Cp4.1LG15g02790 (gene) Cucurbita pepo (Zucchini)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TGAAGGCAAAAATGTTTAGGAGGGTAAGAAGGGTTTTGAAGGGTTTGGGCGCAATATCAATACCGATACCCAACTGTTTGAGTTCAAAGCTTTTACCTTAGCCGTTGTTCTCTGTTCCTCCGAGTTCATCTTCGTCTTTGAAGAAGTGATTGGAACAGGCAGAGAATAGTATTAGATTTAGAGTAGATGTGGTATCTCTGTGTGTTCTATCACAGGCTTTTGGATTACAGGAAGGCGGAGGTCGAATCTCTGGCCGAGTTGTTTGGTGAAAATGGCGACCACAAAGGGGGGAAGTTGGAATGGAAGCTTCCTCTTCACCATCACCCCGATTCTCCTTTCCATTTCGTCGACCTCTCTTCCGATGATATCGCACGGAGCATCGCCAATCGAAGTCAGTCATTTCGTTTCGTTTTCGTTTAAAGTTTTGTTCTTAGTTGATTCCTGTTTCTTTCTTTTGATTTCGTTTGGTTTGGTTTGGTTTTGTGTAGGTATACTAGTGAAGGGGATGTATGAACTCTGGGGCGTAGGAAGTGACTACGAGGAGCTACAGGAGTCTATTAGAAACTTTCCGGAAGAACGGAAGTCCCCATACTTACAACAGGGAAGCACCTTCAAGATTTCTGTAGAGAGCTTTGGGAAGGCTATCAGCTTCCAGGAACAAAATGAACGCATTCAGGGTCTAGCTTACATTCCTTTCAAGGTCTAGTTTTAGCCCTTTTTTTTTCCCTTTTCTCCTATTCTTTCTTTTTTTTAGTTAAATTCTGCTTTTTTGCTATTGAAATCCAATCGTTTTGATTATAATGGATACTAGATACTACATTGTTATAGTGTGGATTGCTTTCTTCAGTGGATGTAACCAAATTAATGTGGCAAGAAACTCTAGTTTGGGCAGATTAATATTGAGCTTGAAGAGTTGGGTTAAGTGTGATGAATCAGAGATAATAAGGCTAAAAGTTATGAACTATAGTGTTGAGGATTGTTGGGAGGGAGTCCCACATTGGCTAATTTAGGGAATGATCATGGGTTTATACGTAAGGAATACATCTCCATTGGAATGAGGCTTTTTGGGGAAGCCCAAAGCAAAAGCACGAGAGCTTATGCTCAAAGTGGACAATATCATACTATGTGGAGAGTCGTTATTCCTAACATATGATACTTCTAATTTTTTAGGCAGAGTGTTGATAGATGAAAGAATTGCAAAAGCAATTTGAGAAATGGAACTATTGACAAGACTTTAATACCAGGTCTAGAGTTTAAGCATAGGAGCCCTGAATTGCTCAATCTTATCATCTTTTAGTTTCTTCTTAAGAAGATTTTTCAAGAATGACTTAGGACTTGTTTGATAGGCAATCTAGACTCTATTTTATGTTTCAGATTCAGGGAGTTTATGGAATATAGATGTGTCCTTGAAATAGTTTTTTGATTCTGTGATACAAAGAATATAAATTATAAAAACAACATTTTTATGTTCTCATTGTATCCAGATTTTGAATTTGAAATTTAAAATGTAAATTTATTTTAAAAACGACAAAACTTCCATAAATATAGTATTTCATGTTATAAACTCAATTCATTTTTGTTAAATTAAAATGTGTAATATAATGTATTATAAATTATGATATTGTAAAATAATTAATATATAATTTTTTAACATAAACACATGTTCATAAATTAATTATTAATAGTTTATGTTCAACCTAATATTTATTGGATAACTACAACTAGTTTTATCATTTATAAAGATGTTATGATTTATAAAGATGTTATGTCAAACATATTTATTGGATAACTACAACTAGCATTTATAAAGATCCAATTTATGAATGTTCTTCCAAACACATATATTAAAACAGGAAATAACTCTGTTTTCATTGGATCCATTGTTTTCAGATTGCCTACCAAACAGCCCCTTAGATTCTGTGAATCAGCAATTGAGCTGCTCGGACTTTTAGCCAATATGAAACTAGAAAGGAATGTTGATGTAGTAGGATTAGAGGTAAATTGGGGTAAATTCATATTAAGCGTTGTTAAATCCTTGGTTAATCATTTTTAGTTTTCTTTTAATTCCCTTGTTGAATCCCACTCTTTATCCATTACTAGTCCTTCATTATAAAGTTTATGACTTGATTCTCGGAGAGAAGTTTCCCTTGTCCCTTAGGCTACACCAATTCGGTGTCAGCAATTGTCTAGTCCAACATTGGCTACTGTCAGTGGAAGACCAGGAAACTCCTGTCGGAGCCGTCACAAGAGGGAGATTTGTGAGTTGTGCTTGGTACTCAACAACACACAACGATTTACAATGGGGAATCATTTTGAGTATTTTTTCAAAGATTAGGGGAGAAAATTTTTAAGAATCTTCCAAGAATGGAGTACTTCGACACTAAAAGAACCAAATGAAGACCAATGGTAGCAGAATTTTTTTCAAGAACACCCCTAAATTTCTACGTCAACCTTGAAATGTTGGAGTAAATCAAGAAAGAGGTTGAAAGAATCAACGTCTTTAGGAGTATGTGTTGAATGTTTTGGAACGAATTTGGGTATTTGTGAAGAATTCCCCCAAAGCCAAGAGCTCTCGGAACATACAAGAAATTTTCAAGAAACCCAAAACAGAAAGGATGTGAAATTCATGTGTGAAGATAAAACAAACAAGCAATAAAAAAGTAAGGGAAGTTGAAGAGTGCTGCGGAACCCACACAAAGAAGAAGGGAAGTCGCTGGAAGTAGTACACGAATAGCTCGAAGAATTAGAAGATGAGAGGTTAGCATGCAAAACGTAAGGTGTAGAAAAAGTAGTGTACGAAGTGTAACATACAACAGTTGCAGGCCAAAGGTCATAGACCTGCATGAAGAAGAAGACGACATGGGCTATTTTATGACAAGGGTCACTTATCGTGAGTTGCAAGCTCTTGTGCTATTTTAGGGGGTCTTTGAGGAGGTAGGGACAACATAATTTTAAGAGAGATTAAGAGACATTGGATTGAGTTGTGGTCCTTTGTAAAGTTTCACCCCTCTCCTTGGGCCTCATTGTGTAAAGCTTCCTTTTTGTAATTACTAAAGGGCTCCATTTGCTTGATTAGAGTCCCTTTTCATATTAGGTTGGCCCTTTTTGTATTGCCTTGTAGTCTTTCATTTTTCTCCAAGAATTGTTGGTTTCTCATTAAAAAAGGTAACTTATGGCAACAATAATAAGCAGCAAGGTGCAGCTAAGGTTTGTGGTTGCACTTGCACTTGCCTATGGATAGGCGACACATGCATGGGGTTGTAGTCACTTCCCTTGGTCTTCCACACAAGATCATTGACAGTATGGGAAGGAAGTTTAGACGATGGTTCACAGCAACTAAAAGAGCAATAAAACAAGATGCCCCTGGAATTTCATCTCTAAACAGAAATGCTGGGTTGAACACTGTTACAAGCTTGTTCTGGGTGGGGAAAAGATTCCCTAGACCTTGTGTGGACCTTCCTTAAAATGAAAGAAAAAATCCCTTTGGAACAATGATCTTAAGGCTCTTCTTTGAGAGTTGTTAGAAAGAAAAAGTAGGTTTCTTTCAGCATATTTCGGTTGATAATTATATCTTTAGGGAAGGAGTGATTAATCTAACCTCTAAATAGAGTTCTCTTTGTTAACCTTTTTTCAAATTACGCTCTTTTAGATAGTGGTACAGATTGCTTTTATTTAAACTCCTAGGTGTTCTTAAGGATTTCTCCTCATCCCTTGTATATTTTCACATAAAAAGGAAAGGTGTTTCTTTTTCAGGAAAAAAAAAACCAAAACAAAAAGAAGGTATATAATTTAATTCATGAATGCAAGTTTTATTGAGAAAGTATTATCCATCTACCTAACTTTTTATTTGTTTCATGCATGCAAATTTGATTGAGTAAATTAATCAGTTTACTTAATTTTGTACATTTATTTTCGTCATGCTTCACATTCTAACCTGGGAATCTTACTCTTTTTGAAGAAACTCAGAGGCATGTTGATCAATTGTGGTAGTTATGCTACCTCATGCTTTATTTGTGTTACAATCGCTTCTGCTTTTACATTTACTTCTTAACTTAAGACATGGTCTCATGCAATTATCATGGCTTCCCATCATAAATGGTATCAATCAAATAGTAGAAGTCCTATCAATGCCATTTTCCTCTGTTAGCACTTCTAGGTTCTGCAGGTAAATACTTGAGTTTGACACTGTTTTTAATCATCCATTTGTCACTAAAGCTCTAGTGCATGTCAATGTCTTCATTTTTTAATAAATGAATGCGGATGGTATATTGCAGGGTCAAGTTAATTTAAGAAATCCAGATCATAAGTTCAGCCTTATGGAGGCGGCTGATTACGGACTGAATAATGGACTTCCACCAGTTGCTCAAAGGACGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGATGCTGAAATGGCTTTCTTAATGGCCAACCAAGCATTAGCGACACCTGGGAAACTTGTCTATGATCCTTTCGTTGGCACTGGGAGCATTCTAGTTGGCGCAGCTCATTTTGGAGCAATGACAATGGTAATTACTTTTGCTTTGGATATTTATTTTTGATATTTGTGAGTGTTTGGGTCAAGGATATGTGCTACTTGATTAATCTCATAAGGAAATTGGTCAGTAGTTTTGAATCCATCCCTCTACAATGTGTACTTTTTTCACGTACATGAATGTCAATGGGGTAACTCACGGGGGGTTACTTTTTCTTTGTATTGGAAACTAGATTATGAGTTTTGGTTTTCAATTTAGTTTACATAAATTGCCTTTAGGGAACTTAATTTGAGGATGTATCCAGTTCCTATAGAATGCGAATCTGGGAGTGTGAGAGACCATTTAAATAAAAACTGACCAAAATGTCTCAGGGTGCAGATATTGACATTAGGGTGGTACGTGATGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCAAGCAGGTAATTGTGTTTTATAATAAAATTCTATGTTTAGAAACTTTTCTTCATAGCGACAGTCTTAGTTTAAACTGTAAACTGCAAGTAATGTACTATGTTAAATGTTTGAAACTTTATGCATGCATGAAGTGACAGTTAAAATACATGTGAAGGTGACAAACATGATAAAGAAAAAAACCGACTATACTCTTAGCAATTTGCTTGTGCAATTTTTTGAGATTCAACTGATTCTTATGATATAAGTTTTGATTTTTATGTTCCTATGCATGTAATTATGACTATTTAGATGTGGTTTACTGATTGCAGTATGGATTACCACCGCCAATTTCACTGTTAAGAGCAGACAATAATCTTCCTCCCTGGCGTCCAGGATTGAAGGAGGTACAGCAGAAATGTTTTGCACGTTTACTGCATATGTTCATTTTTCCTTGTGTTTCTGTCTGTTTTGAAGCTCCACAGCCATTATTATATCCTGATGCTTACTGATTTCTGTGGATATTCATAGCATAGCATCGACTTACAAATTTGCAATCATTTATGTAATAAAAGATATTTGGTAAAGCAGGATTAGAAGGGAATTTTGATCAAGTAATATGTGAATCATTACTCTTAGGTTCATTTCCTGTAAGTGACTGCTGGTACTCGATAGCTAACATATAACCAGGTAAAGAAAAAAAGTGGTATGGTGGACTCACAATGACCACTTTATAGTTACTCTTTGCATAACATAATACCACATCAGTTTTCTCCCCGGATCAATGGGCTTGATAAAAATTTCTTCTCAAGAAGCTAGATGGGATTCTGTGTAACTTTTTTTAGAAGAAATAAACCCTCCTCCAAGGAATTTGTCCGCTACGACTCCCCTTCCTCTCCTTCATGAGAATGTATTAGAAGGTAAAGATATTTTTTCCTCCTTTCTAAAGGTTTGTGGTATTGAAGTTTATGAAATTAAATCATAGACTTTCAGAAGTTCAAGATGGGCTCCTAACAATTTCATCCTGTCTTCGTAGCTGAACATTTGATTTTGGGTTCTTTGGTCTCATGGAAGCTTGCTTTTTCCATGCCTGGTGCTGGCTGTTTCCTTCTTTGTTGCTGTTCCTGCCCTTTTTCAGTATTTGATAGGTTTCTCTTAGTCTGCTTATTTTCCGTTTGATTGCTTTTATTTTGGTCCTTTTGCAAATCCGTTCACCTTCATTTGCTCTCTTTGAACTTTTTGAGGTTGTTTTAGAGTTCCAATTGGTTAGTCTTGTGGCTGTTGTTTCTCTCGGTTCCTTTGCTGTCGAAAAAGATTAGCTCTCCTCATGTTATTTGCACAATTTTCGAGCCTTTCTTCTTGAAAGGTCTGTGGTTGCGCTTAAGTTTTCTGGAATTTAACAAACTGTTTGCTGTAAAGGTCGCAAATATCCATGCATCATTTTTCAGCAGGCTCTGCCTGAAATTTCTTTTTTGGCCGAGTTTCAGTCGGCTGTGTTTTTTCGAGCCTTGTTTTAGGTTGCTGCAGTCGCTTTTGGAGTGCTTTGTGGAGCCTCCCTTCTTCGCTTCAGCCTTGATTGCATGCTTAAAAAGTTTATTTATCTTTTTGGTTCAAAGAAAGCAAGGTTATTGGATAAATCCATTATGCTTCCATAGTAGACCGTTTTAAGTACTTGTTGATGTGATGCTTATTCTAAGTTATAACATTATATTGGCTGTCCTGAGTCTTTATTAAATCTGAGGCTTGGTTATTCAGCTACTGATATTTTGTAGTGCTGATTCTGATGCACTTTCATAACTTGTTTCTCTACCCAGATATTCGACGCCATCATTTGTGACCCTCCTTACGGAGTACGTGCCGGGGGGCGTAAATCCGGTGGTCGGAAATTGTTGAAAGGAACTGTTGCGCCTTACACCGTTCCAGACGACAAGAGAACCGACCACATACCATCAACAGCTGCTTACAGCCTTGTTGAGTGTGTGCACGATTTACTCAACCTTGCAGCCAAGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCATGTTTCACATTAATCAGTTCGTCCGAGCAGATATTGAGCTCTCGATACAGCCGGGTGCTGCTAACAATGGTCAAACATAGCTCGTACACCGAAGAAATGGCAGAGGCAGCAAAGTTAAAACATGAAGAATTCAGGGAGAACCATTTGAAGTGGTTAGAAGATGGTAATCTCCATTCTGCAGTTTTCAGCCCCACCATTGATCCCCAGCTTGCGGTTGCTGGCAATTGCAATGCTACCAAAGATCCAAAGCCGAAATACAGAGGGAAGTATGTATAAATGGAGGTTTTAGTTTAATTGCCATGGATTTTGGTTTGCTGGATGCAGGTTTCTTTTGGTAGTAGGAGTAGAAGAAAGGACCTATAATTAGAGCTTTTGGAGAAAATTCTCCCATGTTTGTTCCAAGTTTTTGTTTCTCTTTGAATCTTTTGAGTTCACGTCATGGGATTTAAATTATATTTTCATTTGCTTTTTTTAAGTAGTTGATGAACTCACTAATCATGCTTCATTTGTCTTAAGCATGTCCAAATTCAAACATTGTGATTTAAAAGATGACCCTCAT TGAAGGCAAAAATGTTTAGGAGGGTAAGAAGGGTTTTGAAGGGTTTGGGCGCAATATCAATACCGATACCCAACTGTTTGAGTTCAAAGCTTTTACCTTAGCCGTTGTTCTCTGTTCCTCCGAGTTCATCTTCGTCTTTGAAGAAGTGATTGGAACAGGCAGAGAATAGTATTAGATTTAGAGTAGATGTGGTATCTCTGTGTGTTCTATCACAGGCTTTTGGATTACAGGAAGGCGGAGGTCGAATCTCTGGCCGAGTTGTTTGGTGAAAATGGCGACCACAAAGGGGGGAAGTTGGAATGGAAGCTTCCTCTTCACCATCACCCCGATTCTCCTTTCCATTTCGTCGACCTCTCTTCCGATGATATCGCACGGAGCATCGCCAATCGAAGTATACTAGTGAAGGGGATGTATGAACTCTGGGGCGTAGGAAGTGACTACGAGGAGCTACAGGAGTCTATTAGAAACTTTCCGGAAGAACGGAAGTCCCCATACTTACAACAGGGAAGCACCTTCAAGATTTCTGTAGAGAGCTTTGGGAAGGCTATCAGCTTCCAGGAACAAAATGAACGCATTCAGGGTCTAGCTTACATTCCTTTCAAGGGTCAAGTTAATTTAAGAAATCCAGATCATAAGTTCAGCCTTATGGAGGCGGCTGATTACGGACTGAATAATGGACTTCCACCAGTTGCTCAAAGGACGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGATGCTGAAATGGCTTTCTTAATGGCCAACCAAGCATTAGCGACACCTGGGAAACTTGTCTATGATCCTTTCGTTGGCACTGGGAGCATTCTAGTTGGCGCAGCTCATTTTGGAGCAATGACAATGGGTGCAGATATTGACATTAGGGTGGTACGTGATGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCAAGCAGTATGGATTACCACCGCCAATTTCACTGTTAAGAGCAGACAATAATCTTCCTCCCTGGCGTCCAGGATTGAAGGAGATATTCGACGCCATCATTTGTGACCCTCCTTACGGAGTACGTGCCGGGGGGCGTAAATCCGGTGGTCGGAAATTGTTGAAAGGAACTGTTGCGCCTTACACCGTTCCAGACGACAAGAGAACCGACCACATACCATCAACAGCTGCTTACAGCCTTGTTGAGTGTGTGCACGATTTACTCAACCTTGCAGCCAAGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCATGTTTCACATTAATCAGTTCGTCCGAGCAGATATTGAGCTCTCGATACAGCCGGGTGCTGCTAACAATGGTCAAACATAGCTCGTACACCGAAGAAATGGCAGAGGCAGCAAAGTTAAAACATGAAGAATTCAGGGAGAACCATTTGAAGTGGTTAGAAGATGGTAATCTCCATTCTGCAGTTTTCAGCCCCACCATTGATCCCCAGCTTGCGGTTGCTGGCAATTGCAATGCTACCAAAGATCCAAAGCCGAAATACAGAGGGAAGTATGTATAAATGGAGGTTTTAGTTTAATTGCCATGGATTTTGGTTTGCTGGATGCAGGTTTCTTTTGGTAGTAGGAGTAGAAGAAAGGACCTATAATTAGAGCTTTTGGAGAAAATTCTCCCATGTTTGTTCCAAGTTTTTGTTTCTCTTTGAATCTTTTGAGTTCACGTCATGGGATTTAAATTATATTTTCATTTGCTTTTTTTAAGTAGTTGATGAACTCACTAATCATGCTTCATTTGTCTTAAGCATGTCCAAATTCAAACATTGTGATTTAAAAGATGACCCTCAT ATGTGGTATCTCTGTGTGTTCTATCACAGGCTTTTGGATTACAGGAAGGCGGAGGTCGAATCTCTGGCCGAGTTGTTTGGTGAAAATGGCGACCACAAAGGGGGGAAGTTGGAATGGAAGCTTCCTCTTCACCATCACCCCGATTCTCCTTTCCATTTCGTCGACCTCTCTTCCGATGATATCGCACGGAGCATCGCCAATCGAAGTATACTAGTGAAGGGGATGTATGAACTCTGGGGCGTAGGAAGTGACTACGAGGAGCTACAGGAGTCTATTAGAAACTTTCCGGAAGAACGGAAGTCCCCATACTTACAACAGGGAAGCACCTTCAAGATTTCTGTAGAGAGCTTTGGGAAGGCTATCAGCTTCCAGGAACAAAATGAACGCATTCAGGGTCTAGCTTACATTCCTTTCAAGGGTCAAGTTAATTTAAGAAATCCAGATCATAAGTTCAGCCTTATGGAGGCGGCTGATTACGGACTGAATAATGGACTTCCACCAGTTGCTCAAAGGACGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGATGCTGAAATGGCTTTCTTAATGGCCAACCAAGCATTAGCGACACCTGGGAAACTTGTCTATGATCCTTTCGTTGGCACTGGGAGCATTCTAGTTGGCGCAGCTCATTTTGGAGCAATGACAATGGGTGCAGATATTGACATTAGGGTGGTACGTGATGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCAAGCAGTATGGATTACCACCGCCAATTTCACTGTTAAGAGCAGACAATAATCTTCCTCCCTGGCGTCCAGGATTGAAGGAGATATTCGACGCCATCATTTGTGACCCTCCTTACGGAGTACGTGCCGGGGGGCGTAAATCCGGTGGTCGGAAATTGTTGAAAGGAACTGTTGCGCCTTACACCGTTCCAGACGACAAGAGAACCGACCACATACCATCAACAGCTGCTTACAGCCTTGTTGAGTGTGTGCACGATTTACTCAACCTTGCAGCCAAGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCATGTTTCACATTAATCAGTTCGTCCGAGCAGATATTGAGCTCTCGATACAGCCGGGTGCTGCTAACAATGGTCAAACATAGCTCGTACACCGAAGAAATGGCAGAGGCAGCAAAGTTAAAACATGAAGAATTCAGGGAGAACCATTTGAAGTGGTTAGAAGATGGTAATCTCCATTCTGCAGTTTTCAGCCCCACCATTGATCCCCAGCTTGCGGTTGCTGGCAATTGCAATGCTACCAAAGATCCAAAGCCGAAATACAGAGGGAAGTATGTATAA MWYLCVFYHRLLDYRKAEVESLAELFGENGDHKGGKLEWKLPLHHHPDSPFHFVDLSSDDIARSIANRSILVKGMYELWGVGSDYEELQESIRNFPEERKSPYLQQGSTFKISVESFGKAISFQEQNERIQGLAYIPFKGQVNLRNPDHKFSLMEAADYGLNNGLPPVAQRTIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQALATPGKLVYDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGLPPPISLLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDDKRTDHIPSTAAYSLVECVHDLLNLAAKMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTLISSSEQILSSRYSRVLLTMVKHSSYTEEMAEAAKLKHEEFRENHLKWLEDGNLHSAVFSPTIDPQLAVAGNCNATKDPKPKYRGKYV
BLAST of Cp4.1LG15g02790 vs. Swiss-Prot
Match: TRM11_PONAB (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Pongo abelii GN=TRMT11 PE=2 SV=1) HSP 1 Score: 303.9 bits (777), Expect = 3.1e-81 Identity = 176/458 (38.43%), Postives = 254/458 (55.46%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. Swiss-Prot
Match: TRM11_RAT (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Rattus norvegicus GN=Trmt11 PE=2 SV=1) HSP 1 Score: 303.9 bits (777), Expect = 3.1e-81 Identity = 172/446 (38.57%), Postives = 255/446 (57.17%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. Swiss-Prot
Match: TRM11_HUMAN (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Homo sapiens GN=TRMT11 PE=1 SV=1) HSP 1 Score: 303.5 bits (776), Expect = 4.0e-81 Identity = 173/455 (38.02%), Postives = 254/455 (55.82%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. Swiss-Prot
Match: TRM11_MOUSE (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Mus musculus GN=Trmt11 PE=1 SV=1) HSP 1 Score: 302.0 bits (772), Expect = 1.2e-80 Identity = 173/457 (37.86%), Postives = 253/457 (55.36%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. Swiss-Prot
Match: TRM11_BOVIN (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Bos taurus GN=TRMT11 PE=2 SV=1) HSP 1 Score: 301.2 bits (770), Expect = 2.0e-80 Identity = 171/454 (37.67%), Postives = 256/454 (56.39%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. TrEMBL
Match: A5AKU7_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_002923 PE=4 SV=1) HSP 1 Score: 813.9 bits (2101), Expect = 1.0e-232 Identity = 391/480 (81.46%), Postives = 427/480 (88.96%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. TrEMBL
Match: A0A067K523_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_20179 PE=4 SV=1) HSP 1 Score: 812.0 bits (2096), Expect = 3.9e-232 Identity = 388/480 (80.83%), Postives = 428/480 (89.17%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. TrEMBL
Match: F6H1T7_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_12s0055g00830 PE=4 SV=1) HSP 1 Score: 811.2 bits (2094), Expect = 6.6e-232 Identity = 390/480 (81.25%), Postives = 427/480 (88.96%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. TrEMBL
Match: A0A0L9TLG9_PHAAN (Uncharacterized protein OS=Phaseolus angularis GN=LR48_Vigan01g085200 PE=4 SV=1) HSP 1 Score: 795.4 bits (2053), Expect = 3.8e-227 Identity = 385/484 (79.55%), Postives = 420/484 (86.78%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. TrEMBL
Match: V4TGE8_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10015108mg PE=4 SV=1) HSP 1 Score: 793.9 bits (2049), Expect = 1.1e-226 Identity = 382/480 (79.58%), Postives = 420/480 (87.50%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. TAIR10
Match: AT3G26410.1 (AT3G26410.1 methyltransferases;nucleic acid binding) HSP 1 Score: 744.6 bits (1921), Expect = 3.9e-215 Identity = 359/480 (74.79%), Postives = 410/480 (85.42%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. NCBI nr
Match: gi|659092708|ref|XP_008447182.1| (PREDICTED: tRNA (guanine(10)-N2)-methyltransferase homolog [Cucumis melo]) HSP 1 Score: 936.4 bits (2419), Expect = 2.0e-269 Identity = 448/480 (93.33%), Postives = 465/480 (96.88%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. NCBI nr
Match: gi|657992664|ref|XP_008388590.1| (PREDICTED: tRNA (guanine(10)-N2)-methyltransferase homolog [Malus domestica]) HSP 1 Score: 819.7 bits (2116), Expect = 2.7e-234 Identity = 385/482 (79.88%), Postives = 436/482 (90.46%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. NCBI nr
Match: gi|645222275|ref|XP_008246512.1| (PREDICTED: tRNA (guanine(10)-N2)-methyltransferase homolog [Prunus mume]) HSP 1 Score: 814.3 bits (2102), Expect = 1.1e-232 Identity = 385/480 (80.21%), Postives = 428/480 (89.17%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. NCBI nr
Match: gi|147789091|emb|CAN78018.1| (hypothetical protein VITISV_002923 [Vitis vinifera]) HSP 1 Score: 813.9 bits (2101), Expect = 1.5e-232 Identity = 391/480 (81.46%), Postives = 427/480 (88.96%), Query Frame = 1
BLAST of Cp4.1LG15g02790 vs. NCBI nr
Match: gi|802710811|ref|XP_012084592.1| (PREDICTED: tRNA (guanine(10)-N2)-methyltransferase homolog [Jatropha curcas]) HSP 1 Score: 812.0 bits (2096), Expect = 5.6e-232 Identity = 388/480 (80.83%), Postives = 428/480 (89.17%), 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 Cucurbita pepo
Date Performed: 2017-12-02
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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