MC11g0745 (gene) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: utr5polypeptideCDSutr3 Hold the cursor over a type above to highlight its positions in the sequence below.CAAGAACATACATATATACATACATACATACATATATATATATATATATAGAGAGAGAGAGGTATGTTTGGACTTCTGCTTAGTTTTATCCAACATTCATCTTAATCGTAGATCACCTAGGTTCAATATCTCATGAAGATTCGCTTTCACCGCGACTTTGGTGGGCTCCTTTTAACAGGCATACAGTAAGAGTTATGGTCTCTTCCCACCACTCGGAAGCCTACAATTTCATGTTCTATTTCACTCCTCGATGGGATTTTCACCCTTCCCTCACGGTACTACTCCACAATCGGCCACAGATTATTTAGCTTCTTCTTCTTTTTTATTTTATTTTATTATTATTTTTATACAAAATTACTTATTTATTTTACCGCGTCAAACCAACGTCGTTGACTATTAATGCGTTTGCCTTGTTCGCTTCTCTTTGCTACTGTTTAGTGTTTCTTTGTCTTCCCTTCGCCCATGGATTTCGTTTCCAACCCACTGACCTGCAAGACTTTCCCATGCCGGACTCTGTTGCCGCCATGGGCGACACCTTCCCGGCGGCGCCATTGTCTGCCGCCTTCACTGTCCCTTTCCGGCAGGCGAGTTGGGAACCTCCGCTGCGAGTTCGAAGCTAATGTTAATGGCGCTCTTTCCGGCGATTTCGACCCTCGCTCCGTCGACAGGGTATTCGTTTGCTTCTTTCTTCTCCGAGTTTGCTTTCCGTCGCTTCATGTGTGCTGTTGTCTTATTTCGATTTATTTAATTTTGTATTAGAAGTTGTTCGACTCTGTTTGTAATGTGTTTTCTTCATTTGTCGTGGTTTGTTGCCATTGCTTTCACGTGAATGGGCATTTCGTTTACTTCGTTTGGAGGAGGAAAAGGAACTTGGAATCGGGAGTGTTGGTGGGTTGGAGTAAATGTAATATCGATTGTTTTTGGAAATTGCATGAGTCCTGACTGATTTCGGCTGAATAATGGCTTTATTTCTGAAACCCTTGAATCATTTCACACGAGTCTATACGGAACAGGGAGGGTGAAAACTAACTAAGTGGCTCATGGCAGCTCTTCGGTTTTTCATATATTTGTTGTGTTTGTATCAGCAGTAAAAATGTGTGTATCGACTTGGAACCCTCTAAAGGTTTGTTTAGGATTGTCAATTGTTAAATGTGGAAAATAGAAATGGAAACAATGTCATTAGCACACATTAGGGGGAGAAAAGACCATATGCGAATCTAACATTTGAAAATGAATATTTCCTTGTTATTATGTTACTTTCCAGCAGTTATCTACTTATTAGTTGTTAGCTTCTCAGAGTTTGCAATTTTTGTGTTGTCCCAGAAAAAGGCATTGGAAGCGGCAATGAATGACATAAATAACTCATTTGGGAAAGGAAGTGTTACACGGCTCGGAAGTGCTGGTGGAGCGTTAGTGTATGCCTTTTCTTCTTCTTCTTTTTCCTCCTCCCTTATTTATTTATCTATTTATTCATGACAAAGCCGTAAATCTTGAAAATATTCGCCTGGTCAACAGGGTTCTCATGATTCTTTAACTTTTGTAGATTTACTATGGTAGTAGGCCTCACCAAAAAAAACTATGGTAGTAGGCTGGTTGAAAATTTTTATTTTTATTTTTATGTATTATTATTTTTTTTATTTTGATATCCGTGAGTGTTCGGGCCAGCTTGCGCGAACCTCGACTAATCTCACGAACCACCTGATCCTACTACATTTGGTTTCCTAGGTAACTTGTAGGATATAAAATCTGGGTTGAAAATTTTTATAGTAGACTGTAGAACTACGTTTGGGATTGTTTTATACTTATTTTCTTTACTGCTTGAAACATTTAGGCTTAATTTTTGAGATATTTGGATTTCTATTTTGTCAAGTATCCCGTGTCATTTAGGATATTTCTTTTGAAACTTTTGAGCTTATAACTAAGTTTGGTTTAGACCATGTTATCTGTCAATATCAAATTGAAAGTAAAAATCTCAAATATTTTAGCGCCAGAGACTTTCCCTTTCACGCTACATGCATTAATATACAGTTTTGAGACTGCTCTACCAACTACCCATATCATTCCTGGAGTTTTACTGCTTAAAACATCATAATGCAAATTAAATGTTGGAGATATCTGTTTCTTTCTACCATACAGGGAAACTTTCCCAAGTGGTTGTTTGACGTTAGACTGTGCCTTAGGTGGTGGCCTTCCTAAAGGCAGAATTGTTGAGGTATGTTTACTTCTTGTTGTGCGTGTGTGGTTTTTTTTCCCTCTCTCTCTTTCTCTTTTGTTAGCTGTTAATACGGTAATGAAAAGTCTATTGGACATTGTTGTGATATGCAATTGTTCCTATTTTTAAATCAAAAATCGGAAGAGAAAAGATGCAGGTGTTATAAAAACTATTTTCTTCCAAAAAGAATTAGCAGAAGAAAAATAGAAAAGAAAAAGAGAATGATCAGGGCACTTCATATCTGCAAATAACCTTTTGATTATTTCATTTATCAATGTAATCTCTGTTTCTCTTTAGAGGGGGGAAAAAATTCTGAAAATTCCCTTTGCTGTTTATTGAACTTAAAGATAAAAATTGTTTTCTAGTAATTAGTAACTTGGCAATTGGCATATCTTTGGAATTGGATTCTGAGATAATGCTGTATGATATGTTCAAAATGGCGTTTCTAAGGTTGACATGAGCATGGCTTAGACATTGGTGCCTCCCTAGTCCCTTGTATCTTCTTCGTTTTTTCCTACATTTGTAGAGTAATATTTTTTTAAAAATGGTGTTTATAAGGTGCAAGGCTCACCAAGGAATAAAATTGGTAAGCCTAGGTGGGAAGCGGATAAATATTCTCTCTCTCTCTCTCTATATATATATATATATATATGCAGTATATTATGGAAAATGACTCAGTCATCACATGAATGTTGTAATTAAATCTTCTATTGAAGTTCAAGTTTCTATCCGAACTAACAAAAGGATCAGGAATGTGGATATACTGTGACTTGTTGACAAAAAAGGTAGGAGGAAGAAAAAGGTTGTAGAAGGGCAGTCTGCAGTCACAAGTGAGAAAATGACAAAAAAGGTATTAAGCATTTAAAAACATTGTGGGTTATTAAAGTGCCCAAGGTGCACTGAATGCAACCTATTGGAAGGCATTGATGTAAAAGTGATTGGTGAAGGAGTTTTCCCAATTTGTGGAAATTGGCATACCAAAGTTGCGGACTCGTGGGGTATTTTAGTTGATAGATGGAAATTGTCTAATTGCTTTGTAATGACTAATGAGAGTATTTTCTCTAGTTCACTTCATAGGACATACTGAAATCGTGTTGTGCCCATTTATTATTGCAAACTACCAAAAATGGCCACTCAATTAGGGATGATGCCTTTTGGAAATAAACTTGATGAGCCCTGAAGAAGATAAAATGCACATGAAAATTCAGCTTCAAGAATGGAGAAGGGTAGTTGATGCGTCCTCCTTTCTTATTTGATGAATGTCACGTGTACTGAATATTTTACTTTGTCATAAAAAGGATGACATTTTTATCATTTTTCTTTTTCCAGATTTTTGGACCAGAAAGTAGTGGAAAGACCACCCTAGCATTGCATGCTATTGCAGAAGTACAGGTACATGCATAATGCTACTTCTCAATGTTTTTTACTTCATTTACCGAGAGGCTGGGAGACACTAGAACAAGAAGCATACTAGTTTTGTCTGTGATGAAAAATTGTACCTATTGCTGTAACATGCAGAAGCTAGGAGGAAATGCGATGCTTGTGGATGCAGAGCATGCCTTTGACCCGGCATATTCTAAAGCTGTGGGAGTGGATGTTGAAAATTTGATTGTCTGCCAACCTGATCATGGAGAGATGGCACTTGAGAGTAATATATCCTAGTTTAGTTTGTGTTCACAACTTGCTTGAAATAGTGCCTGCGATTTTTTTCTATGGATGCTTGTGACATTTGTGTATTGATTGATGAATATTCTTATATCAGTTGCGGATCGTATGTGTAGATCTGGTGCTGTAGATCTCATTTGCGTTGATTCTGTCTCTGCTCTAACACCAAGAGCAGAAATTGAAGTAACTTATCGCTCCTTGAGTTTCTGAAGCTTTCTTGTGAGATTGCCAATCTTACTTTTCATATCCTTGCTTTGTAGGGTGAGATTGGTATGCAGCAAATGGGTCTGCAAGCACGCCTCATGAGTCAAGCTCTGCGTAAAATGTCTGGAAATGCCTCAAAAGCTGGTTGCACTCTCATATTTCTGAATCAAATACGATATAAGGTTGCCTTCACCGTTCAATTAGGTTTAATAAATCCAATCCTTAAAGTTGGGTAGATTTTATGCATGGTAATGGTCAGGGAAAATTTTCTTGGGGGGTTCTTTTGTTTTTCTATTTATTTTTCCCCACAGGACTTTAATTTTTCTCTTCTCATCATTAAAATAGACGGGGTCAGTTTGGCTAGGCCGGGACAACTGAATTTAGTCATATATTCGCACCTTGTGTGATATCCGTCAGTGCATTAATATCCTCATATGTAAAATATTTATAATATTGTTATTCTGAATTTTATTAGATTGGTGTGTATTATGGGAATCCAGAAGTGACAAGTGGAGGGATTGCGCTAAAGTTCTTTGCCTCTCTTCGACTTGAAATACGTTCTATTGGGAAGCTAAAGTCTGTAAGAATGCTCTCTTTTATTTGGTTTGCCTGAACTAATTAATAGTTTTTTTCTCTTTTGAAAAAAAAAAGACTAATTGAACTCTCATTAGAAAGTACAGAAGCAATTACAGTAATGTCATAACATCAAATTGAAGTGAAACCTATTCTGTGTTCTTCCTTCTCTTTTAAGGCTAAAGGAGATGAAGAAATTGGGATACGAGTTCGTGTTAGGGTGCAAAAGAGCAAGGTAAACTGTAGTGGTAAACAATTTTTGCTTAGAGTTTTGTCAATGCATATGAACCTTTTCTTTTCCAGGGTTTTTTCTTTGACTTTGTATCAATTCTATGTTTGAACATATTCATTTGCAAATAGAAATTAATGGTACTTAGTTTCAATATGATGCATTTGATTGGAATGATACTTGAGTGATTCTTTTCTTATTTTTTTTTGGTTGTGTTTCTAAGACTTGTTTTATACTATAAATTTCTTTCGATAATAACCTAAAAAAGACTCCTGTAAACTAATAATATAACTACTAAGAACCCTTGATGTCTCCCATGTCCGAGCCTGGGGCACCGCCCTTGAGTATAGCTGACTCCCAGTCATCAAAAGAAAAAAAGATAACTTCCAAGATAAATTTTTGACTTCCAAATAGGATACTTCTCCAACTCCAAATTGACTCGTCATGAGAAGTTGGATAAAATTTGTTGTTTTAGGCATTCGCCTGATGTTTTATTATATTTTTCAAAATACATTACATCGCATTGATGAATTGCTCATTGGGGACCAGACCTTCACTTTGTAACATTGTCTCGTCATTTTAACTATTTGTAGATGTCTCATTTCTATTAAATAAAATGGTTTGTTATGATATATTCTTACTATACTATTATGGTATATGACAGAATGTTAGTGATCTGCAACTTTCCAGGTGCAGGCATTTAGTTTGGTTCTTAAAGTAGTAGTCATACCTGTGATTTAAAGGCTATATTCTGCCACCATGAGTTTCCAATCGTTTTCCACAGAACATAAAATATCTTCTTCTAAATGGGTTGTTATAGGTTTCGAGGCCATACAAGCAAGCTGAATTTGAAATTATCTTTGGGGAGGGAGTAAGTAAACTGGTCAGTATTGTAGGAGTGAGCATTTTTCAATTTGCAGGTGCAAAATATTATCTGTTCTAACTTCATATTTTACCCTTCCCTACCACAGGGTTGCATTTTAGATTGTGCTGAAATTATGGATGTCATAGTGAAAAAGGGCTCGTGGTACAGTTATGGGGACCACAGGTTTGTCTTGTGCTCATATTAGTCCGTCTTTTGAGAAAATAATTGGATATTTGATTTAAATTACACAATGAATTTAATTTTGGGATCTTGTGCTTTGTTCGAGATTAAAGTTGAGTTCAAGCAGGCCTGAAAAAGAAAAGCCAGCCACAATAAAACTTTACAAAAGAGGGTTATGTTTGTGTAGCCGGATTTTCATGGAGAAAAATGAAAGAATACAAGTGGAACTAAAAAGCAAAGGCCAACACAGTAGCACCCCAACAAAAACCTAAATTGTAGATTCGAGAAAGGGGTTCCCATAAGAGAAGGATAACTAGTGCTAGAGAGTTAAAGGTCAAACAAAAGATGGAAGAAAAAACCTCGAAAGGGTTGGGGTTCATGAACAGAAATTCCTAGTCCCAGGATGCTAATGAAAATTGGCCAACAGAGAGTATAGCCAAACATAAGAAGTTTTCCTTATCCGAAATAGGATGGTGAAATCTGAAATTATGTAAAGTGGATTTACCCAAAGAAGAAAGGATTGTAGCAATCAAGGCCATCCTCGAGTAAGAAGTAAAGATGAGGAAACCATGTACATCGGGGGTTGTCTCCCAAGTGCCAACCATCAATCCTCCCAAAAGCAAGCATCAATCCTATGAAAGGAAACCCCGAAGAGATAGCTTTTAAAGATTTCATCCCATGTGTGCCTGTAGCCCCACAAACTAAGACCCATTCAAGTATGATTGCTCACAATAACCCTATGCCGCAAAGCATTCGACTCCAAAAGGAAACACTAACAATTTTGGCTACATGGCCATATTACAGATCCTCAAATTTTCAATATCCAGTCCACCAAAGTCAATCAGTCTGGAGACAACCACCCACCAAATCAAATGGGAACCCCCTCTCTTCAAACAAGATAAAATTCTTCCCATTTTCTGTCATTGAGAATTCTACTTGGTTGTGAGTGAGTTTTGGCGTGCATAATTTCTTCATTTATTGCTTCTTGTGTCTTGATTTTCCTATCTTCAGAGGCGTTCCATTAATTTTGAGCTTGGTCATCTATTGACTAAAACACAACTTATTGTTATGCTTATTATTATTTTTTAGTAAAAGGCGAAAGAATAGTTTGCTCTGTGCTCACCGCACTGCCCTGTTATTACGCTTATTATTATTATTTCTTTGTTTGCTAAAAGGTTGGGACAGGGAAGAGACAGAGCTCTGCAATACTTAAAAGACAATCCTGTTCTTCAAGATGAAATTGAGAAGGTTTGTTTATCTGAACACATTTGGTACAACAATTCTACCTTTGTACAAGGCAATCAGTTTTTCATGTACATTCTTTTAACAATAAAACAAAATGGAAATCTGTCTGTACACCATCATTTGTCAAAATGTCACTATTTTGATGCAAGTTATTGATGGCAGCTTCGAACTCTACACGAGTCTCCAACTCTGTGTCTTTTTTTTTTTTGAAATTAGCATGTCAAAAATTCTTCTGCTGTGCAAAAATCTCTAGGTTAGACAATATGGTCGAAATCCTTTTTACCCAATAATTTGCAAGGGCAGTCGATGCTTGTTTGTCATGTGTAGTGACAACTACACTATTTTATCAAGAAATTGTACTTCAAAAGATCTTGGAGTATCATGGTTGAACTAAAATTTGAATTTTATGGATTTTTATTCCTCCGTCGGTCCTTGTACTGTAATTTAAGCATTATTGTTCGTCAGCTGTACTGTATATGATAAAAAATTAGAGTTCAGTTAATAAATCCCTTGTTTTTTGTTCATTTACCAACTGTCAAAAATAAGACCAATGCTCTTATCTTCTGAGATTGCTCGTCTTCGATCAAAGATTTTGATTTTTTAACTGTATGGCAGGCCGTGCAGACAATGCTGGCTAGTGGAACTGTTCAAATGGGATTTCAATCTATTAGGAAGCCATTGCCTAACCAAGAAGAGGTACTTGAAGAATTTCAATAACGATCAATATATGCTACTATGATTAAGCAATTGCTACAGAGATTACAAGCAGAAGCAACATTTCTTCTATTGGGAAGGTGGGATTATAAGCACCCATACCGATCCATTCTCTGAGGTACATTCAGTGATGATGTTAGAAGCAAACGATTTCGGGCGATTTGTTAGTTAGGCTCCAGCTTAGATGTGATGAAGTTAGAGTACTGGTTCCCTTGCTTCCGACCTCTGAAGACGACATTTTGGATCATTCCCGAAAATTATTGAAGTCCCTCAGTCTGGCTCGAGATGTTGGTATAATTTTATGGCGAGTTCTTCAGAATTTGATCCGAAAGTACTGTTGTAATTAAACTGCAAATTTTCAGGTATCACATTCAGATTTGTACTTGGGTAGAACATTTCTAATGTGTCATTACCAGGGCTTGCTATTCAAAATTTATACATCGTTTTTCAGAAGAAAATATCAATTGCATCAGGATTATAATTTTATTATCGGAGG CAAGAACATACATATATACATACATACATACATATATATATATATATATAGAGAGAGAGAGGTATGTTTGGACTTCTGCTTAGTTTTATCCAACATTCATCTTAATCGTAGATCACCTAGGTTCAATATCTCATGAAGATTCGCTTTCACCGCGACTTTGGTGGGCTCCTTTTAACAGGCATACAGTAAGAGTTATGGTCTCTTCCCACCACTCGGAAGCCTACAATTTCATGTTCTATTTCACTCCTCGATGGGATTTTCACCCTTCCCTCACGGTACTACTCCACAATCGGCCACAGATTATTTAGCTTCTTCTTCTTTTTTATTTTATTTTATTATTATTTTTATACAAAATTACTTATTTATTTTACCGCGTCAAACCAACGTCGTTGACTATTAATGCGTTTGCCTTGTTCGCTTCTCTTTGCTACTGTTTAGTGTTTCTTTGTCTTCCCTTCGCCCATGGATTTCGTTTCCAACCCACTGACCTGCAAGACTTTCCCATGCCGGACTCTGTTGCCGCCATGGGCGACACCTTCCCGGCGGCGCCATTGTCTGCCGCCTTCACTGTCCCTTTCCGGCAGGCGAGTTGGGAACCTCCGCTGCGAGTTCGAAGCTAATGTTAATGGCGCTCTTTCCGGCGATTTCGACCCTCGCTCCGTCGACAGGAAAAAGGCATTGGAAGCGGCAATGAATGACATAAATAACTCATTTGGGAAAGGAAGTGTTACACGGCTCGGAAGTGCTGGTGGAGCGTTAGTGGAAACTTTCCCAAGTGGTTGTTTGACGTTAGACTGTGCCTTAGGTGGTGGCCTTCCTAAAGGCAGAATTGTTGAGATTTTTGGACCAGAAAGTAGTGGAAAGACCACCCTAGCATTGCATGCTATTGCAGAAGTACAGAAGCTAGGAGGAAATGCGATGCTTGTGGATGCAGAGCATGCCTTTGACCCGGCATATTCTAAAGCTGTGGGAGTGGATGTTGAAAATTTGATTGTCTGCCAACCTGATCATGGAGAGATGGCACTTGAGATTGCGGATCGTATGTGTAGATCTGGTGCTGTAGATCTCATTTGCGTTGATTCTGTCTCTGCTCTAACACCAAGAGCAGAAATTGAAGGTGAGATTGGTATGCAGCAAATGGGTCTGCAAGCACGCCTCATGAGTCAAGCTCTGCGTAAAATGTCTGGAAATGCCTCAAAAGCTGGTTGCACTCTCATATTTCTGAATCAAATACGATATAAGATTGGTGTGTATTATGGGAATCCAGAAGTGACAAGTGGAGGGATTGCGCTAAAGTTCTTTGCCTCTCTTCGACTTGAAATACGTTCTATTGGGAAGCTAAAGTCTGCTAAAGGAGATGAAGAAATTGGGATACGAGTTCGTGTTAGGGTGCAAAAGAGCAAGGTTTCGAGGCCATACAAGCAAGCTGAATTTGAAATTATCTTTGGGGAGGGAGTAAGTAAACTGGGTTGCATTTTAGATTGTGCTGAAATTATGGATGTCATAGTGAAAAAGGGCTCGTGGTACAGTTATGGGGACCACAGGTTGGGACAGGGAAGAGACAGAGCTCTGCAATACTTAAAAGACAATCCTGTTCTTCAAGATGAAATTGAGAAGGCCGTGCAGACAATGCTGGCTAGTGGAACTGTTCAAATGGGATTTCAATCTATTAGGAAGCCATTGCCTAACCAAGAAGAGGTACTTGAAGAATTTCAATAACGATCAATATATGCTACTATGATTAAGCAATTGCTACAGAGATTACAAGCAGAAGCAACATTTCTTCTATTGGGAAGGTGGGATTATAAGCACCCATACCGATCCATTCTCTGAGGTACATTCAGTGATGATGTTAGAAGCAAACGATTTCGGGCGATTTGTTAGTTAGGCTCCAGCTTAGATGTGATGAAGTTAGAGTACTGGTTCCCTTGCTTCCGACCTCTGAAGACGACATTTTGGATCATTCCCGAAAATTATTGAAGTCCCTCAGTCTGGCTCGAGATGTTGGTATAATTTTATGGCGAGTTCTTCAGAATTTGATCCGAAAGTACTGTTGTAATTAAACTGCAAATTTTCAGGTATCACATTCAGATTTGTACTTGGGTAGAACATTTCTAATGTGTCATTACCAGGGCTTGCTATTCAAAATTTATACATCGTTTTTCAGAAGAAAATATCAATTGCATCAGGATTATAATTTTATTATCGGAGG ATGGATTTCGTTTCCAACCCACTGACCTGCAAGACTTTCCCATGCCGGACTCTGTTGCCGCCATGGGCGACACCTTCCCGGCGGCGCCATTGTCTGCCGCCTTCACTGTCCCTTTCCGGCAGGCGAGTTGGGAACCTCCGCTGCGAGTTCGAAGCTAATGTTAATGGCGCTCTTTCCGGCGATTTCGACCCTCGCTCCGTCGACAGGAAAAAGGCATTGGAAGCGGCAATGAATGACATAAATAACTCATTTGGGAAAGGAAGTGTTACACGGCTCGGAAGTGCTGGTGGAGCGTTAGTGGAAACTTTCCCAAGTGGTTGTTTGACGTTAGACTGTGCCTTAGGTGGTGGCCTTCCTAAAGGCAGAATTGTTGAGATTTTTGGACCAGAAAGTAGTGGAAAGACCACCCTAGCATTGCATGCTATTGCAGAAGTACAGAAGCTAGGAGGAAATGCGATGCTTGTGGATGCAGAGCATGCCTTTGACCCGGCATATTCTAAAGCTGTGGGAGTGGATGTTGAAAATTTGATTGTCTGCCAACCTGATCATGGAGAGATGGCACTTGAGATTGCGGATCGTATGTGTAGATCTGGTGCTGTAGATCTCATTTGCGTTGATTCTGTCTCTGCTCTAACACCAAGAGCAGAAATTGAAGGTGAGATTGGTATGCAGCAAATGGGTCTGCAAGCACGCCTCATGAGTCAAGCTCTGCGTAAAATGTCTGGAAATGCCTCAAAAGCTGGTTGCACTCTCATATTTCTGAATCAAATACGATATAAGATTGGTGTGTATTATGGGAATCCAGAAGTGACAAGTGGAGGGATTGCGCTAAAGTTCTTTGCCTCTCTTCGACTTGAAATACGTTCTATTGGGAAGCTAAAGTCTGCTAAAGGAGATGAAGAAATTGGGATACGAGTTCGTGTTAGGGTGCAAAAGAGCAAGGTTTCGAGGCCATACAAGCAAGCTGAATTTGAAATTATCTTTGGGGAGGGAGTAAGTAAACTGGGTTGCATTTTAGATTGTGCTGAAATTATGGATGTCATAGTGAAAAAGGGCTCGTGGTACAGTTATGGGGACCACAGGTTGGGACAGGGAAGAGACAGAGCTCTGCAATACTTAAAAGACAATCCTGTTCTTCAAGATGAAATTGAGAAGGCCGTGCAGACAATGCTGGCTAGTGGAACTGTTCAAATGGGATTTCAATCTATTAGGAAGCCATTGCCTAACCAAGAAGAGGTACTTGAAGAATTTCAATAA MDFVSNPLTCKTFPCRTLLPPWATPSRRRHCLPPSLSLSGRRVGNLRCEFEANVNGALSGDFDPRSVDRKKALEAAMNDINNSFGKGSVTRLGSAGGALVETFPSGCLTLDCALGGGLPKGRIVEIFGPESSGKTTLALHAIAEVQKLGGNAMLVDAEHAFDPAYSKAVGVDVENLIVCQPDHGEMALEIADRMCRSGAVDLICVDSVSALTPRAEIEGEIGMQQMGLQARLMSQALRKMSGNASKAGCTLIFLNQIRYKIGVYYGNPEVTSGGIALKFFASLRLEIRSIGKLKSAKGDEEIGIRVRVRVQKSKVSRPYKQAEFEIIFGEGVSKLGCILDCAEIMDVIVKKGSWYSYGDHRLGQGRDRALQYLKDNPVLQDEIEKAVQTMLASGTVQMGFQSIRKPLPNQEEVLEEFQ Homology
BLAST of MC11g0745 vs. ExPASy Swiss-Prot
Match: Q39199 (DNA repair protein recA homolog 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=RECA PE=2 SV=1) HSP 1 Score: 607.4 bits (1565), Expect = 1.2e-172 Identity = 308/385 (80.00%), Postives = 343/385 (89.09%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy Swiss-Prot
Match: P48293 (Protein RecA OS=Arthrospira platensis OX=118562 GN=recA PE=3 SV=1) HSP 1 Score: 420.6 bits (1080), Expect = 2.0e-116 Identity = 203/329 (61.70%), Postives = 260/329 (79.03%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy Swiss-Prot
Match: Q8DH70 (Protein RecA OS=Thermosynechococcus elongatus (strain BP-1) OX=197221 GN=recA PE=3 SV=1) HSP 1 Score: 412.9 bits (1060), Expect = 4.3e-114 Identity = 205/323 (63.47%), Postives = 255/323 (78.95%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy Swiss-Prot
Match: B7JZS9 (Protein RecA OS=Rippkaea orientalis (strain PCC 8801) OX=41431 GN=recA PE=3 SV=1) HSP 1 Score: 412.1 bits (1058), Expect = 7.3e-114 Identity = 210/346 (60.69%), Postives = 268/346 (77.46%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy Swiss-Prot
Match: Q0ID00 (Protein RecA OS=Synechococcus sp. (strain CC9311) OX=64471 GN=recA PE=3 SV=1) HSP 1 Score: 409.1 bits (1050), Expect = 6.1e-113 Identity = 205/344 (59.59%), Postives = 258/344 (75.00%), Query Frame = 0
BLAST of MC11g0745 vs. NCBI nr
Match: XP_022137105.1 (DNA repair protein recA homolog 1, chloroplastic [Momordica charantia]) HSP 1 Score: 830 bits (2144), Expect = 2.15e-303 Identity = 418/418 (100.00%), Postives = 418/418 (100.00%), Query Frame = 0
BLAST of MC11g0745 vs. NCBI nr
Match: KAG7037524.1 (DNA repair protein recA-like 1, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 779 bits (2011), Expect = 4.00e-283 Identity = 391/418 (93.54%), Postives = 401/418 (95.93%), Query Frame = 0
BLAST of MC11g0745 vs. NCBI nr
Match: XP_023524459.1 (DNA repair protein recA homolog 1, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 778 bits (2009), Expect = 8.07e-283 Identity = 390/418 (93.30%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of MC11g0745 vs. NCBI nr
Match: XP_022981737.1 (DNA repair protein recA homolog 1, chloroplastic [Cucurbita maxima]) HSP 1 Score: 778 bits (2009), Expect = 8.07e-283 Identity = 391/418 (93.54%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of MC11g0745 vs. NCBI nr
Match: XP_022940951.1 (DNA repair protein recA homolog 1, chloroplastic [Cucurbita moschata]) HSP 1 Score: 776 bits (2003), Expect = 6.63e-282 Identity = 389/418 (93.06%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy TrEMBL
Match: A0A6J1C5R2 (DNA repair protein recA homolog 1, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111008660 PE=3 SV=1) HSP 1 Score: 830 bits (2144), Expect = 1.04e-303 Identity = 418/418 (100.00%), Postives = 418/418 (100.00%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy TrEMBL
Match: A0A6J1IUU1 (DNA repair protein recA homolog 1, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111480803 PE=3 SV=1) HSP 1 Score: 778 bits (2009), Expect = 3.91e-283 Identity = 391/418 (93.54%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy TrEMBL
Match: A0A6J1FJT7 (DNA repair protein recA homolog 1, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111446383 PE=3 SV=1) HSP 1 Score: 776 bits (2003), Expect = 3.21e-282 Identity = 389/418 (93.06%), Postives = 400/418 (95.69%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy TrEMBL
Match: A0A1S3BAR5 (DNA repair protein recA homolog 1, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103487647 PE=3 SV=1) HSP 1 Score: 753 bits (1945), Expect = 2.13e-273 Identity = 386/418 (92.34%), Postives = 392/418 (93.78%), Query Frame = 0
BLAST of MC11g0745 vs. ExPASy TrEMBL
Match: A0A0A0LBT0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G524580 PE=3 SV=1) HSP 1 Score: 750 bits (1936), Expect = 5.00e-272 Identity = 382/418 (91.39%), Postives = 392/418 (93.78%), Query Frame = 0
BLAST of MC11g0745 vs. TAIR 10
Match: AT1G79050.1 (recA DNA recombination family protein ) HSP 1 Score: 607.4 bits (1565), Expect = 8.4e-174 Identity = 308/385 (80.00%), Postives = 343/385 (89.09%), Query Frame = 0
BLAST of MC11g0745 vs. TAIR 10
Match: AT1G79050.2 (recA DNA recombination family protein ) HSP 1 Score: 489.2 bits (1258), Expect = 3.3e-138 Identity = 254/312 (81.41%), Postives = 277/312 (88.78%), Query Frame = 0
BLAST of MC11g0745 vs. TAIR 10
Match: AT2G19490.1 (recA DNA recombination family protein ) HSP 1 Score: 293.9 bits (751), Expect = 2.0e-79 Identity = 161/325 (49.54%), Postives = 224/325 (68.92%), Query Frame = 0
BLAST of MC11g0745 vs. TAIR 10
Match: AT3G10140.1 (RECA homolog 3 ) HSP 1 Score: 207.6 bits (527), Expect = 1.9e-53 Identity = 140/385 (36.36%), Postives = 222/385 (57.66%), Query Frame = 0
BLAST of MC11g0745 vs. TAIR 10
Match: AT3G32920.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 178.7 bits (452), Expect = 9.6e-45 Identity = 101/202 (50.00%), Postives = 138/202 (68.32%), 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 Position : 0 Zoom : x 1
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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