ClCG06G001380.1 (mRNA) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: CDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TCGCTTATTTGGGCTAAATTCATAAACCTACGGGATACGTTAGAGGCCCATTTAAAAGGAAAAACCCAAAATCTAATAGTGGAAGGAAGCCCGTTCATCAAATTTCCTCGCCTTGTTAACCGAAGCGCTTCCTTCTCCCTCCCTCCCTCTCTCCCACCGTCCCTCTCTCCGATCAGATTCCGATCAAATATGCAGGCTCTTTCGAGGCGTCTAGTGCAGCAGCAGAGTCTCAGCTCTTCTTCCTCAACTTATTCTCTCAAGTTCATATACCCTCTTTCTCATCACTGTAATCCCACATTCCCCTCTGCTTTTCTCTTCCTTGCGTGGTTCCATTTTCGCCTTGATTTCGTCCATTTTAACCCATTTAACATCTTGTTTTTTCTCTTTTCTTTTTGCAGATTGTGGGGCTGATCGTCCACGATATGATTCCACCTTGGCTACGAGGGGAGTCGGGCACCTTGTCCGCAAGGGCACTGGTGGAAGATCGTCCGTTAGGTAACCTAGCCCTAGCTTTTTCGTGCTTGAATTTTTCTGTTTGATCGTCGGCTTCATGTCGTACATGTAATGCTGGGTTTGAGAGCTTTGGAATTGTGAGGGAATTTAAGAAATTTAATGTGATGAATAGTGGTACATCAAGCCTTAAAATTCACCCCACAATTTTCACTTAATAAAAAAATTCTAAAATGAAATCTTTAACATCACTACTATTATCATTAATGGGATTGGTTTATACTATAGATTTTTGCCTTCAATGTTTCTAAAGTCACAACGATAAAAGTAGGAATAGTTGAAATTTTGTTTTTTTAAGAACGAGGCAAATCACTAATATTGTTTTGATCATTAGACGTGGCATAGAGATTTTAAATCTCTGTGCCTTTTCACAAAGGCATAAGCATCTTATAGTTCAGCAAAGGCATAAGTCTTGAGGCTAAAAGTTAGAGCCTTGCCTCAAGGGTGAGCCTCAAGATGTAATCCTCAATAATTTTTTAGAACATTGGCACTTCAAGTTTATAAGTTCATTTAGTGGAATTCAAATACAATCTTTCAGCCTCTTCTTGGTTGAAAATGAAATACTTTTACCTATTACTTTTTTTTACCCTATTGTCATTGATTTCTCGATTCATAAGCAGTAAAGGCAAGCATTTGTTAGATATGTAGTACTAGTACCCGCTACGAACATTCTGGCATCTTTCCAACTTTTATGGGATAATGAAGCACACAATTTTAATCTGAGTTGGTTTCTCTGTCGCTGTCAGATAATCCTAGATTGTGCTTATCTGTTCTCTTTTAAGCATGCACACTAGGATTTTCAGGCAGATCAGATTATTGATATTTAACTCGATTTGGGGTTTTTATTTTACTTCTCATCACAAAATTATTTTACAGTGGGATTGTGGCTACTGTCTTTGGAGCTACTGGATTCCTTGGCCGTTATGTTGTACAGCAACTAGGTAATAGGTGAACATAAATGGTACTAGCATTTGGTTTTCTTTTTGCTTAGATATGCAATTTATTATGTGCCTGTATACCTTATACTTTTAAATGCCAAACGATTATGGTAGTCGGTTTTGGCAGCTTTGGCTCTATTCTTGATTATATATCAATTTTATGCTAAGCATGATTTTGGAAATGAATTTTGTTTCAGCTAAAATGGGGTCCCAAGTGTTAGTCCCTTTTCGAGGTTCTGAAGATTCACCTCGTCATCTTAAATTAATGGGAGATCTGGGACAGGTAGAGCAGTATATGTTGTTATGATGCCATAGATGATAGTACTATTTCTTTTTTCCATTTATTGCTGAATGCTTTCTTTTCCCCCGCACTGTTAATTCAATCACCTTAACTTTTTTCCGCCTCCAGATAGTACCAATGAAATACAACCCAAGAGATGAAAGTTCAATAAAAGCTGTAATGGCAAAGGCTAATGTGGTCCTTAATCTTATTGGTATGACCTCCTCATTTTTCTTCCTTCTTGTGAAATGTTTGAATTTTTGTATTTTAGCCTTTTAAGATTAGACTTTACCATCTTTGTTGACAGGAAGGGAGTATGAAACAAGAAACTACAGCTTTGAGGAAGTGAATCATTCCATGGCAGAACAACTTGCCACGGTATGTATCTAACTTCAATCCCATGTTTCTATTTGCAGCTTCCACACCTTTGTTTGGCTTCTGTTTTCATATGGCCTTCTGATACCTTCATGAACGTGGTTCTTTTAACCCCAAAAAAATGGATTAAAAAATTGGTGGGGAGGCTGTAATCACTACAAAAGTAAAGTAACTAGGGGAAGGGAAGAAATATACAGTTGAGTGGACGGGAAAATAGTGATAGGAGAGTATCGAAGGGCAGAGTGGATGAAACTTGAAAGGTGCAATTGGTTTGGGCTAGAAGTGGAGGAAATGGATAGGCTTGGTTTTCCCAGGGCCCATTGGATGAAAATCTATCAAGCTAATATTAGGCAGGTGCCCCTGATCCAGTGGATTTTGGGAGCAATTTTACCTGATATATTGAAACTGGAAGTGAGAAAAGAGTTGGTGAGTGTATGCTTCAAATGATGATTTTGTTTCTATTAGAATTTTGCTCAAACCGTGCTTTATCATGCTTATAAATTATCAATAATTGAGTGACATGCACTTATATGTTGATAGAAGCATTTTAAAAGTGCTTGCACATTTGGGGCAGGCTTAAGTGCAAAGAGTAAAAGGAAATTAAGATCTTATGTGCGCAATAGAAAAATATAATTGAACTTTTTATATATGAAAAAATATAGTATTATTATTTTTTAATTCGAAAAATTATCTTTGATCATCAAGAAACCGTGAGAAAAATGGAAGAATATAAAAGGGCTTGCAAGAACACCAACAATAGACCTGACAAGGCAGAAGGGCTCTAATTCAAAAAGATTAAGGCCTAGATGGTAATTAGAAAAGCATTTAATTACCAACTTCCAAAATTTGATCAGAAACAATGTCATTGATGAGATGAAATAATTGTTTTGATTAGAAACAGTTTCAAAATTTGGTAGATGAAAGTGCAATTTTAAACAATATAGGATTATGAATAATAAGAAAATGAAACAATTTAAAGAAATTTTAGAACTTTGGGAGAGTGAGGAGAGAAATGAACATTTTTTTAGTAGTTCATAGCTTCTATAATAAAATAAAATAACTATTTAAAAAAAGGTTTCAAGCGCAGTGGTGCATGCACTTTCATTGAGGCACTTTTTAAAACTGGTCTATATGATCTTTGTTTTCCCCATTAAAATATTGGTGGAATTGACATCTCATATTCATATCGATAGAATCTTCCCTAGTTCCTCTACCATCTGAATATGAATTAATAAAGACAAGATAAATAAGGGATGGGAGAGAGTACTTGTGTATATTATTTATTTATTTATTTTTAACTAATGACGTTACTACATCCTTTTTTCTTTTTGAGTCTGATGTAGATTTGGTGTTTGCCCTCCTTAAATACTGTAGATTGCCAAAGAACATGGTGGTATCTTGAGATTTATACAAGTTTCCTGCCTGGGTGCATCTTCATCATCTCCATCCAGATTTCTGAGAGCTAAAGCTGCTGCTGAGGAATCTGTTTTAAAGGCATTCCCTGAGGTAAGCAGTTATAATTTATTTCCTGAATTTGAGTTGATAATGCCACATTAAGTTACGTAGCTGAGAATATAATGGTAGTTTCAGACCATTAGAGAATCTTACAAATCTTGTTTTTTCTGTTTTTCTATAACTATTCATTTATCATGTATTCATCCTTTATTCTTATGGGAGTATTCTTTCATGAAGGTTGAGTTGAGGTCAAACGATGTTCAAGGTTGAAACGAATGTCTAACTTTGTGGAGTAGTTTCATGCTAAGTTGAAATCCTTGGTGCAAATTTGCAATTTACAACTTTTTTCATTTATTCAATGAAAAGTCTTGTTTCCTTTAATTAAAAAAAAAATGCAATTTACAATTTGGAAATTCAATCCCATATTTGAAACTTATTTTTCCATTGATTATTGGATATTTTTTTTATGCTTGGGTGGACATCATCCATTTCCTTATTGATTTGACATTATTACATTACTAATAATGTCTTGTTTCTTGTATTGATTTTTCGTCTCAAGGAAAAATCAAATTTTCGATAAGGCAAATGAAATATTACAAGTGACTAATTAAATTTTTTTAAAAAAAAGTAAAGAAAGGAAAAACCCATTACTATAGGAGCCTATACATAGAAAGCAAACTAGAGATTACATAAAGGGCTTTAGTTGTTGATTTGAGAATAAGAGATGAATGATAGTTACAAACATCTTTAGAAATTGACGAGGAGAGCTTGGATCCTTCAATACAATTTCAATGTACATTTGTGAGGAGGATAGCACACAGCAACGTAGATAATGATTAGTTGGTTGTAGGTGGGGGGTGTTGTGTGTTGTGCGTCTAGTCCCCATAATTTTGTAGTAGACCATGGCAATAGGTTGCGTGGGAGGAAAGTCTTTACATGAGTGGAGCCGTTGCATGGGCTTTTGTTATTTCGGTACTTTGGTGTATATTTCATTCTTAAAGGGAGGGTTCCTGACCTCTTAAGTGCTTGGAAGGTTTTCTGGCCCCAACAGCTAAGAAAAAGATATTCAAACATCTAAGGTTGCTTAATTATTTTTATATACCGAACCAAGCATATTAAAAAAGAGGCTAAAAAAAAAGCCTAGGGGTTGGAGGTGGAGGAAGCCCTCAAGAACTACAAAAAAGAGCCACTAAAGAATGCCCAATAACCATGATGGATAGAAGATCCCTGACACAATGTATGTTTGAGAAAAGGTAAAAGAAAAAAGGGACTCTCCCCTCTCTTCTCTCTCCTCTCACCTGCCTTTTCCATCCTCAACCATAATCCTCCCTCTATCCTTTAAACGTGATGAAAAATTTGATGGAAGGGCATTGATTATGAAGGAACACATTGAAAAGGGAGCTAAAAATCAGGAATTGCTTGATTTGAAATAAAGAGGAAAGTTAAACAACCCATTAATCCATAGATATTCCTGCTGATAATCTTATTTCAAAATCTGCAGATCTTGACAAACTTTCCTAATTTGGTGGAGATTACGCACCTACCCCCTCCTCTTCCTAAAATAGATGAAGGCCCTACCAATTCTCCACAGCCCACCTTTTCTCAACCACCAATTGTATCTCTCTCCACCGTTTCCTTTCTTTAGGGACCCACCTCTCCCACCTCTTTCCGAATCGGATCCAAAAGCTCCACATCGACCAAAAATTCCAATTTCCCCTTTGCTGGCTCTAATATTGAAGCGTACCTATCCAGCCCACTCTTCCCATCTGCCTGATTTTAACCCACAACCATTTGACTTCACCACCTTCGGTGAAGAATCCATTGACATCCACCAACCCTTAGCCATCCTCCCTCCTGGATATTGTTCCTATTCATCCGATCATTTTATGGAACTTGTTCTTTTTAATGTTTTCTTGTGGTGTAAAACTATGTACCACTTCACTCATTATAGCTTATCTTATTTAATTTCCCATGGGAGAGCTTTTTTGTAATCACCTCTAGGTGTTTTGGAGACTTTTTACTCCTTTTATCTCATCAATCAATGAAACCATTTCTCGTTCACAAAAAGAAGAAGAAGAAGATATTACAAGAGGCGACTTGAGTTTCTGCAGCAAAATTATATTACAAGAGACAACTTGTTAATCTAGAAAATTGCACACAAATACTTCTTCTAGTAAATGTTATAGATTTTTATTATGATTTTAATTGCAACTTTTTTCCATTTATTTAGTGGTTATTGTGAGAGTTAATGTCTCAAAAATGTTCTTGTACAGGCAACAATTCTGAGACCTGCAGCTATGATTGGTACAGAGGACCGTATTATGAATACTTGGGCACATTTTGCTAAAAAATATGGCTTCATTCCCCTATTTGGAGATGGATCTACAAAGTATGTATTAGTATTTCATATCACATATTGTATGGATCAAAATCACATATTGTAGGCATTGAATAGTTAGAATTTTGTTGAGCTTATAACTTATTTTCTGATGGTTATCCTAACCACCAGTGCCTTCTTTGCAGAATCCAACCTGTGTATGTTGTTGATGTTGCTGCTGGAATTGTTTCGGTCTTGAAAGATGATGGCACCAGCATTGGAAAAGTTTATGAACTAGGTGGTCCAGAGATCTATACAGTGCATGAATTGGTATGTTATGTTTTTCTGAATATCCTTCCCCCTCCCTCCAAGAAAAATGAAAAAAGAAATTTCCTTATGAAGCTTCATGTTCTATGCAGGCAGAAATTATGTATGATGTGATCCGTGAATGGCCTCGTTACCTGAAAGTCCCTTTCCCTATTGCAAAGGTAAAAACAGTAGAAGTTGATGATGATATGCAACGTTGTATCTATATATCCCCACTATATTCCTTCTTTTATTGTTACTTTCATGCAAAAAATATTCACAACTATCTTTCAATTTGTTGGTGCATATGTTGTTACTTACTGTTGCCTTCCCCACCACTAATTGCATAAAAAATTTGGAATATGCTAGATGATTGTTTTTAGTGAGGTAAATTAATCTCAGTATAATTTAGAGTTTTAGGGTGGGTTTGAAATACATTTTCAAGTATTTAATTTAAAAAATAAGTCATTTTAGAAAAAAACTGGAGTTTTTGGCAACCACTCAAAATAGCTCTTGAAGTGTATTTTAAACATTTTTTTTATCAAAAGATTTTAAACAAAAATGAGTTTTTTGAAAAACACTTTTTTCTCTAGTCAATCAAACAGCCCTTACTTGCTTGTTCATAAGTATAGCACACCATGATTATTGCCATTTTACTTAAATGAAGAATTCAGTTTCTCTGGAAATCATCTTTTGGATCCAATTTGGATAGTAGGATATTCTTCTTTTATAGTTCTGAAAATGGAACCTTTTGAAAGATCCCAAATCCAATCGGAGGGTCCTAGGTTGTGCATGACTGTGCTCAAGGTTTTATGTGGTTCCTATGCAATTACTACATGGGTCATAACGGTAGCTATTATCAATTTAAAGAATTAAAATAAATGGCCTTTTTGAACAATGAAACTGTAGTCTGATGATAACAGAGATCGTCATTTGTGTAGGTTAATTGGAGATTTATTTTCTAGAACCGATTGATGCATATATTTTGAACTTGTTAATTGATAATTGGAAGTGTACTCTTATGATACTAATGCATCAATATATTCTTGTCTCCTTGAATTTCTTTAGTATAATTGTACGAGACCAATTAAACCTAGGAAAGTGTAAGTTCATTGAGATATAACATTATTTGCCCTGTGAACCTGTTTGATTTTGTTCATAAAACTGAAAGCTGCTGTTTGGCTTCAGGCAATTGCTACCCCCCGTGAAATATTACTTAACAAAGTCCCATTTCCATTACCAACACCAGCCATTTTCAATCTGGATCAGATCCTAGCTCTAACACAAGATACAGTTGTTTCTGAAGATGGTAAGCATACCCCTAATTTTTTTCCCCTGCCTATAAGTCAAGATGTTGTCTAATACTCTTTGATCTTGCGATTGGATTTGCAGCATTGACTTTCAATGATCTTGGGATTGTACCACGTAAGTTGAAGGGATATCCTGTTGAGTTTCTTATATCATACCGTAAAGGTGGTCCCCAATTCGGTTCGACAGTCAGTGAAAGAGTCTCTCCTGATTCTTTTCCATAGGCTTGATTTGAATTTTTTTTTTAAGCCACTCTGGATATTTTGTATTAACTTAGTTGAAAAGCTTTGAGAACGGCCTGGTTTATGTCTCCATTTGTCAAAATAAAATGGAGAATCTTTCGAGTTCAACGCTCGTGTATTCTTATCTTCTCTTCTTCATTCATGGTTTAGTAGAATGCACAGTATATTTGGTGTTGTAATTAATAAAGGCTGGGATGCTTGGTTACAGCATACTATGATCATAAAATGTGTTTTTTTCAGGAAAAAAGAAGGGTAG TCGCTTATTTGGGCTAAATTCATAAACCTACGGGATACGTTAGAGGCCCATTTAAAAGGAAAAACCCAAAATCTAATAGTGGAAGGAAGCCCGTTCATCAAATTTCCTCGCCTTGTTAACCGAAGCGCTTCCTTCTCCCTCCCTCCCTCTCTCCCACCGTCCCTCTCTCCGATCAGATTCCGATCAAATATGCAGGCTCTTTCGAGGCGTCTAGTGCAGCAGCAGAGTCTCAGCTCTTCTTCCTCAACTTATTCTCTCAAGTTCATATACCCTCTTTCTCATCACTATTGTGGGGCTGATCGTCCACGATATGATTCCACCTTGGCTACGAGGGGAGTCGGGCACCTTGTCCGCAAGGGCACTGGTGGAAGATCGTCCGTTAGTGGGATTGTGGCTACTGTCTTTGGAGCTACTGGATTCCTTGGCCGTTATGTTGTACAGCAACTAGCTAAAATGGGGTCCCAAGTGTTAGTCCCTTTTCGAGGTTCTGAAGATTCACCTCGTCATCTTAAATTAATGGGAGATCTGGGACAGATAGTACCAATGAAATACAACCCAAGAGATGAAAGTTCAATAAAAGCTGTAATGGCAAAGGCTAATGTGGTCCTTAATCTTATTGGAAGGGAGTATGAAACAAGAAACTACAGCTTTGAGGAAGTGAATCATTCCATGGCAGAACAACTTGCCACGATTGCCAAAGAACATGGTGGTATCTTGAGATTTATACAAGTTTCCTGCCTGGGTGCATCTTCATCATCTCCATCCAGATTTCTGAGAGCTAAAGCTGCTGCTGAGGAATCTGTTTTAAAGGCATTCCCTGAGGCAACAATTCTGAGACCTGCAGCTATGATTGGTACAGAGGACCGTATTATGAATACTTGGGCACATTTTGCTAAAAAATATGGCTTCATTCCCCTATTTGGAGATGGATCTACAAAAATCCAACCTGTGTATGTTGTTGATGTTGCTGCTGGAATTGTTTCGGTCTTGAAAGATGATGGCACCAGCATTGGAAAAGTTTATGAACTAGGTGGTCCAGAGATCTATACAGTGCATGAATTGGCAGAAATTATGTATGATGTGATCCGTGAATGGCCTCGTTACCTGAAAGTCCCTTTCCCTATTGCAAAGGCAATTGCTACCCCCCGTGAAATATTACTTAACAAAGTCCCATTTCCATTACCAACACCAGCCATTTTCAATCTGGATCAGATCCTAGCTCTAACACAAGATACAGTTGTTTCTGAAGATGCATTGACTTTCAATGATCTTGGGATTGTACCACGTAAGTTGAAGGGATATCCTGTTGAGTTTCTTATATCATACCGTAAAGGTGGTCCCCAATTCGGTTCGACAGTCAGTGAAAGAGTCTCTCCTGATTCTTTTCCATAGGCTTGATTTGAATTTTTTTTTTAAGCCACTCTGGATATTTTGTATTAACTTAGTTGAAAAGCTTTGAGAACGGCCTGGTTTATGTCTCCATTTGTCAAAATAAAATGGAGAATCTTTCGAGTTCAACGCTCGTGTATTCTTATCTTCTCTTCTTCATTCATGGTTTAGTAGAATGCACAGTATATTTGGTGTTGTAATTAATAAAGGCTGGGATGCTTGGTTACAGCATACTATGATCATAAAATGTGTTTTTTTCAGGAAAAAAGAAGGGTAG TCGCTTATTTGGGCTAAATTCATAAACCTACGGGATACGTTAGAGGCCCATTTAAAAGGAAAAACCCAAAATCTAATAGTGGAAGGAAGCCCGTTCATCAAATTTCCTCGCCTTGTTAACCGAAGCGCTTCCTTCTCCCTCCCTCCCTCTCTCCCACCGTCCCTCTCTCCGATCAGATTCCGATCAAATATGCAGGCTCTTTCGAGGCGTCTAGTGCAGCAGCAGAGTCTCAGCTCTTCTTCCTCAACTTATTCTCTCAAGTTCATATACCCTCTTTCTCATCACTATTGTGGGGCTGATCGTCCACGATATGATTCCACCTTGGCTACGAGGGGAGTCGGGCACCTTGTCCGCAAGGGCACTGGTGGAAGATCGTCCGTTAGTGGGATTGTGGCTACTGTCTTTGGAGCTACTGGATTCCTTGGCCGTTATGTTGTACAGCAACTAGCTAAAATGGGGTCCCAAGTGTTAGTCCCTTTTCGAGGTTCTGAAGATTCACCTCGTCATCTTAAATTAATGGGAGATCTGGGACAGATAGTACCAATGAAATACAACCCAAGAGATGAAAGTTCAATAAAAGCTGTAATGGCAAAGGCTAATGTGGTCCTTAATCTTATTGGAAGGGAGTATGAAACAAGAAACTACAGCTTTGAGGAAGTGAATCATTCCATGGCAGAACAACTTGCCACGATTGCCAAAGAACATGGTGGTATCTTGAGATTTATACAAGTTTCCTGCCTGGGTGCATCTTCATCATCTCCATCCAGATTTCTGAGAGCTAAAGCTGCTGCTGAGGAATCTGTTTTAAAGGCATTCCCTGAGGCAACAATTCTGAGACCTGCAGCTATGATTGGTACAGAGGACCGTATTATGAATACTTGGGCACATTTTGCTAAAAAATATGGCTTCATTCCCCTATTTGGAGATGGATCTACAAAAATCCAACCTGTGTATGTTGTTGATGTTGCTGCTGGAATTGTTTCGGTCTTGAAAGATGATGGCACCAGCATTGGAAAAGTTTATGAACTAGGTGGTCCAGAGATCTATACAGTGCATGAATTGGCAGAAATTATGTATGATGTGATCCGTGAATGGCCTCGTTACCTGAAAGTCCCTTTCCCTATTGCAAAGGCAATTGCTACCCCCCGTGAAATATTACTTAACAAAGTCCCATTTCCATTACCAACACCAGCCATTTTCAATCTGGATCAGATCCTAGCTCTAACACAAGATACAGTTGTTTCTGAAGATGCATTGACTTTCAATGATCTTGGGATTGTACCACGTAAGTTGAAGGGATATCCTGTTGAGTTTCTTATATCATACCGTAAAGGTGGTCCCCAATTCGGTTCGACAGTCAGTGAAAGAGTCTCTCCTGATTCTTTTCCATAG SLIWAKFINLRDTLEAHLKGKTQNLIVEGSPFIKFPRLVNRSASFSLPPSLPPSLSPIRFRSNMQALSRRLVQQQSLSSSSSTYSLKFIYPLSHHYCGADRPRYDSTLATRGVGHLVRKGTGGRSSVSGIVATVFGATGFLGRYVVQQLAKMGSQVLVPFRGSEDSPRHLKLMGDLGQIVPMKYNPRDESSIKAVMAKANVVLNLIGREYETRNYSFEEVNHSMAEQLATIAKEHGGILRFIQVSCLGASSSSPSRFLRAKAAAEESVLKAFPEATILRPAAMIGTEDRIMNTWAHFAKKYGFIPLFGDGSTKIQPVYVVDVAAGIVSVLKDDGTSIGKVYELGGPEIYTVHELAEIMYDVIREWPRYLKVPFPIAKAIATPREILLNKVPFPLPTPAIFNLDQILALTQDTVVSEDALTFNDLGIVPRKLKGYPVEFLISYRKGGPQFGSTVSERVSPDSFP
BLAST of ClCG06G001380.1 vs. Swiss-Prot
Match: NDUA9_ARATH (NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 9, mitochondrial OS=Arabidopsis thaliana GN=At2g20360 PE=1 SV=2) HSP 1 Score: 618.2 bits (1593), Expect = 7.1e-176 Identity = 302/402 (75.12%), Postives = 350/402 (87.06%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. Swiss-Prot
Match: NDUA9_MOUSE (NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 9, mitochondrial OS=Mus musculus GN=Ndufa9 PE=1 SV=2) HSP 1 Score: 222.2 bits (565), Expect = 1.1e-56 Identity = 134/329 (40.73%), Postives = 194/329 (58.97%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. Swiss-Prot
Match: NDUA9_PANTR (NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 9, mitochondrial OS=Pan troglodytes GN=NDUFA9 PE=2 SV=1) HSP 1 Score: 221.9 bits (564), Expect = 1.5e-56 Identity = 125/261 (47.89%), Postives = 175/261 (67.05%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. Swiss-Prot
Match: NDUA9_RAT (NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 9, mitochondrial OS=Rattus norvegicus GN=Ndufa9 PE=1 SV=2) HSP 1 Score: 221.9 bits (564), Expect = 1.5e-56 Identity = 132/329 (40.12%), Postives = 196/329 (59.57%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. Swiss-Prot
Match: NDUA9_BOVIN (NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 9, mitochondrial OS=Bos taurus GN=NDUFA9 PE=1 SV=1) HSP 1 Score: 221.5 bits (563), Expect = 1.9e-56 Identity = 119/260 (45.77%), Postives = 169/260 (65.00%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TrEMBL
Match: A0A0B2SVI5_GLYSO (NADH dehydrogenase [ubiquinone] 1 alpha subcomplex subunit 9, mitochondrial OS=Glycine soja GN=glysoja_025325 PE=4 SV=1) HSP 1 Score: 664.8 bits (1714), Expect = 7.4e-188 Identity = 329/400 (82.25%), Postives = 366/400 (91.50%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TrEMBL
Match: I1LYP8_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_13G127400 PE=4 SV=1) HSP 1 Score: 664.8 bits (1714), Expect = 7.4e-188 Identity = 329/400 (82.25%), Postives = 366/400 (91.50%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TrEMBL
Match: B9GRC3_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0002s25720g PE=4 SV=1) HSP 1 Score: 663.3 bits (1710), Expect = 2.2e-187 Identity = 326/400 (81.50%), Postives = 366/400 (91.50%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TrEMBL
Match: A0A067K2F8_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_17613 PE=4 SV=1) HSP 1 Score: 662.9 bits (1709), Expect = 2.8e-187 Identity = 331/400 (82.75%), Postives = 365/400 (91.25%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TrEMBL
Match: D7U382_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_07s0005g04440 PE=4 SV=1) HSP 1 Score: 662.1 bits (1707), Expect = 4.8e-187 Identity = 330/400 (82.50%), Postives = 359/400 (89.75%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TAIR10
Match: AT2G20360.1 (AT2G20360.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 618.2 bits (1593), Expect = 4.0e-177 Identity = 302/402 (75.12%), Postives = 350/402 (87.06%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. TAIR10
Match: AT5G18660.1 (AT5G18660.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 53.9 bits (128), Expect = 3.0e-07 Identity = 67/283 (23.67%), Postives = 116/283 (40.99%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. NCBI nr
Match: gi|659120025|ref|XP_008459972.1| (PREDICTED: LOW QUALITY PROTEIN: NADH dehydrogenase [ubiquinone]) HSP 1 Score: 756.1 bits (1951), Expect = 3.5e-215 Identity = 380/402 (94.53%), Postives = 391/402 (97.26%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. NCBI nr
Match: gi|778711581|ref|XP_011656761.1| (PREDICTED: NADH dehydrogenase [ubiquinone]) HSP 1 Score: 750.7 bits (1937), Expect = 1.5e-213 Identity = 378/401 (94.26%), Postives = 390/401 (97.26%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. NCBI nr
Match: gi|1009165639|ref|XP_015901149.1| (PREDICTED: NADH dehydrogenase [ubiquinone]) HSP 1 Score: 684.1 bits (1764), Expect = 1.7e-193 Identity = 345/400 (86.25%), Postives = 369/400 (92.25%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. NCBI nr
Match: gi|1000951298|ref|XP_015579279.1| (PREDICTED: NADH dehydrogenase [ubiquinone]) HSP 1 Score: 666.0 bits (1717), Expect = 4.8e-188 Identity = 331/401 (82.54%), Postives = 368/401 (91.77%), Query Frame = 1
BLAST of ClCG06G001380.1 vs. NCBI nr
Match: gi|356548101|ref|XP_003542442.1| (PREDICTED: NADH dehydrogenase [ubiquinone]) HSP 1 Score: 664.8 bits (1714), Expect = 1.1e-187 Identity = 329/400 (82.25%), Postives = 366/400 (91.50%), Query Frame = 1
The following BLAST results are available for this feature:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
Date Performed: 2016-09-28
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