MC11g1040 (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.GGGATCGTGAGGGAGAGAAAAGAGAGATGCAGAGAGAGAAAATTTGTATTTAAATTACACAATTACAATCAAAAGAATAGTTAAAATGAGAGGGTAAAAATCGAACACAAAGTTTCTCCTAATAGTGGCTTTTATATATACTATAGATATAGATATTCTAGTAGAACAAGAAAATTGTAGTTATATGAAAATAAAAAATAAAAGTCGTAGCCAAACACCAACTTTTGGATCCTTATCCCGATTTAGAATACACTATATCGGCTACCAAACAGCCCATCGAAGTTCCAACTTCAGAGCAGTCCTCTTTCCGTTTGTACTGAGTCCTCTCTCTTCCCCCAAAACCCTACTTCAAACCTCCACAACAAGAGAATAAGAAAGTAAACAAAAACCGATCAAAACCCTAAAATCCTCCGAAAATGTCCCCTTTGATTTTCCGATCCCGATTCATTTCCTTGCTGAAGAATCGCCATGGACGCCTCATGAGCTCGGACCTCGCTTCCAGCGCCTCCAAGGATCCCATCAATGCATCCCAGAAGCTCGTCCCCGATCAGATTCCACCCGATGCTCAAGCCACAACTTCTTCCTCCACCAGTAAGCCCTTGAGTTTCCTCAAGTATAGTTTGATTGGAGCTCTCACGGGGGCTACAGCGGCTGCTGGTTACGCTAGCTATGGTACTTTCTCCTTCATTTAACTCCTCACTTTTCTTTTAGGATAATGGAATTTGATCTGGTTTTTGTTTTTGTTTACTGGATGAATTGGAGTTGTGGACTGGTGATTTGTTTTTCAGCTTATAGTTACGATGAAATTGAAGAAAAGGCAAAAGCTCTCCGTCAGTCTGCAAGTTATAATGTCACGGACGATGTATCTGGTTTTGGCGTAAGTGCGACAATGTGCCTGATCTTGAATTTGAGAAACTTAGCCATATACAATGTCATTTGTCTCTCAATTGTTTTCTTATTCAAATTATATAGTTGTTTTTTCTCCTTTCCAATGCACTCACTCAAACCTGATTGAGGCTGTAACACTTACTACACAGGGTGAACATTACATGCCCATTTGTTGGAAATTCTCGGGATGGTACAATACCAATTGATTTTCGTTATTGAGCCATTGATGGTTTAACTTATTTTTGTGTTGCTTTTGTAATTGCACCAAGTGTATATGATCTATATGAGTTGTTTGTGCGATATAACGTTTCATGCTTATGTAAGTTTGTGTATTTTTTTTTCATCCCTCTTTATTCGACTTCATTTATTCTGTTGTGGAAAGCATAACCTTTACATTTATTATTTTACTTTGCAGAAATTTCAGGGCATGCTCTACTCAACAGCAATGGCAGGTAGAAGAACTGAACCTTTTTTCATATTGACTTCACCAATAAAATGCTAGCTCTTTGCATGACGTTAACCTTTCGATGAAGAGCATTTACGGTTTACCCACTGGATAATTTGAAAACCCTACTAACATAACCCCCCCACCGAAATGAAAATAAAAATAAAAGATAAAAAAGTCCATGCGCAAGAGATAATAAAAGGAAAAAATGCTACCATTGCATGAAATTGTTAAATATGTAAATATGAAATTGCATGAATAACTATGCATCATATTATGGAATCAACAACTTATGTTTGATACTATTATCTTCATCAATTACTTGACTGATGTTTTATAAAGCATAGCTCTTTGAAGCTTATGCGCATTGTATAAAATAAGTGAGGTTAGAGATGGTTAAGCTATGGAAGCTTACAGTTTAGGGAGAGAGTAGATCAAAGAAAATGGTGGTGGTGTTTGGAGGGGAGGGGGACTTATATCCTACTGCCTGCTGGGCTTTCTAGTTCGAGTTAGCGCAGAGAGAGACCAAAGATTATCTCTCTCTCGCAGCCTTTTTAATTGTAAGCCCTGAATCATATCATTTAAGCCAAGGGATGCAAATATAAATGTGCCTCAATGGGTCTGCTTCTGGTGCTGAAGTGCACACCTAGGTGATGCTTGGTAGAGGATACCTTGTGTCCATCAAGGTGCCTTTGATGCTCGTGCACCTAAGCACACTTTTTAAAATGTTTCACTTGTGACTTGACGAAGTAAAGAGTTGTGAATATATTATAAACATTGATATTTACTCTTTTATGCTTATTATATGGAAACTGTTACTCACAGTACTGTTAGTTGACAAAAAGAACCTTCGTTGTTGCAGTTCCTGCAAAACTAGTTAATGTTTACTTGGATTTAAGGAAGACAATTGAAGAACAAGTTAGAGTGCGTACGTTGTTTCAGTTTGACATTGTTCTTGAATGTTATCGTCCTCAATAGATTCAATTTTCTCTGACCATAAGTTTCTCGCTCATTGTAGGATTATACTGAACCCAATGCGGAAATGCTTCTTCCAGATTTGCATCCCATGGAACGGCATGTGTTTACACTTGTTCTAGATTTAAATGAGACTCTAGTGTACTCTGATTGGACGGTAAGGCTAATATTGAAGTTAATGTTGTGTTCTTGGAGCCCATGTAGTCTCTGGGTTTTTTTTAATGGTGCCTCAAGTCGTAGTTTTGCCCTTTTTTTTGTATGGCTTTCTTTTGGTTGTACTTTCTTTCTTTGTTGTTAGAACTGTTTTCTTATCCCCAAAAAAATGTGTTATTTTTAATTAGTGAATTTGTTGAATTGCATTTTGACTAGCTTTTCCATATGAATTTCATTTTTCCATCTTTGATCTTCGATGAAATTTCTGCTTGATTTCAATCAATAACCTCTTCTTCAATGTCTTATATCATTAGATTTAAGATGTTTATCCTTTATGCTTTGTACTTGATCACATCAAAGACTTTTTGGGGTTTTTTTTGGCTGGTTGTAACAACTTCTTCTTCTTGCTTGTAAAGAGAGAAAGAGGCTGGCAGACGTTTAAAAGACCTGGTGTTGATGCTTTCTTGGAACATCTTGCCCAATTTTATGAAATTGTTGTATACTCTGATCAATCAAATATGGTAATTTATTCTTTTCAGCATAAGCTCAATGGCCGCATTTATAAAATTTAATCACTACAAAATTCTATTATTTTGTTTTCTATTGCAGTATGTTGATCCTGTCATTGATAGGTTGGATACCAAACACTGCATACGATATAGGTTGTCAAGAGCAGCTACAAAGTATGTGAATGGAAAGCATTATAGAGTAAGTTATGGATGAGGGTTTACAGCATTCTTTGTTTGATTAATTCTTTCCTAGATATTTGGATCTTACAATTCTGCATTGACGCAAGTCTTTAAGATTGTATCCGTTGTTTAGAATTGGCTCATACCATCTATTTTTACATTCTACATTGCTTCATTGCCATCTGTATTATACTCGATTATATTTTTACTTCAACCCCTGTATTAGAAAACTTCTTATTGTAATTCTTTTGGATGAAAAAGATGGATAAATTGAAAATATAAAATAGATGATGAGTATATCATTGATTTATGGAACCAGTAATCCTTTGAGAATTTGGTTCAAGTGTATAATGCACCCTTTCTTTGTTGCTTTTCCAAACAAAAAAACAGGACCTGTCAAAGCTTAACAGGGATCCCAGGAAGATTATTTATTTGAGTGGCCATGCGTTTGATAGTAGTCTTCAACCAGAAAACTCTGTTCCAATAAAGCCATGGAAGTGTGAGGGCGATGACACATCTCTACTTGATTTTATACCATTTCTTGAATGTAAGCATGCTGCTCTTGCAATATGATAAGAGTTCATAACTAGGGATGATTATGTTTGGTTAGTGCAGATTTGCTATTCTGGTCACAGCTGCATTGACATTTACTTGAATGTGCAGTTGTTGCACGAAATAGCCCAGCTGACATCAGACAAGTATTAGAATCGTATAAAGGTTGTGATATTCCAACAGAATTTATAAGACGTTCCAAAGAGCATCAAAGGTATTCTTCTTCTTCTTCTTTTTACTTTGCAGTTGTTGCATTTTATTCTCTTTACCTTTTTTTCGAGGTTTTACAATTCTAGTCCCTTTACTCTGCTATTTTTAATGTTTTGGTCTCTTTACTGTCCTTTGTGGTTTCATAAATATCTAAAGGTTAGAAAGTGAACCTGACATTATGTAGAAGCTGCCAAGCTGGCATGACACCATGCTCGCCTCAACATTTTTTGTTAAAATTCTTATTAAAAAAAACTTTTTTGTCAATATTTGAAGGAAAAAAAAACTGAAGTCAAACAAATGAAAGTATGGGGACCTAAAATTTTAAAATGAAAATTCACAAGGATTGTAATCCATCTTTTCTGGTCAATGACTGCGTTTTGTTGTTGCCTTTGTTCAATTTTTTTTCTTGGTTTCAGCTAAAAGCTGTATGCTAAAGGATATGGTTTCATGCTTACAGCTTACCTGTGATTTATATTGCATGTTGGATTTTTATAGATATACGTGAGGTGATTTGTAAGAATTGTACTTGTGAAATATAATTTTAAATTAGATTTACGCAGGTTTGATAACCATCTAATTTTTCGTTTTTTGTTTTTGGTTTTTATTTTTCGTTTTTTGTTTTTGGTTTTTTGAAAAACATAGTTGCTAGTTAATCAATTTAATTTTTTATTTTCTGCTTTTTAAAAACATTTTTAAAATTTTACCTCCAAGCGGTAGTCCAGTTGGCAAGGACTTGGGGTCTCCTGGTCATACTATCTTACAAGTCTCTCAAATATTGTTTCAAGAATTGAATTGCAATAAAATAATCTCTTTTACGATGCTTACAACAGAGGTTGAAACCACTGAACTTGCTTATGCTCTCCAGTGCTCTTTGACGTCTCTCGAATGTGGGCCTTGAGGCGGGTTTAGGTGCCCCTGGGTATACTTATAGGGGAACAAAGCTTCGGCTCCCAGTTACCTATGTAAATTTCAAAAACAGAAAAAGTAGTTTTTAAAAAGAGGTTTCTATTTTTTCAAAATCTTTTTTTTTTGTTATAATGCTCACTCTTTCTTTATTTAACATATTTCCCTCCAACAAATTTATCTCTCGCTCTAAATTTTTAATTTCTAGAATATTTAGTTTTATCTCTCTCCAAAATTTTCATCTCTATATTTTTATTTCTTTCCTTTTGTTCTAACATGTCATCCTCGTTTTTCTCTCTCAGGCCTAAAATTTTGTCTCTAAAATTTGTCTTTTATAACCTTTTTCTGTTTCTAATTTATTTTTGCTCTAGCAAATATCTCCAAATTTTTTCTTATCCAATTTTTTTTTTCCAATTTATTTTGCTATAACTTTTCTTTATTTTTTTCTCTGAACGAATATATCTGAATTTTTTGCTGTCTAAATTTGTTTCTCACAATAAATTTTCTCTCTTTCTAATTTTTCTTCCTTTTATCTTTTGATCTCAACTTTTACTCGCTTTCTCTCAATTCTTTCCTTTTTGTTTTAACTTTTCTCTAAATCTTTTTTTCTCTCTCTAAAATTTCTCTTTAAAATGTTTCATTTTATGAGTTTTTATTTTCATGGTTCTACATTAGGGATACAAAAATCTCTACAGGGTCGGGTTACTTCTCGAAGAACAGAGAATGCATTTCCCTCCATGTCCCGACCCAGCCTCAACCCCAATTCTATTTTTTTAAATAATTAATACATATTTTATTAATAATTTTACTAATTTATGAATAAAATATTGAATATATTTTTTAACTAATTATTTATACTAGTAAATAATAAATTTTTAGTAAAATAGATATAATATATATCTCTTTTTTATTTTTTAAATTCTGAAAATAACTAGAATTAATTACTATATTGATAATTTTTCTTGCAAAAATTCTCGTCCCCAGATGGGTTTCCTTGACCCGGACCTCGACTCCCAGAACCAGAGAATGAGGTGGAGAAGAACTAAATATTTATGCTAGGACGAAGATGGGAGAAATTCCCTACTCTTGTGCCACCTCATTGTCATATCTACTCTACATAAATTTCTCTCTCTAGCACATCTCTTCAATTCCCTCACTTTTAAAAAACTGAAAACTAAAATGGTTATCAAATATATTTGGTTTTCTTTTGTTTAAAAACAAAAAATAGTTATCAAACATATATGATTTTTTTTTAAACAAGAGAAAACTAAAAAACCAAAAACTAGAAACAGAAATTGTTATCGAAGCCCTTAATTTGCTTTTTTTGCTTTAATTTTAGTAACATTCAAGTTCCTTATAATATTAAATTATTTTCTGCCAAAAGATTGATAGACTCCAAATCACTAAATATTATACACCTATGAGACAAGAGCGGTCATGTAAGCAATAAGGAGGGGTTTTTTGTGTGGACCCTAAGAATATTGTGTTTTTTTTTTTTTTTTGAAGAAGGCCCTAGGAATATTGTTAGTTAGAAGGGATGAGGAGGTGTAAGAGCTGTGATGTGATGTGAGGGGAGATTTTAAAATAGAATATTGTTGAGGGGGGAGGGGTATCTTTTTGCATATTGAAATTTGTATGGCTCAGTGAGTCCTTGATGGAGAGCTGGGGAGTTCTCAAAATCACCAACTTGATGCTCTGTTTTGATAAATAATAGTGAGTCCTACCAAAGACCTTACAAAGTTTATTAAAAATGCTAGCGAATTAGATAATATATGTAACTGTAAAATGGGATGAAATGAAATTTCCAATTAGTTTCTACTAGTAATAGACTCATATTTTGGTGACGATTATGTCCATCGGGCAATTTTGTATTAAGCATCCATCTATCTTATGATTTAAATGGTTGGGATCATTTCATCTAGTCATGTTCTAATCTGATCGAAATCTTAATTATATCGACGCAGGCGGATTCAAGAACAGAAGCAGCAAGGGCGAATATGGAAACGTTGAGATCAGAATAGTGTAAAAAGTTGATTGAAATTGTAGTGTCGAGAAACACAGATATTGTTTAGAATCAACTCAAGCCAGCTTTCCTCCTGCAATCCAAGAAGCAACTTCAGATTGATTCCACCTATTTTCTCTTCTACATTCCATTAGTCGCAGCTTCTTGATGTTCTACAAGAGCAGTACGTAATTTTATCATTATTTTTTTCCCAATCTGAATAACCCCATAAGTTTTGCAACTTATATCTCATCATTTCTGGAGAAGAGATTGTTCTGCCAGACAATGAAGTTTTGATTTGGTGTCATGCATGTCCTTTTGATGAGTGTTCATGACTGGTCCTAAGTTTAGCCACAATTATAACTTGCTGATTTTGTTAAACAAATTTTTATAGTTGTATAAATCAATATTATATTAACTCAGAAGTCAGAGTAGTATATTCTCTCAATTGATTGGTACTTTGATTCTTCTTACTTGATAAAGGCCAATGGTTGCGCCTTCATTTTGACAATGTAATATATATTCTAGCATTTACTATTTTGTCTCTAATTTTAAAAGGGTCCAATTATGTCATCAAATTTTGAATTATGCTTCTTTTTAGTCTAGTGGAAAGTTGATGTCGTATGTCTATTAGATAAATTTCAGCTGAGTCGGCATGTTATGATAGACGGACAAACAGATTACTAGACATATGACAACAACATTTTGCTGATTATGCTAAATATAAGGACTGAATAAAGGGGTCGAGAGCTCTGGGGAGGATGTTTGGGCTCTTGTTCGCTTTCACGTTTTCCTTTGGGTCTTGGTGTCTAAAGCCTTTTGTAATTAACTTTACTTGATTCGAACCCGTTCTTTTAGTTTGACTCCCTTTTGTTGGGCTTTCTTTTTTCCTTTTTTTGTATGCCCTCTGTTATTTGGATTCATAATTTATCATATATTCTTATTCAAGAATGCACCACCAATAGGTAAAATCTAGAACTTAATTTAAGTCATGACATTTTTTTGTGCTTTTGTTCTTGTTCTTGGCAGTGGCAAGTCACTTTCTTTGATAACTTCAAAGTCTTTGTTTGTGCTAGCAGGCAGATTCTTGGTCACTTTCCTTCTCAGCTTGACGCCAAAGCTTTCTCGACTTTAAAAGTCTCTGTCCACTCAATAAATATGGCATCAAGTCTTCTTCATCTCATAATCTCTTTTCCCCCATAAGCTCCATATTTTCTACTACTTTGAAATTTCAAATATTTGGGCTATTCATTTCCTCTTCAATGCAACATTATTGCATGCTTGGACCCATTTATTGAGTAAACTCTTTAGGGACATGTTGGTAATTCTATCAATATTTCTGTTAATGGATGTATTTGTCGTTTTTTCAGTTCAACATGGGGTTGAGATTCGAACCTCCAACTTTTCGATTGAAAATATATGTTTTGATCAATTGAGTTATGTTCACATTTCTATGTCTTTAAAATGTCACATCAAAGTACCAATAATGGTAGTTTATAATTTACTTGAAAGTCTATCCAGCTTTTATTTTTTACTGATTCGAATAATGTTTATTGCTCTTTGTAGTTTGTTCTTTCG GGGATCGTGAGGGAGAGAAAAGAGAGATGCAGAGAGAGAAAATTTGTATTTAAATTACACAATTACAATCAAAAGAATAGTTAAAATGAGAGGGTAAAAATCGAACACAAAGTTTCTCCTAATAGTGGCTTTTATATATACTATAGATATAGATATTCTAGTAGAACAAGAAAATTGTAGTTATATGAAAATAAAAAATAAAAGTCGTAGCCAAACACCAACTTTTGGATCCTTATCCCGATTTAGAATACACTATATCGGCTACCAAACAGCCCATCGAAGTTCCAACTTCAGAGCAGTCCTCTTTCCGTTTGTACTGAGTCCTCTCTCTTCCCCCAAAACCCTACTTCAAACCTCCACAACAAGAGAATAAGAAAGTAAACAAAAACCGATCAAAACCCTAAAATCCTCCGAAAATGTCCCCTTTGATTTTCCGATCCCGATTCATTTCCTTGCTGAAGAATCGCCATGGACGCCTCATGAGCTCGGACCTCGCTTCCAGCGCCTCCAAGGATCCCATCAATGCATCCCAGAAGCTCGTCCCCGATCAGATTCCACCCGATGCTCAAGCCACAACTTCTTCCTCCACCAGTAAGCCCTTGAGTTTCCTCAAGTATAGTTTGATTGGAGCTCTCACGGGGGCTACAGCGGCTGCTGGTTACGCTAGCTATGCTTATAGTTACGATGAAATTGAAGAAAAGGCAAAAGCTCTCCGTCAGTCTGCAAGTTATAATGTCACGGACGATGTATCTGGTTTTGGCAAATTTCAGGGCATGCTCTACTCAACAGCAATGGCAGTTCCTGCAAAACTAGTTAATGTTTACTTGGATTTAAGGAAGACAATTGAAGAACAAGTTAGAGATTATACTGAACCCAATGCGGAAATGCTTCTTCCAGATTTGCATCCCATGGAACGGCATGTGTTTACACTTGTTCTAGATTTAAATGAGACTCTAGTGTACTCTGATTGGACGAGAGAAAGAGGCTGGCAGACGTTTAAAAGACCTGGTGTTGATGCTTTCTTGGAACATCTTGCCCAATTTTATGAAATTGTTGTATACTCTGATCAATCAAATATGTATGTTGATCCTGTCATTGATAGGTTGGATACCAAACACTGCATACGATATAGGTTGTCAAGAGCAGCTACAAAGTATGTGAATGGAAAGCATTATAGAGACCTGTCAAAGCTTAACAGGGATCCCAGGAAGATTATTTATTTGAGTGGCCATGCGTTTGATAGTAGTCTTCAACCAGAAAACTCTGTTCCAATAAAGCCATGGAAGTGTGAGGGCGATGACACATCTCTACTTGATTTTATACCATTTCTTGAATTTGTTGCACGAAATAGCCCAGCTGACATCAGACAAGTATTAGAATCGTATAAAGGTTGTGATATTCCAACAGAATTTATAAGACGTTCCAAAGAGCATCAAAGGCGGATTCAAGAACAGAAGCAGCAAGGGCGAATATGGAAACGTTGAGATCAGAATAGTGTAAAAAGTTGATTGAAATTGTAGTGTCGAGAAACACAGATATTGTTTAGAATCAACTCAAGCCAGCTTTCCTCCTGCAATCCAAGAAGCAACTTCAGATTGATTCCACCTATTTTCTCTTCTACATTCCATTAGTCGCAGCTTCTTGATGTTCTACAAGAGCAGCAGATTCTTGGTCACTTTCCTTCTCAGCTTGACGCCAAAGCTTTCTCGACTTTAAAAGTCTCTGTCCACTCAATAAATATGGCATCAAGTCTTCTTCATCTCATAATCTCTTTTCCCCCATAAGCTCCATATTTTCTACTACTTTGAAATTTCAAATATTTGGGCTATTCATTTCCTCTTCAATGCAACATTATTGCATGCTTGGACCCATTTATTGAGTAAACTCTTTAGGGACATGTTGGTAATTCTATCAATATTTCTGTTAATGGATGTATTTGTCGTTTTTTCAGTTCAACATGGGGTTGAGATTCGAACCTCCAACTTTTCGATTGAAAATATATGTTTTGATCAATTGAGTTATGTTCACATTTCTATGTCTTTAAAATGTCACATCAAAGTACCAATAATGGTAGTTTATAATTTACTTGAAAGTCTATCCAGCTTTTATTTTTTACTGATTCGAATAATGTTTATTGCTCTTTGTAGTTTGTTCTTTCG ATGTCCCCTTTGATTTTCCGATCCCGATTCATTTCCTTGCTGAAGAATCGCCATGGACGCCTCATGAGCTCGGACCTCGCTTCCAGCGCCTCCAAGGATCCCATCAATGCATCCCAGAAGCTCGTCCCCGATCAGATTCCACCCGATGCTCAAGCCACAACTTCTTCCTCCACCAGTAAGCCCTTGAGTTTCCTCAAGTATAGTTTGATTGGAGCTCTCACGGGGGCTACAGCGGCTGCTGGTTACGCTAGCTATGCTTATAGTTACGATGAAATTGAAGAAAAGGCAAAAGCTCTCCGTCAGTCTGCAAGTTATAATGTCACGGACGATGTATCTGGTTTTGGCAAATTTCAGGGCATGCTCTACTCAACAGCAATGGCAGTTCCTGCAAAACTAGTTAATGTTTACTTGGATTTAAGGAAGACAATTGAAGAACAAGTTAGAGATTATACTGAACCCAATGCGGAAATGCTTCTTCCAGATTTGCATCCCATGGAACGGCATGTGTTTACACTTGTTCTAGATTTAAATGAGACTCTAGTGTACTCTGATTGGACGAGAGAAAGAGGCTGGCAGACGTTTAAAAGACCTGGTGTTGATGCTTTCTTGGAACATCTTGCCCAATTTTATGAAATTGTTGTATACTCTGATCAATCAAATATGTATGTTGATCCTGTCATTGATAGGTTGGATACCAAACACTGCATACGATATAGGTTGTCAAGAGCAGCTACAAAGTATGTGAATGGAAAGCATTATAGAGACCTGTCAAAGCTTAACAGGGATCCCAGGAAGATTATTTATTTGAGTGGCCATGCGTTTGATAGTAGTCTTCAACCAGAAAACTCTGTTCCAATAAAGCCATGGAAGTGTGAGGGCGATGACACATCTCTACTTGATTTTATACCATTTCTTGAATTTGTTGCACGAAATAGCCCAGCTGACATCAGACAAGTATTAGAATCGTATAAAGGTTGTGATATTCCAACAGAATTTATAAGACGTTCCAAAGAGCATCAAAGGCGGATTCAAGAACAGAAGCAGCAAGGGCGAATATGGAAACGTTGA MSPLIFRSRFISLLKNRHGRLMSSDLASSASKDPINASQKLVPDQIPPDAQATTSSSTSKPLSFLKYSLIGALTGATAAAGYASYAYSYDEIEEKAKALRQSASYNVTDDVSGFGKFQGMLYSTAMAVPAKLVNVYLDLRKTIEEQVRDYTEPNAEMLLPDLHPMERHVFTLVLDLNETLVYSDWTRERGWQTFKRPGVDAFLEHLAQFYEIVVYSDQSNMYVDPVIDRLDTKHCIRYRLSRAATKYVNGKHYRDLSKLNRDPRKIIYLSGHAFDSSLQPENSVPIKPWKCEGDDTSLLDFIPFLEFVARNSPADIRQVLESYKGCDIPTEFIRRSKEHQRRIQEQKQQGRIWKR Homology
BLAST of MC11g1040 vs. ExPASy Swiss-Prot
Match: Q8VYE2 (Mitochondrial import inner membrane translocase subunit TIM50 OS=Arabidopsis thaliana OX=3702 GN=TIM50 PE=1 SV=1) HSP 1 Score: 391.7 bits (1005), Expect = 8.6e-108 Identity = 209/376 (55.59%), Postives = 270/376 (71.81%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy Swiss-Prot
Match: Q4I099 (Mitochondrial import inner membrane translocase subunit TIM50 OS=Gibberella zeae (strain ATCC MYA-4620 / CBS 123657 / FGSC 9075 / NRRL 31084 / PH-1) OX=229533 GN=TIM50 PE=3 SV=1) HSP 1 Score: 171.4 bits (433), Expect = 1.8e-41 Identity = 84/203 (41.38%), Postives = 129/203 (63.55%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy Swiss-Prot
Match: Q4WI16 (Mitochondrial import inner membrane translocase subunit tim50 OS=Neosartorya fumigata (strain ATCC MYA-4609 / Af293 / CBS 101355 / FGSC A1100) OX=330879 GN=tim50 PE=3 SV=2) HSP 1 Score: 169.5 bits (428), Expect = 7.0e-41 Identity = 83/216 (38.43%), Postives = 133/216 (61.57%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy Swiss-Prot
Match: Q5B4P0 (Mitochondrial import inner membrane translocase subunit tim50 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) OX=227321 GN=tim50 PE=3 SV=1) HSP 1 Score: 169.1 bits (427), Expect = 9.1e-41 Identity = 87/207 (42.03%), Postives = 128/207 (61.84%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy Swiss-Prot
Match: P0CN67 (Mitochondrial import inner membrane translocase subunit TIM50 OS=Cryptococcus neoformans var. neoformans serotype D (strain B-3501A) OX=283643 GN=TIM50 PE=3 SV=1) HSP 1 Score: 167.9 bits (424), Expect = 2.0e-40 Identity = 84/199 (42.21%), Postives = 124/199 (62.31%), Query Frame = 0
BLAST of MC11g1040 vs. NCBI nr
Match: XP_022139636.1 (mitochondrial import inner membrane translocase subunit TIM50 [Momordica charantia]) HSP 1 Score: 707 bits (1824), Expect = 9.32e-257 Identity = 355/355 (100.00%), Postives = 355/355 (100.00%), Query Frame = 0
BLAST of MC11g1040 vs. NCBI nr
Match: XP_008462988.1 (PREDICTED: mitochondrial import inner membrane translocase subunit TIM50 [Cucumis melo]) HSP 1 Score: 640 bits (1650), Expect = 3.58e-230 Identity = 322/359 (89.69%), Postives = 336/359 (93.59%), Query Frame = 0
BLAST of MC11g1040 vs. NCBI nr
Match: XP_031745212.1 (mitochondrial import inner membrane translocase subunit TIM50 [Cucumis sativus] >KAE8645967.1 hypothetical protein Csa_015462 [Cucumis sativus]) HSP 1 Score: 639 bits (1648), Expect = 7.21e-230 Identity = 322/359 (89.69%), Postives = 335/359 (93.31%), Query Frame = 0
BLAST of MC11g1040 vs. NCBI nr
Match: XP_038897595.1 (mitochondrial import inner membrane translocase subunit TIM50 [Benincasa hispida]) HSP 1 Score: 639 bits (1647), Expect = 9.87e-230 Identity = 324/359 (90.25%), Postives = 337/359 (93.87%), Query Frame = 0
BLAST of MC11g1040 vs. NCBI nr
Match: XP_023534832.1 (mitochondrial import inner membrane translocase subunit TIM50 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 633 bits (1633), Expect = 1.50e-227 Identity = 317/361 (87.81%), Postives = 332/361 (91.97%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy TrEMBL
Match: A0A6J1CDA0 (mitochondrial import inner membrane translocase subunit TIM50 OS=Momordica charantia OX=3673 GN=LOC111010489 PE=4 SV=1) HSP 1 Score: 707 bits (1824), Expect = 4.51e-257 Identity = 355/355 (100.00%), Postives = 355/355 (100.00%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy TrEMBL
Match: A0A1S3CIN1 (mitochondrial import inner membrane translocase subunit TIM50 OS=Cucumis melo OX=3656 GN=LOC103501237 PE=4 SV=1) HSP 1 Score: 640 bits (1650), Expect = 1.73e-230 Identity = 322/359 (89.69%), Postives = 336/359 (93.59%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy TrEMBL
Match: A0A6J1IJ22 (mitochondrial import inner membrane translocase subunit TIM50 OS=Cucurbita maxima OX=3661 GN=LOC111476733 PE=4 SV=1) HSP 1 Score: 630 bits (1625), Expect = 1.20e-226 Identity = 314/361 (86.98%), Postives = 331/361 (91.69%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy TrEMBL
Match: A0A6J1FKX9 (mitochondrial import inner membrane translocase subunit TIM50-like OS=Cucurbita moschata OX=3662 GN=LOC111446192 PE=4 SV=1) HSP 1 Score: 621 bits (1602), Expect = 3.98e-223 Identity = 314/362 (86.74%), Postives = 329/362 (90.88%), Query Frame = 0
BLAST of MC11g1040 vs. ExPASy TrEMBL
Match: A0A6J1FGI0 (mitochondrial import inner membrane translocase subunit TIM50 OS=Cucurbita moschata OX=3662 GN=LOC111443698 PE=4 SV=1) HSP 1 Score: 621 bits (1601), Expect = 5.25e-223 Identity = 311/360 (86.39%), Postives = 328/360 (91.11%), Query Frame = 0
BLAST of MC11g1040 vs. TAIR 10
Match: AT1G55900.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein ) HSP 1 Score: 391.7 bits (1005), Expect = 6.1e-109 Identity = 209/376 (55.59%), Postives = 270/376 (71.81%), Query Frame = 0
BLAST of MC11g1040 vs. TAIR 10
Match: AT1G55900.2 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein ) HSP 1 Score: 381.3 bits (978), Expect = 8.3e-106 Identity = 206/376 (54.79%), Postives = 265/376 (70.48%), Query Frame = 0
BLAST of MC11g1040 vs. TAIR 10
Match: AT1G29780.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein ) HSP 1 Score: 87.8 bits (216), Expect = 1.9e-17 Identity = 56/154 (36.36%), Postives = 81/154 (52.60%), Query Frame = 0
BLAST of MC11g1040 vs. TAIR 10
Match: AT5G45700.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein ) HSP 1 Score: 81.3 bits (199), Expect = 1.8e-15 Identity = 50/152 (32.89%), Postives = 78/152 (51.32%), Query Frame = 0
BLAST of MC11g1040 vs. TAIR 10
Match: AT1G29770.1 (Haloacid dehalogenase-like hydrolase (HAD) superfamily protein ) HSP 1 Score: 80.9 bits (198), Expect = 2.3e-15 Identity = 50/156 (32.05%), Postives = 78/156 (50.00%), 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:
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