MELO3C012378.jh1.t1 (mRNA) Melon (Harukei-3) v1.41
Overview
Sequences
The following sequences are available for this feature:
Legend: exonpolypeptideCDSstart_codonstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.TACCTGCTTTAGAGCTCTGCTGATTTTGCTTCATCGTGCACCGGCGACCGATCGCATCGGCCATGAACTGTCTTCAAAACCTTTCAATGTCAGTTCTCAAACTGAAATCATCTTCTTCTACTTGCGATTCATTCAAATATTTTCTTACAGTTTTCTTTCCTCTCTGTATCTCAGATCATCTTCTCTTCCCTTCCGGAGCTTCAAATGCCGACAGAGAAAGCCTGAATTCCAGCTCTCTAACCTGGTACTCTCTTCGCGCCACATTATAATTCTGCACTTTATATACTCAGTCTCCCTGTGTTTTTTTTTTTTTTGGCATCGAACGTTAAACAGATTGTTTCGATTGATACAGGTGATAAGGAACTTTACTGATCTACATCGACGTTCTTCCATGAAGGTAACTAACGATAATTTGTGATAATGAGAATTCATGAAATATTGTTGTATCGCGATCGATTTTTTAGTTTCGTCATCGTGAGTGATTTTTTTCTTCAATCAGTTTACCGATCGAAATTTTAGCTATGTTTGAGGCTTTGCGTGGTTATGATTTTTTATATGTTTTGTATAATACCTCAATTTCGGAAATGGAGAAAGTCTTGCAGCAAATAAGTCTGTTCAGTGATCTGTAGTTTTGGTGGCTATAGGTCACTGGTAGTTATAAGCAACAATCGTTTGAAATGATTACTTGTTGTCTGTAGGCAGTGTCTGGTTCTACATCAAGTGCCGAAACGAGTGGTACAGAAGTGGACGATGCCGAGGAAAAGGAGGAAAAATCTGAAATATATAGCCATAACATGACAGAAGCTATGGGTGCTGGTAAGAACCATCATCTTTCGACTCTCCTTTGAACTGGAAAATAACTGCGCTGCTGCGAACATTTCATAAATAAATTTATTCAGATTTCGGAAATCTTTTAATAAGAAAGTAACTATAAATTTGTTACAATTTAGAGAAATAAATTGAATTTTGTATTTGTCCTGCTTAAAATTTGAGTTTAGAGATGTGAATATTCGCTGATTGCTTGGATTAATCTGCCAGTGTTTTTTTACCATAAAGCTACCTTAAAGTGCTTCTTACTAAGTCGTTATTCGTTAGTTATCTAATCTGATCCCCTTTTTGATCTTTATGATACAGTATTGACATATAGGCATGAGCTGGGAATGAACTACAACTTCATTCGTCCAGATTTAATTGTAGGATCATGCCTACAGGTGATGATTGTTCTTGACATTTTTCATCTTGCAAGTTTTTATGCACCAACTCCCTTAACAATTTCATTCTATTTCTACTAATGTCAGACTCCAGAAGATGTTGACAAGCTCCGCAGCATTGGAGTAAGAACAATTTTCTGCTTGCAGCAAGATCCAGATTTAGAGTATCCAAATTTCATTTCTGTTAATATCTTCTTTCATAAATTTCATTTAATTCATGTACTCTATTTTTTTTTATTTTCTTATTTTTTATTCAATAATTAATATTTGAGAAATTCCAATATTTCACAAAAGTAGAGTTTGATCAATAAAGTGAAAACTGCTGAATTCCTTTCACTGTATCGGAAAGATATTTTGGGGTTGACATTGGTGCTATAATAGCATATACAAAGACGTTTGATGATATTGAACATTTGCGAGCTCAGATAAGGTTAGTAGGTGTTTGTTATCTAAGTCCTCAATATATAATGAACTGTGCTTCGATAGAAAGCTATAAATCTGTGAAGTATATAACTGCAATTTTAAACTCTTGCAAGATAATACTAGAGTAGCATTATGTTGGTAAAGCATTTGAATAAGTTAAGTAATGCAACAGGCAGTTTTATTTGTATATTTGGAGAATACCAATTTTAGTCCGATAATTTGAAGTACTGACTAATATGCAATTTTTTTTTCACAAAGTTCAAACCATTTCCTCATCTAGCCTGAAAAATTCTTTTAATATCATTTCGTCGAACTTTTTCACTTGAATGTTATCTTAATTAAATGAAAGAAATATTAAATTCTGATCTACACACTTGTGGGGAATTGATATCTTGAGTTAGACCCAGCTTTTTAACTGTTTCTACCTTGTTATGCCCAGCAAATTTATTCACTCAATCTCATGCAAACATGAGCAATGCATATGCATGATTGTATTTTTAAGCATGCGAGATTTGCTTTCTACATTGGCCAGCTAAGTTTTGATGCAACAGGGATTTTGATGCATTCGACCTACGACTAAGATTACCAGCTGTTGTAAGCAAATTACATAAAGCCATAAACCGAAATGGTGGAGTGGCTTACATACATTGCACTGCTGGACTTGGAAGAGCTCCCGCTGTTGCGGTATGCGCATAAGCATGCTTCTAAAAATAAGTTTCTCTACTGTACAAATTATTTGCTTTGAAATATAATGAAGTTTAACTGAGTATAATAGTGCACGAAAAATAGAAACTCTCCTGAAAAAGGCTTGATTTTATTGTGCTGTTTCATACCTCGCTTCACTTATTTTTCTTGTATAGATAAACGTACTTGTGCAGTTATTTGTCTTATTTTTGTTTTCTCGAGTCTTTCTGCTCCTACTTGGTCTGTCTGCTCTCTTCTTCGTCATGCTAATATTTTGGCTATTTCCTGATATTTCTACATTTTTCTTTTACTTCCTGAGGATGTATTCTGGTGTATGGAACACATTAAAGCTTGAAATAAATTTCTGGTTTTTGTTGGAGATGTTTGAGATACTCAGGTCCAGTAAGACAACGTCTTTGGTTGACAGTTGTTAAATAACATCCAATGCACATTTTTCTGTTCTGTTTAGACTATGAACAGTGAATCGCATTTGCTTCCAATGTTTTTAGCTTTATGCCAAGTATATTTGCTTTCTTTGTTTTGCCCTAATATTGTTTGTGTGTGCGTGTGGGCTCCTGAGAATTTCTATTTCACATTAGCATTTTGTGGAAATTTTTTGTTAATCTTATATTCATCTTAGTTTATCTTCAGTAAATCTTATTTATTGATAATTATGTTGATTAACTCTTGCCAACTTTGAAATGTCTTATTTAAAGATGGCGTATATGTTTTGGGTTCAAGGCTACAAACTCAATGAGGCGCTAGAATTACTGCTGGTAACATCCACTACACTCCTCATATATAGTGCAGAAGTATGAAAAAAGAAAATTATTTTAAATGACAAAATTTCTAAAAATATTTACAAATATAACAATATATCACAATTTACATGTGATAGACAGAGATAGACTACTAGTCTACTAGACATAGATAGTAATCTATCCCTGTCCATTGTACATAGACTATGATATTTTGCTATATTTTGTAAATGTTTGGTTTATTTTGCTATATTTGAAAATAACTCTATGAGAAACTTATATGTAGGTTAGATTTAATCTGCTTTTTCTGTTGCTATATATATGAAATGGAAATATAGGACTTCGGAAACATTACATATGTTTTGTTTAAACAAAAAATACTACGTTTCTTAAATTGGAAAACTGATCTCTGATTGAGAAAATTGAAAGATTACAAAAGGAACCAAAGAAAAGCGTTCTCCTTTAAAAGTTCTAAAAGAATAGCGTTTTCTTTTAGAAGTTTTAATTTTTTAATACTGTTCTGTATCGTAAATGAACAAAACATATTTTTTGTAGCATTCTCTAATTCCAAATACTTGGTAGTCCTTTTTCCCCTGCCTTCTGCAGATCTTTTATGTTATGATACGATCACATTCTCCCATTTAAAGTATGTGTCCATGATTTAGAAACAAACATTTTCATTTATTAAAGAGCAGTGAATGCAAAAGTTTATTACATCCGTCATGGCTTGTGACTTAGAATACCAGGAGGATAAGTACTGATCTAAAGCTATCGGTTTCTAAATTTCTAATGTTGCTAAGTGTACTTGGATTTGCTTTCTTGCAGAGCAAACGCTCATGCTTCCCAAAAATAGATGCTATTAAAAGTGCAACTGCCGACATAGTAAGTATTTATATTTTATGATTTATTTAAATGTTAGTTTTGGTCACTTGGGTTTCTTATCCCAAATCTTAATATGCATTGCTTTTCTAGCTAATTGAGCTCTGTGGGTTAGTTCTTTGGCTGGCTTTGTAACTTGTCCTGTAATTTTAATTTTGACATATTTTCAGCATTTTAATTAAGCAGGGAGAAGAGTTATTAATTAATCTATGTTGAATTTATTTTTTTTCATCTAAGAGGTGCGAGAAGATTGGTTACTGTGAAGTAGTGAAGGGAAGAGGCTGATTATGAACCTAAGTTCCATTCTTCGCGAGTTACAACTTAGATACTAGTAATTGTAGTTACCTGAACAGGCATCACTGAAATAAACGGATATAATTTATGAATTATGAAGATATATACACACACACATACATATATATATATTTATGAATTATCATCTTTTGCTTATTACGTGTTACAAAGGTGATTCACTGGTTTATTTTAATTGAAGCTTTCAGGATTTAAAAAGAAGCCTGTTGCTTTATCTTGGGAAGATGACCAATGCTCAACTGTAGAAGTAGCTGGACTTGATATTGGATGGGGCCAGGTAACACTTTCTTTCTTTCCTAATAATTCTTTTGATTGCACTTCCCTGAATGCTTGATTTAGTTTTGGAAAACAGTATACTTTTCTTTCTAATGGTTTTCAAAAGCTTTGGATTTCTCTTTAATACTTTGCTCCGCTTTTATAACCATTTTCAAGTCCCAAATGGTTAATGTTTTTGAAATTCGGCTATGGATTCAAAAGTTTCATTAGGAAAACCAAAACTACAATAGCAAGAAAATCGTAAGAAACAAACACAATTTTAAAAGAATCAAAAGGCAATCGGAAGGGGGCTTACACAAGTCAGTTTTTGCTTCCATAATTATCGTAGTAAGGTTGATTTTTGTTTCAGGGTCGATTTGGATGGACTTGAAAGAATTTTTTTTTCAAGAAACTCATTTTCATGAAAGTTGTTTAAAATATACTTAAAAATATAGTTTTGACTAGCTTTCAAATACTCTAATCTTTTTCAAAATGACTTATTATTTAAATTAAACACTTGAAAATGTAATCTAGTATCTTATAGATTTTTTATATTAATAAGCCTTACTGGTCAATAAGTTGGCCATTCAACACAGTTTATTTGCGGTCGAATTGACCAAATTATAGGTTCGACTTTTGAATCACTTGTCCTAAACATGAAAATTCTCAAGCAAAAGAACTAAAAATTGTTAAAATTATTCTGTATCTAAAACATCTCCTCTCTTCGGTTGGAAGGTGGTTAGAAACGGATGGTAGTAGAATGTTGATTGTGAATTTATGCTGAAATGGAAGTAGTTTAGAATCATTATTAGAGATAAGCTGAACGATTCAATATCTTATATCCGTTGCTTTGCTCGATTCCACAATCTAATTAATTAGAGACTAAAAAAGTTTAGCGTGTATTGTCGACACATTTTAGAATTTATCAATACATTATTACAGTTAAGAAATTGTATTTATTGTTTAATCGATCTATGGAAAACTTTTCTTCCAGAGGATTCCATTAAAATTCGACGAGGCACGAGGTGCATGGATTCTCAATAGGGAACTCGCGGTATGTCAATTATAATTTTTAATTATTTCATTGCACTAGTCAAAATTTTATGAGATACTAGAGATTGAATGTCTAATTTTACGGTGACAAATACGTGCCAATTATCAACGAGTTATGACATGTTTGGAGTAATTTGGATTCCGAACCCATGCTTTGATGGTATTAAAAATTGGGATAATTACAGATATAATAATTATATTAAAAATAATTAAAAATATAATAACATTTTAAAAAATTGTAAATATAATAAAATCTGTCAATATCTATCAATGATAGATATTTATCAGCTATAGAAGTTTATCACTAATATATTTTGCTATGTTTGTAATTTTTTAAAAATATAGTTACATACTTAATAATTATTTTAAAAATCGTTATTCTTCATAATTATCCTTAAATTTTACCTGTGTTTTGGATTAATTTAGAACATAACAGAAGAGAGGAGATTCTAACTATTGAAAGTCATGCTGAAAATAAAGTTGAGAATTATGATGGATTTATTTGTTTATGATATAACAGGAAGGACGATATGAATACAAGTACATTATCGATGGTGTATGGACGTGCAACGAAAACGAGCTTGTCACTCCACCAAACAAAGATGGCCACATCAACAATTTCATTGAAGTAACAATCTAAAAAATCATTTCAATCTTATAAATGAAATAATACCAACTTAGTTTCCCAATTAATTAATTATTATTATTATTAAAAGGTTTTTTTTTCAAAAATATAAAAAATTGACAAACTATTTACCTAAACAAAACCATAAAAGACAAAAGTTCATTACACTTTATTTTTATATAAAAGTGTAAATATTTTGTTAAATATATATTTTTAAAAAATTTTCTGGTTAAAATTAATATTATGTTTTTGTTATTAGGTTGTTGAAGATGAGGATCCAGGCAGTGATAGAGCAATTCTTCGAAGAAGGTTAACTGGAGATGAACCAGAACTCACGGCTGAAGAAAGAAGCAAAATAAGGCAATTTCTTGAAGCTTGTCCAGATGAAATTTGAATGAAGGTATGTTACATTCCAATATTCTCTAGATTTGTATTAATATATATATAATATTGTTCTGATAAAGATATCATAGGGAAAAATGATATGTAATCAAAATCTAATAATAGTAGCAGAGTCAATAAAGAGAACCAAGTAATAAAATTGGATTTGATTCTGTTGCACGATCGCTATGATTCGTCACAAAACATTGAGAATAATTTGACAACATTAGGGCTTATAAAAACATGTTTTTAAATATATTAAAATGAATTAAAATATTTATAAATATAACAAAATCTTAGAATCTATCCACGATTGTTACTAATAACTTTTGTTAAAATGGTTGTAATAAACTAATAATAAATGAAGAATCAAAACAACACAAGTGTTTATTCATTTACGTTGGATTGTTGTAATTTACATTCAAATCTATCGTTGTTTCTTCAGTATATGTTTAACGTTGTATTTTACTTTTTAACATTTCATCTCTAACCTAATTATACTACAAAAGGAAGTCGCTAAAATAAGAGGCTTATAACCCTAATTTTCTAAGACTAAAAATTAAAGGTAGATATCAAACAAGTGAATATATTCGATGGTGTTGACTAACTAAAAACATTGGAGTGTTAAACTCGCAATCATAAATTTGAATGGCTAGAACAATATTATACTAAAAGGAAAGAAGAGCAAAGGACTCATTTGATACCTAAAAAATGTTTTTTTTTTAATAAAAATAATTTGTTTTGGATTAAATACTTTATCCTTAATTTATACACTTTCTATCCTACTAGTCTCTCACACAAATTTTCTTAAGTTTTTCTAAATACGCTCTCGCTGGTTAGGTTTTTGTTAATTTGATGAGCACTCCTAATCCTAATAATGAATAGAAAATATTTCAAATTTTTTTTTCTGTTTTTAGAGTATTGTTTTTAAAAACAAAAATAAAATATATGTTTGGTAACTAATTTTATTTTTGTTTTAAAAAATAAAAAGTATTTTTCTGGAACTTTTTTATTTCGTTTTCAATTTTTTTCATAATTTTAGAAATAAATGTCTTTAAAAAACAAAAAGATGAATCAGTTACCCGATGCATCTGTTTTCTTTTAAATTAATCTTTAAAAACAAAATCAGAAAATAAATAAGTTACAAAAAGGGTTCTAATTCAGTCCCTAGATAAATTTTTTTTAGGGATATGCAGCAAGCCAAATTTCATTATATCCTCTCATAAATTCGATAAAATCTAGAAGATGTGTAACGATGGTTGAGTTCTAAATTGGACGCAGAAAAAAAATGTTTTGATTACAGATATTATATACATCATCCAAAGAACACATGTAATTGCTAATTATTATGGAAAAGAGGTTGAAAGAAAGTGACGTACTTGAATTGACGATTCTTCTACTCATATATTCACAACAGATTCCTATCTACAATCTGCAGCAATCCGTTAGAAAGAACCACCAAATATCGCGTCAATTAAAAAAAATCCCAATTTTAAATATTTAAATCAAGAAGAATGAAATGAAAATGAAAAGAGATGAAGATCTCAAGAACATAAAACTGACCGTTTTTAGTGCAAGAGATTTATTTAGTTGACTATGTCTTATTCTCCAAGTGGCTTTTGCTTGTGTTCATGACTTGGTTTCTTCTCTCTGGAAATTCTCCTCTTTTCCATTTTCTGGCTATACCTTTTTTCTTCCTCTTCCATTTCATAAACCCCTTCCCTAAACACTTCTCCTGTCGATGGCCACAACCACGTACTCGGTGTCGGGCGATCGCCATCGTTGGCAGCTTCAGCCAAATCTGCATCCATGGCTTTCAACAATGTGATGTTAAAGAATCTAGACCACATGAAGTCCTGACGTTCTTCAAGTGGATGCTGCTCTTCTAGTGCACCCGAACGTGGATTTAAGTAAACCATTCTACGCCCACTATGGTACGCCCATACATTTATCAGGATTTCCAACATCCGACAATAGCACTGCCTTCTCTGCGGATTAAAACAAAAGCACGTACGTTCAGAATTTCAAATTTGTTTACTTACTTCCCTTTTGTAACATATTTACAAAGCTTTCATTTAAGAAAGTGTTTTTTAAAAATTCTAAGAATAGATTAAAAAAAAAACAGTTAAAATGCTGCTTCTAGAAGAAATGTTTCAAAAACTATTTGGTCTTATGAACTTTAAACTTTCAATTTTGTATCTAAAGTAAAACTTCCAAACTGCACCATAGAAGTAGTCTCCTGGAGAGAAATAGGAAGGATACTTACCTCTAGCCCTGAAGAAGCCAAGAAACATTCGTTGTCATCACCAAGGTTCCTGTTCACGACATCTATGGAATCAACAAACATCCTGCAGCTCAAATACGAAATTTTCGGTCATTATTCAAGCCAAGCAGAGATAGAGGCTATGTTGAGAGATATATGTTTTCTTTTTCTTTTTTCTTTTTGTGATAAGAGATAAATGAGTTCTACTTCTGATATATATATAATGTGAGCTCTTACCTGGAAAACATGATAAACTCCAAAAATGTAGGGGTTGGCATCACCCAACTATGCAGAGAAGACCAGAGATCGCCATCATCAGGCATTGGAGGAAGAGCTTCCAAATGTGATGGTGGTAGTCCATACATATGCCTAAAGGCATCTTTAAATGTAGAACTGTATGGATGTATGGATGTAATTTTAAGTGAGAATATCTTTAAAGTTGCATCCGTTAATATATAATTTTAACATCTAATGCAAAATTTGGAAGTTGATGTAGTATCGATATGAATTCAACCCTATCTATACATGGTATCGATTCA TACCTGCTTTAGAGCTCTGCTGATTTTGCTTCATCGTGCACCGGCGACCGATCGCATCGGCCATGAACTGTCTTCAAAACCTTTCAATATCATCTTCTCTTCCCTTCCGGAGCTTCAAATGCCGACAGAGAAAGCCTGAATTCCAGCTCTCTAACCTGGTGATAAGGAACTTTACTGATCTACATCGACGTTCTTCCATGAAGGCAGTGTCTGGTTCTACATCAAGTGCCGAAACGAGTGGTACAGAAGTGGACGATGCCGAGGAAAAGGAGGAAAAATCTGAAATATATAGCCATAACATGACAGAAGCTATGGGTGCTGTATTGACATATAGGCATGAGCTGGGAATGAACTACAACTTCATTCGTCCAGATTTAATTGTAGGATCATGCCTACAGACTCCAGAAGATGTTGACAAGCTCCGCAGCATTGGAGTAAGAACAATTTTCTGCTTGCAGCAAGATCCAGATTTAGAATATTTTGGGGTTGACATTGGTGCTATAATAGCATATACAAAGACGTTTGATGATATTGAACATTTGCGAGCTCAGATAAGGGATTTTGATGCATTCGACCTACGACTAAGATTACCAGCTGTTGTAAGCAAATTACATAAAGCCATAAACCGAAATGGTGGAGTGGCTTACATACATTGCACTGCTGGACTTGGAAGAGCTCCCGCTGTTGCGATGGCGTATATGTTTTGGGTTCAAGGCTACAAACTCAATGAGGCGCTAGAATTACTGCTGAGCAAACGCTCATGCTTCCCAAAAATAGATGCTATTAAAAGTGCAACTGCCGACATACTTTCAGGATTTAAAAAGAAGCCTGTTGCTTTATCTTGGGAAGATGACCAATGCTCAACTGTAGAAGTAGCTGGACTTGATATTGGATGGGGCCAGAGGATTCCATTAAAATTCGACGAGGCACGAGGTGCATGGATTCTCAATAGGGAACTCGCGGAAGGACGATATGAATACAAGTACATTATCGATGGTGTATGGACGTGCAACGAAAACGAGCTTGTCACTCCACCAAACAAAGATGGCCACATCAACAATTTCATTGAAGTTGTTGAAGATGAGGATCCAGGCAGTGATAGAGCAATTCTTCGAAGAAGGTTAACTGGAGATGAACCAGAACTCACGGCTGAAGAAAGAAGCAAAATAAGGCAATTTCTTGAAGCTTGTCCAGATGAAATTTGAATGAAGGGGTTGGCATCACCCAACTATGCAGAGAAGACCAGAGATCGCCATCATCAGGCATTGGAGGAAGAGCTTCCAAATGTGATGGTGGTAGTCCATACATATGCCTAAAGGCATCTTTAAATGTAGAACTGTATGGATGTATGGATGTAATTTTAAGTGAGAATATCTTTAAAGTTGCATCCGTTAATATATAATTTTAACATCTAATGCAAAATTTGGAAGTTGATGTAGTATCGATATGAATTCAACCCTATCTATACATGGTATCGATTCA ATGAACTGTCTTCAAAACCTTTCAATATCATCTTCTCTTCCCTTCCGGAGCTTCAAATGCCGACAGAGAAAGCCTGAATTCCAGCTCTCTAACCTGGTGATAAGGAACTTTACTGATCTACATCGACGTTCTTCCATGAAGGCAGTGTCTGGTTCTACATCAAGTGCCGAAACGAGTGGTACAGAAGTGGACGATGCCGAGGAAAAGGAGGAAAAATCTGAAATATATAGCCATAACATGACAGAAGCTATGGGTGCTGTATTGACATATAGGCATGAGCTGGGAATGAACTACAACTTCATTCGTCCAGATTTAATTGTAGGATCATGCCTACAGACTCCAGAAGATGTTGACAAGCTCCGCAGCATTGGAGTAAGAACAATTTTCTGCTTGCAGCAAGATCCAGATTTAGAATATTTTGGGGTTGACATTGGTGCTATAATAGCATATACAAAGACGTTTGATGATATTGAACATTTGCGAGCTCAGATAAGGGATTTTGATGCATTCGACCTACGACTAAGATTACCAGCTGTTGTAAGCAAATTACATAAAGCCATAAACCGAAATGGTGGAGTGGCTTACATACATTGCACTGCTGGACTTGGAAGAGCTCCCGCTGTTGCGATGGCGTATATGTTTTGGGTTCAAGGCTACAAACTCAATGAGGCGCTAGAATTACTGCTGAGCAAACGCTCATGCTTCCCAAAAATAGATGCTATTAAAAGTGCAACTGCCGACATACTTTCAGGATTTAAAAAGAAGCCTGTTGCTTTATCTTGGGAAGATGACCAATGCTCAACTGTAGAAGTAGCTGGACTTGATATTGGATGGGGCCAGAGGATTCCATTAAAATTCGACGAGGCACGAGGTGCATGGATTCTCAATAGGGAACTCGCGGAAGGACGATATGAATACAAGTACATTATCGATGGTGTATGGACGTGCAACGAAAACGAGCTTGTCACTCCACCAAACAAAGATGGCCACATCAACAATTTCATTGAAGTTGTTGAAGATGAGGATCCAGGCAGTGATAGAGCAATTCTTCGAAGAAGGTTAACTGGAGATGAACCAGAACTCACGGCTGAAGAAAGAAGCAAAATAAGGCAATTTCTTGAAGCTTGTCCAGATGAAATTTGA MNCLQNLSISSSLPFRSFKCRQRKPEFQLSNLVIRNFTDLHRRSSMKAVSGSTSSAETSGTEVDDAEEKEEKSEIYSHNMTEAMGAVLTYRHELGMNYNFIRPDLIVGSCLQTPEDVDKLRSIGVRTIFCLQQDPDLEYFGVDIGAIIAYTKTFDDIEHLRAQIRDFDAFDLRLRLPAVVSKLHKAINRNGGVAYIHCTAGLGRAPAVAMAYMFWVQGYKLNEALELLLSKRSCFPKIDAIKSATADILSGFKKKPVALSWEDDQCSTVEVAGLDIGWGQRIPLKFDEARGAWILNRELAEGRYEYKYIIDGVWTCNENELVTPPNKDGHINNFIEVVEDEDPGSDRAILRRRLTGDEPELTAEERSKIRQFLEACPDEI Homology
BLAST of MELO3C012378.jh1.t1 vs. NCBI nr
Match: XP_008446798.1 (PREDICTED: phosphoglucan phosphatase DSP4, amyloplastic [Cucumis melo] >XP_008446799.1 PREDICTED: phosphoglucan phosphatase DSP4, amyloplastic [Cucumis melo]) HSP 1 Score: 764 bits (1974), Expect = 8.97e-279 Identity = 380/380 (100.00%), Postives = 380/380 (100.00%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. NCBI nr
Match: XP_004142448.1 (phosphoglucan phosphatase DSP4, amyloplastic [Cucumis sativus] >KGN52220.1 hypothetical protein Csa_008351 [Cucumis sativus]) HSP 1 Score: 742 bits (1916), Expect = 6.22e-270 Identity = 364/380 (95.79%), Postives = 375/380 (98.68%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. NCBI nr
Match: XP_038893198.1 (phosphoglucan phosphatase DSP4, amyloplastic [Benincasa hispida]) HSP 1 Score: 732 bits (1889), Expect = 8.11e-266 Identity = 358/379 (94.46%), Postives = 369/379 (97.36%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. NCBI nr
Match: XP_022993330.1 (phosphoglucan phosphatase DSP4, amyloplastic-like [Cucurbita maxima]) HSP 1 Score: 716 bits (1848), Expect = 1.44e-259 Identity = 354/379 (93.40%), Postives = 362/379 (95.51%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. NCBI nr
Match: KAG6601200.1 (Phosphoglucan phosphatase DSP4, amyloplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 716 bits (1847), Expect = 2.04e-259 Identity = 353/379 (93.14%), Postives = 362/379 (95.51%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy Swiss-Prot
Match: G4LTX4 (Phosphoglucan phosphatase DSP4, amyloplastic OS=Castanea sativa OX=21020 GN=DSP4 PE=1 SV=1) HSP 1 Score: 552.4 bits (1422), Expect = 4.1e-156 Identity = 271/379 (71.50%), Postives = 318/379 (83.91%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy Swiss-Prot
Match: Q9FEB5 (Phosphoglucan phosphatase DSP4, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DSP4 PE=1 SV=1) HSP 1 Score: 474.6 bits (1220), Expect = 1.1e-132 Identity = 243/383 (63.45%), Postives = 284/383 (74.15%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy Swiss-Prot
Match: Q9SRK5 (Phosphoglucan phosphatase LSF2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=LSF2 PE=1 SV=1) HSP 1 Score: 156.4 bits (394), Expect = 6.5e-37 Identity = 92/220 (41.82%), Postives = 127/220 (57.73%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy Swiss-Prot
Match: F4J117 (Phosphoglucan phosphatase LSF1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=LSF1 PE=1 SV=1) HSP 1 Score: 124.4 bits (311), Expect = 2.8e-27 Identity = 80/261 (30.65%), Postives = 125/261 (47.89%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy Swiss-Prot
Match: O95278 (Laforin OS=Homo sapiens OX=9606 GN=EPM2A PE=1 SV=2) HSP 1 Score: 51.6 bits (122), Expect = 2.3e-05 Identity = 42/170 (24.71%), Postives = 75/170 (44.12%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy TrEMBL
Match: A0A1S3BGR5 (phosphoglucan phosphatase DSP4, amyloplastic OS=Cucumis melo OX=3656 GN=LOC103489419 PE=4 SV=1) HSP 1 Score: 764 bits (1974), Expect = 4.34e-279 Identity = 380/380 (100.00%), Postives = 380/380 (100.00%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy TrEMBL
Match: A0A0A0KRF8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G616890 PE=4 SV=1) HSP 1 Score: 742 bits (1916), Expect = 3.01e-270 Identity = 364/380 (95.79%), Postives = 375/380 (98.68%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy TrEMBL
Match: A0A6J1JY88 (phosphoglucan phosphatase DSP4, amyloplastic-like OS=Cucurbita maxima OX=3661 GN=LOC111489369 PE=4 SV=1) HSP 1 Score: 716 bits (1848), Expect = 6.97e-260 Identity = 354/379 (93.40%), Postives = 362/379 (95.51%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy TrEMBL
Match: A0A6J1H0L3 (phosphoglucan phosphatase DSP4, amyloplastic-like OS=Cucurbita moschata OX=3662 GN=LOC111458925 PE=4 SV=1) HSP 1 Score: 710 bits (1833), Expect = 1.35e-257 Identity = 350/379 (92.35%), Postives = 360/379 (94.99%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. ExPASy TrEMBL
Match: A0A6J1CDF1 (phosphoglucan phosphatase DSP4, amyloplastic OS=Momordica charantia OX=3673 GN=LOC111010202 PE=4 SV=1) HSP 1 Score: 680 bits (1754), Expect = 1.41e-245 Identity = 337/379 (88.92%), Postives = 358/379 (94.46%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. TAIR 10
Match: AT3G52180.1 (dual specificity protein phosphatase (DsPTP1) family protein ) HSP 1 Score: 474.6 bits (1220), Expect = 7.7e-134 Identity = 243/383 (63.45%), Postives = 284/383 (74.15%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. TAIR 10
Match: AT3G52180.2 (dual specificity protein phosphatase (DsPTP1) family protein ) HSP 1 Score: 364.8 bits (935), Expect = 8.6e-101 Identity = 187/285 (65.61%), Postives = 217/285 (76.14%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. TAIR 10
Match: AT3G10940.1 (dual specificity protein phosphatase (DsPTP1) family protein ) HSP 1 Score: 156.4 bits (394), Expect = 4.6e-38 Identity = 92/220 (41.82%), Postives = 127/220 (57.73%), Query Frame = 0
BLAST of MELO3C012378.jh1.t1 vs. TAIR 10
Match: AT3G01510.1 (like SEX4 1 ) HSP 1 Score: 124.4 bits (311), Expect = 2.0e-28 Identity = 80/261 (30.65%), Postives = 125/261 (47.89%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following stop_codon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following start_codon feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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