![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
PI0023288 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGTTCCCGTTTCCACTTGTTGCTAATAATTCTCAGCCTAGTTTTGGCTCTCTCTTCCATTGGTTACTCGGCCCCGACGGAAGCCACGGCGGAGCAACAGGCAAATTCCACCTCCGGCCTCCACAACCCAGATGCCAAAGTAACATCACCTTCAAAAATATGGAAGAACCCTGGTTTGGGATACACCACTCTTATAAGACACGTAAGAACTGAAACATATATATGTATATATAAACCATTCATCAGTACAAACATATTTAGGTATCACTTATCTTTGTATGTCCATTAACTTGTCTAATCATAATCTATGATTTGACAATTTTTTTGTTACTTCTTTTTTTTAAAAAAATATTTCAAACATTTCGTTTACTTATTTTGTTCTCATAGATAAGCAATGTTTAACTCTTGTGGACTGCACTCCACTTTTTTACCAACCTAGTACCCTAATAATACATGTCATGTGACAAACTTATTGTTTAAAAACTAATGTATATATAAAAAAAAAAACCTTTGATTCTATAGCACTTGAAATTGTCACAACTATTTTTTTACCGTTATTTTCTGTCATTGAATCAAACATGGAGTAAAAATATCAATAACAGTTTAAAACTATCATAGTTAATTTCTTAATGACAATATGTTTCTGTCAACGAAAGAAATGCATAAAATAAGAAAATAGAGGTGTGCAGTAAAAAAATTGACAGATTTTTTAAGCATTTATGGTTATTGTATCATGAAAAGTCATTTTTGTTGTGGTAAACTTTGAACAATGCTGGAGTGCATCATCATAAATATTAAATAAAAAAATTAAAATCTTTTGAAACGATGTAAAAAGAAATTGTCATGTGCGATCATAGATCGGACAACTTAGTTAGAGGTACAAACATAAGTAAAAAATAAGATTTTATGGCATGAATGGGTTGAACTTGAAAAAGGATTAGTAGTGGTAAGTATTATTTAAATTATATGTGTATGTATGCAATTTGGTGGTAACCACAAAGAAGTAATTTATTAAGATATGAAAATAGAAAAAAAAATTATGAATTACTAATTATGAGAGAAGGTTGCTATTGAGTATGACAGGTTCATGGGGTTCTGAATATAATAGGATGGGGAACTTTGATACCCATTGGGATTATAATTGCTAGATACTTCAGACAGGAATTCCCAATCCGGTGCGACCGATGGTATTCCGCTCATGCTGTGTGTCAAACTTGTGGCTACATTATGGGCACCGTGGGATGGGCATTTGGACTAATCTCCGTCCTCCACTCTTCTTCAAAACGCTCTCACCTTCCCTTCTTAGTTCTCGGCATTTTCATCATCCTTCTCACTACCATTCAAGTAAGTTATGATTTCCCCCCTATAAAACTAATTATGACTATGAGAAGATTAATTATAAGTACTCATATATATATTATAATTATGTTTTAGATGTTTGCTATATGTGTGAAACCGAAGAAGGAGAGCGGGGCGAGGCGGCGGTGTTGGGAAATATACCATCATGTTATGGGATATGTGATAATGGCATTGATAATAGCTGTTATATTTGAAGGGATCAATGCGCAGCGGCATCCAAAGAAGTGGCGATGGGGTTACGTGGGAATACTTTCAGGTCTTGTAATTGTGGGTGCAGCTTTGGAGGTCCATAGATGCTATAAGCTTAAAGTCTTTAAACAGGCTATGAAATTAAATGCTAATATGTATTCTCCCACTACTTGATCTGATTTCCTCTCTCCACAATCTTCCATTTCTCTTCTCTCTAAATCAATAATCCATTTTTAACCTCATCCCCTATGGCTTTGGCTCGGATGTTAGTCTGCATGTGGAGGGACTCGACTATTTCATTTCATTTAGGGTTTGTTTGCGCTGAACTTTTTAATGTTTATAAATATATATATTTTTTTCATTTTGTAAACACTTGTTTTAAACACATTAATTAATTAGAAAGTTAATGCAAACATGCTCTTTCCTAATAATATTTGATAATTTTCTTTTAACGTTTTTTTGATAATTTGAAATAGAGACGATAAAAAAATATATTCTTGCTCGAATTAATTAATACAAAAAATTAAAATATATTTTTAAAATAAAGTAAGAATAAATTATGATGGGACAAAATATGCTTGAATAATTAAATGAATAAAATATAATGTGACAAAATATGTATGAAGAATTAAATAAAATAAATTACGATGTGACAAGATATGCTCCAGCAATTAAATTGATTTGAAGATGTACAAATAATTAACTTAAAATGTAATATTTCATTTAATTAGAGTTTGGAGTAATACATACTACTTCCATATATATTTATAATATGACAACATATTAATTTATTAAATGCTAATATATGACAAACAATTTTACTTCAAAACAATGTATACCAGAAAGTTTCTTGATACAATTTAAGTATTTTTATATTTATTTGGTTAAATTGAATTAAAAATTATTAAAACTTTATATTTTATTAATTTTTTTTTTTTTTTGTTGGTCAAAAGATAGATTATTGTCCATTCACGTCAAAGTTTCGAAATTACTTTAGGAATTCTTTTTAGGTCACCACATCACATCTTAGATTCTAAGTGGAAAGAGTAAGGGTAAATTTATAATTTTCGAATTATTATGAGTATTTTAATAAACAAATAACGAAAAAATATTAAAAAAAAGAATTTAAAATATATGGGAATGGAGGATAGCCATGAGATTGGGAGGGGAATCTTAGGGACGACGTCGTTTTTTGGCATTGCCTTCTTGTCCCTGGAGTGCGTAACTCGAACGTCCAGAGCTCATCCCATTCCTGTTTTGTACTTTCCGAGTTAAACAATCTGGAGGGGGAGCAGGAAGATTCTTGTACGGACATGGCCTCCTCAGCCGCTATAGAAGGCCTCACCCCCGCATCTGCGGCGCTCAAGTCTGTGCTTCAGCGCGTTCAGCTAGCCGCCGAACGGTCCGGTCGTGTACCTCAGCAGATCCGAGTTGTAGCTGTTAGCAAGACCAAGCCGGTTTCCGTCATTCGTCAAGTCTACGATGCTGGCCATCGATACTTTGGCGAGAATTACGTTCAGGAACTCGTTGAGAAAGCTCCTCAGGTTTTTTTTTTTCTTGTTCACTTTCGGACGGATTCCATATTTAGCTATTGAGTTGAAATCTTTCAATTGTATGAGAATTCATTGTCGATGATTTGGTCTGGAACTACTTGACTTTGACGATCATTGGAAATTGCAGCTTCCGGAGGACATTGAATGGCATTTCATCGGGAATTTGCAAAGCAACAAAGTGAAACCACTCCTGTGTATGATCAAAACCTTCTTCTCAATAATATGTTTACATGATTTAAGTTTGCACATGGTACGAATGTACAATTCAACTTACTCTGTTATCTCACAAGAATATTGTGATGTACTCATATCAGTATAGCAGTGCAGCAGTTCTAAATAGAGAGACCTCTCCGCCCTCAACTAAAGTTATCTAGATAGATGACAGCCTAACTGAACTAAGCAGCTGAATGAAACCTGTTAACTAGCACAGAAAAAATTATCCTTGGCTTGAAAAATGACGCCGGTAGCTCGAATAAGGTTGCAAATGTATAATTGCAATTTCTAAATCGACTAAAAAGGTCATGGTTAAGAACATGGGACTATGGGAGTTATTGAAGACATCCTTTAATTGCAATTTACAATAAACTACATGAACGGTTGCGAAGCCAAAGCCACTTATCTTGATCAGAACTAGACAAGTATTTATATAGCAAATACATGATGTAAATCCATTCTGGGCTTCCATGTCACTTAGGTTTCTTTTATCGTCAAGATTCATCAGGAAAATGAACATTGCAAAATAGCAAGGAGATTACTGTTGAATATAACATGGAGACAAGGTTATAATTTTTCACATTGAAGCCGTTAGCTAAGCCCAAATCAAGGCATTTAGAGAGAATTGTGCTAAGACAGTCCACTACTAGAGTCATAAGTAAAGTTCTCAGTGGATTGCTAGTCTAATACTCCTAGAGGCTGATCTTTTTCTCCTTGGCTTTCCATTCTCAATCAAATTTTGTGAGGCTTCATGACATGCTTTTTAAGATTTAAGATTCTATTGGTTTGTTTTCGTTCCTATTACGTTCTCCAGTAGGGCATTCAGAATCTCATTATAAGAAAAACATTTCCTGCTATAATTGACCACAAAAAATTAATAAAGTTTGTGTTTTCTTCCCCTTACTAAAAGCTATTTAGACCTGCATTTTTGGCTCCAAAAACTCACGTTTAAGATGGTACCATGGAGCTGATATTTAGGGAAGCTTTTAAGAATTTTCCTTGCTGGAAGAGAGGAAAGGAGTCTTCTAAATCATCGAAAGATTTAATCTCAGTGATGATGCCGAGATTACTGACTATTCTTCATCGTTTATCATGAAATCGCTCATGGATGATTTGGTGAACTCCATTGAACCTTTTGCAAGGGATTTATATTCTGCCATTTTGCTGGATCATTACCCAAAGAAAATTAAAATTTTTCTTTGGGATCTTAGCCTTGGTGCTATTGGTACTGGATCGTCTCCAGCGTCGTATGCCCTATATGTCTATCTCTCCTCATGGTGTATTATGTGTCAGGACTCAGCACCATGTCGAAACCCCTACTCATCTTTTTGTGCACTGTTCGTTTGCTTCCTGTTTCTGACATATTATTATAGATGTTTTTTACGGCCTTGCATCTCTTTTGGTGGGTCACCCATTTATGAGCACAAAGAAGAAGGTTTGGTTGGCTATTTTTCGAGTTATCTTCGAGACATTATGGAGCAAGTGTAACAAGCGTCTCTTTAGAGACTGTTTCTCTTTCTTGGTTTGATTATGTCTACAACTTTTTACTGGTGCAAAACTGGGCACCCTTTTAAGAATTTTAGTCTTTCTTTTCTAGTATCCAATTAGAAATCTCTTTTATCAACTTTAGTTGCATGGGGTCTCCTCTTATATCATTTATTCAATGAAATGTTTCTTATCTAAAAAAAATATTCTGTCATCTCATCTGAGAAGCAGATTGGTTCAGACTTTTATTTGCTTCATCTCATCTGCTTTTGTTCCTTCATTTCTAACTGTTACTTTTGCAATAACCATACAGCTGGCGTTCCAAACCTTGCAGTTGTAGAGACTGTGGATGATGAAAAGGTACTCTTCTTATTTTTTTTTTGGTAAAAGCACTCTTGTAGTTTTCTTATTAGTTATCTGAATGAAACTCATCTTCACATCAAAGTTAAGTTGGAAGTTCTTAAAATCACTTTCCAATGTTTTAGCTCAATTATGTGTTGATTATTTCTCTTTTCTTGAGTTCAGTTGAATTTGGTTTTTAGCATGCAGTTGAAGGACTCATTGAATGGTAATTGAACTTGTGATTCGTCTTTATTAACTGAAATAACTAACGTGGGGACCATTCTCAAGAAGTCCTGTATCTGTGTTTTTATTGATGATGATTTTCCATCAATTTTGGACTCAGGCCTGCCTTTTCTTGTCTCGTTGGATCATGCCTGATGCCATGCTTTCATTTTTATCAAAAAAAAAAAAAAAAAAAAAAAAAAACTATTCAAATGATTAACTTTGCTATTTTATGCTGTACACTGTAACTTTCTTTTATATCTGGTTTAAATCTTCTCTCAGATTGCTAACCGTTTGGATCGGATGGTTGGAAGTATTGGGAGGAAGCCTCTTAAGGTGTTTGTCCAAGTGAATACAAGTGGAGAAGAATGTATGTTATTATTGCTTGCAACGACTATAATTCCTGTTTCTTAAATTGATGATCACCACTTTAATTGAGTTTAATGATACATTTGAGGAGATATGATTTGCAAGATTCTGGTGCAAATTGTTATAATTGTTCGCATGAAGCATGCTCTAATTATTCTTTTTAAATACTTAATCCATTGGTAAATAGTTTTTGAACCTCCACCTATCAGAATACTTTCCCTATTATCCTACCTGAAGCATTTAGGCAATGCAATATGGACAATTATGATCCTCAGTTTCCACATGCTATCTTATTTCAAAATACACTTAGACATAATGATTCCTTTTCAACAGAGCTCTAACCTTTCTATTCTTTCGAGAATTTTCCAGATCAGAATTTAGAATGGCAAAGCTTGTCTGGTTTGCTTTTCATCTGCTAGTAACATTAGCATGATATCGAGGCATTTTTAAAAAATTAGATTATTGATAGAGCATCTTTAAGAACACTGGTGACGTTATTATTTATTTATACGTCAGGGAACTTTATTACGTTAGATTTTAACTTAAGCATAGAATGCCCTAATCCCTTGGATAATGTTTTCCTCTATTGAAGTGCAGCAAAATCAGGCGTTGAGCCCTCTGGGTGTGTGGAGCTCGCTAAACATGTTAGTTTGAACTGCCCAAATCTTGAGTTTTCCGGGCTAATGACGATTGGAATGTTAGATTATACATCCACACCAGAGAACTTCAAGGTGACAAAACCCTTCCCTCTAAAGCTCAACCTCACCTTGCCCACCATTCCTCTGTTACGAGAAACCTATCGAATTTTTTTTTGCATCTTATGCTCTTACTGATTGGTATATGTTGGTTGCAGTTATTGGCTAACTGTAGAACGGAAGTTTGCAAAGCACTCGAAATATCAGAAGAAGAATGTGAGCTATCAATGGGAATGTCGGCCGACTTCGAACAAGCTGTAAGAATAATAATCTTTAGAATATAGTATCTGCTTAACGGGACACATGTTAACTTGGGCTTAGCAAAAAGCCGAACAAACTCTTGAAAATTGGTTGCTGCTCTTCAATCAAATAGGCCAGAGAACAATAGAATATGTATAGAGTGACGGTTTATAGAACGATCATTAACTCTTCGCATATTTTGCAGGTTGAAATGGGAAGTACAAATGTGAGGGTTGGATCAACAATATTTGGAGCGAGGGAATATCCCAAGAAAAAGTGAAAATTTTGAATACTAGAGATCCATGAGCTTCTCGTTGTAGTAACCATTTTGATCATATGGTCTTTGTCTATTATTATATACTGATCTTTGAATAAAAATATCATTAAAGAAAGCATCCAACTTCAGTAATTATACCGAAATTGGATTATTTTCTTTAACCTTTGTTTGGGAATTAAAATATACAAAATATTTTAATTCTTGAAATTTCAAAAATACTATAAAACGGACTTCGTCAAAATTTTATTAGATAAGATTCATTCATTTTGTAATA ATGGGTTCCCGTTTCCACTTGTTGCTAATAATTCTCAGCCTAGTTTTGGCTCTCTCTTCCATTGGTTACTCGGCCCCGACGGAAGCCACGGCGGAGCAACAGGCAAATTCCACCTCCGGCCTCCACAACCCAGATGCCAAAGTAACATCACCTTCAAAAATATGGAAGAACCCTGGTTTGGGATACACCACTCTTATAAGACACGTTCATGGGGTTCTGAATATAATAGGATGGGGAACTTTGATACCCATTGGGATTATAATTGCTAGATACTTCAGACAGGAATTCCCAATCCGGTGCGACCGATGGTATTCCGCTCATGCTGTGTGTCAAACTTGTGGCTACATTATGGGCACCGTGGGATGGGCATTTGGACTAATCTCCGTCCTCCACTCTTCTTCAAAACGCTCTCACCTTCCCTTCTTAGTTCTCGGCATTTTCATCATCCTTCTCACTACCATTCAAATGTTTGCTATATGTGTGAAACCGAAGAAGGAGAGCGGGGCGAGGCGGCGGTGTTGGGAAATATACCATCATGTTATGGGATATGTGATAATGGCATTGATAATAGCTGTTATATTTGAAGGGATCAATGCGCAGCGGCATCCAAAGAAGTGGCGATGGGGTTACGTGGGAATACTTTCAGGTCTTGTAATTGTGGGTGCAGCTTTGGAGGGGAATCTTAGGGACGACGTCGTTTTTTGGCATTGCCTTCTTGTCCCTGGAGTGCGTAACTCGAACGTCCAGAGCTCATCCCATTCCTGTTTTGTACTTTCCGAGTTAAACAATCTGGAGGGGGAGCAGGAAGATTCTTGTACGGACATGGCCTCCTCAGCCGCTATAGAAGGCCTCACCCCCGCATCTGCGGCGCTCAAGTCTGTGCTTCAGCGCGTTCAGCTAGCCGCCGAACGGTCCGGTCGTGTACCTCAGCAGATCCGAGTTGTAGCTGTTAGCAAGACCAAGCCGGTTTCCGTCATTCGTCAAGTCTACGATGCTGGCCATCGATACTTTGGCGAGAATTACGTTCAGGAACTCGTTGAGAAAGCTCCTCAGCTTCCGGAGGACATTGAATGGCATTTCATCGGGAATTTGCAAAGCAACAAAGTGAAACCACTCCTGTCTGGCGTTCCAAACCTTGCAGTTGTAGAGACTGTGGATGATGAAAAGATTGCTAACCGTTTGGATCGGATGGTTGGAAGTATTGGGAGGAAGCCTCTTAAGGTGTTTGTCCAAGTGAATACAAGTGGAGAAGAATCAAAATCAGGCGTTGAGCCCTCTGGGTGTGTGGAGCTCGCTAAACATGTTAGTTTGAACTGCCCAAATCTTGAGTTTTCCGGGCTAATGACGATTGGAATGTTAGATTATACATCCACACCAGAGAACTTCAAGTTATTGGCTAACTGTAGAACGGAAGTTTGCAAAGCACTCGAAATATCAGAAGAAGAATGTGAGCTATCAATGGGAATGTCGGCCGACTTCGAACAAGCTGTTGAAATGGGAAGTACAAATGTGAGGGTTGGATCAACAATATTTGGAGCGAGGGAATATCCCAAGAAAAAGTGAAAATTTTGAATACTAGAGATCCATGAGCTTCTCGTTGTAGTAACCATTTTGATCATATGGTCTTTGTCTATTATTATATACTGATCTTTGAATAAAAATATCATTAAAGAAAGCATCCAACTTCAGTAATTATACCGAAATTGGATTATTTTCTTTAACCTTTGTTTGGGAATTAAAATATACAAAATATTTTAATTCTTGAAATTTCAAAAATACTATAAAACGGACTTCGTCAAAATTTTATTAGATAAGATTCATTCATTTTGTAATA ATGGGTTCCCGTTTCCACTTGTTGCTAATAATTCTCAGCCTAGTTTTGGCTCTCTCTTCCATTGGTTACTCGGCCCCGACGGAAGCCACGGCGGAGCAACAGGCAAATTCCACCTCCGGCCTCCACAACCCAGATGCCAAAGTAACATCACCTTCAAAAATATGGAAGAACCCTGGTTTGGGATACACCACTCTTATAAGACACGTTCATGGGGTTCTGAATATAATAGGATGGGGAACTTTGATACCCATTGGGATTATAATTGCTAGATACTTCAGACAGGAATTCCCAATCCGGTGCGACCGATGGTATTCCGCTCATGCTGTGTGTCAAACTTGTGGCTACATTATGGGCACCGTGGGATGGGCATTTGGACTAATCTCCGTCCTCCACTCTTCTTCAAAACGCTCTCACCTTCCCTTCTTAGTTCTCGGCATTTTCATCATCCTTCTCACTACCATTCAAATGTTTGCTATATGTGTGAAACCGAAGAAGGAGAGCGGGGCGAGGCGGCGGTGTTGGGAAATATACCATCATGTTATGGGATATGTGATAATGGCATTGATAATAGCTGTTATATTTGAAGGGATCAATGCGCAGCGGCATCCAAAGAAGTGGCGATGGGGTTACGTGGGAATACTTTCAGGTCTTGTAATTGTGGGTGCAGCTTTGGAGGGGAATCTTAGGGACGACGTCGTTTTTTGGCATTGCCTTCTTGTCCCTGGAGTGCGTAACTCGAACGTCCAGAGCTCATCCCATTCCTGTTTTGTACTTTCCGAGTTAAACAATCTGGAGGGGGAGCAGGAAGATTCTTGTACGGACATGGCCTCCTCAGCCGCTATAGAAGGCCTCACCCCCGCATCTGCGGCGCTCAAGTCTGTGCTTCAGCGCGTTCAGCTAGCCGCCGAACGGTCCGGTCGTGTACCTCAGCAGATCCGAGTTGTAGCTGTTAGCAAGACCAAGCCGGTTTCCGTCATTCGTCAAGTCTACGATGCTGGCCATCGATACTTTGGCGAGAATTACGTTCAGGAACTCGTTGAGAAAGCTCCTCAGCTTCCGGAGGACATTGAATGGCATTTCATCGGGAATTTGCAAAGCAACAAAGTGAAACCACTCCTGTCTGGCGTTCCAAACCTTGCAGTTGTAGAGACTGTGGATGATGAAAAGATTGCTAACCGTTTGGATCGGATGGTTGGAAGTATTGGGAGGAAGCCTCTTAAGGTGTTTGTCCAAGTGAATACAAGTGGAGAAGAATCAAAATCAGGCGTTGAGCCCTCTGGGTGTGTGGAGCTCGCTAAACATGTTAGTTTGAACTGCCCAAATCTTGAGTTTTCCGGGCTAATGACGATTGGAATGTTAGATTATACATCCACACCAGAGAACTTCAAGTTATTGGCTAACTGTAGAACGGAAGTTTGCAAAGCACTCGAAATATCAGAAGAAGAATGTGAGCTATCAATGGGAATGTCGGCCGACTTCGAACAAGCTGTTGAAATGGGAAGTACAAATGTGAGGGTTGGATCAACAATATTTGGAGCGAGGGAATATCCCAAGAAAAAGTGA MGSRFHLLLIILSLVLALSSIGYSAPTEATAEQQANSTSGLHNPDAKVTSPSKIWKNPGLGYTTLIRHVHGVLNIIGWGTLIPIGIIIARYFRQEFPIRCDRWYSAHAVCQTCGYIMGTVGWAFGLISVLHSSSKRSHLPFLVLGIFIILLTTIQMFAICVKPKKESGARRRCWEIYHHVMGYVIMALIIAVIFEGINAQRHPKKWRWGYVGILSGLVIVGAALEGNLRDDVVFWHCLLVPGVRNSNVQSSSHSCFVLSELNNLEGEQEDSCTDMASSAAIEGLTPASAALKSVLQRVQLAAERSGRVPQQIRVVAVSKTKPVSVIRQVYDAGHRYFGENYVQELVEKAPQLPEDIEWHFIGNLQSNKVKPLLSGVPNLAVVETVDDEKIANRLDRMVGSIGRKPLKVFVQVNTSGEESKSGVEPSGCVELAKHVSLNCPNLEFSGLMTIGMLDYTSTPENFKLLANCRTEVCKALEISEEECELSMGMSADFEQAVEMGSTNVRVGSTIFGAREYPKKK Homology
BLAST of PI0023288 vs. ExPASy Swiss-Prot
Match: O94903 (Pyridoxal phosphate homeostasis protein OS=Homo sapiens OX=9606 GN=PLPBP PE=1 SV=1) HSP 1 Score: 218.4 bits (555), Expect = 1.9e-55 Identity = 126/241 (52.28%), Postives = 166/241 (68.88%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy Swiss-Prot
Match: Q1ZXI6 (Pyridoxal phosphate homeostasis protein OS=Dictyostelium discoideum OX=44689 GN=prosc PE=3 SV=2) HSP 1 Score: 215.3 bits (547), Expect = 1.6e-54 Identity = 119/247 (48.18%), Postives = 164/247 (66.40%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy Swiss-Prot
Match: Q5R4Z1 (Pyridoxal phosphate homeostasis protein OS=Pongo abelii OX=9601 GN=PLPBP PE=2 SV=1) HSP 1 Score: 213.8 bits (543), Expect = 4.7e-54 Identity = 124/241 (51.45%), Postives = 163/241 (67.63%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy Swiss-Prot
Match: Q9Z2Y8 (Pyridoxal phosphate homeostasis protein OS=Mus musculus OX=10090 GN=Plpbp PE=1 SV=1) HSP 1 Score: 210.3 bits (534), Expect = 5.2e-53 Identity = 121/241 (50.21%), Postives = 167/241 (69.29%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy Swiss-Prot
Match: Q3T0G5 (Pyridoxal phosphate homeostasis protein OS=Bos taurus OX=9913 GN=PLPBP PE=2 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 1.2e-52 Identity = 121/241 (50.21%), Postives = 165/241 (68.46%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy TrEMBL
Match: A0A5D3CN93 (Pyridoxal phosphate homeostasis protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold255G006260 PE=3 SV=1) HSP 1 Score: 934.1 bits (2413), Expect = 2.5e-268 Identity = 477/526 (90.68%), Postives = 491/526 (93.35%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy TrEMBL
Match: A0A5C7GQU2 (Pyridoxal phosphate homeostasis protein OS=Acer yangbiense OX=1000413 GN=EZV62_026247 PE=3 SV=1) HSP 1 Score: 535.8 bits (1379), Expect = 2.0e-148 Identity = 293/507 (57.79%), Postives = 355/507 (70.02%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy TrEMBL
Match: A0A1S4DU01 (Pyridoxal phosphate homeostasis protein OS=Cucumis melo OX=3656 GN=LOC103484633 PE=3 SV=1) HSP 1 Score: 510.8 bits (1314), Expect = 6.9e-141 Identity = 267/293 (91.13%), Postives = 272/293 (92.83%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy TrEMBL
Match: A0A2P5F0F5 (Pyridoxal phosphate homeostasis protein OS=Trema orientale OX=63057 GN=TorRG33x02_128370 PE=3 SV=1) HSP 1 Score: 477.2 bits (1227), Expect = 8.4e-131 Identity = 255/377 (67.64%), Postives = 293/377 (77.72%), Query Frame = 0
BLAST of PI0023288 vs. ExPASy TrEMBL
Match: A0A0A0KJU8 (Pyridoxal phosphate homeostasis protein OS=Cucumis sativus OX=3659 GN=Csa_6G513480 PE=3 SV=1) HSP 1 Score: 461.5 bits (1186), Expect = 4.8e-126 Identity = 236/245 (96.33%), Postives = 239/245 (97.55%), Query Frame = 0
BLAST of PI0023288 vs. NCBI nr
Match: TYK13025.1 (proline synthase co-transcribed bacterial-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 934.1 bits (2413), Expect = 5.2e-268 Identity = 477/526 (90.68%), Postives = 491/526 (93.35%), Query Frame = 0
BLAST of PI0023288 vs. NCBI nr
Match: KAF3451752.1 (hypothetical protein FNV43_RR07848 [Rhamnella rubrinervis]) HSP 1 Score: 545.4 bits (1404), Expect = 5.2e-151 Identity = 287/483 (59.42%), Postives = 346/483 (71.64%), Query Frame = 0
BLAST of PI0023288 vs. NCBI nr
Match: TXG46953.1 (hypothetical protein EZV62_026247 [Acer yangbiense]) HSP 1 Score: 535.8 bits (1379), Expect = 4.1e-148 Identity = 293/507 (57.79%), Postives = 355/507 (70.02%), Query Frame = 0
BLAST of PI0023288 vs. NCBI nr
Match: XP_016899180.1 (PREDICTED: proline synthase co-transcribed bacterial homolog protein [Cucumis melo]) HSP 1 Score: 510.8 bits (1314), Expect = 1.4e-140 Identity = 267/293 (91.13%), Postives = 272/293 (92.83%), Query Frame = 0
BLAST of PI0023288 vs. NCBI nr
Match: PON91274.1 (hypothetical protein TorRG33x02_128370 [Trema orientale]) HSP 1 Score: 477.2 bits (1227), Expect = 1.7e-130 Identity = 255/377 (67.64%), Postives = 293/377 (77.72%), Query Frame = 0
BLAST of PI0023288 vs. TAIR 10
Match: AT1G11930.2 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 390.6 bits (1002), Expect = 2.0e-108 Identity = 200/259 (77.22%), Postives = 221/259 (85.33%), Query Frame = 0
BLAST of PI0023288 vs. TAIR 10
Match: AT1G11930.1 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 385.6 bits (989), Expect = 6.4e-107 Identity = 200/261 (76.63%), Postives = 221/261 (84.67%), Query Frame = 0
BLAST of PI0023288 vs. TAIR 10
Match: AT4G26860.1 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 347.8 bits (891), Expect = 1.5e-95 Identity = 168/232 (72.41%), Postives = 201/232 (86.64%), Query Frame = 0
BLAST of PI0023288 vs. TAIR 10
Match: AT4G26860.2 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 340.5 bits (872), Expect = 2.4e-93 Identity = 168/242 (69.42%), Postives = 202/242 (83.47%), Query Frame = 0
BLAST of PI0023288 vs. TAIR 10
Match: AT5G47530.1 (Auxin-responsive family protein ) HSP 1 Score: 120.2 bits (300), Expect = 5.0e-27 Identity = 66/186 (35.48%), Postives = 100/186 (53.76%), 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
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.
|