IVF0021068 (gene) Melon (IVF77) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGAAGACATTGGAAATTTCAAAACGACGGCGTTTACTGCTGGTGCCATGTCCATACCAAGGCCATATTAACCCAATGCTTCACTTAGCAACATACCTATACCAAAATGGCTTCACTATAACCATTGCTCAAACATTCTTCAACTCCATAGACCCTAACCATCACCCGGACTTCACGTTCGTCCGCCTCAACGACCGACTCTCTAATGACCTCATCGTGTCTTTGGATGTGGCCTCGGTGTTGCTCGCCATCAATGATAATTGCAAGACTAGCTTGGAGGAAGTCATGGCCAACATCGTCGAAGATGTCGTGTGTGTAATACACGATGAGGCCATGTACTTTTGTGAGGCAGTGGCTAGTGGTTTTGGGGTTCGAAGTCTGGTGGTTCGAACAACTAGCATAGCGGCGTGTATCAGTCGGCGGGTCGTTCTACAACTTCATGCAGAGGGTTGTCTTCCTATAATTCAAGGTGCAGACTATATATATAACTTTTATTTTGGTCAATATTTTCGTAATGCAATTAAATTTGTACTTTGAATTTAATTTTCGAAAACCTAAATTCATACTAAAATAATTATCATTTAAGTACAATCGATTATTAGTTTACACTCTAAAAGTAGACTATTATGATCCACAAGAACTATAATGACAAACGCTCGATGTCCCACCAAATCGTCATTTGTCTTTTCTTTTCTTTTCTTTTTCTGAAAATGTAAAAATAGTAAAAATAATCTTTAGATACTCAAAAATTATAGACAGAAGATGCTTAGGATATTTATTTTACTTTGTAGGAATATTTATGGGGGTATCTGGGAATATTTTGATGATTGTATTCGTCTTTATGACTTCTAAATGGTATATTAAATTTAGATTACGTTTCAAAAATACTCTTATGTATCTTTACTAATTTAATGTAACTTGAACTTAGGGTTCTTTTCATTTGATCAAATTGTTTACAAATATTAAAAAAGTGATAAAAACAATTATTGTCTTTTTTTCATTTTATTATATTTATTTTGGACGATTCTGCTATTTAAAATAAATGCACTTTGAATTTATATTACATATATTATTTTAACCATTTTAATATTTTTTAAAATCTTTGGTGACACCGATGAAATGACACCTAGGATTTCAAAAATTTAAAATGTGTTTGGATTAATTTTTAAAGTATTTTAATTTGACAAAAAAATATTTAAAAAAAATTTGAAGTATTTGATAACTTTTCAAAATATATTTTTAAAAAATAAGATTGAAAAGCAATTTATTTAAAGAAAACACTTGAAATCAAATTGGGAGGAAAACCAAACATTTAAGTGTTTATATTTTAATTTCATTTTAAAAAATTGTTTAAAAGAAAATATATTCTTAAAAAACATATTTTTTTCCCTGGACAATCGAAATGCATTTTTATTTTCCAATCTTGAGTGGATTTTAAAAAAGTTACTTACTGTGATTCTTTTTTCATTTTTCAATAATTCCAGTCTAAGGTTCTTAAAATTTTGATTTTGTTATTTTTTACTTGTTTCTTTGTTTGTTTGGTTTTGGTGTCTTTTGTGGTTGTGAGTTTGTTGTTGGGTGTGTTGGAGGTGCATTTTTGTGTATGTATATGTATATATATGTGTGTGTTATTTTTCTCAACAAAATAATATTTTTCATAATTTTAATTCTTTTATAAGATATAGTTTGAATATATGCTTAAAAAAGTGATAATTGAACTACAATATAACTAACAAATGTTACATATATAGAAAAAAATGGCTAAAAAAATGTAAGATGAGATGCTCTAAACTCGAAAAACTAGAAAACCAGATGACATCCAAACTCTAGAAATACCTTCCATGAGGAAATCCTATAATGTATAGGGATTAAATTACATTTTTTAACCTATAGAACAAATGTCGTAATTCAATACCGATTCCATGAAAATGTAGAATCTCTTTGGAAACGATCTTATAGATGTTTTCAAACACATGTATAAAGAAATTATTGCACAGGAGGAATCAGTTCACAAAACTCGAAAAATTATGAATTAATATCCCCTCAAATTCTCACTATTGAACAGGATCCATGGAAGATGAGGTACCAAATCTCCATCCTTTGAGATTCAAGGACTTGCCATTTTCAGTCCATTCAGATATCTCCAAACTGGAAAAAATAATCCTCAAGATGTACAGTATCACCACGTCTTCAGCTGTGATTTGGAACACAATCCCATGGCTTGAACCATCTGAATTCACCCAAATCAAAACCAAAATTTGCAACCAAGTCCCGATCTTTCCAATAGGCCCAGTTCACAAGATTTCCCCAACCTCATCCTCTTCAAGTCTACTCAGTGAAGACTCCACTTGCCTCTCATGGCTTCACAAACACCCCCCAACTCAGTTATCTATGTCAGCTTAGGCAGCATTGCCCTCTTAACAAACCAAGAACTTCAAGAAATGGCTTGGGGCTTGGCTAATAGCAACCAACCGTTCTTGTGGGTCGTTCGCCCTGGCTCCATTCGAGGCTCAGATGGGACAGGATTCGTTTTGAAAGAATTCCAAAAGAAGGTTGGAGATAGAGGGTGCATTGTGGGTTGGGCTCCACAAAGGGAAGTGTTGGCCCATAGAGCTATAGGTGGATTTTGGAGTCATTGTGGTTGGAATTCTACACTTGAGAGCTTGAGTGAGGGTGTTCCAATGTTATGTAGGCCTTATTCAGGAGATCAAAGAGGAAACTCAAGGTATATCAGTTGTGTTTGGAGGGTGGGGTTGACTTTGGAAGGTCATGAGTTGAATAGAAATGAAGTGGAAAAGAGTGTTAAAAAATTGATGGTGGAAGAAGAAGGGAGGAAAATGAGAGAGAGAGCAATGGATTTCAAGAGAAGAATTGAAGATAGCTTAAGGGAAGGTGGGTCATGTTCTCGTAACTTGAAAGAGCTTGTTGATTTCATTATATCCTTTTAGATCATATTAACCTAAATTATCTTTCATAAACCTCTATTGAACTATACATGTGTGTGTTACGTTAATTTTTGTTTGAAACTCTTATTTTCTTCAAACAATTTTCTTGATTATGACAAATGTTTGCATTCGTGAATACTGTTTCATAGGTACATACGGATATTAATCACATCAAATGTAAAGTATCTGCAAGCATAAATATTTGTGTTTAATAAGTGTGTATTCGTATATGTGGCTATATTTTGTAGAAGCATTCTCTACCACCAAATCTTAAAACAATTTTTTAAAAACAAAAATCAAACTTTCTGCCAAACATGTGGTTTGCAAAATTCAATGACTGTGGATTAAAATAAAATAAAATATGGAATCCTGGAAATCGAAAAAACCCAAACGGTAAACACCAATGGAGTGAGTACCAAACCTCATTGATGGATTCCTAAAATTGAATTCAATATTCTATTCCCCACAACATCATCTTCGTCTCCTTTTCATTTCAATCTCACAATTAACTTCAAACTACTTCAATGGAGAAAGCTAAACAAACGGAAATTCCAAAACAACGGCGTATAGTCTTGGTCCCATGTCCGTACCAAGGCCATATAACTCCGATGCTTCAACTCGCTACTTTCCTCCACACCGTCGCCGGTTTCTCCATTACAATCGCTCACACTCGCTTCAACTCTCCCAATGCTTCTAACTTCCCGCATTTTCAATTCGTTTATTTGGACGATGGAATCGCAGCGCAGGAAGCGATTCCGACGGATTTGATTGCGGTTCTATTGGAACTCAATGTTAATTGCAGAGATAGTTTCGAAGCTGAAATGTGCAAACTGATGGCAGCTGAGGCGGAGGATTCTAGTGAGGTCATCGCCGGTGTTATTCATGATGAGATCATGTTCTTCTGTGAAGAAATTGCTAGTGATTTGAAGCTGAGGAGCTTTATTTTGCGAACTACCTCTGCTGCTACTTCTTTGGCTCGAATGGCTCTTGTTCGCCTCAATGATGATGGGATGGTAATTTGCTTTAGATTTTCTATTAGAAAATGAAAGGAAATGCTGATTCCCAATTACAAAATCTATGTTACAGGATCCAATACCAAAGTTGCATCCCTTGAGATTCAAAGATCTCCCAATCTCACTAACAGCAGACTTCACCAAATACTCAAGATTGATGAAAAAGACGTACAATATGGAAACACCCACCACAGCCAAGGCCATCATCTGGAACACTATGGAATGGCTCGAAGATTCAATCATGGCTAAAATCAGAAACAAATCCACAGTCCCAATCTTTCCCATCGGGCCTTTACATCGAATTATCTCTGCACAAACGAGTGTACTCAAAGAGGATTTCAACTGTTTATCATGGCTCGACGAGCAAGCAGACAATGTTGTTATCTATGTCGCCATGGGGAGCATAGCTTCATTGAATGAGAAGGCATTTGGAGAAATGGCATGGGGGCTAGCCAACAGCCAGCAACCATTCTTGTGGGTGGTTCAACCAGGAGCAATTCATGGCTCAGAGTGGATCGAGGCATTGCCTAAAGGTTTTCGAGAGGCAATTGGAGGGAGAGGATATATTGTGAAATGGGCTCCTCAGAAACAAGTGTTGGCACATAGGGCTGTTGGGGGATTTTGGAGCCATTGTGGATGGAATTCTAGTATGGAAAGTTTGAGTGAGGGAGTTCCTATGTTGTGTAGTCCATGTTTTGGGGATCAGAAAGTGAATGCAAGGTATCTAAGCTATGTTTGGAGGGTGGGGATTCAGTTGGAAAATGGGTTGGAGAGAGAAGAAATTGAAAAGGGAATTAGAAGACTAATGGTGGGAGAAGAAAGTAAAGAGATGAGAGAAAGAGCCAAGAATTTCAAGGAGAAAATTGAAGCCTATGTCCTTAAGGTAGAAGATCAAGGCTACTCACACACTTACTTGACAGAGCTTGTTAGCCTACTATGTTCGTCTTGAATGGAGAAGACATTGGAAATTTCAAAACGACGGCGTTTACTGCTGGTGCCATGTCCATACCAAGGCCATATTAACCCAATGCTTCACTTAGCAACATACCTATACCAAAATGGCTTCACTATAACCATTGCTCAAACATTCTTCAACTCCATAGACCCTAACCATCACCCGGACTTCACGTTCGTCCGCCTCAACGACCGACTCTCTAATGACCTCATCGTGTCTTTGGATGTGGCCTCGGTGTTGCTCGCCATCAATGATAATTGCAAGACTAGCTTGGAGGAAGTCATGGCCAACATCGTCGAAGATGTCGTGTGTGTAATACACGATGAGGCCATGTACTTTTGTGAGGCAGTGGCTAGTGGTTTTGGGGTTCGAAGTCTGGTGGTTCGAACAACTAGCATAGCGGCGTGTATCAGTCGGCGGGTCGTTCTACAACTTCATGCAGAGGGTTGTCTTCCTATAATTCAAGGATCCATGGAAGATGAGGTACCAAATCTCCATCCTTTGAGATTCAAGGACTTGCCATTTTCAGTCCATTCAGATATCTCCAAACTGGAAAAAATAATCCTCAAGATGTACAGTATCACCACGTCTTCAGCTGTGATTTGGAACACAATCCCATGGCTTGAACCATCTGAATTCACCCAAATCAAAACCAAAATTTGCAACCAAGTCCCGATCTTTCCAATAGGCCCAGTTCACAAGATTTCCCCAACCTCATCCTCTTCAAGTCTACTCATTATCTATGTCAGCTTAGGCAGCATTGCCCTCTTAACAAACCAAGAACTTCAAGAAATGGCTTGGGGCTTGGCTAATAGCAACCAACCGTTCTTGTGGGTCGTTCGCCCTGGCTCCATTCGAGGCTCAGATGGGACAGGATTCGTTTTGAAAGAATTCCAAAAGAAGGTTGGAGATAGAGGGTGCATTGTGGGTTGGGCTCCACAAAGGGAAGTGTTGGCCCATAGAGCTATAGGTGGATTTTGGAGTCATTGTGGTTGGAATTCTACACTTGAGAGCTTGAGTGAGGGTGTTCCAATGTTATGTAGGCCTTATTCAGGAGATCAAAGAGGAAACTCAAGGTATATCAGTTGTGTTTGGAGGGTGGGGTTGACTTTGGAAGGTCATGAGTTGAATAGAAATGAAGTGGAAAAGAGTGTTAAAAAATTGATGGTGGAAGAAGAAGGGAGGAAAATGAGAGAGAGAGCAATGGATTTCAAGAGAAGAATTGAAGATAGCTTAAGGGAAGCGCAGGAAGCGATTCCGACGGATTTGATTGCGGTTCTATTGGAACTCAATGTTAATTGCAGAGATAGTTTCGAAGCTGAAATGTGCAAACTGATGGCAGCTGAGGCGGAGGATTCTAGTGAGGTCATCGCCGGTGTTATTCATGATGAGATCATGTTCTTCTGTGAAGAAATTGCTAGTGATTTGAAGCTGAGGAGCTTTATTTTGCGAACTACCTCTGCTGCTACTTCTTTGGCTCGAATGGCTCTTGTTCGCCTCAATGATGATGGGATGGATCCAATACCAAAGTTGCATCCCTTGAGATTCAAAGATCTCCCAATCTCACTAACAGCAGACTTCACCAAATACTCAAGATTGATGAAAAAGACGTACAATATGGAAACACCCACCACAGCCAAGGCCATCATCTGGAACACTATGGAATGGCTCGAAGATTCAATCATGGCTAAAATCAGAAACAAATCCACAGTCCCAATCTTTCCCATCGGGCCTTTACATCGAATTATCTCTGCACAAACGAGTGTACTCAAAGAGGATTTCAACTGTTTATCATGGCTCGACGAGCAAGCAGACAATGTTGTTATCTATGTCGCCATGGGGAGCATAGCTTCATTGAATGAGAAGGCATTTGGAGAAATGGCATGGGGGCTAGCCAACAGCCAGCAACCATTCTTGTGGGTGGTTCAACCAGGAGCAATTCATGGCTCAGAGTGGATCGAGGCATTGCCTAAAGGTTTTCGAGAGGCAATTGGAGGGAGAGGATATATTGTGAAATGGGCTCCTCAGAAACAAGTGTTGGCACATAGGGCTGTTGGGGGATTTTGGAGCCATTGTGGATGGAATTCTAGTATGGAAAGTTTGAGTGAGGGAGTTCCTATGTTGTGTAGTCCATGTTTTGGGGATCAGAAAGTGAATGCAAGGTATCTAAGCTATGTTTGGAGGGTGGGGATTCAGTTGGAAAATGGGTTGGAGAGAGAAGAAATTGAAAAGGGAATTAGAAGACTAATGGTGGGAGAAGAAAGTAAAGAGATGAGAGAAAGAGCCAAGAATTTCAAGGAGAAAATTGAAGCCTATGTCCTTAAGGTAGAAGATCAAGGCTACTCACACACTTACTTGACAGAGCTTGTTAGCCTACTATGTTCGTCTTGA ATGGAGAAGACATTGGAAATTTCAAAACGACGGCGTTTACTGCTGGTGCCATGTCCATACCAAGGCCATATTAACCCAATGCTTCACTTAGCAACATACCTATACCAAAATGGCTTCACTATAACCATTGCTCAAACATTCTTCAACTCCATAGACCCTAACCATCACCCGGACTTCACGTTCGTCCGCCTCAACGACCGACTCTCTAATGACCTCATCGTGTCTTTGGATGTGGCCTCGGTGTTGCTCGCCATCAATGATAATTGCAAGACTAGCTTGGAGGAAGTCATGGCCAACATCGTCGAAGATGTCGTGTGTGTAATACACGATGAGGCCATGTACTTTTGTGAGGCAGTGGCTAGTGGTTTTGGGGTTCGAAGTCTGGTGGTTCGAACAACTAGCATAGCGGCGTGTATCAGTCGGCGGGTCGTTCTACAACTTCATGCAGAGGGTTGTCTTCCTATAATTCAAGGATCCATGGAAGATGAGGTACCAAATCTCCATCCTTTGAGATTCAAGGACTTGCCATTTTCAGTCCATTCAGATATCTCCAAACTGGAAAAAATAATCCTCAAGATGTACAGTATCACCACGTCTTCAGCTGTGATTTGGAACACAATCCCATGGCTTGAACCATCTGAATTCACCCAAATCAAAACCAAAATTTGCAACCAAGTCCCGATCTTTCCAATAGGCCCAGTTCACAAGATTTCCCCAACCTCATCCTCTTCAAGTCTACTCATTATCTATGTCAGCTTAGGCAGCATTGCCCTCTTAACAAACCAAGAACTTCAAGAAATGGCTTGGGGCTTGGCTAATAGCAACCAACCGTTCTTGTGGGTCGTTCGCCCTGGCTCCATTCGAGGCTCAGATGGGACAGGATTCGTTTTGAAAGAATTCCAAAAGAAGGTTGGAGATAGAGGGTGCATTGTGGGTTGGGCTCCACAAAGGGAAGTGTTGGCCCATAGAGCTATAGGTGGATTTTGGAGTCATTGTGGTTGGAATTCTACACTTGAGAGCTTGAGTGAGGGTGTTCCAATGTTATGTAGGCCTTATTCAGGAGATCAAAGAGGAAACTCAAGGTATATCAGTTGTGTTTGGAGGGTGGGGTTGACTTTGGAAGGTCATGAGTTGAATAGAAATGAAGTGGAAAAGAGTGTTAAAAAATTGATGGTGGAAGAAGAAGGGAGGAAAATGAGAGAGAGAGCAATGGATTTCAAGAGAAGAATTGAAGATAGCTTAAGGGAAGCGCAGGAAGCGATTCCGACGGATTTGATTGCGGTTCTATTGGAACTCAATGTTAATTGCAGAGATAGTTTCGAAGCTGAAATGTGCAAACTGATGGCAGCTGAGGCGGAGGATTCTAGTGAGGTCATCGCCGGTGTTATTCATGATGAGATCATGTTCTTCTGTGAAGAAATTGCTAGTGATTTGAAGCTGAGGAGCTTTATTTTGCGAACTACCTCTGCTGCTACTTCTTTGGCTCGAATGGCTCTTGTTCGCCTCAATGATGATGGGATGGATCCAATACCAAAGTTGCATCCCTTGAGATTCAAAGATCTCCCAATCTCACTAACAGCAGACTTCACCAAATACTCAAGATTGATGAAAAAGACGTACAATATGGAAACACCCACCACAGCCAAGGCCATCATCTGGAACACTATGGAATGGCTCGAAGATTCAATCATGGCTAAAATCAGAAACAAATCCACAGTCCCAATCTTTCCCATCGGGCCTTTACATCGAATTATCTCTGCACAAACGAGTGTACTCAAAGAGGATTTCAACTGTTTATCATGGCTCGACGAGCAAGCAGACAATGTTGTTATCTATGTCGCCATGGGGAGCATAGCTTCATTGAATGAGAAGGCATTTGGAGAAATGGCATGGGGGCTAGCCAACAGCCAGCAACCATTCTTGTGGGTGGTTCAACCAGGAGCAATTCATGGCTCAGAGTGGATCGAGGCATTGCCTAAAGGTTTTCGAGAGGCAATTGGAGGGAGAGGATATATTGTGAAATGGGCTCCTCAGAAACAAGTGTTGGCACATAGGGCTGTTGGGGGATTTTGGAGCCATTGTGGATGGAATTCTAGTATGGAAAGTTTGAGTGAGGGAGTTCCTATGTTGTGTAGTCCATGTTTTGGGGATCAGAAAGTGAATGCAAGGTATCTAAGCTATGTTTGGAGGGTGGGGATTCAGTTGGAAAATGGGTTGGAGAGAGAAGAAATTGAAAAGGGAATTAGAAGACTAATGGTGGGAGAAGAAAGTAAAGAGATGAGAGAAAGAGCCAAGAATTTCAAGGAGAAAATTGAAGCCTATGTCCTTAAGGTAGAAGATCAAGGCTACTCACACACTTACTTGACAGAGCTTGTTAGCCTACTATGTTCGTCTTGA MEKTLEISKRRRLLLVPCPYQGHINPMLHLATYLYQNGFTITIAQTFFNSIDPNHHPDFTFVRLNDRLSNDLIVSLDVASVLLAINDNCKTSLEEVMANIVEDVVCVIHDEAMYFCEAVASGFGVRSLVVRTTSIAACISRRVVLQLHAEGCLPIIQGSMEDEVPNLHPLRFKDLPFSVHSDISKLEKIILKMYSITTSSAVIWNTIPWLEPSEFTQIKTKICNQVPIFPIGPVHKISPTSSSSSLLIIYVSLGSIALLTNQELQEMAWGLANSNQPFLWVVRPGSIRGSDGTGFVLKEFQKKVGDRGCIVGWAPQREVLAHRAIGGFWSHCGWNSTLESLSEGVPMLCRPYSGDQRGNSRYISCVWRVGLTLEGHELNRNEVEKSVKKLMVEEEGRKMRERAMDFKRRIEDSLREAQEAIPTDLIAVLLELNVNCRDSFEAEMCKLMAAEAEDSSEVIAGVIHDEIMFFCEEIASDLKLRSFILRTTSAATSLARMALVRLNDDGMDPIPKLHPLRFKDLPISLTADFTKYSRLMKKTYNMETPTTAKAIIWNTMEWLEDSIMAKIRNKSTVPIFPIGPLHRIISAQTSVLKEDFNCLSWLDEQADNVVIYVAMGSIASLNEKAFGEMAWGLANSQQPFLWVVQPGAIHGSEWIEALPKGFREAIGGRGYIVKWAPQKQVLAHRAVGGFWSHCGWNSSMESLSEGVPMLCSPCFGDQKVNARYLSYVWRVGIQLENGLEREEIEKGIRRLMVGEESKEMRERAKNFKEKIEAYVLKVEDQGYSHTYLTELVSLLCSS Homology
BLAST of IVF0021068 vs. ExPASy Swiss-Prot
Match: U3UA11 (UDP-glucose iridoid glucosyltransferase OS=Catharanthus roseus OX=4058 GN=UGT76A2 PE=1 SV=1) HSP 1 Score: 355.1 bits (910), Expect = 2.0e-96 Identity = 194/433 (44.80%), Postives = 281/433 (64.90%), Query Frame = 0
BLAST of IVF0021068 vs. ExPASy Swiss-Prot
Match: Q9LTH3 (UDP-glycosyltransferase 76E1 OS=Arabidopsis thaliana OX=3702 GN=UGT76E1 PE=2 SV=1) HSP 1 Score: 347.1 bits (889), Expect = 5.5e-94 Identity = 182/434 (41.94%), Postives = 279/434 (64.29%), Query Frame = 0
BLAST of IVF0021068 vs. ExPASy Swiss-Prot
Match: Q9LTH2 (UDP-glycosyltransferase 76E2 OS=Arabidopsis thaliana OX=3702 GN=UGT76E2 PE=2 SV=1) HSP 1 Score: 346.7 bits (888), Expect = 7.2e-94 Identity = 187/430 (43.49%), Postives = 274/430 (63.72%), Query Frame = 0
BLAST of IVF0021068 vs. ExPASy Swiss-Prot
Match: Q94AB5 (Flavonol 3-O-glucosyltransferase UGT76E12 OS=Arabidopsis thaliana OX=3702 GN=UGT76E12 PE=1 SV=1) HSP 1 Score: 340.1 bits (871), Expect = 6.7e-92 Identity = 187/432 (43.29%), Postives = 271/432 (62.73%), Query Frame = 0
BLAST of IVF0021068 vs. ExPASy Swiss-Prot
Match: Q9LS16 (UDP-glycosyltransferase 76E7 OS=Arabidopsis thaliana OX=3702 GN=UGT76E7 PE=2 SV=1) HSP 1 Score: 337.8 bits (865), Expect = 3.3e-91 Identity = 181/435 (41.61%), Postives = 277/435 (63.68%), Query Frame = 0
BLAST of IVF0021068 vs. ExPASy TrEMBL
Match: A0A5A7SRK4 (UDP-glucose iridoid glucosyltransferase-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold848G00150 PE=4 SV=1) HSP 1 Score: 404.8 bits (1039), Expect = 8.2e-109 Identity = 214/436 (49.08%), Postives = 294/436 (67.43%), Query Frame = 0
BLAST of IVF0021068 vs. NCBI nr
Match: KAG6607281.1 (UDP-glucose iridoid glucosyltransferase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1073 bits (2776), Expect = 0.0 Identity = 566/885 (63.95%), Postives = 660/885 (74.58%), Query Frame = 0
BLAST of IVF0021068 vs. NCBI nr
Match: XP_008457425.1 (PREDICTED: UDP-glucose iridoid glucosyltransferase-like [Cucumis melo] >TYJ97358.1 UDP-glucose iridoid glucosyltransferase-like [Cucumis melo var. makuwa]) HSP 1 Score: 820 bits (2118), Expect = 1.41e-292 Identity = 415/433 (95.84%), Postives = 416/433 (96.07%), Query Frame = 0
BLAST of IVF0021068 vs. NCBI nr
Match: KAA0031774.1 (UDP-glucose iridoid glucosyltransferase-like [Cucumis melo var. makuwa]) HSP 1 Score: 816 bits (2108), Expect = 4.64e-291 Identity = 412/433 (95.15%), Postives = 415/433 (95.84%), Query Frame = 0
BLAST of IVF0021068 vs. NCBI nr
Match: XP_008457421.1 (PREDICTED: UDP-glucose iridoid glucosyltransferase-like [Cucumis melo]) HSP 1 Score: 763 bits (1969), Expect = 6.60e-270 Identity = 382/382 (100.00%), Postives = 382/382 (100.00%), Query Frame = 0
BLAST of IVF0021068 vs. NCBI nr
Match: KAA0031775.1 (UDP-glucose iridoid glucosyltransferase-like [Cucumis melo var. makuwa]) HSP 1 Score: 752 bits (1941), Expect = 1.17e-265 Identity = 378/382 (98.95%), Postives = 380/382 (99.48%), Query Frame = 0
BLAST of IVF0021068 vs. TAIR 10
Match: AT5G59580.1 (UDP-glucosyl transferase 76E1 ) HSP 1 Score: 347.1 bits (889), Expect = 3.9e-95 Identity = 182/434 (41.94%), Postives = 279/434 (64.29%), Query Frame = 0
BLAST of IVF0021068 vs. TAIR 10
Match: AT5G59590.1 (UDP-glucosyl transferase 76E2 ) HSP 1 Score: 346.7 bits (888), Expect = 5.1e-95 Identity = 187/430 (43.49%), Postives = 274/430 (63.72%), Query Frame = 0
BLAST of IVF0021068 vs. TAIR 10
Match: AT3G46660.1 (UDP-glucosyl transferase 76E12 ) HSP 1 Score: 340.1 bits (871), Expect = 4.8e-93 Identity = 187/432 (43.29%), Postives = 271/432 (62.73%), Query Frame = 0
BLAST of IVF0021068 vs. TAIR 10
Match: AT5G38010.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 337.8 bits (865), Expect = 2.4e-92 Identity = 185/434 (42.63%), Postives = 272/434 (62.67%), Query Frame = 0
BLAST of IVF0021068 vs. TAIR 10
Match: AT5G38040.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 337.8 bits (865), Expect = 2.4e-92 Identity = 181/435 (41.61%), Postives = 277/435 (63.68%), Query Frame = 0
The following BLAST results are available for this feature:
Pages
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) 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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