MELO3C021145 (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.TTTCTTTCTTTCTTTCGCCTTCATCTTCCTCCTCTCCCTCCACAGATAAACACCTTCTCTCATAGTACAGTATCAACATAGTCAACCAAATTGAATGCCTTTTCTTCTACCTATCAAATCAGATTTCGAATTTGATACCACCAATTGTCTTCTCTAGGAATCCTCTCATGACTACGAACTTATCGTTTCCGCATTTCGATTGTTACAAGGTTGCTCCGGTGTCTTTCTCTTCTCCTTGCGCCTGCCCTTTGCGTCTGTCGTCCTGTAAACCATTGCCTCTCCCTCCATCTTCATTGAAATTCAATCGCTTGCATTTTCTCTTCTTACATGGCCAAAAGGGCCTTCTCAGAATTAACAAGAGAACCGGCTTGGCCAGACGCCACATTGTAGCTGTGGCACATGCGGAGCCCGACCGGATTGACGGGAAAGAGCCCCAACAGGTACTTTGGTTGAATTCTGTGATTGTAAGATTGGTAATTTGCTGTTCTATCTCTCTCTTAGTGTATGGCTGTGTTTTATTTGCTTGTTTATTGTTTTTGCCTAAGTGGTGAATTTTGGGTAAATTTTTATTATTTTGGTTCTAAAATGACTAGCATAAGGTAGCTTTTACATGGTAAGGGCTATTGGTCTATTAATTTGCTTGTTTCAATGTGGGATTTTGAGGCTTAATGGAAGTGGGAGTCCAAAATTGGTCTGCAACGAATGGCTACAATTGGTGGTAAATCGTTGCATTATTATTCAATTTGGGATTTAAGGTTTATTGATGATTTTCTGTTGCTGCTCAGTTGGAATTGGATCTCTTTCTAAGCAGTAGATGACTACATTTGGGGAATAAAAAAGTTTGTGAATTTTGGGCACTTTGTGAACTAGAATACTAATTACATACTTATAACTGTGTCCTTGGCTCAAACAATGGTTTTGTAGCTAGCCAAGTTTATGTTGTGAGATTTCTTGTATCAAATTAATTACTGAAGGTGGCTATCTTGTAGGAGGTTGAGGGTGGTCAACAGTTATCATTTCAGGAGGATCCAATCTCAGAACATCAACATAAAAAAAATCAATTGAAGAAACGGATCATTTTTGGGATTGGCATTGGAATAGCTGGTGGTATTATAGTATTGGCTGGAGGATGGATATTCACTGTGGCTGTTGCTGCATGTATTTTTGTTGGTGCACGTGAGTATTTCGAGTTGGTCCGGAGCCGTGGGATCACTGCAGGAATGACACCCCCACCTCGATATGTTTCACGAATTTGCTCAGTTATTTGTGCTTTCATGCCCATTCTTAGCTTGTACGACTAGTCTCCGTCTCAATATCATTACTAATTCACTAATATAGAAAATTCTTTTTATAGTAATTGCTTTTCGGTTTCATTCTGAATCTTTTACTCATTTTTTTTCTTGTGGTGGAGAAGATTTCAATAATATTCTTTTGATTTTAATATGATAGAATGACAGTGTAGATGATATTAATTTACTGCACCTCACCACGCCTCTGCTTAATTGATTGCACATATTGTTCATTTGTAGTGGAACTATCCTTATTTGATGGAAAACTAGATCTGCTTTGATCATTGATCGACATGTTTAGACTATGAATTGCTGAAGTAGGGGCTAACCCTTTTCAGATTTGAAGACATGTGGCTAACTCATCCATCTTCTAGGTCGTCCTTTACCTTCTTGGAGAGTGGTGGAGGCCAAAGGCAAATAGGAAGGTTTTTTTTTTTTTCCTCTTTTTCTGGTCCAGGGAAGCTTCATCATTCAGAAGAATCGTTAAAAGTTTGAATTTGTGAAGTTATGATGACTTAAAGTGTAAGAAACAGAATTTACTAAGTCGCATATTTTGGATAGTCTGAAAGAGGCTGGCTTTCTAAATTCTAAGCAAAGTGAGGAAAGGATGTCTTTGAAAATCCATTTTTGGAGAGATGTTTAAAAATGAGACAATCAGCTGGAGAGAAAAGGTGGAAGAGCCTCCCAAGAAGATAAATAGATTGAATAGGAGGTTCTCTTTTTTCTTTACTCTTTATGCCCAAGCTATTTCTCCAAAACCCTTCCTTGAGGGTCTTGACTGGTCTCACATTGGCTAAAGATAGAGTTATGTTGGACTTCTTATTTTCTCTACAAGAGATCATGAGGTAGTCTTTGGTTTGACTTAGAAAAATCTTCAGGCCCATATGGTTTCTCATAGGTATTTTTTAGGACAGTTGGGCTCGTAGAAAATATGATCTGTGGATAAAACTATGAATGAAACTTATGTTTGTCTGGTCTGTGGTCCCTAAGAAGGAAGGGGTGAAGAGGGCAAGGGTTTTAGATCCTTTAGTCTAATTACTAGTGTGTATAAAATTACAACCAAGGTCTAGGTGGACAGGTTTATGAAAGTCCTTCCGAGGACGATTTATGATTTTTAAGGGGCCTTCATTGTTGGTAGGAAAATATTGGACAAGGCTCTTATGGCCAATTAGGCCATTGAGGATTCTTGAAGCAGTAAAGGCAAGAGGTTTACTTTTAAAATTGATTTTGAAAAGGTCTAAGATTATGTGGATGAGGATTTCTTGGACGGAGCCTTGACAAACAGGTTTTGGGAACAGATGGAGATTCTGAATCTGGAGTTGCATTTGGATGGGTACGCATTCTATTTTCATCAATGGAAAATCTTGAGGCAGGATTAAAGCTACTTGAGGTCTAGGACAAGGGGACCCCCTTGTTCTTTCTTTTCCTCCTGGTGGGAGACATTCTAAGGAGGATTGTTTCTAGAGGAGAATGGAGAAGGGTGTTGTTGAAGTTTTCCTGGGGGTTAAGGACAATATACCTGTCTCATCTGTAGTTTGCTGATGACACCATCTTTTGTTTCGTAAAAGAGGAGTTTTTCATCAATCTTGACCGGATTTTGTATTTCTTTGAATTAAATGTCTAGTTATTGGTACTCAGTGCAACCATTCTAAGTAGGATTGTTTCATTGCGTCTATGTGTGGCTTTTTTATGCCTTTGTAATCACTCATTGAATGAAAGCTCAATTTCTTATTAAAAGAAAAAAATTCATGTGTAGAGTTGCAACAAACACTAAATTCTTACCAGGGTTTCTTATATTTATGCAGTTACTTTGGTCAGCTTGATGTTGCTATCACATTTTCTGCCTTCATTCTTGCAATTACTTTGCTTCTACAAAGAGGCAATCCCCGATTTGCTCAACTGAGCAGTGCAATATTTGGGCTTTTTTACTGTGGTTATCTTCCTTGCTTCTGGGTCAAACTTCGTTGTGGTTTGGCTGTTCCAGCCATAAACACTGGTCAGTCATTTTTGCTATTACTTTTTTGGCTCCCAAATTGTAAACAGTAAACATACATTGATTTATCTTGTGGATCGTCTTTGATATTTTATGTGAATCACCAATTAATGATAAAGAACTTCAATGGGAGCTAGAAGACTAAAAAAAAAAAATGTATTTATTGATTTTAAGGGGAAGATATATTTTCTTACTGAATCATGCTCTTTTGCAGAAATAGGAGCAGGATGGCCATTTCTTCTTGGAGGCCGAGCCCATTGGACTGTTGGCCTTGTTGCAACCTTGATTTCTATGAGCAGTATAATTGCAGCTGATACGTTTGCTTTTCTTGGTGGTAAGGTTAGTTCCTCTTCTATCCTCCATGATGCGTATGGTTCTTCAATATAATTATCTTTTGGAAGAAAGTAGTGGTAAGGGTAACTTCACCTAGAAAATAGCTAAGTTATTACTGAGGGTTGGACTATGGAGCCCTTTTGGGTGGAGAGAATTTTGAGATTTACCAAAATATATATCATTTTAGCAAAACAAGACTTTTCATTGATTGAATGAAAAGAGAGTAAAGCTCAAAATATAATGAAACAAAGTAAATAAAAATAACAATAACAAATATATGATTAGAGAATATTTGTAGCCATCGCGAGTTTTGATGTAGAATCCATGTCATGGTATGGTGAGCAGAAACAATCAGTTTTTGTTACTCGCAAGATATAAAGAGCAATTAATCTTGAGGTTTATACCTCTGCATGAAGGGAGTCTACAAAAAGTTTTTTTTTATGGCCATTAAACTGGACTGGCAGAATTTAAAAAAAAATTTCTTGAATATATTTCTTGTAGGTTTCGGGGATTGGGCCCTACAAGAAATAATCTGTTTTTCATTTTCATTTTAACTATTTTTTTCATTAGAAACTAAAAAATTGATAAATATGTTTATGTAACTATATTACATGCGCGGAAAACTACTATTTTTGCAACTTAATGAAATCTCTTGTGTCCTTCAGTTGTGATCTTATGATTTCTTAGTGCTTTTCTGCAGGCATTTGGTAAGACCCCACTTACAAATGTTAGTCCAAAAAAGACTTGGGAGGGAACTATTATGGGCTTGGGTGGTTGCATAGCTACATCTGTCATTCTATCAAAAGTTCTTTCCTGGCCGTCTTCTATGATTAGGTACGTAATTCTTCGATTGCAATTATCAAGTTTATGACCATGTTTTTCTATATTTGTTTTTTCTTTGGCCATACTCCGTTCTTTGCTGGCCATCTTTTTTTTTTAAAAAAATATTTTTAAATATAAGATCCGATTGAGTTGGACGTTAGAGTTAGTCGTTGGAGATGATTGACGAAGTTGGTCTCCGAAAGTGAACGTCGGAGTTGGCCACCAAAGGTAGTTGCGTGGGGTGATTCAAGGTGATACACTTCCAAAGTTTAAGGGTCTAAATTGAAAATTTCCCAAAAAATTTAGCGTGGTTATGAGTTATTAAATAAAACTAACGTGTCATCCATGAGGACTAAAAAGAAATTCAAATTCCCTTCAAAAGCCTAGTACAAATCATTTGTGGAAAATCTGAATCAAACTGTCCAAATTATTAGATGGTATATACTCTCCTTCACAAGCTTCAGCTTTTGGGTTAATTTGTGATTTAAGATGGTACCAAAGTAGGTTGATTGAGGAAGTCTTGTGTTCAAACCCTACAAAATTTACCTTCACACAGTATCTTAATCATTTGGATCAATCAGTGATTTAAGAGAAAGCCTTTAATATCCTTAATTACCATGGTAGTCTGTTTGCATATCTTTCTGTTGCATCCAATTAGATTTTGAAAATTATCTAGTGCCTTTAGGCTTATGCAGGCAATTTTTTGCAAGATTTTGTTTGGGGTTTGTAAGTGCATTATATATACCCAGTGAACATGAACTTTCATGTTTTTAGTCCGTTGAATGCATTTTTCCACTCTTACTGCTCATTATGAAACTTATATATTCAACTGATGATCTTCATAGTTTCATAAAGTAACTGACTTGCGTTTGGCATGTTTTATTGGACAGTGCAATAGCTTTTGGTTTTCTGAACTTTTTGGGTTCTGTTTTTGGTGATCTTACTGAGTCAATGATAAAGCGTGATGCTGGTGTCAAGGATTCTGGATCTTTAATCCCTGGACATGGTAAATTCCATTTTCTCATGGTTAACATCTATAATGTATTAAAATTTTATTTTGTGGTACAAGTTTAATATATCAAACCATATATGGTTTTAAAGTAGTATTTATAGCAAAGCTTCAAGTGTCTCAACTTTGGCTGGTTCATCATATGGTCTTAGGTTTGTGGAAAGAAGTATGGGGGCTGATACATTTTAATATCACTCTTTAAGCTCATGAATTCAAATGTTTGGGTCCAATAAGTTTCTTTTATCACCAGAAGCTAGGGTTTCTCCTTTGGGGCTGGATCAGTTGACGCTTCATCTTCTCTTTACTGCACAACGGAGGCAAGGGGACAATGGTTTTTTCCTTACGAAGAGGCCACATATTTTTTTTTTTTTCTGCAGAAAGGTCTGAAAATCTTCCAACTGACCACCTATCAAAGTTTCATCAACCACCTGATTTTAATGCTTTTGATTCAAATCCTATAGTAGAAAGGGGACATGTTAGATGTTCTTTCTTTTTATCTTCCAAAACCATTTAAATATGCTGGAATCTAGAGCATTAACTAGGATTCTTCAGCTGTCTGTTGCCTGAATCGAATACATTTTATGAAAAAGCTTTTCATCTTCCAAGACAATTTGGATGCAAATCAAATCCTGAGAATTCAAAAAGTCATTTAAAAAAATCTTATTTAAATGTTTCTGGAGATCCAATGGAGAAACTTCTTCAAACATTTGAAAAACGTTTTCCCTTTTCTAATTCCTAATGGAACAAAACCATACAAGTTCTTTAATTCAATAGAAGCTGCAATGCAGTCTGAAAAAAATAAGGGGTTAATAGGAAATGGTTACAAGACCATCCATATATTCTTCAATGGCTTTAAAAGTAATTCCCTCCTAAAATTCTATATGTAAGTTCTTGATAAAAATCGACACCCTTATCCTTCAACGAATCTGGAATACCATGCTTTTTGTTATTCATTTCTCAATTTTCAACTGGAAATTGGAAATTTCTAACTGTAGCCAGGAACCCAGGCCACTTAAAATTTACCCATCCTTTGTCCTAACCAATGCTTTGTCTGCCATAAAAAGATTAAGAAGAAAAGAGGCCCCGAAGATATCTTTAAAACCTTCTTAGTGCTCATCCAAGGGAGAGGGAGAAAGGAGGAGAAGCGGGAGAGCACTTTTGGGGGCTGCCTGCCTGTCCTTTTCTTTGTGTGGACTGTTTTTGGTACTCGTACTTCAAAAGAAGGGTTTTTTTTTTCTCTTTCTCTTTTTTTTTTTCCTTTTTCCTTTTTCCCTGCGTGCTGCAGATTTACCTTCGTTTTAGTATGTATAGCATGCAGAATCTAGTTCGCATGGATAGTATTTTGCCCATATGGATACAATCGGCCTCTGGTCTGTTACTACATGCATTTTAATTTCTTTCTGATATATAAATGTGACATGTTTGTATATTAACTAGAAGAAAGCCCATCCGCTCACCATTTAATCCAAGAAGGTTGAGAAGTCCCAGGAACACCTGAATTCAGTCTTACTAAGAAAAATGTTTTTTGATAAGCAATAATCAATGCAAACATTTTCCAGAAAGGTTTTGTCTATCACGTGGACCTCAATTGAGAATTATGCAGGTGGATTACTTGACAGAGTGGACAGCTACATCTTTTCCGGGGCACTAGCATATTCCTACATCAAAGCATTTATGCCACTTTATGGCGTTTGAGATAATGATGATCCTTGTAATTGGAGATCAGGAACGAGACTACTCTCTAGGTTTTTCCCCCTTGTAGGGAAATAAAGAAGGCGAGGCCAGTCTGCACTAAAGGCTGGAGAAGGACGAGCATCAGCCAGCCAATTTATTGCACTACCCAGAAAAAGAACTTCAGCTTACTTAGTTCCACCAGGTCTTCAAAAATTCCAAGTGAAAGTATCTGTTTACCAGGTAATTGTACATATGGAATATTTAATAAATATGCAGTTATTTCACAACATTCATCTCTCCAAGATAGTTCTGGTTTTCTTGGAGACAAATTTCCTTTTATCCTAGTCCTGTTTGTGGGCAGCAACTTGCAGGACTTATAGCTCCGATGTTGATGTTGGAAGATAGGGGTTTAATATTGTCATGCTCCTTACACACACTCTCAGAGGCTTAGAGTTTGTTACTTCTATTTTTTTCATTTAGTTTTTTGAA TTTCTTTCTTTCTTTCGCCTTCATCTTCCTCCTCTCCCTCCACAGATAAACACCTTCTCTCATAGTACAGTATCAACATAGTCAACCAAATTGAATGCCTTTTCTTCTACCTATCAAATCAGATTTCGAATTTGATACCACCAATTGTCTTCTCTAGGAATCCTCTCATGACTACGAACTTATCGTTTCCGCATTTCGATTGTTACAAGGTTGCTCCGGTGTCTTTCTCTTCTCCTTGCGCCTGCCCTTTGCGTCTGTCGTCCTGTAAACCATTGCCTCTCCCTCCATCTTCATTGAAATTCAATCGCTTGCATTTTCTCTTCTTACATGGCCAAAAGGGCCTTCTCAGAATTAACAAGAGAACCGGCTTGGCCAGACGCCACATTGTAGCTGTGGCACATGCGGAGCCCGACCGGATTGACGGGAAAGAGCCCCAACAGGAGGTTGAGGGTGGTCAACAGTTATCATTTCAGGAGGATCCAATCTCAGAACATCAACATAAAAAAAATCAATTGAAGAAACGGATCATTTTTGGGATTGGCATTGGAATAGCTGGTGGTATTATAGTATTGGCTGGAGGATGGATATTCACTGTGGCTGTTGCTGCATGTATTTTTGTTGGTGCACGTGAGTATTTCGAGTTGGTCCGGAGCCGTGGGATCACTGCAGGAATGACACCCCCACCTCGATATGTTTCACGAATTTGCTCAGTTATTTGTGCTTTCATGCCCATTCTTAGCTTTTACTTTGGTCAGCTTGATGTTGCTATCACATTTTCTGCCTTCATTCTTGCAATTACTTTGCTTCTACAAAGAGGCAATCCCCGATTTGCTCAACTGAGCAGTGCAATATTTGGGCTTTTTTACTGTGGTTATCTTCCTTGCTTCTGGGTCAAACTTCGTTGTGGTTTGGCTGTTCCAGCCATAAACACTGAAATAGGAGCAGGATGGCCATTTCTTCTTGGAGGCCGAGCCCATTGGACTGTTGGCCTTGTTGCAACCTTGATTTCTATGAGCAGTATAATTGCAGCTGATACGTTTGCTTTTCTTGGTGGTAAGGCATTTGGTAAGACCCCACTTACAAATGTTAGTCCAAAAAAGACTTGGGAGGGAACTATTATGGGCTTGGGTGGTTGCATAGCTACATCTGTCATTCTATCAAAAGTTCTTTCCTGGCCGTCTTCTATGATTAGTGCAATAGCTTTTGGTTTTCTGAACTTTTTGGGTTCTGTTTTTGGTGATCTTACTGAGTCAATGATAAAGCGTGATGCTGGTGTCAAGGATTCTGGATCTTTAATCCCTGGACATGGTGGATTACTTGACAGAGTGGACAGCTACATCTTTTCCGGGGCACTAGCATATTCCTACATCAAAGCATTTATGCCACTTTATGGCGTTTGAGATAATGATGATCCTTGTAATTGGAGATCAGGAACGAGACTACTCTCTAGGTTTTTCCCCCTTGTAGGGAAATAAAGAAGGCGAGGCCAGTCTGCACTAAAGGCTGGAGAAGGACGAGCATCAGCCAGCCAATTTATTGCACTACCCAGAAAAAGAACTTCAGCTTACTTAGTTCCACCAGGTCTTCAAAAATTCCAAGTGAAAGTATCTGTTTACCAGGTAATTGTACATATGGAATATTTAATAAATATGCAGTTATTTCACAACATTCATCTCTCCAAGATAGTTCTGGTTTTCTTGGAGACAAATTTCCTTTTATCCTAGTCCTGTTTGTGGGCAGCAACTTGCAGGACTTATAGCTCCGATGTTGATGTTGGAAGATAGGGGTTTAATATTGTCATGCTCCTTACACACACTCTCAGAGGCTTAGAGTTTGTTACTTCTATTTTTTTCATTTAGTTTTTTGAA ATGACTACGAACTTATCGTTTCCGCATTTCGATTGTTACAAGGTTGCTCCGGTGTCTTTCTCTTCTCCTTGCGCCTGCCCTTTGCGTCTGTCGTCCTGTAAACCATTGCCTCTCCCTCCATCTTCATTGAAATTCAATCGCTTGCATTTTCTCTTCTTACATGGCCAAAAGGGCCTTCTCAGAATTAACAAGAGAACCGGCTTGGCCAGACGCCACATTGTAGCTGTGGCACATGCGGAGCCCGACCGGATTGACGGGAAAGAGCCCCAACAGGAGGTTGAGGGTGGTCAACAGTTATCATTTCAGGAGGATCCAATCTCAGAACATCAACATAAAAAAAATCAATTGAAGAAACGGATCATTTTTGGGATTGGCATTGGAATAGCTGGTGGTATTATAGTATTGGCTGGAGGATGGATATTCACTGTGGCTGTTGCTGCATGTATTTTTGTTGGTGCACGTGAGTATTTCGAGTTGGTCCGGAGCCGTGGGATCACTGCAGGAATGACACCCCCACCTCGATATGTTTCACGAATTTGCTCAGTTATTTGTGCTTTCATGCCCATTCTTAGCTTTTACTTTGGTCAGCTTGATGTTGCTATCACATTTTCTGCCTTCATTCTTGCAATTACTTTGCTTCTACAAAGAGGCAATCCCCGATTTGCTCAACTGAGCAGTGCAATATTTGGGCTTTTTTACTGTGGTTATCTTCCTTGCTTCTGGGTCAAACTTCGTTGTGGTTTGGCTGTTCCAGCCATAAACACTGAAATAGGAGCAGGATGGCCATTTCTTCTTGGAGGCCGAGCCCATTGGACTGTTGGCCTTGTTGCAACCTTGATTTCTATGAGCAGTATAATTGCAGCTGATACGTTTGCTTTTCTTGGTGGTAAGGCATTTGGTAAGACCCCACTTACAAATGTTAGTCCAAAAAAGACTTGGGAGGGAACTATTATGGGCTTGGGTGGTTGCATAGCTACATCTGTCATTCTATCAAAAGTTCTTTCCTGGCCGTCTTCTATGATTAGTGCAATAGCTTTTGGTTTTCTGAACTTTTTGGGTTCTGTTTTTGGTGATCTTACTGAGTCAATGATAAAGCGTGATGCTGGTGTCAAGGATTCTGGATCTTTAATCCCTGGACATGGTGGATTACTTGACAGAGTGGACAGCTACATCTTTTCCGGGGCACTAGCATATTCCTACATCAAAGCATTTATGCCACTTTATGGCGTTTGA MTTNLSFPHFDCYKVAPVSFSSPCACPLRLSSCKPLPLPPSSLKFNRLHFLFLHGQKGLLRINKRTGLARRHIVAVAHAEPDRIDGKEPQQEVEGGQQLSFQEDPISEHQHKKNQLKKRIIFGIGIGIAGGIIVLAGGWIFTVAVAACIFVGAREYFELVRSRGITAGMTPPPRYVSRICSVICAFMPILSFYFGQLDVAITFSAFILAITLLLQRGNPRFAQLSSAIFGLFYCGYLPCFWVKLRCGLAVPAINTEIGAGWPFLLGGRAHWTVGLVATLISMSSIIAADTFAFLGGKAFGKTPLTNVSPKKTWEGTIMGLGGCIATSVILSKVLSWPSSMISAIAFGFLNFLGSVFGDLTESMIKRDAGVKDSGSLIPGHGGLLDRVDSYIFSGALAYSYIKAFMPLYGV*
BLAST of MELO3C021145 vs. Swiss-Prot
Match: CDS4_ARATH (Phosphatidate cytidylyltransferase 4, chloroplastic OS=Arabidopsis thaliana GN=CDS4 PE=1 SV=1) HSP 1 Score: 515.8 bits (1327), Expect = 4.4e-145 Identity = 258/392 (65.82%), Postives = 305/392 (77.81%), Query Frame = 1
BLAST of MELO3C021145 vs. Swiss-Prot
Match: CDS5_ARATH (Phosphatidate cytidylyltransferase 5, chloroplastic OS=Arabidopsis thaliana GN=CDS5 PE=1 SV=1) HSP 1 Score: 496.1 bits (1276), Expect = 3.6e-139 Identity = 250/402 (62.19%), Postives = 304/402 (75.62%), Query Frame = 1
BLAST of MELO3C021145 vs. Swiss-Prot
Match: CDSA_SYNY3 (Phosphatidate cytidylyltransferase OS=Synechocystis sp. (strain PCC 6803 / Kazusa) GN=cdsA PE=3 SV=1) HSP 1 Score: 204.5 bits (519), Expect = 2.2e-51 Identity = 109/287 (37.98%), Postives = 169/287 (58.89%), Query Frame = 1
BLAST of MELO3C021145 vs. Swiss-Prot
Match: CDSA_HELPJ (Phosphatidate cytidylyltransferase OS=Helicobacter pylori (strain J99 / ATCC 700824) GN=cdsA PE=3 SV=1) HSP 1 Score: 108.6 bits (270), Expect = 1.6e-22 Identity = 64/153 (41.83%), Postives = 89/153 (58.17%), Query Frame = 1
BLAST of MELO3C021145 vs. Swiss-Prot
Match: CDSA_HELPY (Phosphatidate cytidylyltransferase OS=Helicobacter pylori (strain ATCC 700392 / 26695) GN=cdsA PE=3 SV=1) HSP 1 Score: 106.3 bits (264), Expect = 8.1e-22 Identity = 63/153 (41.18%), Postives = 87/153 (56.86%), Query Frame = 1
BLAST of MELO3C021145 vs. TrEMBL
Match: A0A0A0KFQ2_CUCSA (Phosphatidate cytidylyltransferase OS=Cucumis sativus GN=Csa_6G109620 PE=3 SV=1) HSP 1 Score: 777.3 bits (2006), Expect = 9.1e-222 Identity = 383/417 (91.85%), Postives = 397/417 (95.20%), Query Frame = 1
BLAST of MELO3C021145 vs. TrEMBL
Match: A0A0D2NAL9_GOSRA (Phosphatidate cytidylyltransferase OS=Gossypium raimondii GN=B456_001G175000 PE=3 SV=1) HSP 1 Score: 585.1 bits (1507), Expect = 6.6e-164 Identity = 285/406 (70.20%), Postives = 336/406 (82.76%), Query Frame = 1
BLAST of MELO3C021145 vs. TrEMBL
Match: A0A0B0MV12_GOSAR (Phosphatidate cytidylyltransferase OS=Gossypium arboreum GN=F383_25577 PE=3 SV=1) HSP 1 Score: 584.3 bits (1505), Expect = 1.1e-163 Identity = 287/410 (70.00%), Postives = 339/410 (82.68%), Query Frame = 1
BLAST of MELO3C021145 vs. TrEMBL
Match: A0A0B0MQZ1_GOSAR (Phosphatidate cytidylyltransferase OS=Gossypium arboreum GN=F383_25577 PE=3 SV=1) HSP 1 Score: 584.3 bits (1505), Expect = 1.1e-163 Identity = 285/406 (70.20%), Postives = 337/406 (83.00%), Query Frame = 1
BLAST of MELO3C021145 vs. TrEMBL
Match: M5X1D4_PRUPE (Phosphatidate cytidylyltransferase OS=Prunus persica GN=PRUPE_ppa006483mg PE=3 SV=1) HSP 1 Score: 578.2 bits (1489), Expect = 8.1e-162 Identity = 280/405 (69.14%), Postives = 330/405 (81.48%), Query Frame = 1
BLAST of MELO3C021145 vs. TAIR10
Match: AT2G45150.1 (AT2G45150.1 cytidinediphosphate diacylglycerol synthase 4) HSP 1 Score: 515.8 bits (1327), Expect = 2.5e-146 Identity = 258/392 (65.82%), Postives = 305/392 (77.81%), Query Frame = 1
BLAST of MELO3C021145 vs. TAIR10
Match: AT3G60620.1 (AT3G60620.1 cytidinediphosphate diacylglycerol synthase 5) HSP 1 Score: 496.1 bits (1276), Expect = 2.0e-140 Identity = 250/402 (62.19%), Postives = 304/402 (75.62%), Query Frame = 1
BLAST of MELO3C021145 vs. TAIR10
Match: AT1G62430.1 (AT1G62430.1 CDP-diacylglycerol synthase 1) HSP 1 Score: 50.4 bits (119), Expect = 3.0e-06 Identity = 26/61 (42.62%), Postives = 35/61 (57.38%), Query Frame = 1
BLAST of MELO3C021145 vs. NCBI nr
Match: gi|659116552|ref|XP_008458130.1| (PREDICTED: uncharacterized protein LOC103497657 isoform X2 [Cucumis melo]) HSP 1 Score: 830.9 bits (2145), Expect = 9.9e-238 Identity = 410/410 (100.00%), Postives = 410/410 (100.00%), Query Frame = 1
BLAST of MELO3C021145 vs. NCBI nr
Match: gi|449445455|ref|XP_004140488.1| (PREDICTED: phosphatidate cytidylyltransferase 4, chloroplastic-like [Cucumis sativus]) HSP 1 Score: 790.4 bits (2040), Expect = 1.5e-225 Identity = 387/410 (94.39%), Postives = 400/410 (97.56%), Query Frame = 1
BLAST of MELO3C021145 vs. NCBI nr
Match: gi|700191362|gb|KGN46566.1| (hypothetical protein Csa_6G109620 [Cucumis sativus]) HSP 1 Score: 777.3 bits (2006), Expect = 1.3e-221 Identity = 383/417 (91.85%), Postives = 397/417 (95.20%), Query Frame = 1
BLAST of MELO3C021145 vs. NCBI nr
Match: gi|659116550|ref|XP_008458129.1| (PREDICTED: uncharacterized protein LOC103497657 isoform X1 [Cucumis melo]) HSP 1 Score: 771.5 bits (1991), Expect = 7.2e-220 Identity = 380/380 (100.00%), Postives = 380/380 (100.00%), Query Frame = 1
BLAST of MELO3C021145 vs. NCBI nr
Match: gi|823125149|ref|XP_012483071.1| (PREDICTED: phosphatidate cytidylyltransferase 4, chloroplastic isoform X1 [Gossypium raimondii]) HSP 1 Score: 585.1 bits (1507), Expect = 9.5e-164 Identity = 285/406 (70.20%), Postives = 336/406 (82.76%), 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:
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