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PI0011839 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GCCACAAGCATCTTTGTCAGTTTAGAGACAGAATGAAATTTGCTGTGAAGGCATGGAACAACGGCAAGGCGCGCACTGGATTGCTGCACCTCGGTAACTGCCCTGCCGCCATTGACACTCCGGCGTTGCTTCTCTCTACTCGCAAAGGACTTCCTAATTTCATCTCTCCTGATCTTCTTCCCTCTCTTCCTTCCCCTGATTCTCACCTCCTCCAATTCAGTCCTCTTCACTTGTAAGTATTCTACACTATCCATATTCCTTCAGCTCCATTCGCCTTCATTGTGTTTCTAAATTGGAGCCCGTTGCTCTACTTTGTCGCATGGATTTTCCTTTGATTTATTCGTTCTCGTATTTCTTAAGATTGTTTGTGTGCGAGGACGATTCCATGACTTGAAACTGTTCCAGAGTTATGAGAATACGACAGGCTAAATAATGAGATAAGAAGTTCGTATTTAGTAATAATCGTGTGGTGCCTTTTAAAATTTGTCTAGAGGAATATGTCCCGGTGGTTGGCGCTGATAGTACTATGTGTAGGAAAGGACGCTTTTGCACGGTAGAGTGGCAGTGGATACAGGGCGTGTGATCATGGAAGTTGAAATGATAACTATGTCGTCGTGATTCTTAAATAACCAAACGGCTACTTTACGTTGTGGCGACTTGTGCTCTAGACTCTTTCGAGATAGTTTATCTAGGGAGTTCTTTAATAATCCTTTGTATTCGTAAAACAGCAGTCAAGTAATATATGGAATCCATTACTTTTATCTGTCTTTGGTCCTTGATTCTGAACGTTGTTTCTCGATGTTAGTGCTGTTTTTCTTTAAACACTTGTGCTCCTGTTACAACTGCCTTGTATCGGTTAAGATTTTCACGATTCATTCCTTCTTGTATAAAAAAATCAGATGTCCTTCACTGTGTAGTCGAGAAATAAGTTATGTTCATTTCATCTTAATGGTTCAATTATGACATGAAGATTGCTTTTCTTAATAGATATTGTTTTGTTGTTAGTCACATTAAATATTTGTTCTTCTCTAGAGAAGTCACATTGACTATTTGATCATTTAAATATTAGCTTGGAAGGTCCTTCATCGAAAACAATATCAACTATTGGAGGGCTTCAGAATTTACTTGGTTTACATGAATATGGATTTGCTGCAGTAGCGAGAGATTCTGTTCAGTGCCTTCCAGAATGTGATGCTACAAATAAATTTGGAGCATCTTTTGAAACAACTTGTGGTCGTCGTTTGGTAATGGAATCTCATCACTCTTTTTCATATCAACTTTTGTTATTCCTTTCTTTATTATGTAGTTTGGAAGGAAAAAAAAAATCTAAGTTCCCTTTGAAATTGTAGATTAGACCTGTTGAGTACATTGAAATGATTTCATCCATGAAACCAGACATTTGGACATCCTTGGCTGATGAAGTGCCATCATCGGTTTCAGATAAAAGGAACAAAACATCAGTGGATCGAACAGTTAAATGGCTGGATGAGTGCATTGCATTGAACTCAGTAAGAATGCTGGAATGTTCCTTTTATAGTATTAGTTGTATCAACATTTTCTCTAGTTCTGAACTCTGCTAGATTTAGATTTCTAATGTTGAGAAATGTCAGTCAATGGGCATCATTTATAAGCATTTGGAAAAGCAGAACATAATTGCTCTTTTCTAGTGTGCTGTGTGTTTTAAACACAACTCGTCTCTAGGCCCACAGAGAGAACATAAGTTGGGAAAAACAGCTGATTCGAAATTATGCTTAGGACTAAAATCTGGCTCTATGTTTAGTCTGGAGATCATCTGCTTGTGCAGTCCTATATGGAAATTTATAGCATAATAATGACTTGATAGAGGAAACATCGTGGAGGACAGGAGGAGCATAGAATGTTGACCAAAATTTTCAAAGCAAGCTGTTTAAAGGAGGGAAACAAGAATTCTGGTCCCTTTTAAATTGATTGAAGTGACATAATTTTATCCAATGAGGATATGGTGAGAAGTTGTGCATTTTTTTCGAAAACCTGGTAATGTTAGGTGGTCATCAGAGATTTTCCAAAATCTGGAGTGATTGGTTGGACGGGCTTTTGTTTTCATTTTTTTAGGAGTAGATTCTCAAAAGTGAAAGGGTTAGGACTTTGGGTGTCCAAAGTCTCCTGGTCTAGATGATATAGCCTGTGGGTGAAATTTTGTGAAAAGATGGAGCATCTTGAAAAACATGATTCGATTGTGGGTTCCCATAGTGTTTTAGAAGTGGTTGTTAACGAATGCACAGATGAAACCTACACTTTCCATATCCCCAGGCTTCTAATTCAAGTAGATTTATTTATTTATTTATTTGTGATTTTTGTAGCTTTTGTCCACCTCGATTTCTGATAAGAGTTATGACCGTTGTGTTTAAAACTCATTGATGCAGAGGCAGTATGGGAACACTGTCATAACTCATGATCAAGTGATAGTATTTGGTTTTTATGTCTTGGTTTGGTTCCTTTTATATTTTTCTTTTCCTAATCATGTCATGAGTGATTTGGAATAAGTAACTTATTATTATAATGAAGACAGGTGGAGCTGTTTTTGGAGCTATTGTTGGAGGCAATGATCTTGAAGAACGCCAAAGATGTGCTGTGGAGGTCGTTAAGCGTAATGTATCAGGTTCATTAACACGTTCTTTTCATATTTAAGGTGAAATAATGGTAACAAGTTCAAGAACCCATAGTTGGAAAACTAGTTGAGTAATATCAATTTCGAGCTCTAGCCGAATTTCTCTAGACTGCCAATGTTCTTAATAGTCTGTTTGTATCACGTTTCTTAAGATACATATTTGAAATTATTAGATACCCCATAAAATTTTGAAACAAAATATCAAGATTTACGTTCCTGAGGTTTTTTTTTTTTTTTTTTTTTTGTGAAACGGAGACAAACTTCTTTATTAATAACAAACTCAAAGTACAAGAGAATTATACAGTGAGAGTAATAGAGAAGCTTAGAAAGAGATAGGATCGGTAGGTGTAGCTGGACATCTCAACTAGGTTGACACCTTAGCACCCTCATCATATCCAAAATAAAAGAAACGATCCTAAGGTCGTGAAAAGACCGAAAATAACAATACAAAAACTAGGTTGACACCCCCTTGAGTCTTGTTGGAGGAGTCTAGAATGTGGCCGGCGAACGAGTTTGGGGGAGGAGAGAGGATAGAGGAGAGAGGCAAGAGGGGAGAGAGAGAACTTACCTTTCTTTTGTACAAATGTTCATGTTGATGTTTTCTTTTCATAACACCTTTAACCCTATCTAGTATGTAAGGAATGATAGTTTTCCCTATCTGTTTTGTTCAGTTAAATTTATCATTTCTATCTTAGTTTTAAGCTTCTTGTTCTAATATTTCAGTTCAAACAAACAATTTTTGTTAGGTTACTGGATTGGAGGTTTTGGGTTTGGAGAAAGTATGGACGAGCGTCCTTCCCTTCTTGATGCTGTTACGGTAAGGATTTAGCATCTAGTATTGTTAGGTTTGTTTTTTTGGAGCATCACCATTCTTTTTTTGCAGCAACTAAGAAATAAGAATGTGCATGTTTTTCATGTGTACAAGTTTGAGTTGAACTTTGAAGCTTACTAGTAGCAAGTTAGATCTGTAGACTCTCTCTGCTAACAATTTGTTGGAGCTTGGTCTGGTTTTTGAGGTGTTTTTCTTCTACTCTCTGTACATTCACAGTCCTTGATAATCTATTCCAACAAAAACGCAACTGCGCCTATCTCTTTACTTCCATATATCCCTTTGGTTCTCTCTTTTCTTTCCGTCATTTCCCTTCAGTTTCCATATCATTTGTTAACAATGTTGGAGCTTGGTCTTGCTTTTGAGGTTTTTTTTGTCTTTGTTTTCTATGTTCTAAATAGCTCTATGCAAAGCTGTGTTGCCTCGTCTCACACTTTTATGATGCATTTTTTTTTTCTTTTGGGCAAACTGCAAAATAATAAACCAATCGGACTTTATTGTTTTAAAAAAGAGTATTTCTAGTAATTCTTTCACTGCTTGCACAGGATGTCTTACCAGAGGAAATGCCGCGTATGATCTGTGGGCTTGGACTTCCAGGTATAGTTTTTCAATCTCTTGAGTTGAAGTCGTTTGACGAATAATGACATGTTTGGTAGCGATTCTGAAATTTTTTAAATCATTTTTGTCATTTTTCATATACACTTCAAAAATATTTTTAATTATTTAAAATTGCATTTAAAAGTATAAAATTAAATATTGAATTGATTTTGAGTTGTTAAATGTGTGTTTTAGAGATTTTAAACATGACAAAAATGATTTTAACCATTTCAAAAATCAAAATCACTCTCAAGTATGTACTACATCATGGTTTGACTTTTTGGTTGGATTTCTGTGTCCAGCCTATGAAAGCTGAAAATATATAATTTTAATATTTTAATGACACTAAACTGATGTTGGTTTATGGTTTTAGTAGCCTAAATATTTGTAGCTGACTTAAGAAGTTTATGTTTAATCATTTTTGTCAGCCTTAACCGGTCAAATAGTTTTGGTGTGTCCTCTTCCTATGATGAATTCGAAGGTTTCTATTTTACGTTTGGTTCTCATTTTCATTCAACTTTAATTTATTTATATATACGTTTAATTTGATGTTGCAGAGGAGATCTTGCAGGGCATTGCTGCTGGAGTTGATCTCTTTGACTCTGCGTATGTTAATCATTTTGAATGTAGTTTGTCTTTCTATGATTGTTTCTCTATAAATAGTTCTATTACTGTGTTGCAGGTACATATATCATTTAACCCTTGGAGGCTTTGCTCTCACCTTCCCACTTGATGGAATTGTGGAGAAACAGCCTGCCGCTCACCTGATAGACAATGCAACTGATATGACAAAGATTAACTTAAGAGCAACTGTTTATCGGTAAGTTTTCAATACTCCAGATCTCTATTATTGCCTCAGTATTAATTTGCCAGCATTTAGTCCTTTTCTAATTTGCATTATGTATGTATTTGCCAAAAAAAATTATTGCTTTTGCCAGGAAAGATACATCACCAATTCTTGAGGGGTGTAATTGCTATACTTGCCTGAATCATACGAAGGCTTATATAAATCACTTGCTAAATGTCCGTGAAATGCTGGCTCAGATACTGCTAGAGATGTATGGACGTTTCACTTGATGAAATATACTTAGTCGTCCCAATTTTTATTCTCACAATAATTATTAATTCTCACCTCATTGCAGACACAATACTCATCATTATTTAGGATTCTTTCGATCAATCCGAGAAGCAATCGAGGTAGGCAAATTTCAGCAATTTCATCAGAAATTTGTTGAGGAGAGGCGCAATCATCTAGCATTGCCAACATCAGCACTCAGGTGTTGACGAGCTCATCAAACAAGTAATTTTCATATTGAAAAGAATGTTATGTCATTAAATTATGTCATGAATTGATCCATAATATATTAACAGCAACTGTGTACCTTAGCTTATTAAAGAGAGTACTTCGATAATTAGTGGTGTAGACTAGGGAGGCATCAATCAACGAGCATTACGTATAAACTATTGGAACAAAGTTAGCACATAAATCATATAACATAAGATTAACAAGAAAATCCAATGGAAATTCCCATACCAAAAACATTACATTGATTGATCCATCTAGATCAATCTGAACATATCCCGTGAATGATCAAAGACTTGTCTAAGCAAGACATTTGATGTTATCATTAATCAAATCTATAGAGTACATAATATGTCTGGAATATATGAGACATGATCCAAATCTATCGAGTAGCTGCAGAATATTTCTGGAATAGATGAGATAAAATCTGCTTGTAGTCGCCAGTCTTAAAACCAGTATTGGAATCGATAAGGTAGGGTACCTGATATTTAGATAAGGTAGGTAATAAATCAATGAGGGGACTATGTATAAACCATTGTTATAGCATGTAAGTCATACAGAGTAAGATTAACAAGAAAATCCAATGGAAGTCTCCATACCAAGGATTACATTGATTGATCCATCTGAATATGATCAGTCTTTGGTAAATCTCATTAAAAAAAATTTAATAATGAAGAAACGCATCACCTCTTTTCTTTATCCATTATGTCTTGTGGGGGAAATGGTGTCTAAACGGGAGGCTTCCATGAAACTTGGTTTAAGTTTAGCGTGGGATAATGTCTTGTTCTTCACATAGTTTAGGTTGCGTTTAATTGTTGGAATAGATATAGATAGCTACTTGTTCTTTCGACAAAATGTTCTGGTTGGTAGTTTCTTTTAGAATTGTTGTGAATGACAAAACAGTTGAAAAATATTTTCAAAATTTTGGTGTCTATCATAATTTCAAATAGAACTTAAAATTTTGTTATATTTTATAAATATTTTGATTTATTTTTCTACATTGGAAGAACCTATAAAGAAATGGTCAATCAATTTGATTTTTAACCTATTGGGGAATCTACAAACAAAACATAGGCCGAAATGAATTACAAGATATGGGTGTAAGTGGTATCCAAATGGTTAATTTTTAAAGATCAAATCAAAAGATTACAAGACAACAGGTAAAGTTAATTTCAATTGGAGGTATTTGTTGTTATATTTTCTTTAATACGATGCATAAAAAATTTATGTATTTTTGAATATATACTCTCTTGGTGGGAATTGTTATGACCAGCCATAGGCAATCTTGATTTTTCATAAAATCCGCCACTGATGCTATTTAGAGAAGGAACTCTGACAATTAAAAGATAAAGAAAAATGAACGAGGAAGACAGAAGAGATGCGTGTGGAAGGGGCCTCGGGAGGGTTCTGTTCAACTAGTTGAAAGAAGATGAAGGTTAAAAAATTGGAAAGGATTGGATATTTAATAGGCAGTTGACTGTGATTTCTACTTTTTTTTAAAAAAGGCAATTGGTTGCATGACTTGCAAATATATTTCAAAGAAAATAAATGAAGGTTCTAACGAGGAGCAAAATTTGAGAAGGAACAGTAAGTAGAAATGGGAATGTGTAGAAAGTAAGAGGAAAGTGGAACATTGAACTCACCAGAGCATTTGTGGAAGGGATAAGTTATGGGGATTAGTGTTATGATAATCCTAGTGTTATGATAGTCCTAATATTATGATAGTATGTGTTTGAGAGAATGATTATGATAGATAGTATTATGATAATATGTGTTTGAGAGAAGAATTACGTAGGGAGTGTTATGATAGTATGTATTTAGGGAAATGATTATGTAGGTAGTGTGATAATAATTTTTTAAGATAATTTTTGTAATGATAAAGAGGGAGTTGGGGGAGTTGCGGATTATGGAAACTCACTCCACTCCTAGGAAGTCTGGGCCCAAACGCCCCCTCAAGGGTTTACAAAAAGGGTAGTTGGACTTTTGACCCATGGGGTTTGACGTTAATGTCTATTTGATCCTGAAGTTTAAAAAGACACTTTAGCTAATGAAGTTTCAAAAATAGTGGCATTTTGATTTGGCAAATTCTAAATGAGGGGTAATTTTTACTTATTTTTATTTTCTTTTTAATCCTAGGTGAAATTTTTTTCTCTAACTTTTTATTTCTTTCCCCCCTTTCATATTTCCACACCCATTCTCCTTTTATCTTTATTTTTCATGGCTTCTATGCAAACATTTAATCTTTGAACTTCAAACCCTCCACAAATTGCAACCAGGATTTGAAAAGTCCCTCAATTTCAGGCAAAGGAAACTAAGAAAGATGGAAATGTGTCTTAAGACACGAACTAAATTTTAAGTTGAATCATAGGCAAGTGTCTAAATTTCGAAGATGATTGGACTTGATTGTGCTATATGGATTTAGGATTTAAAGTTTAAAGATATAATTTTTTTTGCAGAGACGAAGCCTCGAAAGATAAAGAATAAGAGAGGAGTGGGTATGGCACGAAGAATCGGCAAAAATAAAAGAAAAAATTGAAAGAGGTTGGCTCAACCAAAAACCCACTTGTTTATTTTCTCCTTTTGGATGGTTCGAGAAGCAAAAAGCACCACCTTACCAAGTTCTTCAATTTTCTTTCCAGATCTTAGTTTTTTGTTCTCCCATATTTTTTTGCTCTCCTTTTCTTTTCATGTCTTTTAATAGTCCTCTTAATGTTGGGTGTAGGGCGTACATGTAGAAGGATCTTTTGGGCATATCTCTGAAAGATAGGTTCTTCTCCTATGTTACAGAAAGATGAATGATGAGGGGAGAGAGAAATTTGAAAGAGAAAAGAAAGGTAAAACTGAAAGGTAGAAAGGAAAGAGGAACGAAATTATCCACCTCATTTGGAAAAAAAATATAAAAATAAAAGAGAATTCACTTAAGGATCATTTTGAAGCATTTTTCAAACCTCAGGAACCAAAGTGTCTTTTTAAACTTTAGGGAAATAGACATAAACATAAAACCTCAGGGACCAAAAGTGTATTTTGCCCTAATTTTAAAAGCACTTAGATCAACAATCATTTAGGGCATGTTTGGTAAAGAATCTAAATTCTCCATTATGTTTTTAAATTCACTAAGTTTAAGGAATACATGTTTGACAGATTTCTAAAAGTTGTTTTTGAATTATGTGATCCCAGCCATACAAATTTTGAAAATAACAATTTTGGGGCCGTTTGGGAGAGAGTTTATGGGGGATAAGGATTGAGCTAAATACTCAATTCTTGTTTGGCCCTAGTGTTATAATATATAGGGGATTAGGGTTATCCTAATCTCCTAACACTCCTCAATCTCCCCCATCACACTTCTCCATAACACCCATCACACTTTTATTATAACACTACCTAACATAACCCTCCCCCAAACGCATATTATCATAACATTAGTTTTATAATAAAACTAGTTTTATCATAACACTAACCCTTCATAACCCTTCCCCCAAACACTTCCTTTATTGTTTG GCCACAAGCATCTTTGTCAGTTTAGAGACAGAATGAAATTTGCTGTGAAGGCATGGAACAACGGCAAGGCGCGCACTGGATTGCTGCACCTCGGTAACTGCCCTGCCGCCATTGACACTCCGGCGTTGCTTCTCTCTACTCGCAAAGGACTTCCTAATTTCATCTCTCCTGATCTTCTTCCCTCTCTTCCTTCCCCTGATTCTCACCTCCTCCAATTCAGTCCTCTTCACTTCTTGGAAGGTCCTTCATCGAAAACAATATCAACTATTGGAGGGCTTCAGAATTTACTTGGTTTACATGAATATGGATTTGCTGCAGTAGCGAGAGATTCTGTTCAGTGCCTTCCAGAATGTGATGCTACAAATAAATTTGGAGCATCTTTTGAAACAACTTGTGGTCGTCGTTTGATTAGACCTGTTGAGTACATTGAAATGATTTCATCCATGAAACCAGACATTTGGACATCCTTGGCTGATGAAGTGCCATCATCGGTTTCAGATAAAAGGAACAAAACATCAGTGGATCGAACAGTTAAATGGCTGGATGAGTGCATTGCATTGAACTCAACAGGTGGAGCTGTTTTTGGAGCTATTGTTGGAGGCAATGATCTTGAAGAACGCCAAAGATGTGCTGTGGAGGTCGTTAAGCGTAATGTATCAGGTTACTGGATTGGAGGTTTTGGGTTTGGAGAAAGTATGGACGAGCGTCCTTCCCTTCTTGATGCTGTTACGGATGTCTTACCAGAGGAAATGCCGCGTATGATCTGTGGGCTTGGACTTCCAGAGGAGATCTTGCAGGGCATTGCTGCTGGAGTTGATCTCTTTGACTCTGCGTACATATATCATTTAACCCTTGGAGGCTTTGCTCTCACCTTCCCACTTGATGGAATTGTGGAGAAACAGCCTGCCGCTCACCTGATAGACAATGCAACTGATATGACAAAGATTAACTTAAGAGCAACTGTTTATCGGAAAGATACATCACCAATTCTTGAGGGGTGTAATTGCTATACTTGCCTGAATCATACGAAGGCTTATATAAATCACTTGCTAAATGTCCGTGAAATGCTGGCTCAGATACTGCTAGAGATACACAATACTCATCATTATTTAGGATTCTTTCGATCAATCCGAGAAGCAATCGAGGTAGGCAAATTTCAGCAATTTCATCAGAAATTTGTTGAGGAGAGGCGCAATCATCTAGCATTGCCAACATCAGCACTCAGGTGTTGACGAGCTCATCAAACAAAGACGAAGCCTCGAAAGATAAAGAATAAGAGAGGAGTGGGTATGGCACGAAGAATCGGCAAAAATAAAAGAAAAAATTGAAAGAGGTTGGCTCAACCAAAAACCCACTTGTTTATTTTCTCCTTTTGGATGGTTCGAGAAGCAAAAAGCACCACCTTACCAAGTTCTTCAATTTTCTTTCCAGATCTTAGTTTTTTGTTCTCCCATATTTTTTTGCTCTCCTTTTCTTTTCATGTCTTTTAATAGTCCTCTTAATGTTGGGTGTAGGGCGTACATGTAGAAGGATCTTTTGGGCATATCTCTGAAAGATAGGTTCTTCTCCTATGTTACAGAAAGATGAATGATGAGGGGAGAGAGAAATTTGAAAGAGAAAAGAAAGGTAAAACTGAAAGGTAGAAAGGAAAGAGGAACGAAATTATCCACCTCATTTGGAAAAAAAATATAAAAATAAAAGAGAATTCACTTAAGGATCATTTTGAAGCATTTTTCAAACCTCAGGAACCAAAGTGTCTTTTTAAACTTTAGGGAAATAGACATAAACATAAAACCTCAGGGACCAAAAGTGTATTTTGCCCTAATTTTAAAAGCACTTAGATCAACAATCATTTAGGGCATGTTTGGTAAAGAATCTAAATTCTCCATTATGTTTTTAAATTCACTAAGTTTAAGGAATACATGTTTGACAGATTTCTAAAAGTTGTTTTTGAATTATGTGATCCCAGCCATACAAATTTTGAAAATAACAATTTTGGGGCCGTTTGGGAGAGAGTTTATGGGGGATAAGGATTGAGCTAAATACTCAATTCTTGTTTGGCCCTAGTGTTATAATATATAGGGGATTAGGGTTATCCTAATCTCCTAACACTCCTCAATCTCCCCCATCACACTTCTCCATAACACCCATCACACTTTTATTATAACACTACCTAACATAACCCTCCCCCAAACGCATATTATCATAACATTAGTTTTATAATAAAACTAGTTTTATCATAACACTAACCCTTCATAACCCTTCCCCCAAACACTTCCTTTATTGTTTG ATGAAATTTGCTGTGAAGGCATGGAACAACGGCAAGGCGCGCACTGGATTGCTGCACCTCGGTAACTGCCCTGCCGCCATTGACACTCCGGCGTTGCTTCTCTCTACTCGCAAAGGACTTCCTAATTTCATCTCTCCTGATCTTCTTCCCTCTCTTCCTTCCCCTGATTCTCACCTCCTCCAATTCAGTCCTCTTCACTTCTTGGAAGGTCCTTCATCGAAAACAATATCAACTATTGGAGGGCTTCAGAATTTACTTGGTTTACATGAATATGGATTTGCTGCAGTAGCGAGAGATTCTGTTCAGTGCCTTCCAGAATGTGATGCTACAAATAAATTTGGAGCATCTTTTGAAACAACTTGTGGTCGTCGTTTGATTAGACCTGTTGAGTACATTGAAATGATTTCATCCATGAAACCAGACATTTGGACATCCTTGGCTGATGAAGTGCCATCATCGGTTTCAGATAAAAGGAACAAAACATCAGTGGATCGAACAGTTAAATGGCTGGATGAGTGCATTGCATTGAACTCAACAGGTGGAGCTGTTTTTGGAGCTATTGTTGGAGGCAATGATCTTGAAGAACGCCAAAGATGTGCTGTGGAGGTCGTTAAGCGTAATGTATCAGGTTACTGGATTGGAGGTTTTGGGTTTGGAGAAAGTATGGACGAGCGTCCTTCCCTTCTTGATGCTGTTACGGATGTCTTACCAGAGGAAATGCCGCGTATGATCTGTGGGCTTGGACTTCCAGAGGAGATCTTGCAGGGCATTGCTGCTGGAGTTGATCTCTTTGACTCTGCGTACATATATCATTTAACCCTTGGAGGCTTTGCTCTCACCTTCCCACTTGATGGAATTGTGGAGAAACAGCCTGCCGCTCACCTGATAGACAATGCAACTGATATGACAAAGATTAACTTAAGAGCAACTGTTTATCGGAAAGATACATCACCAATTCTTGAGGGGTGTAATTGCTATACTTGCCTGAATCATACGAAGGCTTATATAAATCACTTGCTAAATGTCCGTGAAATGCTGGCTCAGATACTGCTAGAGATACACAATACTCATCATTATTTAGGATTCTTTCGATCAATCCGAGAAGCAATCGAGGTAGGCAAATTTCAGCAATTTCATCAGAAATTTGTTGAGGAGAGGCGCAATCATCTAGCATTGCCAACATCAGCACTCAGGTGTTGA MKFAVKAWNNGKARTGLLHLGNCPAAIDTPALLLSTRKGLPNFISPDLLPSLPSPDSHLLQFSPLHFLEGPSSKTISTIGGLQNLLGLHEYGFAAVARDSVQCLPECDATNKFGASFETTCGRRLIRPVEYIEMISSMKPDIWTSLADEVPSSVSDKRNKTSVDRTVKWLDECIALNSTGGAVFGAIVGGNDLEERQRCAVEVVKRNVSGYWIGGFGFGESMDERPSLLDAVTDVLPEEMPRMICGLGLPEEILQGIAAGVDLFDSAYIYHLTLGGFALTFPLDGIVEKQPAAHLIDNATDMTKINLRATVYRKDTSPILEGCNCYTCLNHTKAYINHLLNVREMLAQILLEIHNTHHYLGFFRSIREAIEVGKFQQFHQKFVEERRNHLALPTSALRC Homology
BLAST of PI0011839 vs. ExPASy Swiss-Prot
Match: Q28DX0 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Xenopus tropicalis OX=8364 GN=qtrt2 PE=2 SV=1) HSP 1 Score: 198.0 bits (502), Expect = 2.1e-49 Identity = 145/416 (34.86%), Postives = 209/416 (50.24%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy Swiss-Prot
Match: B8ZXI1 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Mus musculus OX=10090 GN=Qtrt2 PE=1 SV=2) HSP 1 Score: 191.0 bits (484), Expect = 2.5e-47 Identity = 141/416 (33.89%), Postives = 205/416 (49.28%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy Swiss-Prot
Match: Q6DF96 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Xenopus laevis OX=8355 GN=qtrt2 PE=2 SV=1) HSP 1 Score: 191.0 bits (484), Expect = 2.5e-47 Identity = 140/408 (34.31%), Postives = 203/408 (49.75%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy Swiss-Prot
Match: Q7ZVJ6 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Danio rerio OX=7955 GN=qtrt2 PE=2 SV=2) HSP 1 Score: 189.1 bits (479), Expect = 9.5e-47 Identity = 115/337 (34.12%), Postives = 180/337 (53.41%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy Swiss-Prot
Match: Q5R998 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Pongo abelii OX=9601 GN=QTRT2 PE=2 SV=1) HSP 1 Score: 188.7 bits (478), Expect = 1.2e-46 Identity = 136/424 (32.08%), Postives = 205/424 (48.35%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy TrEMBL
Match: A0A1S3B3I7 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Cucumis melo OX=3656 GN=LOC103485379 PE=3 SV=1) HSP 1 Score: 783.9 bits (2023), Expect = 3.2e-223 Identity = 380/399 (95.24%), Postives = 387/399 (96.99%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy TrEMBL
Match: A0A6J1DE50 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Momordica charantia OX=3673 GN=LOC111020219 PE=3 SV=1) HSP 1 Score: 738.4 bits (1905), Expect = 1.6e-209 Identity = 355/397 (89.42%), Postives = 374/397 (94.21%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy TrEMBL
Match: A0A6J1JNK0 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Cucurbita maxima OX=3661 GN=LOC111487476 PE=3 SV=1) HSP 1 Score: 732.3 bits (1889), Expect = 1.1e-207 Identity = 351/397 (88.41%), Postives = 376/397 (94.71%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy TrEMBL
Match: A0A6J1HIG1 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Cucurbita moschata OX=3662 GN=LOC111464336 PE=3 SV=1) HSP 1 Score: 731.1 bits (1886), Expect = 2.5e-207 Identity = 350/397 (88.16%), Postives = 375/397 (94.46%), Query Frame = 0
BLAST of PI0011839 vs. ExPASy TrEMBL
Match: A0A5A7T128 (Queuine tRNA-ribosyltransferase accessory subunit 2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold453G00430 PE=3 SV=1) HSP 1 Score: 695.3 bits (1793), Expect = 1.5e-196 Identity = 337/354 (95.20%), Postives = 345/354 (97.46%), Query Frame = 0
BLAST of PI0011839 vs. NCBI nr
Match: XP_008441158.1 (PREDICTED: queuine tRNA-ribosyltransferase subunit qtrtd1-like [Cucumis melo]) HSP 1 Score: 783.9 bits (2023), Expect = 6.7e-223 Identity = 380/399 (95.24%), Postives = 387/399 (96.99%), Query Frame = 0
BLAST of PI0011839 vs. NCBI nr
Match: XP_004138668.1 (queuine tRNA-ribosyltransferase accessory subunit 2 [Cucumis sativus] >KGN63275.2 hypothetical protein Csa_022389 [Cucumis sativus]) HSP 1 Score: 775.8 bits (2002), Expect = 1.8e-220 Identity = 378/397 (95.21%), Postives = 387/397 (97.48%), Query Frame = 0
BLAST of PI0011839 vs. NCBI nr
Match: XP_038885042.1 (queuine tRNA-ribosyltransferase accessory subunit 2-like [Benincasa hispida]) HSP 1 Score: 763.5 bits (1970), Expect = 9.4e-217 Identity = 370/399 (92.73%), Postives = 381/399 (95.49%), Query Frame = 0
BLAST of PI0011839 vs. NCBI nr
Match: XP_022152510.1 (queuine tRNA-ribosyltransferase accessory subunit 2-like [Momordica charantia]) HSP 1 Score: 738.4 bits (1905), Expect = 3.2e-209 Identity = 355/397 (89.42%), Postives = 374/397 (94.21%), Query Frame = 0
BLAST of PI0011839 vs. NCBI nr
Match: KAG6602735.1 (Queuine tRNA-ribosyltransferase accessory subunit 2, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 733.8 bits (1893), Expect = 7.9e-208 Identity = 352/397 (88.66%), Postives = 376/397 (94.71%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) 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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