MELO3C024971 (gene) Melon (DHL92) v3.5.1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.TAGATGAAGGAATACATGTTCCATTAATATTTTGCACTTACAAAGTTTTGTGAATTCATTTTCATTTTTCTTCCGTTGATTCATTGCTCAACACAAACAAAAACTTCAACAAATCATGGGAGCCAAGAAGATCTACAATGGCTTCGTTGATGTGGTTGAAGCTGTAGAAGATGGACATAGCAACGCCGAGCCGTATCAGCTATCGACTCTTTCCGTCGACCTCTCTCTTCCACTTCCCGCCATGACTCCTCGCATAATGTTCGTATCGCTTCCTCTTTCGTTTGCTTTCTGGTTTCTTCACACGGATTGTTTATACTGCGCATTTTTGCCTTTTTGTGTTCTGTTTTTCCATAAACTGGAACCAAGACGACCAGAACGCTTCTTGTTTTTATGAATTTGATGATGATTTTCATCTCCTTGCTTCTTGGAGCTCGCGGTATGCGGTTACTGAAGGTAATTGTGGAAGTTTGTTTTGTTAATTTTGTTCTCAGTTTTCTTTTTCTTGATTTTTCTTGCAGCGAGTTGTGTAAGGATCTGTTTAAGGAGTGGTCAGAGCTGGATGCTTCTCGGTTCTCTGTTGAAACGGTCTCTGGTGGAATCACTAATCAGCGTGAGTGTTTGCTTATAATGTGTTTATTCGTTCAATTTGATTAAGGCGAGATTGTGTTCGAGGTTTGTTTAGTGACTTCTTTGCTGCTTGTGGAGTTATGTCTGTAATAGAAATTTTGTTTTTTCTGACTTCTCCAGTGCTTAAGGTTACGGTGAAAGAGGAAAGTGGTACTTCCGTTTCTGTCACCGTCAGACTATATGGACCTAACACGGATTATGTTATCAATCGTGACAGGGAACTACAGGTGACTTGCGACGTTTCTTGATCGATTATTGAGTGTTTAATTATCTGTTTGTTGTGTACGCTAAGTGTAGTTTTTGGTTTTAGTTTGTTCTTTACGTCGTCTTCTTTCTTTCTCTCTCTATCCTGGCGGGCAACGGTGTTTCATCTTTTTGCGTAGTGTAAGCCCTAATACAATCGAGTCATGTACTCTGTAAATCGAATCTAACCATTTTTAAGGTGATATGCACTGTTCTAGTACTTAGAAATTCGCTATTGATCTCTATTATTACGTTTGATTGAAGTACGTAAAAAGTAATCTAAACTCGGTTTTGTTTGAAAATATTATCATGCTGTATATTTGGGGTACATGATAATCAAGTACTATAGCTTTGACATAGAAGAAATCTAATCTCATCTATATTTCTTCTATATGCATATATATTTATTTTGTACTATTAGCATCTGGGTATTGATCCAATATTTTCGATAGTGGTTATTTATTAATATTGTTGTTTTTAGTGAATGATCTGATCAGCGAAATTGATTTTGGTATTCTGGGTGGAGCTGTTAATGTAAGGTCTGCTGCTCCTTAAAACACACACACACACTGACTGTGTGTGTGTTTACAAGTGGTATTGAAAACTTTTTCTCTGCAATCAATTCACATTTGTTAAGGAGAATGGCAACTGATTTTCTGTCTGTAATTGAGTCCAAGTAATATGCTTTTTGAGGAAAATCCTGTTTCTGACAGAGAGAGCGCTAGCTGCCTGGGGTGGGATCTTGTGACTTAAGACCCTGATACTTGATTGAAGTTGTTTACGTCTTTTAGGGGTGTAGTGTAGGTCTTACAGCTGAATCTCTTATCTTCTTTCTCTCTTCCACCATTTCCTTGTCTTCTGTTCCATTTTTCTGTCTCAAAGGTTTTTCCCACTAGTATCATGGTTGTATCTCCCTTACTTGCATGGTCTTGAACCAAGAGGATTCAGAAAAGTTCATGTCGATTTCATGAATTTTAGAGTACAATCTTATCACCAGACCTTTTTTTTTCTTAAAAAAATATAATTTTATCTTGAATTTGATTATTCAGATAATGCTACTAATTGTTTATCTTTCACTTGGTTTTCTTGTTGTGTGTGACCTTTGCTTATATCTTATCATTCACTCTGTAATCTCATGAAATCTTGTATTAGGCAATCAAATATCTTTCAGCTGCAGGATTTGGTGCCAAGCTTCTTGGAGTTTTTAAAAATGGAATGGTGCAGTCATTTATTCATGCACGTACACTAGAACCATCAGGTAAAAAGCATTTAGAATCTTTCTGATTTACACCTTGTTTGCAGACAGTTCAGTTTTAATCTTTAATGCTGAATGTTTCACAGTATTATGTAGCATTTCATTCTAATAGTAGCTGCACTGAAAGATTTGCAGTTAAGATATATGGATAGAGAAGGAAATATTAATTTAACATGATCTACGCTTTAATAGTTAGATTTGGTCTAAAATTTGTTTTCACGTTTAGCAATATGTGGGCTGGGTTTTGAACAATTCAGTAGTTCATATATCCCTTGATTGAGGAGTTTATTCTTTAAGTCGTTCATGCTCACAACCACAGGCTCAACCCCCCCCCCCCACTTGACTCTCCTCTCTCCTCCTTTGTTTCTGCATTTCAGTAAGGGTTGATTCCTTGATCTTGGTATTTTTGGCTAGATTCAATCGGTTTATCAGTTTATCTGATTTTAGCTTCCAAGTTAATTATCAGGTTTTAGTTTCTTTTTGAAGTTTTGCTTCTGGTTTATCCAGTCCCTGTTTTGAGTGATGGGTTTAAGGAGCTGTTGTGTAAACAGTAAGTATTTCTGCACTGGTTAGAGAATGACATCCTTTTGTCGATGATGAAAACATGGCAAGAAATTAATCCCTCTTTCTGTTCTCCAATTACGCTGGTCTGAAAATTCATTAGTGGATTTGTTGCAAAACCCAGTGCAAATCAAATTTCAAGCAAACTAGGGATAAATTTAGTATAACTCACTTGTCAATAAGATCTTTATGTTGGAGCACTAAATGTGTAGTATGGTCGTAATCAGGAGCTTTGAAGGAAGTTCATCCAAGTCCTTGTGGAAATTACGACCATACTTGAACAAGGTTTGTTCTATAGATTGTACAACTTTGTACAACTGTACTTGAGTTCTAAAGCCCTGGTAGGAATTCCTAAAAAGTGTTGGCTCAGATTTTGGCATATGGTAAAGGACTTCCTTAAGAAATGCGGAAGATTTTCAGAAGTCACAGAATCTGACTAAGCTGCCCATGGCTAAATTTATGAAGAAATAGTGAAAGGAAATCTGAGGCCCAATGGCCAATTGAAAAGTCCTATAATTTAAACTGTTCTCAACCAAATTGGGTCCGAAAGGGTCATGAAGTGGTGTAGGTTTTCTTAGTGAATTATTAGTTGTTTCTAGATTGTTTACTCATTACAATTGGATGGATATAAAGAAATCTTTGGACGATCATTTTGAGGGGACTGTTTATCTTATTATAGGTATGGAGGTTGGTGATAGACATGGAGTTATGAACTTGGCTTCTAAGGGTGTGTCTGATCCAAGGGTTTTAGAAGTAGGGGTAAGAAAGTATAGAGTTATGAACTTGTTCCTTGTTTGGCCCAACTAGTTCGTGGGTTGCACCACTAAGAAAACATCATTTTATATCTTATTAACTTCGTACATTGTGGGTCCCAGGAGTTCACTACTCCCCAAACTTTATAACTCCTTACTTCAAACTATTCCACCTCTTACCCTGAACACCCCCTAAAGCTTTACTTTTCTTTCAATTTTTTTTAAACCCGATGTGTCCATTAGGGATAGATCTAGCAACTTTATCCTATCTAATAAGACAAGCTCCAAATTGGAATAAGCATCCCTTTCAAAGGAAGCTTCTGTAGAGTTTCTCAATAGTAGAAGCAATTTTGATAGGATCTTGAAGAGGGACGAGGAGAGGAAAGATTTGAGTATGTGGCTTGTAAAAGTGTAATCTGCCCCTGGATATTAGTGAATCATTCCATGTGTGTCTTCTTTCAATCTTTTCAATCAGTTTATTAAATTGGGTTTTTATTTTGTCCAAGTTCATTTCAAATACTCGGTCACTTCTCCTATTGAAGATTCTGATTTGTAATCTATATTGAGTTTGCATTACATTAGTTCATATGGGTTTCCAGGGGATTTAATATTATTAGTCTTTACTAAGGACTACTATGCTGAGGTCTTAAATTATTCCTGGATATTGAAAACGAAGATTCAACTCCAAACATCAATTTAGCTCATCAGATTCTTCCATCAGATTCTCCCATGATGTTTTGCCTTATTTGCAATTGGATTTGAGGAATATCTCAATTGTTGCCTTGCTTGAAGAGTCCTTGGTGGAAGTCGCTAATAATTGAGAATCCTTGACAAGGTTACTCATTTATTACTGTAGATATTATAATCTTAAAGCTCCAATTGACCCAAAACTTGAGCTAATGGGTGAAGGCAATTTAATCATATATCATCTAACAATTATGTTCCAAGCATGAAGAGTTGCCAGTGCTTTTTTTTTTTCTTTGAAAGGAAACAAGCAATGAAGTGAACACTTTTTATTGATGAAATGGAAATAAGATAATGCTCAAAAGTACAAAACCCCATGAGAGGAAGTAAGAAAGAAAAACAAGTACTAAAATAAAGGTAATACAAAAATAATTAAACTTGGTAGTATAAAGCGTTCCAATTAAGACAAATATTTGGAACAGTATATCCTGCAAAGCTTTTGGAGAGAGAGCACCAGAATAGGCTTTCAAATGAGGAAAACAGAACCAATCATCCGACAGTAAAGACTCATTATGAAAAACTCTTTTTCTATGTGTCCTCTTTGTTTATAGATTCCCAGGATCTCTTTTCTTCGGCCACTTCAGTTATGAAGTCTCCCAAGAAGAATTTCTTGGCATATCTTAGGAGCAAGCTGTCGTCTCCCTTATTCTAGTTGATATGGCTACTTTGGAAGATTTTTTAACTGCTTGTTTGTTTGTAGGTAATGTTTAATTTTTGGATTAGTACAAAGCCAGTTTGTTTTGACTCCTATTTCTAGTTTCCTTTGCATTCAAAGCTCCAAAACTTCTAAGATGGAATTCTTTCTCCTTCTCTTAGCTGTTCCTTTAGCACCACTTATTAGGATTGTCTGTTAGAGGGAACTTTTTGTTTATTGGAGCTTTGAAGTGGTGTTTCATTCTCAAATAATTTTTTTAAGTTTTGCTCTCTCAGCTGCTCCGCATTGCCCACTTGCTCTGGTAGTTTCTTGTTGGTGTTCTTTGTCGTATCTTTTATTGTTCTCTTCTCTTTACAAAGGATCTTTCCTACATGTTTTTTTTCAACATTCAGTTCTCGTTTTGTATTAAGCTCATCCATATTCCTCTAGCATTAGTTTCTTTTTATTTATTCAATAAAAAATTTTGTTTCATGTAAAAGAAGAATAAAAAGGTACAATAAAAAGAAAATCCTTGATTGTGTTCATGGATATTGTTTGATGAGTTTGGAGAATTATAGTCTGTCTTAGGAGATGTGTGGTTTCATCGGACTTGAAATGGTGGATTCTTTATTATTTTGAAAAGGAAATCACCCTTTTCGTTAAAAAAGTAATGCTCCAAAATATTAAAAGTCACAAAACAAGACAATTCTAAAGGACAATGACACAAAAAGTACAAAAGAACAATTGATGAACATAAAAAAGTAATAGTGAAGAACTATAAAGCTCTTCCAACTCCTGTCAAAACTTAAATGGAATGCCGTGAAACTTTTTTTAGAAGAAACAGTTGTGCACAACAGAACATATCTTGAACAGGTCGCAACCCTTGGAACTTTCAGAAAATGAGCACGAAGCCATTGACTTAAATGATCTGAATTAGAGTTGTCCATTATTTTTTTACCCTCAATAGTGTTGCCTCTGTGTTTATCTGGAAGTGCTTTCCCACCTCTAACGTTCGCATATGTCAGCGCATATCTAACAAACCATTGTTTCTCTCTATTTGGAATATCTTATGAACCCGTGATTAATAACACAAATTTTGTTAATTTTGCTTGGTTTTGTAGATTTGAGAAAGCCAGAGCTAGCTGCCGAAATTGCTAAACAGCTTAATAAATTCCACAAAGTATATATTCCAGGTTCTAATGAACCTCAGTTATGGAACGAAGTCTTAAAATTTTACGAGAAAGGTTATTTTTCTTGGCCAAGAACAAGCTTCTGGTCAGCGGACCCCTCATGCAGTTGAACGTTCTAGTTTCTTTTGAACTGGTTTTGACGTTTCTGATTATTGATTTTCAGCCTCCACACTGCAATTTGATGATACTGGGAAGCAAAGTATATACGATACAATTTCATTTCAGGAAATCCACAATGAAATACTTGAGATTAAGGTTGTTTCTTCGATTGAGACTTTTTATGGGTTCTTTATACTAGGTTTGACCATATTTTGAGTGACCATCTGCTGTCAATCATGAATCATACACATATGGCTTTAGAAAAGAGATTGCTGTTTGTTGATGCAACTTGCCATAATTGAACAGGAACTAACGAGCCTTCTTAATGCACCCGTAGTGTTTGCTCACAACGACCTGCTTTCTGGGAACCTAATGCTCAATGAGGAAGAAGGTAACCCCCTCTGATAATATATTCTACTTCTTTATTTGGCTCCTTCAAATTCTCCACTATCATCTTTGTTTCCATCTTTCATATAAAGTATAACCATGCCCCCGTCCCCATGTACTGACAATCACATCTACTTATCCTTCTCTATTTTTCATATCACGTTCTTTTCCCCCTCTTGAGGAGCCCCTGTTCCCACGTACTCACAATCACATCCGAATATTAAGGATGTTTATTCCTTGTGAATAATGGAAAATGGTACTCTGAATTGTTAGGGGATGGGAATTTGAACTGGACTGGATGTCGATTGGTTCTTCAAATCCTTAAGCAGCATCATCTAGATAAAGTATTTTCTACTTTACAAATAGTTGTGTAAGAGAAAATAACATAAGAGAAAATAACATATCTTTGACTTTTGAGAATGAACAACTTATGAGATGTCGGAGTAGATATAACAGTAGCAACTTGGACATTAGGCTGAGGGGAACTTGACAGCCAAGGATCGGTTTGATTGGTCGTGAGCTTTAGTTGAACTTCTCTGTTTTCCCCCACTAAAATGCTCATCGTTTTGATGTCTTTGCTTGTCTTACAAACGTATACAGGACGACTCTACTTCATTGATTTCGAGTATGGATCATACAGTTACAGAGGCTTTGACATTGGTAATCACTTCAATGAATATGCTGGCTATGACTGCGACTACAGCTGGTAGGTTTTTAATCTGCTTTTCATGGGCAATTTTTCTTTCTAAAATGTAGTAACATTGATGTTTGACTATAGTTTATCAATTGCTGAGCAGTTATCCATCTAAGGAGGAACAGTATCATTTCTTCAGGCATTATTTACAGCCTGAAAAACCAGATGAGGTGTGGTTGGCGTTATCCCTATGTGTTCTTTTGTTCATAAACGATTTAAATGCTAAAAAAGTAATTACAAAGATTTATGTGCAATGTTTGATGCATCTTAAAAGTCACGATGACCTCTGCCGTGCTTATATTTTCTGAATGCTTTCCTTACCTTGGAACCTCAATACAATACGCCACAGGATTGGGATTTTATACACCATCCTTTCCATCATAGTTGTTGCCTCCAATCTTCTTCCCTCTGTTGTTTCCTTTATACATTGTAAAATTATATGCGTGCTATTCTGTGCTTATATTGATTGGTACTGACCCTAGAATTTCTTGTAACTTTTATTTTTTCTTTTCCTTTTTTGGTTTTTTATATATAACTTATGATTATTATATTGTTAGGATACTTCCCAACAAGAACAATATATGAATATAATAAAATATAACTATAAAGAAATACAAGATAAACCCAAAGTATAAGGCACTTGGAACCTCGCTTTAGAGTACTGTTACCAACCCCTAGATCACTCCACAAAATACCCTCCTCCTCATTCACTTGCCCTCCCTCTATTTATGACTAGTAAATACCTCAGTAACCACCCTTTGCAGTAACTAGTAGTAACTCCCTATCTATCTAACTACCCTATATGCCTTAATTAACACAAACTAAGTATCTAGTACCTAACAGATATTTTTGAACATGAGTGAAATGTAAATGTATGAATAACAGAAAATTATTAGCACGGTAACAGACTTTGGGGATCTGCAGAGACATGTTATTTACACTTTAGCGATCATTTTTTATACTAACTAGAACTACTGTCTTCTCTTGAAAGGTTTCTCAAAAAGATCTGGAAGCTCTCTATGTGGAGTCAAACACGTTCATGCTGGCTTCTCACTTGTATTGGGCTTTATGGGCACTTATACAGGTACCTTGCTTCTTCCACTGTCCTTCCATCTACACAATTTGATTTGAGTCAAAACATTCATTCATTTTACTATGCTTTATAGGCAAGGATGTCTCCGATTGATTTTGATTACCTTAGTTATTTCTTCCTACGTTACGGCGAATATAAAAAGCAGAAAGAAAAGTATTGCTCTTTAGCGAGATCTTTCCTTGCTGGATCAGGATTGGGTTGTGGTTCTGCATAGAAGATGCAAGCAGTTGGGGTTGTAATTGGATCGGGAAGTTGGTATTTTTCAATCTTTTTACTGATCTTGTTTGATATCTGTTGTAAATTTGTATTTTGTACTCTAGAATCTATAGCAGAACTGTGTTATCACGGACAGTTCTGAGAAGATTTTAGAAGGTTTCCAAATAGAATCGATTTGAAAGGACTTTTCTCCTTGTTATTGGAATAAAAGGATATAGAATGAAATGAATTGTGTGATTCTGAGCTTTA TAGATGAAGGAATACATGTTCCATTAATATTTTGCACTTACAAAGTTTTGTGAATTCATTTTCATTTTTCTTCCGTTGATTCATTGCTCAACACAAACAAAAACTTCAACAAATCATGGGAGCCAAGAAGATCTACAATGGCTTCGTTGATGTGGTTGAAGCTGTAGAAGATGGACATAGCAACGCCGAGCCGTATCAGCTATCGACTCTTTCCGTCGACCTCTCTCTTCCACTTCCCGCCATGACTCCTCGCATAATCGAGTTGTGTAAGGATCTGTTTAAGGAGTGGTCAGAGCTGGATGCTTCTCGGTTCTCTGTTGAAACGGTCTCTGGTGGAATCACTAATCAGCTGCTTAAGGTTACGGTGAAAGAGGAAAGTGGTACTTCCGTTTCTGTCACCGTCAGACTATATGGACCTAACACGGATTATGTTATCAATCGTGACAGGGAACTACAGGCAATCAAATATCTTTCAGCTGCAGGATTTGGTGCCAAGCTTCTTGGAGTTTTTAAAAATGGAATGGTGCAGTCATTTATTCATGCACGTACACTAGAACCATCAGATTTGAGAAAGCCAGAGCTAGCTGCCGAAATTGCTAAACAGCTTAATAAATTCCACAAAGTATATATTCCAGGTTCTAATGAACCTCAGTTATGGAACGAAGTCTTAAAATTTTACGAGAAAGCCTCCACACTGCAATTTGATGATACTGGGAAGCAAAGTATATACGATACAATTTCATTTCAGGAAATCCACAATGAAATACTTGAGATTAAGGAACTAACGAGCCTTCTTAATGCACCCGTAGTGTTTGCTCACAACGACCTGCTTTCTGGGAACCTAATGCTCAATGAGGAAGAAGGACGACTCTACTTCATTGATTTCGAGTATGGATCATACAGTTACAGAGGCTTTGACATTGGTAATCACTTCAATGAATATGCTGGCTATGACTGCGACTACAGCTGTTATCCATCTAAGGAGGAACAGTATCATTTCTTCAGGCATTATTTACAGCCTGAAAAACCAGATGAGGTTTCTCAAAAAGATCTGGAAGCTCTCTATGTGGAGTCAAACACGTTCATGCTGGCTTCTCACTTGTATTGGGCTTTATGGGCACTTATACAGGCAAGGATGTCTCCGATTGATTTTGATTACCTTAGTTATTTCTTCCTACGTTACGGCGAATATAAAAAGCAGAAAGAAAAGTATTGCTCTTTAGCGAGATCTTTCCTTGCTGGATCAGGATTGGGTTGTGGTTCTGCATAGAAGATGCAAGCAGTTGGGGTTGTAATTGGATCGGGAAGTTGGTATTTTTCAATCTTTTTACTGATCTTGTTTGATATCTGTTGTAAATTTGTATTTTGTACTCTAGAATCTATAGCAGAACTGTGTTATCACGGACAGTTCTGAGAAGATTTTAGAAGGTTTCCAAATAGAATCGATTTGAAAGGACTTTTCTCCTTGTTATTGGAATAAAAGGATATAGAATGAAATGAATTGTGTGATTCTGAGCTTTA ATGGGAGCCAAGAAGATCTACAATGGCTTCGTTGATGTGGTTGAAGCTGTAGAAGATGGACATAGCAACGCCGAGCCGTATCAGCTATCGACTCTTTCCGTCGACCTCTCTCTTCCACTTCCCGCCATGACTCCTCGCATAATCGAGTTGTGTAAGGATCTGTTTAAGGAGTGGTCAGAGCTGGATGCTTCTCGGTTCTCTGTTGAAACGGTCTCTGGTGGAATCACTAATCAGCTGCTTAAGGTTACGGTGAAAGAGGAAAGTGGTACTTCCGTTTCTGTCACCGTCAGACTATATGGACCTAACACGGATTATGTTATCAATCGTGACAGGGAACTACAGGCAATCAAATATCTTTCAGCTGCAGGATTTGGTGCCAAGCTTCTTGGAGTTTTTAAAAATGGAATGGTGCAGTCATTTATTCATGCACGTACACTAGAACCATCAGATTTGAGAAAGCCAGAGCTAGCTGCCGAAATTGCTAAACAGCTTAATAAATTCCACAAAGTATATATTCCAGGTTCTAATGAACCTCAGTTATGGAACGAAGTCTTAAAATTTTACGAGAAAGCCTCCACACTGCAATTTGATGATACTGGGAAGCAAAGTATATACGATACAATTTCATTTCAGGAAATCCACAATGAAATACTTGAGATTAAGGAACTAACGAGCCTTCTTAATGCACCCGTAGTGTTTGCTCACAACGACCTGCTTTCTGGGAACCTAATGCTCAATGAGGAAGAAGGACGACTCTACTTCATTGATTTCGAGTATGGATCATACAGTTACAGAGGCTTTGACATTGGTAATCACTTCAATGAATATGCTGGCTATGACTGCGACTACAGCTGTTATCCATCTAAGGAGGAACAGTATCATTTCTTCAGGCATTATTTACAGCCTGAAAAACCAGATGAGGTTTCTCAAAAAGATCTGGAAGCTCTCTATGTGGAGTCAAACACGTTCATGCTGGCTTCTCACTTGTATTGGGCTTTATGGGCACTTATACAGGCAAGGATGTCTCCGATTGATTTTGATTACCTTAGTTATTTCTTCCTACGTTACGGCGAATATAAAAAGCAGAAAGAAAAGTATTGCTCTTTAGCGAGATCTTTCCTTGCTGGATCAGGATTGGGTTGTGGTTCTGCATAG MGAKKIYNGFVDVVEAVEDGHSNAEPYQLSTLSVDLSLPLPAMTPRIIELCKDLFKEWSELDASRFSVETVSGGITNQLLKVTVKEESGTSVSVTVRLYGPNTDYVINRDRELQAIKYLSAAGFGAKLLGVFKNGMVQSFIHARTLEPSDLRKPELAAEIAKQLNKFHKVYIPGSNEPQLWNEVLKFYEKASTLQFDDTGKQSIYDTISFQEIHNEILEIKELTSLLNAPVVFAHNDLLSGNLMLNEEEGRLYFIDFEYGSYSYRGFDIGNHFNEYAGYDCDYSCYPSKEEQYHFFRHYLQPEKPDEVSQKDLEALYVESNTFMLASHLYWALWALIQARMSPIDFDYLSYFFLRYGEYKKQKEKYCSLARSFLAGSGLGCGSA*
BLAST of MELO3C024971 vs. Swiss-Prot
Match: EKI_ARATH (Probable ethanolamine kinase OS=Arabidopsis thaliana GN=EMB1187 PE=2 SV=1) HSP 1 Score: 544.7 bits (1402), Expect = 8.4e-154 Identity = 260/360 (72.22%), Postives = 305/360 (84.72%), Query Frame = 1
BLAST of MELO3C024971 vs. Swiss-Prot
Match: EKIA_DICDI (Probable ethanolamine kinase A OS=Dictyostelium discoideum GN=etnkA PE=3 SV=1) HSP 1 Score: 236.1 bits (601), Expect = 6.4e-61 Identity = 121/325 (37.23%), Postives = 185/325 (56.92%), Query Frame = 1
BLAST of MELO3C024971 vs. Swiss-Prot
Match: EKI2_MOUSE (Ethanolamine kinase 2 OS=Mus musculus GN=Etnk2 PE=1 SV=1) HSP 1 Score: 227.6 bits (579), Expect = 2.3e-58 Identity = 121/327 (37.00%), Postives = 190/327 (58.10%), Query Frame = 1
BLAST of MELO3C024971 vs. Swiss-Prot
Match: EKI1_HUMAN (Ethanolamine kinase 1 OS=Homo sapiens GN=ETNK1 PE=1 SV=1) HSP 1 Score: 223.4 bits (568), Expect = 4.3e-57 Identity = 127/336 (37.80%), Postives = 192/336 (57.14%), Query Frame = 1
BLAST of MELO3C024971 vs. Swiss-Prot
Match: EKI2_RAT (Ethanolamine kinase 2 OS=Rattus norvegicus GN=Etnk2 PE=3 SV=1) HSP 1 Score: 221.9 bits (564), Expect = 1.2e-56 Identity = 119/327 (36.39%), Postives = 189/327 (57.80%), Query Frame = 1
BLAST of MELO3C024971 vs. TrEMBL
Match: A0A0A0KDN9_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G018610 PE=4 SV=1) HSP 1 Score: 755.7 bits (1950), Expect = 2.7e-215 Identity = 373/384 (97.14%), Postives = 377/384 (98.18%), Query Frame = 1
BLAST of MELO3C024971 vs. TrEMBL
Match: B9MTI9_POPTR (Choline/ethanolamine kinase family protein OS=Populus trichocarpa GN=POPTR_0006s12230g PE=4 SV=1) HSP 1 Score: 581.6 bits (1498), Expect = 6.9e-163 Identity = 278/366 (75.96%), Postives = 322/366 (87.98%), Query Frame = 1
BLAST of MELO3C024971 vs. TrEMBL
Match: A5BHH1_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_011672 PE=4 SV=1) HSP 1 Score: 574.3 bits (1479), Expect = 1.1e-160 Identity = 281/378 (74.34%), Postives = 320/378 (84.66%), Query Frame = 1
BLAST of MELO3C024971 vs. TrEMBL
Match: A0A067KBK1_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_13308 PE=4 SV=1) HSP 1 Score: 573.2 bits (1476), Expect = 2.4e-160 Identity = 278/365 (76.16%), Postives = 316/365 (86.58%), Query Frame = 1
BLAST of MELO3C024971 vs. TrEMBL
Match: A0A0M3Q1A1_JATCU (Choline kinase (Fragment) OS=Jatropha curcas PE=2 SV=1) HSP 1 Score: 571.6 bits (1472), Expect = 7.1e-160 Identity = 277/365 (75.89%), Postives = 317/365 (86.85%), Query Frame = 1
BLAST of MELO3C024971 vs. TAIR10
Match: AT2G26830.1 (AT2G26830.1 Protein kinase superfamily protein) HSP 1 Score: 544.7 bits (1402), Expect = 4.7e-155 Identity = 260/360 (72.22%), Postives = 305/360 (84.72%), Query Frame = 1
BLAST of MELO3C024971 vs. TAIR10
Match: AT4G09760.2 (AT4G09760.2 Protein kinase superfamily protein) HSP 1 Score: 194.5 bits (493), Expect = 1.2e-49 Identity = 114/347 (32.85%), Postives = 183/347 (52.74%), Query Frame = 1
BLAST of MELO3C024971 vs. TAIR10
Match: AT1G74320.1 (AT1G74320.1 Protein kinase superfamily protein) HSP 1 Score: 182.2 bits (461), Expect = 6.1e-46 Identity = 106/325 (32.62%), Postives = 164/325 (50.46%), Query Frame = 1
BLAST of MELO3C024971 vs. TAIR10
Match: AT1G71697.1 (AT1G71697.1 choline kinase 1) HSP 1 Score: 181.4 bits (459), Expect = 1.0e-45 Identity = 104/321 (32.40%), Postives = 166/321 (51.71%), Query Frame = 1
BLAST of MELO3C024971 vs. NCBI nr
Match: gi|659126174|ref|XP_008463050.1| (PREDICTED: probable ethanolamine kinase isoform X2 [Cucumis melo]) HSP 1 Score: 779.6 bits (2012), Expect = 2.5e-222 Identity = 384/384 (100.00%), Postives = 384/384 (100.00%), Query Frame = 1
BLAST of MELO3C024971 vs. NCBI nr
Match: gi|659126172|ref|XP_008463048.1| (PREDICTED: probable ethanolamine kinase isoform X1 [Cucumis melo]) HSP 1 Score: 774.6 bits (1999), Expect = 7.9e-221 Identity = 384/386 (99.48%), Postives = 384/386 (99.48%), Query Frame = 1
BLAST of MELO3C024971 vs. NCBI nr
Match: gi|449441185|ref|XP_004138364.1| (PREDICTED: probable ethanolamine kinase [Cucumis sativus]) HSP 1 Score: 755.7 bits (1950), Expect = 3.8e-215 Identity = 373/384 (97.14%), Postives = 377/384 (98.18%), Query Frame = 1
BLAST of MELO3C024971 vs. NCBI nr
Match: gi|566175871|ref|XP_006381367.1| (choline/ethanolamine kinase family protein [Populus trichocarpa]) HSP 1 Score: 581.6 bits (1498), Expect = 9.8e-163 Identity = 278/366 (75.96%), Postives = 322/366 (87.98%), Query Frame = 1
BLAST of MELO3C024971 vs. NCBI nr
Match: gi|743810688|ref|XP_011018821.1| (PREDICTED: probable ethanolamine kinase isoform X1 [Populus euphratica]) HSP 1 Score: 579.7 bits (1493), Expect = 3.7e-162 Identity = 277/366 (75.68%), Postives = 321/366 (87.70%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene: None |