGGATGTATATATATCATTGGAGTAATTGAATTTATGGTGGCTAATAAACATTGTTTCTAAAAAAAAAAAGGTAAAAATATTNTGACCAAAAAAAAAAAAAAAACAATAATAACAAATAAATAATAATAATAATAACTAGATGCCCAATATATAACCAAATATAAAGGGTTGTCAAAAGTATTCACAGAACACGATGGGGATAAAACTAAAATTTTAATTAAGGGTTTTGTGTGCATTATCTCTTAAAACTAAAATTTTAAACTTAATTAAGGCGGAAGATATATATAAATTATTGTTGAGTTAGGTTTATTTTGACATGTTAATTTTATTTTTAATCTTTTTTTTGTCTGTCATAATTTTAATACTACACTATACTCAATATATTTTTTGAAATGTAATCATAAAAAAATTTATGCTATGAATAAAATTCGTGTTAAATTTGTATAAATAAAGATTAAAATTGTCACTTTTAATAATACACGGATCAAAAGAAGATTTTTAAAAATATATATCGACTGAGATGAGAAATTTTACAATTTCCTCATTAAAAAAAGGAAAGAAAGAAAACTATGCACTCAAACGACGTCGTTCCCTGCCGTTCTTTCTCTCTCTTAATTGTTTTTTTTTTCTGAAAGAGCCCAGTCGTCCTCTTCTCGTTCTATCTCGAATGGTCAGCAAAGACGATGTATTACGTGGCGCCTTTTATTGGCTTAATATAACCAAGAATACGATACTGCGAAGCACCAGATTGCATCCTCTTTGGTTTAGGCAACAAGCAAACTTCAAGCAAAGATCGAACTCGAAGTATAGCATAGCGCCAGCTTCGTCTTCCACAGTTCTACGTCTTCTGGTTCTGCAACGATGGTGCTCGAGGTAATTTTCATCTTAAAATCTCTGTTTTCTTTTCCAGAGCTTTTGATTCTCTTACAATCGCGAGATTGCATTCCTTAAATTTTAGGATTACGATGTTTTCCTGCTATTGCTATAGCAAGTTAGGGTTTATTAATTTGACTATCTATGTATCGGTTGAGTCAGGCGACTATGATCTGTATTGACAACTCCGAATGGATGCGGAACGGCGATTATTCTCCTTCAAGATTTCAAGCTCAAGCAGATGCCATCAATCTTATTTGTGGAGCTAAGACGCAGGTCACTAATCTTAAAACCATATTTTTGTTTTCTCTAGCTGTTTTAGCTATGGAAGTCTATAAAAATTAGGAGGAGCCTTTATTATCAGTTATACTCGCAATTGAGATTCTGCTGTATTCCTTCATTCTTCATCATTCTTCTTTACTGTCGATTCAATTAATATCGCAAGTTGGTTGCTCACTTGCTCTACGGTTCACGATATGGGATTAATTTTATAGTACGGGTAGTAATGAGAAATCACATCCCGATAATTGCACTGTTAGAAATTTTTTGGTTAGAAGGAATGAATAAGAGTAGGAGGCTTGTTGTATTCAAAATTTGCTTCTAGTGAAGTGACTAGTTTTATGTGTGTTTTCCTGGATTGTTGTTCTGCGTTGGGAATGAATATGTTTGGATTCTGACAGTCTAATCCGGAGAATACGGTTGGGGTTCTGACAATGGCGGGAAAAGGTGTTCGTGTGCTCGTCACTCCCACCACTGACCTTGGCAAGATACTGGCATGCATGCACGGTTAGTTGCATTTATTCTTGTTCTTGCAGTATTGCAAACCTACCACCAGAGACCAATCTGCTGTCCTTAAGTGTTGCCCCTTTTCTTTATTCTTCCCCAGTTGTCTGTAGTCAGTCGCAAATGGAAGCTTTTTTTGAATGATGCTTAGGGTTCAATTTCTTATATTTATATTATTATAGAGAGGAAGTCAGACCAGTTTTTACCGGAGCAGGTTATTGCTCAACTTAAAAGCATTATACTGTTGTATAGAAAATTGTCAAGTTCGCATTGCTTTGTTCTATCTATTAGTTTTACTCCATCTAGACATCTATTAAGGTTCTGAAATTATGTCCTGAACTTTAAATCTAGGTTTGGAGATAGGTGGTGAGATAAACCTGGCAGCTGGCATCCAGGTGGCTCAGTTAGCTCTTAAGCATCGTCAGAACAAAAAGCAGCAACAAAGAATTATAGTCTTTGTTGGAAGGTATGTGGTTTAAAAGTTTTGTATCCCCTCTACCACGAATTTGGTACTCCAATAAAATATTTTAAGAGGTTTTTGAGGCTTACACTTGAGGATGCAATTTTTAAGTACTGAGACTTATACCTAGAATATGCTCACCTTTAGGATGCAAAATTTGTCACTGACGCTTAAACCATGGGTGTTCATGCTCGGGTTAGGTTAAATTGAATGATTCTTTGAAGTTTCAACTAGAAGTTCATCTAACTCAAGTAACCAGCTTGCTGATTGATGAACCCCACTCGAGCCTATTATAATTGATCGTTGGCTCCAATAATTTGGGTTCTTTACTCCAAATACAAGTTTTCCTATTCAAATACATTAAAAAAGAATCTCACTAGTATCAATATTGAAGACTGATAAACTAATAATTTACATCAAACTGTCACAAAGTTTGTTAATTTGAAGTTCACATTAATATCTTACCATGAAAAATAATTTGAAGTAAATTAATTGATAAACTTCTCTCTCTTTTGAAGCAACATGTGTGCACCTCAATCTCATTGAGAAACAAATGCTTCCCGAATGAAAGATCGCAACCAGCCACTAAAAGTTAAAATTGTATAATAGTTTGTAAAATTTTTTATGTAGAAGTAAATCTAATCCTGAAATCTAAGAGTTTAATTGTCAATTTACCTAAATGCACAGTGTCTGTACATTTGGTGAATAAATGCTCCTCAAAATCAAATGATAAATCGCAATCAGCCAATGAGGGTAATCCTAAGGAAATCTAAATTAAATTATGTCATTTGTGTTAAGGCCTCCCATAAGGGTAATATTCGAAGGAAGACTTCAATTTTATAGGGATACTTTCCTTCCCAAACTCGTGTATCGGTATCTTTGGAGAAATTAGGATCCTGACAAGACAAATTTTGAAAATCCACTTTAGCTTTTTAAAGCACTGATTTGTGATTTCAGTAACTAGTTATTTATCATTACACAATGTCTGATGCAGTCCTGTTAAACACGAGAAGAAGTCATTGGAGATGATAGGAAGAAAGTTGAAGAAGAACAATGTGGCCCTTGATATTGTTGATTTTGGCGAAGAAGATGATGGCAAACCTGAGAAATTGGAAAGTCTTCTTGCAGCTGTGAACAGTAACGACACCAGTCACATTGTTCATGTTCCTTCTGGTCCAAATGTGCTGTCTGATGTACTCATCAGGTTGGCCTTTGACTTCTTTCTATTTCGAGATCTTTGGTATATTTTGTGTTATAACTTGTTATATCCTCATTTTAAGTTTTCTTTCTTCGATTTCAGTACTCCAATCTTCACTGGAGACGGGGAAGGTGGAAGTGGTTTTGCAGCAGCTGCTGCAGCTGCTGCTGCGGGTGGTGTAGCTGGTTTTGATTTTGGGGTTGATCCCAACTTAGATCCTGAACTTGCCCTTGCTCTTAGGGTTTCTATGGAAGAGGAGAGGGCCAGACAGGAGGCAGCTGCTAAGAAGGCTGCAGAGGATACGGCAAAGCAAGATAAAGGAGTTGAGCAGCCATCTGGCTCACAGGATGCAACTATGACTGAGCGTCCTGGACTTGCAACTTCTGATGCTGAAAACAAGACTACTGATTTAATGGTCAGTATAGCTTGGTTTTCAGAAAATTGTATTACAGCATTTTGCTAGATTGCTCTTTCAAATTCTAGCTCTTTGGAGTAATTCGATTTTAACCTTCAGCCTTTTAACAATTTGATCATTTTTTCTTTACCAATTTGAATATCTATTCTGCCCGTTGTGATACGTAATTGGCAGAAAGGGAAAAACAATTCTTATTATTTGAGTTAATTCTGGATGATAGGACGATGAAAATGCTCTGCTACAACAAGCTCTTGCTATGTCAATGGATAATCCTTCTGCAGCGAGTGACATACGAGACATAGACATGTCAGAAGTTGCAGCAGACGATCCTGAATTGGCACTTGGTAAGTCTTTGCTGTTCATATTTCTCCATTTTTTTTGGTTTTGCACCAGTACATACTTGTATTCTCTCTGTCTAGCATATTTTTTTAGAGAATTGTTCAAAGCATTACTTCTTTACCCAATTTGCTGCATAAATTAGCCAATTTTCTCAGACGAGTTAGTGATTGATAGCAAATAAGAGGACTCAAAATATCCTTTGATTTTTGGCAGTTACCTTGTTTTATATTTTCGACTCATCCATCCATGCTAATGGCTCTCCACACGAATCATCTATCTTATTTGTTGCTTGCAGCTCTTCAGTTGTCTGTGCAGGAAGCTTCCAGTGACTCAAGCCAGTCAGATATGAGCAAATTATTGGCCGACCAGTCTTTTGTTTCTTCTATTCTAGCTTCAGTATGTTTACATAGTTTCAGCTCTTCTCCCCCATTTTCCCTTTCTTAATTGAGAAATTAAGCATAATCGCATATCGGTTGCTTTGCTTCCAGTGAAATAGTAATAGAATCCTTTTGCAGCTTCCAGGCGTAGACCCAAATGATCCTTCCGTAAAAGATTTGCTCGCCTCCATGCAAAGCCAGTCAGAG ATGAGTGCTAATTCGAATCTCCTTCTTCCATTTGGACTTGTGCTCTGTTTTGTTCTCGTTTTTGGCAGCGCCGGTGCCGGAATCGTCACCGTCGACGTCAAGACGGCCAAGGAGCTGCTCGATTCCGGCTACGCTTTTCTGGACGTTAGAACTGTGGAGGAGTTCGAGGAAGGGCACGTGGCGACGGAGAAGATCTTCAATATTCCTTATCTCTTCAATTCTCCAAGTGGTAGGGTGAAAAATGATCGGTTTCTGGAGGAGGTATCCGTGGTTTTCAAGAAAGACGACCGGGTCGTTGTGGCGACTATGATCTGTATTGACAACTCCGAATGGATGCGGAACGGCGATTATTCTCCTTCAAGATTTCAAGCTCAAGCAGATGCCATCAATCTTATTTGTGGAGCTAAGACGCAGTCTAATCCGGAGAATACGGTTGGGGTTCTGACAATGGCGGGAAAAGGTGTTCGTGTGCTCGTCACTCCCACCACTGACCTTGGCAAGATACTGGCATGCATGCACGGTTTGGAGATAGGTGGTGAGATAAACCTGGCAGCTGGCATCCAGGTGGCTCAGTTAGCTCTTAAGCATCGTCAGAACAAAAAGCAGCAACAAAGAATTATAGTCTTTGTTGGAAGTCCTGTTAAACACGAGAAGAAGTCATTGGAGATGATAGGAAGAAAGTTGAAGAAGAACAATGTGGCCCTTGATATTGTTGATTTTGGCGAAGAAGATGATGGCAAACCTGAGAAATTGGAAAGTCTTCTTGCAGCTGTGAACAGTAACGACACCAGTCACATTGTTCATGTTCCTTCTGGTCCAAATGTGCTGTCTGATGTACTCATCAGTACTCCAATCTTCACTGGAGACGGGGAAGGTGGAAGTGGTTTTGCAGCAGCTGCTGCAGCTGCTGCTGCGGGTGGTGTAGCTGGTTTTGATTTTGGGGTTGATCCCAACTTAGATCCTGAACTTGCCCTTGCTCTTAGGGTTTCTATGGAAGAGGAGAGGGCCAGACAGGAGGCAGCTGCTAAGAAGGCTGCAGAGGATACGGCAAAGCAAGATAAAGGAGTTGAGCAGCCATCTGGCTCACAGGATGCAACTATGACTGAGCGTCCTGGACTTGCAACTTCTGATGCTGAAAACAAGACTACTGATTTAATGGACGATGAAAATGCTCTGCTACAACAAGCTCTTGCTATGTCAATGGATAATCCTTCTGCAGCGAGTGACATACGAGACATAGACATGTCAGAAGTTGCAGCAGACGATCCTGAATTGGCACTTGCTCTTCAGTTGTCTGTGCAGGAAGCTTCCAGTGACTCAAGCCAGTCAGATATGAGCAAATTATTGGCCGACCAGTCTTTTGTTTCTTCTATTCTAGCTTCACTTCCAGGCGTAGACCCAAATGATCCTTCCGTAAAAGATTTGCTCGCCTCCATGCAAAGCCAGTCAGAG ATGAGTGCTAATTCGAATCTCCTTCTTCCATTTGGACTTGTGCTCTGTTTTGTTCTCGTTTTTGGCAGCGCCGGTGCCGGAATCGTCACCGTCGACGTCAAGACGGCCAAGGAGCTGCTCGATTCCGGCTACGCTTTTCTGGACGTTAGAACTGTGGAGGAGTTCGAGGAAGGGCACGTGGCGACGGAGAAGATCTTCAATATTCCTTATCTCTTCAATTCTCCAAGTGGTAGGGTGAAAAATGATCGGTTTCTGGAGGAGGTATCCGTGGTTTTCAAGAAAGACGACCGGGTCGTTGTGGCGACTATGATCTGTATTGACAACTCCGAATGGATGCGGAACGGCGATTATTCTCCTTCAAGATTTCAAGCTCAAGCAGATGCCATCAATCTTATTTGTGGAGCTAAGACGCAGTCTAATCCGGAGAATACGGTTGGGGTTCTGACAATGGCGGGAAAAGGTGTTCGTGTGCTCGTCACTCCCACCACTGACCTTGGCAAGATACTGGCATGCATGCACGGTTTGGAGATAGGTGGTGAGATAAACCTGGCAGCTGGCATCCAGGTGGCTCAGTTAGCTCTTAAGCATCGTCAGAACAAAAAGCAGCAACAAAGAATTATAGTCTTTGTTGGAAGTCCTGTTAAACACGAGAAGAAGTCATTGGAGATGATAGGAAGAAAGTTGAAGAAGAACAATGTGGCCCTTGATATTGTTGATTTTGGCGAAGAAGATGATGGCAAACCTGAGAAATTGGAAAGTCTTCTTGCAGCTGTGAACAGTAACGACACCAGTCACATTGTTCATGTTCCTTCTGGTCCAAATGTGCTGTCTGATGTACTCATCAGTACTCCAATCTTCACTGGAGACGGGGAAGGTGGAAGTGGTTTTGCAGCAGCTGCTGCAGCTGCTGCTGCGGGTGGTGTAGCTGGTTTTGATTTTGGGGTTGATCCCAACTTAGATCCTGAACTTGCCCTTGCTCTTAGGGTTTCTATGGAAGAGGAGAGGGCCAGACAGGAGGCAGCTGCTAAGAAGGCTGCAGAGGATACGGCAAAGCAAGATAAAGGAGTTGAGCAGCCATCTGGCTCACAGGATGCAACTATGACTGAGCGTCCTGGACTTGCAACTTCTGATGCTGAAAACAAGACTACTGATTTAATGGACGATGAAAATGCTCTGCTACAACAAGCTCTTGCTATGTCAATGGATAATCCTTCTGCAGCGAGTGACATACGAGACATAGACATGTCAGAAGTTGCAGCAGACGATCCTGAATTGGCACTTGCTCTTCAGTTGTCTGTGCAGGAAGCTTCCAGTGACTCAAGCCAGTCAGATATGAGCAAATTATTGGCCGACCAGTCTTTTGTTTCTTCTATTCTAGCTTCACTTCCAGGCGTAGACCCAAATGATCCTTCCGTAAAAGATTTGCTCGCCTCCATGCAAAGCCAGTCAGAG MSANSNLLLPFGLVLCFVLVFGSAGAGIVTVDVKTAKELLDSGYAFLDVRTVEEFEEGHVATEKIFNIPYLFNSPSGRVKNDRFLEEVSVVFKKDDRVVVATMICIDNSEWMRNGDYSPSRFQAQADAINLICGAKTQSNPENTVGVLTMAGKGVRVLVTPTTDLGKILACMHGLEIGGEINLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPVKHEKKSLEMIGRKLKKNNVALDIVDFGEEDDGKPEKLESLLAAVNSNDTSHIVHVPSGPNVLSDVLISTPIFTGDGEGGSGFAAAAAAAAAGGVAGFDFGVDPNLDPELALALRVSMEEERARQEAAAKKAAEDTAKQDKGVEQPSGSQDATMTERPGLATSDAENKTTDLMDDENALLQQALAMSMDNPSAASDIRDIDMSEVAADDPELALALQLSVQEASSDSSQSDMSKLLADQSFVSSILASLPGVDPNDPSVKDLLASMQSQSE Homology
BLAST of MS010610 vs. NCBI nr
Match: KAA0025664.1 (26S proteasome non-ATPase regulatory subunit 4-like protein [Cucumis melo var. makuwa] >TYK12537.1 26S proteasome non-ATPase regulatory subunit 4-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 746.1 bits (1925), Expect = 1.9e-211 Identity = 427/588 (72.62%), Postives = 443/588 (75.34%), Query Frame = 0
BLAST of MS010610 vs. NCBI nr
Match: XP_022133136.1 (26S proteasome non-ATPase regulatory subunit 4 homolog [Momordica charantia]) HSP 1 Score: 712.6 bits (1838), Expect = 2.3e-201 Identity = 385/387 (99.48%), Postives = 386/387 (99.74%), Query Frame = 0
BLAST of MS010610 vs. NCBI nr
Match: XP_008440835.1 (PREDICTED: 26S proteasome non-ATPase regulatory subunit 4 homolog [Cucumis melo]) HSP 1 Score: 680.6 bits (1755), Expect = 9.7e-192 Identity = 367/388 (94.59%), Postives = 376/388 (96.91%), Query Frame = 0
BLAST of MS010610 vs. NCBI nr
Match: XP_004134856.1 (26S proteasome non-ATPase regulatory subunit 4 homolog [Cucumis sativus] >KGN48930.1 hypothetical protein Csa_003112 [Cucumis sativus]) HSP 1 Score: 677.6 bits (1747), Expect = 8.2e-191 Identity = 366/388 (94.33%), Postives = 375/388 (96.65%), Query Frame = 0
BLAST of MS010610 vs. NCBI nr
Match: XP_023517688.1 (26S proteasome non-ATPase regulatory subunit 4 homolog [Cucurbita pepo subsp. pepo]) HSP 1 Score: 676.8 bits (1745), Expect = 1.4e-190 Identity = 365/388 (94.07%), Postives = 376/388 (96.91%), Query Frame = 0
BLAST of MS010610 vs. ExPASy Swiss-Prot
Match: O82143 (26S proteasome non-ATPase regulatory subunit 4 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=RPN10 PE=1 SV=1) HSP 1 Score: 512.3 bits (1318), Expect = 6.0e-144 Identity = 282/387 (72.87%), Postives = 323/387 (83.46%), Query Frame = 0
BLAST of MS010610 vs. ExPASy Swiss-Prot
Match: P55034 (26S proteasome non-ATPase regulatory subunit 4 homolog OS=Arabidopsis thaliana OX=3702 GN=RPN10 PE=1 SV=1) HSP 1 Score: 467.2 bits (1201), Expect = 2.2e-130 Identity = 254/388 (65.46%), Postives = 315/388 (81.19%), Query Frame = 0
BLAST of MS010610 vs. ExPASy Swiss-Prot
Match: Q58DA0 (26S proteasome non-ATPase regulatory subunit 4 OS=Bos taurus OX=9913 GN=PSMD4 PE=2 SV=1) HSP 1 Score: 249.6 bits (636), Expect = 7.2e-65 Identity = 161/406 (39.66%), Postives = 242/406 (59.61%), Query Frame = 0
BLAST of MS010610 vs. ExPASy Swiss-Prot
Match: P55035 (26S proteasome non-ATPase regulatory subunit 4 OS=Drosophila melanogaster OX=7227 GN=Rpn10 PE=1 SV=2) HSP 1 Score: 249.2 bits (635), Expect = 9.4e-65 Identity = 173/410 (42.20%), Postives = 243/410 (59.27%), Query Frame = 0
BLAST of MS010610 vs. ExPASy Swiss-Prot
Match: O35226 (26S proteasome non-ATPase regulatory subunit 4 OS=Mus musculus OX=10090 GN=Psmd4 PE=1 SV=1) HSP 1 Score: 247.3 bits (630), Expect = 3.6e-64 Identity = 162/398 (40.70%), Postives = 235/398 (59.05%), Query Frame = 0
BLAST of MS010610 vs. ExPASy TrEMBL
Match: A0A5D3CKR3 (26S proteasome non-ATPase regulatory subunit 4-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold255G001180 PE=3 SV=1) HSP 1 Score: 746.1 bits (1925), Expect = 9.1e-212 Identity = 427/588 (72.62%), Postives = 443/588 (75.34%), Query Frame = 0
BLAST of MS010610 vs. ExPASy TrEMBL
Match: A0A6J1BU58 (26S proteasome non-ATPase regulatory subunit 4 homolog OS=Momordica charantia OX=3673 GN=LOC111005809 PE=3 SV=1) HSP 1 Score: 712.6 bits (1838), Expect = 1.1e-201 Identity = 385/387 (99.48%), Postives = 386/387 (99.74%), Query Frame = 0
BLAST of MS010610 vs. ExPASy TrEMBL
Match: A0A1S3B221 (26S proteasome non-ATPase regulatory subunit 4 homolog OS=Cucumis melo OX=3656 GN=LOC103485141 PE=3 SV=1) HSP 1 Score: 680.6 bits (1755), Expect = 4.7e-192 Identity = 367/388 (94.59%), Postives = 376/388 (96.91%), Query Frame = 0
BLAST of MS010610 vs. ExPASy TrEMBL
Match: A0A0A0KGP9 (VWFA domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G507050 PE=3 SV=1) HSP 1 Score: 677.6 bits (1747), Expect = 4.0e-191 Identity = 366/388 (94.33%), Postives = 375/388 (96.65%), Query Frame = 0
BLAST of MS010610 vs. ExPASy TrEMBL
Match: A0A6J1GGK7 (26S proteasome non-ATPase regulatory subunit 4 homolog OS=Cucurbita moschata OX=3662 GN=LOC111453711 PE=3 SV=1) HSP 1 Score: 675.6 bits (1742), Expect = 1.5e-190 Identity = 365/388 (94.07%), Postives = 375/388 (96.65%), Query Frame = 0
BLAST of MS010610 vs. TAIR 10
Match: AT4G38630.1 (regulatory particle non-ATPase 10 ) HSP 1 Score: 467.2 bits (1201), Expect = 1.6e-131 Identity = 254/388 (65.46%), Postives = 315/388 (81.19%), Query Frame = 0
BLAST of MS010610 vs. TAIR 10
Match: AT2G17850.1 (Rhodanese/Cell cycle control phosphatase superfamily protein ) HSP 1 Score: 83.2 bits (204), Expect = 6.4e-16 Identity = 36/73 (49.32%), Postives = 54/73 (73.97%), Query Frame = 0
BLAST of MS010610 vs. TAIR 10
Match: AT5G66170.1 (sulfurtransferase 18 ) HSP 1 Score: 83.2 bits (204), Expect = 6.4e-16 Identity = 39/73 (53.42%), Postives = 50/73 (68.49%), Query Frame = 0
BLAST of MS010610 vs. TAIR 10
Match: AT5G66170.2 (sulfurtransferase 18 ) HSP 1 Score: 83.2 bits (204), Expect = 6.4e-16 Identity = 39/73 (53.42%), Postives = 50/73 (68.49%), Query Frame = 0
BLAST of MS010610 vs. TAIR 10
Match: AT5G66170.3 (sulfurtransferase 18 ) HSP 1 Score: 83.2 bits (204), Expect = 6.4e-16 Identity = 39/73 (53.42%), Postives = 50/73 (68.49%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (TR) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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