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IVF0013324 (gene) Melon (IVF77) 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.ACTACACTAACCACAACAGTGAACGAACCCCAACTTCTTATTTTGCTAAAATGCCCACATATTCTCATTAAATTTACCATTTGCACCACTACAACTCCCATTTCCTCCCCCTTCTTCCTCCTCCTTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCTCAAATTCCTCCATTCCTACATTCTCTCACATTTTCACTTCTCTCAAAAATGGTTCACCCTGTTGTCTCCATCGAGAACGACGAAGAGAGCTCCCTGTTGCTCCAGTCCACCGCCGGGGACCTTTCATGGCGTTTGAACTTCGATGGCTTTCAGTTATCTCCAGAGCATAAAGAGAAGAAGCCCTCTCGTCCACTTCATGATTGCCTTGGGGTTTTGAGTAATTTCCTTTCCTACCTATTCTCTCTTCCTTCTCTTCTGCCGCTCCTTCTGTTTGGCTGATTCATTTTTTTTTTTTCTGATCCATCTTTGTTTTGTCAATATCGTATTCAATGCTCTTCCTTGCCTTGTTCTTTACTGGAAATATTCCTTTTCTATGTCTTCGCTTGTTGTTTTCTTCACTTTCTAATATAGCTGCTGCATATATTCGTTTTATTTTATTTCATTTTTTCTTTTGTTTCTGAAGAGTATTTATTCTTCTCCCACTTTGTTACTGCCTCTTTAATTTCTGTCCTGACATAGTGCGATTTTTCTTTTCGTTCTCTGTGTCATTTTTTCCTTTTCGCGTTGAATAATGGGGGAATTGTGGGTTCCGTTGGCTTTGTTTTGTGTATTTAATGTGCTATTGACCTAATCATTCTTTGGGTGAATTTAAAATTTGGAGAAGAGAATATGTAATTCAAAGTTTCGAAGGCCTTAACGAGAAGCTGGAGAATTATTTATTTATTTCTTTTGCTATAATTGGATGTGGATGTTTTGTGGTTGATTGATTCTTACAGTTTAGTACTTTTTTTCTCCATATTTAAGTTCTGAAGTTCATTGGTTGTGGTATAGAGTTGCTCAATATTTTGGATTTCTACTTTGACTTGGCTAGTTTTTGGTCCTGGATCCTGTTAAAATTTTTACATTTCTTTTGCCTTTGTAAAACCATGTGTATGTCTTCATGTTTCATTTTGTATAGCTACTACTGTTTTTTGTAATTTGGGATTGACATAGAGCATAGTTTGATTTGAGTTTGTTAAGGAAGGAAGAAAATAAAGAAGCAAAAGAAGCTTGGAAACTTCGTCAATCTTTTTCTCTCACACTTTTCTTGGTGAATGACTTCAGGTCCTGAAGATTATGTAGCTGAGTACTACCAGCAGCAGGTAGAGATGCTTGAGGGATTTAATGAAATGGATGCTTTAACTGATCGTGGTTATGTTCCTGGAATGTCAAAGGTTGATATTGTTCCGTACTAGCATGCTTTCTTGATGATTAAGACATTCTTCACTGCTCAAAACCAAAATTTGTTTATGGTGGTTGCAGGAAGAACGTGAAAATTTAGCAAAAAGTGAAACATTTGCAATCAGAATATCAAATATTGCCAATATGGTTTTGTTTGCAGCTAAAGTATATGCATCCATCAGAAGTGGTTCCTTAGCTATAATTGCATCCACACTGGATTCACTTCTTGACCTGTTATCTGGTTTCATTCTATGGTTCACTGCATTTTCCATGCAAACACCAAACCCCTACCAGTATCCTATTGGCAAAAAGCGCATGCAGCCGTTGGTCAGTTCTCTCGCAACTTCCTCTCTCTACTATTTGACGTGGTGAGAAAAATGATCATATAGATATAGGTTTATTTTACCCCAAGCCCATCTGCAACAGTGTGAAACTACCTCCTTCATCACTGGCTTGTGTGAAACGTGTGTTTCACCTGTGGCTTTATTTTTTCCACAATATGGGAACTAATAAAGTCCTATGTTAAAAATTTCTTCTCTTCAGTAGATTCAGGGTTAACTAGATTTGATCGGAAGTCATATAACTATTATTATTTCACACCCATCCGTTAACTCTTAATAATACTGTTGTCGGTAGCTCACTGCCATTGAGTCCCTCCATAAGACTCCTTACATTTGAATGTTCGTTTGAAAATAATTTCAACTTCAGTTTTCTATTTTTGAAAATAGTGCTTGTTTCATCCTAATTTCTTTACTATTACTATCTTTTTGACGAAAAAAACCTTGAATTCTTTGCCAAATTTAAAAGGCTAAAACAAGTTTTTAAAAACTATTTTTCTGGTTTTCAAAATTTGGCCGTATTTTGTGTCAAATTCTTAATTTGCCTTAAAATTGGATTCTGCCTCTTGTTCATATTTTTCTAGCGGATAATGGACTGCGGAACATGGACAGCTTCCAAGGCTTTACAATATACGCCTTCCAGCTGTAGTCGACCCATACTTTTCGGTTTTGAACTCTGGATTTGTTTAAGCGTGAAGAAATACTAAGCCTATTAGAGGGTGGCGGTGCATGAGGAGGGAGGGTTTAGCGTGTACACCTTGCTTTTGGCCAGGGGTTGGAGGATACTTATAAATCCTAATTCACTTGTGTTATGGATCGTCAAGGATAAGTACCACAAATTGAATTATTATGGAAGTGAAAATAGGGTCAAAACTTTGTGGGGGCTGGAAAGCATCTTTGAAGGGAGGAAAGTGCTAGGAATTGGTTTAAGATATGGGGTGTGGAATGGGAAGGACTATAATTTGAAAAACCCTTAATACCTTGCCCAGCACTTTTCAAGTTCTTTCTACCCTTAGTAATGCATTGGATAAGATGATCGATCTATTTTAGCCAAGCATGATACGGTGAAATAAAAGCAAAAGTTACCTTTTGGATGGAGTACTAGGCTTATTTAGAGAGTCTTCTCGGCATGTACGAGAGGTAGTTCAAGTAGCTGTACATGGCATTTTAATCCACCTGATAAAACTGTTGTAAAATCTCGTTTCTTGTTTCCTTGGAACTTAGTTTTAGAAAAGGGGGAAGAGGAGAAACCGCCAATTCTCATTTGCACGAAAAATGTTATTAGAAAGAAACGTGGAAGCTCCAGGAAACTTTTAGCTGTCAAATGGAATTTCAGGAAAGGGAAACGGAACTGGATGTTGGAATTACAGTTGGATATTGGCACTTAGTAAATTTCCTCTGTAACTAGCTTTCTAAATCTAAATGAAGCCTCTACTTGCATTACCCACTTACATTCTTTCTGTCTATGAAGGATGTAGAAATCCGGAAACTGATTAGTTCTTTAGCATACCTCTATTTATCTCGCAGAGGGACAGGCGTCCAAGCTATAGCTCTCAATTCTTGAATGTGATTCAAGAGAACGAAAGACCCACAGACCTCGGTATTGGGATTTTTGTCGATGCAGAGTTGCAGACAACGAAAGCAACCACCTTGAAGGGAGGGGCTCAGCTTCCCATCTGTTTATAGATGTAGCTTGAATTGCAAATTTAAGGATAGGCTACAATACAATGAAGGGTGTTCTGCAAGCTGAAGCCGAAGGCATGATAGACTTTTGAAGCGTCTAGATGACCAGTGGTTAGGGGTATTCTGATTAAAGTGTAATATTATCTCCTCTCCACTGGTCAAGCATACTTCAGAGGACAGCTAGCTAATACGACAAGTCCAATACGTCCGATATTTTGTCTCTTACTACGTCTTTTTTGTATGTGTTATATAGATATATACATACTATAGTTTTATGCGTGATGGGAGTTGAACGGATAAACCCACAATCTTGCTAAAACTGGGCTTGAATGGTTCATTATCCTAGCGGTTGGCCCACCCAGCTTTTCATCAATTCATTTCGTGCATTGCCATTTGAAAAAAGTAATAGCTCTCTTGATTTGTTGTATACTTGTATGATTTAAATTTTTTAACCCTTAAGAAGTCAAGTAGAACGAGAATTAGATGAGTTCTCTTGCATTCAAGAGAAAAGGAAAAAGAGAACTACCAAATCCAAACTTGATTTTCTTCACACGATTCTTTCATCAGTCTCTGTTATTTGATTTAAAATGAATGATAAATAATAATTATCCATCCATTGGTTGTGTGCTGTCACTGCTGGAGGATTAATATTCTACCTTTTGTTCTAATGCAGGGCATTCTTGTTTTTGCCTCTGTTATGGCAACTCTTGGATTACAGATAATACTGGAGTCAATTCGGACTCTCCTATTAGGTGTAAGTAATTAGAGAATCATCTCTCTTTCTCATAAAATTCCCCCCAAGTTTATCGCTTAAGCAGAAAAGTTGCCCCTAGATAATGGACTGGAATAGATTTTCGTTCCTCGACACTCCCCCAGACTGCTCAGAAGGTTTGACATCTATTTTCTTCTACTCTTCTTCCAGGATTCTGTGTTCAACTTAACCAAGGAACAAGAGCGATGGGTTGTGGGCATTATGATTTCAGTTACTATAGTGAAACTAGTCTTAATGGTCTACTGCCGTACTTTCACCAACGAGATAGTCAAAGCATATGCCCAAGATCATTTCTTTGATGTAGTCACCAATGCAATCGGCCTTGTTGCTGCTCTCCTTGCTAATTATATAGCTGGCTGGATCGACCCTCTTGGAGCTATTATTGTGAGTAACAACCTCTCTTTCTCCATATTGTGCATTATTTGCTGAATCTGAAACTTCCTTACTACCACATCTATTTTAATGTGCATCTTGGTTTTAAAGGTCCAAGAATGAGTTATTTCTTTATGACCATTAAAATGTACCCAGATTTGTACAAATGCTTTAGTTTCTGTTGGTGATATATAATTAAATTTACCTTCCACCACCCGCTTAAGCTTTTGGGTGAATTGACAGTTTAATAGTTTCTAATATTGTCAACTCTTTTTGAAGTTACTCATGTCTACTCTGTGAATTGCAACAGCTGGCTTTATACACTATACGCACATGGTCGATGACGGTATTGGAAAATGTGAACTCCCTTGTCGGAAGATCAGCTGCCCCTGAGTATCTACAGAAGCTAACCTACTTATGTTGGAACCATCACAAAGCCATCAGACATATTGACACGGTCCGAGCGTATACATTTGGATCACACTACTTTGTCGAGGTCGATATCGTCCTGCCTGGAGACATGCCACTGGAAGAGGCTCACGACATAGGTGAATCCCTGCAAGAAAAGCTCGAGCTGTTACCGGAAATTGAGAGGGCCTTTGTTCATCTTGATTACGAGTACAAGCATAAACCGGAGCACGCACAGGCACACTCTTAGAACAACAAGGCAATATGGTAATTTCTTCTCTTCAACTCTAAATCCCGCATGTTCATTTATGTGGTAGTAAAATTGCAATAACGACGTGGTTTTGAGTTGTGTAAATTTGTGCCTAATTCTGCGTGAATGATGATGAGGAATTTCTTTGGTGATTTTAGAAGAAAATTTAGAGCAACAAACCAAAGAAGAATCTTTTAGTGGCTGTCAGGTAATTGTATAAAAATAGAAAATTCTTAAGCCATCATTTCTCCTTAAATTTTAGACTTCTGAACCACAAGCACGAACCAATTCCTTGGCCATCACGACTCGCTTTTGTTGGTTTTGGAGACATCGAAGGATCCTAAACCAAATCGATCAATTTAACAAAGAAGAGATCTACACGAATGTCTAAGAAAAGAACCATATTGATGGCTTTTGATTTTTACATTTTCTTTTCCTTTTCAAAATTTTATTTTATTTTCAAGGTTCTTTTTGTTAATTATGAATTAAAATTGGCTTTTTTTTCTCCACACTTTTCTAAATAAAAAACATATACTGTCCATAATAATTGATTTTTTTAAATAAAAAATATAGAATTTAATTTTAAGGGTGTATTAACGGTTTGATTTTGATTGATTTTTTCAATAAAAATTGATCCAAACTAATACTTTTTTGGTTTCTCCAATTATAAACCAAGATGTGTAATTTTCTGTTAAAAACCAAACCAAATCGTTGGGTACTTAAATAAGTTTTAAAAGAATTATAATGATTTTTTCTTTCCAGTAAACCATATGATATGATGTCCTAAAATTTAAAATATAAAGATATCTCTACAAAATGCAATTAGATCACGAAATGTTAATACATAAGTATAGTAAAAACCAAAGTGTATAATGTTAGAGCTTTGAATTTTTTATTTAATATATCATCCACTTATTATCGAACGTTTTATACATTTATGAATCTATCTCTAGCAGAATGGATTTGTACACTTTTTGAATTATGGAATCTAGCAATATAATAATTTAATGTAATTAGGGGATGTTATAATTATTTTTAGGTGCCTACATGAATATATATAAAAATGTGTTCTCTTATGTCTAACCATAATCTAACCTTCTACAACTTTGTGTCATTTCTTCAGAACAAAAAACATAACTAAGTGGGAAACATAGTTTTTATTATTGTACATGACTTGTAAATTAATATATAAAACCTTACCTTATTTTTAAAAAATAAAATAAAAATTTCTTGGACTTCATTCAAACATAAATTTTAAACCTAC ACTACACTAACCACAACAGTGAACGAACCCCAACTTCTTATTTTGCTAAAATGCCCACATATTCTCATTAAATTTACCATTTGCACCACTACAACTCCCATTTCCTCCCCCTTCTTCCTCCTCCTTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCTCAAATTCCTCCATTCCTACATTCTCTCACATTTTCACTTCTCTCAAAAATGGTTCACCCTGTTGTCTCCATCGAGAACGACGAAGAGAGCTCCCTGTTGCTCCAGTCCACCGCCGGGGACCTTTCATGGCGTTTGAACTTCGATGGCTTTCAGTTATCTCCAGAGCATAAAGAGAAGAAGCCCTCTCGTCCACTTCATGATTGCCTTGGGGTTTTGAGTCCTGAAGATTATGTAGCTGAGTACTACCAGCAGCAGGTAGAGATGCTTGAGGGATTTAATGAAATGGATGCTTTAACTGATCGTGGTTATGTTCCTGGAATGTCAAAGGAAGAACGTGAAAATTTAGCAAAAAGTGAAACATTTGCAATCAGAATATCAAATATTGCCAATATGGTTTTGTTTGCAGCTAAAGTATATGCATCCATCAGAAGTGGTTCCTTAGCTATAATTGCATCCACACTGGATTCACTTCTTGACCTGTTATCTGGTTTCATTCTATGGTTCACTGCATTTTCCATGCAAACACCAAACCCCTACCAGTATCCTATTGGCAAAAAGCGCATGCAGCCGTTGGGCATTCTTGTTTTTGCCTCTGTTATGGCAACTCTTGGATTACAGATAATACTGGAGTCAATTCGGACTCTCCTATTAGGTGATTCTGTGTTCAACTTAACCAAGGAACAAGAGCGATGGGTTGTGGGCATTATGATTTCAGTTACTATAGTGAAACTAGTCTTAATGGTCTACTGCCGTACTTTCACCAACGAGATAGTCAAAGCATATGCCCAAGATCATTTCTTTGATGTAGTCACCAATGCAATCGGCCTTGTTGCTGCTCTCCTTGCTAATTATATAGCTGGCTGGATCGACCCTCTTGGAGCTATTATTCTGGCTTTATACACTATACGCACATGGTCGATGACGGTATTGGAAAATGTGAACTCCCTTGTCGGAAGATCAGCTGCCCCTGAGTATCTACAGAAGCTAACCTACTTATGTTGGAACCATCACAAAGCCATCAGACATATTGACACGGTCCGAGCGTATACATTTGGATCACACTACTTTGTCGAGGTCGATATCGTCCTGCCTGGAGACATGCCACTGGAAGAGGCTCACGACATAGGTGAATCCCTGCAAGAAAAGCTCGAGCTGTTACCGGAAATTGAGAGGGCCTTTGTTCATCTTGATTACGAGTACAAGCATAAACCGGAGCACGCACAGGCACACTCTTAGAACAACAAGGCAATATGGTAATTTCTTCTCTTCAACTCTAAATCCCGCATGTTCATTTATGTGGTAGTAAAATTGCAATAACGACGTGGTTTTGAGTTGTGTAAATTTGTGCCTAATTCTGCGTGAATGATGATGAGGAATTTCTTTGGTGATTTTAGAAGAAAATTTAGAGCAACAAACCAAAGAAGAATCTTTTAGTGGCTGTCAGGTAATTGTATAAAAATAGAAAATTCTTAAGCCATCATTTCTCCTTAAATTTTAGACTTCTGAACCACAAGCACGAACCAATTCCTTGGCCATCACGACTCGCTTTTGTTGGTTTTGGAGACATCGAAGGATCCTAAACCAAATCGATCAATTTAACAAAGAAGAGATCTACACGAATGTCTAAGAAAAGAACCATATTGATGGCTTTTGATTTTTACATTTTCTTTTCCTTTTCAAAATTTTATTTTATTTTCAAGGTTCTTTTTGTTAATTATGAATTAAAATTGGCTTTTTTTTCTCCACACTTTTCTAAATAAAAAACATATACTGTCCATAATAATTGATTTTTTTAAATAAAAAATATAGAATTTAATTTTAAGGGTGTATTAACGGTTTGATTTTGATTGATTTTTTCAATAAAAATTGATCCAAACTAATACTTTTTTGGTTTCTCCAATTATAAACCAAGATGTGTAATTTTCTGTTAAAAACCAAACCAAATCGTTGGGTACTTAAATAAGTTTTAAAAGAATTATAATGATTTTTTCTTTCCAGTAAACCATATGATATGATGTCCTAAAATTTAAAATATAAAGATATCTCTACAAAATGCAATTAGATCACGAAATGTTAATACATAAGTATAGTAAAAACCAAAGTGTATAATGTTAGAGCTTTGAATTTTTTATTTAATATATCATCCACTTATTATCGAACGTTTTATACATTTATGAATCTATCTCTAGCAGAATGGATTTGTACACTTTTTGAATTATGGAATCTAGCAATATAATAATTTAATGTAATTAGGGGATGTTATAATTATTTTTAGGTGCCTACATGAATATATATAAAAATGTGTTCTCTTATGTCTAACCATAATCTAACCTTCTACAACTTTGTGTCATTTCTTCAGAACAAAAAACATAACTAAGTGGGAAACATAGTTTTTATTATTGTACATGACTTGTAAATTAATATATAAAACCTTACCTTATTTTTAAAAAATAAAATAAAAATTTCTTGGACTTCATTCAAACATAAATTTTAAACCTAC ATGGTTCACCCTGTTGTCTCCATCGAGAACGACGAAGAGAGCTCCCTGTTGCTCCAGTCCACCGCCGGGGACCTTTCATGGCGTTTGAACTTCGATGGCTTTCAGTTATCTCCAGAGCATAAAGAGAAGAAGCCCTCTCGTCCACTTCATGATTGCCTTGGGGTTTTGAGTCCTGAAGATTATGTAGCTGAGTACTACCAGCAGCAGGTAGAGATGCTTGAGGGATTTAATGAAATGGATGCTTTAACTGATCGTGGTTATGTTCCTGGAATGTCAAAGGAAGAACGTGAAAATTTAGCAAAAAGTGAAACATTTGCAATCAGAATATCAAATATTGCCAATATGGTTTTGTTTGCAGCTAAAGTATATGCATCCATCAGAAGTGGTTCCTTAGCTATAATTGCATCCACACTGGATTCACTTCTTGACCTGTTATCTGGTTTCATTCTATGGTTCACTGCATTTTCCATGCAAACACCAAACCCCTACCAGTATCCTATTGGCAAAAAGCGCATGCAGCCGTTGGGCATTCTTGTTTTTGCCTCTGTTATGGCAACTCTTGGATTACAGATAATACTGGAGTCAATTCGGACTCTCCTATTAGGTGATTCTGTGTTCAACTTAACCAAGGAACAAGAGCGATGGGTTGTGGGCATTATGATTTCAGTTACTATAGTGAAACTAGTCTTAATGGTCTACTGCCGTACTTTCACCAACGAGATAGTCAAAGCATATGCCCAAGATCATTTCTTTGATGTAGTCACCAATGCAATCGGCCTTGTTGCTGCTCTCCTTGCTAATTATATAGCTGGCTGGATCGACCCTCTTGGAGCTATTATTCTGGCTTTATACACTATACGCACATGGTCGATGACGGTATTGGAAAATGTGAACTCCCTTGTCGGAAGATCAGCTGCCCCTGAGTATCTACAGAAGCTAACCTACTTATGTTGGAACCATCACAAAGCCATCAGACATATTGACACGGTCCGAGCGTATACATTTGGATCACACTACTTTGTCGAGGTCGATATCGTCCTGCCTGGAGACATGCCACTGGAAGAGGCTCACGACATAGGTGAATCCCTGCAAGAAAAGCTCGAGCTGTTACCGGAAATTGAGAGGGCCTTTGTTCATCTTGATTACGAGTACAAGCATAAACCGGAGCACGCACAGGCACACTCTTAG MVHPVVSIENDEESSLLLQSTAGDLSWRLNFDGFQLSPEHKEKKPSRPLHDCLGVLSPEDYVAEYYQQQVEMLEGFNEMDALTDRGYVPGMSKEERENLAKSETFAIRISNIANMVLFAAKVYASIRSGSLAIIASTLDSLLDLLSGFILWFTAFSMQTPNPYQYPIGKKRMQPLGILVFASVMATLGLQIILESIRTLLLGDSVFNLTKEQERWVVGIMISVTIVKLVLMVYCRTFTNEIVKAYAQDHFFDVVTNAIGLVAALLANYIAGWIDPLGAIILALYTIRTWSMTVLENVNSLVGRSAAPEYLQKLTYLCWNHHKAIRHIDTVRAYTFGSHYFVEVDIVLPGDMPLEEAHDIGESLQEKLELLPEIERAFVHLDYEYKHKPEHAQAHS Homology
BLAST of IVF0013324 vs. ExPASy Swiss-Prot
Match: O80632 (Metal tolerance protein 11 OS=Arabidopsis thaliana OX=3702 GN=MTP11 PE=2 SV=1) HSP 1 Score: 641.3 bits (1653), Expect = 7.0e-183 Identity = 326/394 (82.74%), Postives = 354/394 (89.85%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy Swiss-Prot
Match: Q5NA18 (Metal tolerance protein 5 OS=Oryza sativa subsp. japonica OX=39947 GN=MTP5 PE=2 SV=1) HSP 1 Score: 617.1 bits (1590), Expect = 1.4e-175 Identity = 311/376 (82.71%), Postives = 344/376 (91.49%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy Swiss-Prot
Match: Q0DHJ5 (Metal tolerance protein 6 OS=Oryza sativa subsp. japonica OX=39947 GN=MTP6 PE=2 SV=2) HSP 1 Score: 506.5 bits (1303), Expect = 2.7e-142 Identity = 269/375 (71.73%), Postives = 298/375 (79.47%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy Swiss-Prot
Match: Q9SAJ7 (Metal tolerance protein 9 OS=Arabidopsis thaliana OX=3702 GN=MTP9 PE=3 SV=2) HSP 1 Score: 453.0 bits (1164), Expect = 3.5e-126 Identity = 233/370 (62.97%), Postives = 295/370 (79.73%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy Swiss-Prot
Match: Q0WU02 (Metal tolerance protein 10 OS=Arabidopsis thaliana OX=3702 GN=MTP10 PE=2 SV=1) HSP 1 Score: 449.5 bits (1155), Expect = 3.9e-125 Identity = 230/367 (62.67%), Postives = 287/367 (78.20%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy TrEMBL
Match: A0A5A7V2B6 (Metal tolerance protein 11 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold321G00190 PE=4 SV=1) HSP 1 Score: 774.6 bits (1999), Expect = 1.9e-220 Identity = 395/395 (100.00%), Postives = 395/395 (100.00%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy TrEMBL
Match: A0A1S3CF53 (metal tolerance protein 11 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103500184 PE=4 SV=1) HSP 1 Score: 774.6 bits (1999), Expect = 1.9e-220 Identity = 395/395 (100.00%), Postives = 395/395 (100.00%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy TrEMBL
Match: A0A6J1GZB9 (metal tolerance protein 11-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111458601 PE=4 SV=1) HSP 1 Score: 746.9 bits (1927), Expect = 4.3e-212 Identity = 375/391 (95.91%), Postives = 387/391 (98.98%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy TrEMBL
Match: A0A6J1J790 (metal tolerance protein 11-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111483206 PE=4 SV=1) HSP 1 Score: 740.3 bits (1910), Expect = 4.1e-210 Identity = 371/390 (95.13%), Postives = 385/390 (98.72%), Query Frame = 0
BLAST of IVF0013324 vs. ExPASy TrEMBL
Match: A0A6J1CET3 (metal tolerance protein 11 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111010075 PE=4 SV=1) HSP 1 Score: 733.4 bits (1892), Expect = 5.0e-208 Identity = 373/395 (94.43%), Postives = 381/395 (96.46%), Query Frame = 0
BLAST of IVF0013324 vs. NCBI nr
Match: XP_008461622.1 (PREDICTED: metal tolerance protein 11 isoform X1 [Cucumis melo] >KAA0062223.1 metal tolerance protein 11 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 774 bits (1999), Expect = 4.48e-282 Identity = 395/395 (100.00%), Postives = 395/395 (100.00%), Query Frame = 0
BLAST of IVF0013324 vs. NCBI nr
Match: XP_038891930.1 (metal tolerance protein 11 isoform X1 [Benincasa hispida]) HSP 1 Score: 769 bits (1985), Expect = 6.10e-280 Identity = 391/395 (98.99%), Postives = 394/395 (99.75%), Query Frame = 0
BLAST of IVF0013324 vs. NCBI nr
Match: XP_004147705.1 (metal tolerance protein 11 isoform X1 [Cucumis sativus] >KAE8647970.1 hypothetical protein Csa_000353 [Cucumis sativus]) HSP 1 Score: 763 bits (1971), Expect = 8.31e-278 Identity = 388/395 (98.23%), Postives = 391/395 (98.99%), Query Frame = 0
BLAST of IVF0013324 vs. NCBI nr
Match: XP_022957123.1 (metal tolerance protein 11-like isoform X1 [Cucurbita moschata] >XP_023541130.1 metal tolerance protein 11-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 746 bits (1927), Expect = 4.22e-271 Identity = 375/391 (95.91%), Postives = 387/391 (98.98%), Query Frame = 0
BLAST of IVF0013324 vs. NCBI nr
Match: KAG6601019.1 (Metal tolerance protein 5, partial [Cucurbita argyrosperma subsp. sororia] >KAG7031630.1 Metal tolerance protein 5 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 744 bits (1921), Expect = 3.47e-270 Identity = 374/391 (95.65%), Postives = 386/391 (98.72%), Query Frame = 0
BLAST of IVF0013324 vs. TAIR 10
Match: AT2G39450.1 (Cation efflux family protein ) HSP 1 Score: 641.3 bits (1653), Expect = 4.9e-184 Identity = 326/394 (82.74%), Postives = 354/394 (89.85%), Query Frame = 0
BLAST of IVF0013324 vs. TAIR 10
Match: AT1G79520.1 (Cation efflux family protein ) HSP 1 Score: 453.0 bits (1164), Expect = 2.5e-127 Identity = 233/370 (62.97%), Postives = 295/370 (79.73%), Query Frame = 0
BLAST of IVF0013324 vs. TAIR 10
Match: AT1G79520.2 (Cation efflux family protein ) HSP 1 Score: 450.3 bits (1157), Expect = 1.6e-126 Identity = 235/382 (61.52%), Postives = 299/382 (78.27%), Query Frame = 0
BLAST of IVF0013324 vs. TAIR 10
Match: AT1G16310.1 (Cation efflux family protein ) HSP 1 Score: 449.5 bits (1155), Expect = 2.8e-126 Identity = 230/367 (62.67%), Postives = 287/367 (78.20%), Query Frame = 0
BLAST of IVF0013324 vs. TAIR 10
Match: AT3G58060.1 (Cation efflux family protein ) HSP 1 Score: 352.8 bits (904), Expect = 3.5e-97 Identity = 192/352 (54.55%), Postives = 252/352 (71.59%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) 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.
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