Csor.00g079470 (gene) Silver-seed gourd (wild; sororia) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSinitialstart_codonpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGTGGTATCTCTGTGTGTTCTATCACAGGCTTTTGGATTACCGGAAGGCGGAGGTCGAATCTCTGGCCGAGTTGTTTGGTGAAAATGGCAACCACAAAGGGGGGAAGTTGGAATGGAAGCTTCCTCTTCACCATCACCCCGATTCTCCTTTCCATTTCGTCGACCTGTCTTCCGATGATATTGCTCGGAGCATCGCCAATCGAAGTCAGTCATTTTGTTTCGTTTTCGTTTTCGGTTTTGTTCTTAGTTGATTCCTGTTTCTTTCTTTTAATTTCGTTTGGTTTGGTTTGGTTTTGTGTAGGTATACTAGTGAAGGGGATGTATGAACTCTGGGGCGTAGGAAGTGACTACGAGGAGCTACAGGAGTCTATTAGAAACTTTCCGGAAGAACGGAAGTCCCCATACTTACAACAGGGAAGCACCTTCAAGATTTCTGTAGAGAGCTTTGGGAAGGCTATCAGCTTCCAGGAACAAAATGAACGCATTCAGGGTCTAGCTTACATCCCTTTCAAGGTCTAGTTTTAACCTTTTTTTATTCCCTTTTCTCCTATTCTTTCTTTTTTTTTGGTTAAATTCTGCGTTTGTGCTATTGAAATCCAATCGTTTTGATTATAATGGACACTAGATACTACATTGTTATAGTGTGGATTGCTTTCTTCAGTGGATGTAACCAAATTAATGTGGCAAGAAACTCTAGTTTGGGCAGATTAATATTGAGCTTGAAGAGTTGGGTTAAGTGTGATGAATCAGAGATAATAAGGCTAAAAGTTATGAACTATGATGTTGAGGATTGTTGGGAGGGAGTCCCACATTGGCTAATTTAGGGAATGATCATGGGTTTATAAGTAAGGAATACATCTCCATTGGAATGAGGCTTTTTGGGGAGCCCAAAGCAAAAACATGAGAGCTTATGCTCAAAGTGGACAATATCATACTATGTGGAGAGTCGTTATTCCTAACATATGATACTTCTAATTTTTTAGGTAGAGTGTTGAAAGTTGAAAGAAATGCAAAAGCAATTTGAGAAATGGAACTATTGACAAGACTTTAATACCAGGTCTAGAGTTTAAGCATAGGAGCCCTGAATTGCTCAATCTTATCATCTTTTAGTTTCTTCTTAAGAAGATTTTCCAAGAATGACTTAGGACTTGTTTGATAGGCAATCTAGACTCTATTTTATGTTTCAGATTCAGGGAGTTTATGGAATATAGATGTGCCCTTGAAATAGTTTTTTGATTCTGTGATACAACGAATATAAATTATAAAAACAACATTTTTATGTTCTCATTGTATCCAGGTTTTGAATTTGAAATTTAAAATGTAAGTTTATTTTAAAAATGACAAAACTTTAATAAATATAGTATTTCATGTCATAAACTCAATTCATTTTTGTTAAACTAAAATTTGTAATATAATGTATTATAGATTATGATATTGTAAAATAATTAATATATAGTTTTTTAACATAGACACATGTTCATAAATTAATTATTAATAGTTTATGTTCAACCTAATATTTATTGGATAACTACAACTAGTTTTGTGATTTATAAAAATGTTATGTCTTAACATATTTTGAACAATTGTTTAAATTGAGATCCAATTTATGAATGTTCTACTAAACACATATACGAAAACAGGAAACAACTCTGTTTTCATTGAATCCATTGTTTTCAGATTGCCTACCAAACAGCCCCTTAGATTCTGTGAATCAGCAATTGAGCTGCTCGGACTTTTAGCCAATATGAACCTAGAAAGGAATGTTGATGTAGTAGGATTAGAGGTAAATTGGGGTAAATTCATATTAAGCGTTGTTAAATCCTTGGTTAATCATTTTTAGTTTTCTTTTAATTCCCTTGGAGAATCCCACTCTTTATCCATTACTAGTCCTTCATTATAAAGTTTATGACTTGATTTTCGGAGAGAAGTTTCCCTTATCCCTTACGCTACACCAATTCGGTGTCAGCAATTGTCTAGTCCAACATTGGCTACTGTCAGTGGAAGACTAGGAAACTCCTGTCGGAGCCGTCATAAGAGGGAGATTTGTGAGTTGCGCTTGGTACTCAACAACACACAACGATTTACAATGGGGAATCATTTTGATTACTTTTTCAAAGATTAGAGGAGAAATTTTTAAGAATCTTCCAAGAATGGAGTACTTCCACACTAAAAAAACCAAATGAAGACCAATGGTGGCAGAATTTTTTTCAAGAACACCCCTAAATTTCTACGTCAACCTTGAAATGTTGGAGTAAATCAAGAAAGAGGTTGAAAGAATCAACGTCTTTAGGAGTATGTGTTGAATGTTTTGGAACGAATTTGGGTATTTGTGAAGAATTCCCCCAAAGCCAAGAGCTCTCGGAACATACAAGAAATTTTCAAGAAACCCAAAACAGAAAGGATGTGAAATTCATGTGTGAAGATAAAACAAACCATCAATAAAAAAGTAAGGGAAGTTGAAGAGTGCTGCGGAACCACACAAAGAAGAAGGGAAGTCGCTGGAAGTAGTACACAAATAGCTTGAAGAATTAGAAGATGAGAGGTTAGCATGCAAAACCTAAGGTGTAGAAAAAGTAGTGTACGAAGTGTAACATACAACAGTTGCAGGCCAAAGGTCATAGACCTGCATGAAGAAGAAGACGACATGGGCTATTTTATGACAAGGGTCACTTATCGTGAGTTGCAAGCTCTTGTGCTATTTTAGGGGGTCTTTGAGGAGGTAGGAACAACATAATTTTAAGAGAGATTAAGACATTGGATTGAGTTGTGGTCCTTTGTAAAGTTTCACCCCTCTCCTTAGGCCTCGTTGTGTAAAGCTTCCTTTATGTAATTACTAAAGGGCTCCATTTGCTTGATTAGAGTCCCTTTTCATATTAGGTTGGCCCTTTTTGTATTGCCTTGTATTCTTTCATTGTTCTCCAAGAATTGTTGGTTTCTCATGAAAAAAGGTAATTTATGGCAACAATAATAAGCAGCAAGGTGCAGCTAAGGTTTGTGGTTGCACTTGCACTTGCCTATGGATAGGCGACACATGCATGGGGTTGTAGTCACTTCCCTGGTCTTCCACACAAGATCATTGAAAGTATGGGAAGGAAGTTTAGACGATGGTTCACAGCAACTAAAAGAGCAATAAAACAAGGTGCCCCTGGAATTTCATCTCTAAACAGAAATGCTGGATTGAACACTGTTACAAGGTTGTTCTGGGTGGGGAAAAGATTCCCTAGACCCTGTGTGGATCTTCCTTAAAATGAAAGAAAAAATCCCTTCGGAACAATGATCTTAAGGCTCTTCTTTGAGAGTTGTTAGAAAGAAAAAGTAGGTTTCTTTCAGTATATTTGGGTTGATAATTATATCTTTAGGGAAGGAGTGATTAATCTAACCTCTAAATAGAGTTCTCTTTGTTAACCTTTTTTCAAATTACGCTCTCTTAGATAGTGGTACAGATTGCTTTTATTTAAACTCCTAGGTGTTCTTAAGGATTTCTCCTCATCCCTTGTATATTTTCACATAAAAAGGAAAGTTGTTTCTTTTTCAGGAAAAAAGAAACCAAAACAAAAAGAAGGTATATAATTTAATTCATGAATTCAAGTTTCATTGAGAAAGTATTATCCATCTACCTAACTTTTTATTTGTTTCATGCATGCAAATTTGATTGAGTAAATTAATCAGTTTACTTAATTTTGTACATTTATTTTCGTCATGCTTCACATTCTAACCTGGGAATCTTACTCTTTTTGAAGAAACTCAGAGGCATGTTGATCAATTGTGGTAGTTATGCTACCTCATGCTTTATTTGTGTTACAATCGCTTCTGCTTTTACATTTACTTCTTAACTTAAGACATGGTCTCATGCAATTATCATGGCTTCCCATCATAAATGGTATCAATCAAATAGTAGAAGTCCTATCAATGCCATTTTCCTCTGTTAGCATTTCTAGGTTCTGCAGGTAAATACTTGAGTTTGACATTGTTTTTAATCATCCATTTGTCACTAAAGCTCTAGTGCATGTCAATGTCTTCATTTTTTAATAAATGAATGCGGATGGTATATTTCAGGGTCTAGTTAATTTAAGAAATCCAGATCATAAGTTCAGCCTTATGGAGGCGGCTGATTACGGACTGAATAATGGACTTCCACCAGTTGCTCAAAGGACGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGATGCTGAAATGGCTTTCTTAATGGCCAACCAAGCATTAGCGACACCTGGGAAACTTGTCTATGATCCTTTTGTTGGCACTGGGAGCATTCTAGTTGGCGCAGCTCATTTTGGAGCAATGACAATGGTAATTCCTTTTGCTTTGGATATTTATTTTTGATATTTGTGAGTGTTTGGGTCAAGGATATGTGCATCTTGATTAATCTCATAAGGAAATTGGTCAGTAGTTTTGAATCCATCCTTCTAAAATGTGTACTTTTTTCACGTACATGAATGTCAATGGGGGTAACTCACGGGGGGTTACTTTTTCTTTGTATTGGAAACTAGATTATGAGTTTTGGTTTTCAATTTAGTTTTCATAAATTGCCTTTAGGGAACTTAATTTGAGGATGTTTCCAGTTCCTATAGAATGCGGATTTGGGAGTGTGAGAGACCATTTAAATAAAAACTGACCAAAATATCTCAGGGTGCAGATATTGACATTAGGGTGGTACGTGACGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCATGCAGGTAATTGTGTTTTATAATAAAATTTTATGTTTAGAAACTTTTCTTCATAGTGACAGTCTTAGTTTAAACTGTAAACTGCAAGTAATGTACTATGTTAAATGTTTGAAACTTTATGCATGCATGAAGTGACAGTTAAAATACATGTAAAGGTGACAAACATGATAAAGAAAAAAACCGACTATACTCTTAGCAATTTGCCTGTGCAATTTTTTGAGATTCAACTGATCATTATGATAGAAGTTTTGATTCTTCTGTTCCTATGCATGTAATTATGACTTTTTAGATGTGGTTTACTGCTTTCAGTATGGATTACCACCGCCAATTTCACTGTTAAGAGCAGACAATAATCTTCCTCCCTGGCGTCCAGGATTGAAGGAGGTACAGCAGCAATGTTTTGCACGTTTACTGCATATTTTCATTTTTCCTTGTGTTTCTGTCTGTTTTGAAGCTCCACTGCCATTATTATATTCTGATGCTTACTGATTTCTGTGGATATTCATAGCATAGCATCGACTTACAAATTTGCAATCATTTATGTAATAAAGGATACTTGGTAAACCAGGATTAGAAGGGAATTTTGAGGGAATTTTGATCAAGTAATATATGAATCATTACTCTTAGGTTCATTTCCTGTAAGTGACTGTTGGTACTCGTTAGCTAACATATAACCAGGTAAAGCAAAAAAGTTGTATGGTGAACTCACACTGACCACTTTATAGTTACTCTTTGCATAACATAATACCACATCAGTTTTCTCCCCGGATCAATGGGCTTGATAAAATTTCTTCTCAAGAAGCTAGATGGGATTCTATGCAACTTTTTTTAGAAGAAATAAACCCTCCTCCAAGGAATTTGTCCGATACAACTCCCCCTCCTCTCCTTCATGAGAATGCATTAGAAGGTAAAGATAATTTTTTTCCTCCTTTCTAAAGGTTTGTGGTATTGAAGTTTATGAAATTAAATCATAGACTTTCAGAAGTTCAAGATGGGCTCCTAACGATTTCATCCTGTCTTCGTAGCTGAGCATTTGATTTTGGGTTCTTTGGTCTCGTGGAAGCTTGCTTTTTCCATGCATGGTGCTGGCTCTTTCCTTCTTTGTTGCTGTTCCTGCCCTTTCAGTATTTGATAGGTTTCTCTTAGTCTGCTTATTTTCCGTTTGATTGCTTTTGTTTTGGTCCTTTTGCAAATCCGTGCACCTTCATTTGCTCTCTTTGAACTTTTTGAGGTCGTTTTAGAGTTCCCATTGGTTAGTCTTGTGGCTGTTGAAAAAGATTAGCTCTCCTCATGTTATTCGCACAATTTTTGAGCCTTTCGTCTTGAAAGGTCTGTGGTTGCGCTTAAGTTTTCTGGAACTTAACAAACTGTTTGCTGTAAAGGTCGTAAATATCCATGCATCATTTTTCAGCAGGCTCTGCCTGAAATTTCTTTTTTGGCCGAGTTTCAGTCAGCTGTGTTTTTTCGAGCCTTGTTTTAGGTTGCTGCAGTTGCTTTTGGAGTGCTTTGTGGAGCCTCCCTTCTTCGCTTCAGCCTTGATTGCATGCTTTAAAAGTTTATTTATTTTTTTGGTTCAAAAAAAGCAAGGTTATTGGATAAATCCATTATGCTTCCATATTAGACCGTTTTAAGTACTTGTTGATGTGATGCTTATCATAAGTTATAACATTATATTGGTTGTCCTGAGTCTTTATTAAATCTGAGGCTTAGTTATCCAGCTACTGATATTTTGTAGTGCTGATTCTGATGCATTTTCGTAACTTGTTTCTCTACCCAGATATTCGACGCCATCATTTGCGACCCTCCTTACGGAGTACGTGCCGGGGGGCGTAAATCCGGTGGTCGGAAATTGTTGAAAGGAACTGTTGCGCCTTACACCGTTCCAGACGACAAGAGAACCGACCACATACCATCAACAGCTGCTTACAGCCTTGTTGAGTGTGTGCACGATTTACTCAACCTTGCAGCCAAGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCATGTTTTACGTTACTCAGTTCGTCCGAGCAGATATTGAGCTCTCGATACAGCCGGGTACTGCTAACAATGGTCAAACATAGCTCGTACACCGAAGAAATGGCGGAGGCAGCAAAGTTAAAACATGAAGAATTCAGGGAGAACCATTTGAAGTGGTTAGAAGATGGTAATCTCCATTCTGCAGTTTTCAGCCCCACCATTGATCCCCAGCTTGCGGTTGCTGGCAATTGCAATGCTACCAAAGATCCAAAGCCGAAATACAGAGGGAAGTATGTATAA ATGTGGTATCTCTGTGTGTTCTATCACAGGCTTTTGGATTACCGGAAGGCGGAGGTCGAATCTCTGGCCGAGTTGTTTGGTGAAAATGGCAACCACAAAGGGGGGAAGTTGGAATGGAAGCTTCCTCTTCACCATCACCCCGATTCTCCTTTCCATTTCGTCGACCTGTCTTCCGATGATATTGCTCGGAGCATCGCCAATCGAAGTATACTAGTGAAGGGGATGTATGAACTCTGGGGCGTAGGAAGTGACTACGAGGAGCTACAGGAGTCTATTAGAAACTTTCCGGAAGAACGGAAGTCCCCATACTTACAACAGGGAAGCACCTTCAAGATTTCTGTAGAGAGCTTTGGGAAGGCTATCAGCTTCCAGGAACAAAATGAACGCATTCAGGGTCTAGCTTACATCCCTTTCAAGGGTCTAGTTAATTTAAGAAATCCAGATCATAAGTTCAGCCTTATGGAGGCGGCTGATTACGGACTGAATAATGGACTTCCACCAGTTGCTCAAAGGACGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGATGCTGAAATGGCTTTCTTAATGGCCAACCAAGCATTAGCGACACCTGGGAAACTTGTCTATGATCCTTTTGTTGGCACTGGGAGCATTCTAGTTGGCGCAGCTCATTTTGGAGCAATGACAATGGGTGCAGATATTGACATTAGGGTGGTACGTGACGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCATGCAGTATGGATTACCACCGCCAATTTCACTGTTAAGAGCAGACAATAATCTTCCTCCCTGGCGTCCAGGATTGAAGGAGATATTCGACGCCATCATTTGCGACCCTCCTTACGGAGTACGTGCCGGGGGGCGTAAATCCGGTGGTCGGAAATTGTTGAAAGGAACTGTTGCGCCTTACACCGTTCCAGACGACAAGAGAACCGACCACATACCATCAACAGCTGCTTACAGCCTTGTTGAGTGTGTGCACGATTTACTCAACCTTGCAGCCAAGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCATGTTTTACGTTACTCAGTTCGTCCGAGCAGATATTGAGCTCTCGATACAGCCGGGTACTGCTAACAATGGTCAAACATAGCTCGTACACCGAAGAAATGGCGGAGGCAGCAAAGTTAAAACATGAAGAATTCAGGGAGAACCATTTGAAGTGGTTAGAAGATGGTAATCTCCATTCTGCAGTTTTCAGCCCCACCATTGATCCCCAGCTTGCGGTTGCTGGCAATTGCAATGCTACCAAAGATCCAAAGCCGAAATACAGAGGGAAGTATGTATAA ATGTGGTATCTCTGTGTGTTCTATCACAGGCTTTTGGATTACCGGAAGGCGGAGGTCGAATCTCTGGCCGAGTTGTTTGGTGAAAATGGCAACCACAAAGGGGGGAAGTTGGAATGGAAGCTTCCTCTTCACCATCACCCCGATTCTCCTTTCCATTTCGTCGACCTGTCTTCCGATGATATTGCTCGGAGCATCGCCAATCGAAGTATACTAGTGAAGGGGATGTATGAACTCTGGGGCGTAGGAAGTGACTACGAGGAGCTACAGGAGTCTATTAGAAACTTTCCGGAAGAACGGAAGTCCCCATACTTACAACAGGGAAGCACCTTCAAGATTTCTGTAGAGAGCTTTGGGAAGGCTATCAGCTTCCAGGAACAAAATGAACGCATTCAGGGTCTAGCTTACATCCCTTTCAAGGGTCTAGTTAATTTAAGAAATCCAGATCATAAGTTCAGCCTTATGGAGGCGGCTGATTACGGACTGAATAATGGACTTCCACCAGTTGCTCAAAGGACGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGATGCTGAAATGGCTTTCTTAATGGCCAACCAAGCATTAGCGACACCTGGGAAACTTGTCTATGATCCTTTTGTTGGCACTGGGAGCATTCTAGTTGGCGCAGCTCATTTTGGAGCAATGACAATGGGTGCAGATATTGACATTAGGGTGGTACGTGACGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCATGCAGTATGGATTACCACCGCCAATTTCACTGTTAAGAGCAGACAATAATCTTCCTCCCTGGCGTCCAGGATTGAAGGAGATATTCGACGCCATCATTTGCGACCCTCCTTACGGAGTACGTGCCGGGGGGCGTAAATCCGGTGGTCGGAAATTGTTGAAAGGAACTGTTGCGCCTTACACCGTTCCAGACGACAAGAGAACCGACCACATACCATCAACAGCTGCTTACAGCCTTGTTGAGTGTGTGCACGATTTACTCAACCTTGCAGCCAAGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCATGTTTTACGTTACTCAGTTCGTCCGAGCAGATATTGAGCTCTCGATACAGCCGGGTACTGCTAACAATGGTCAAACATAGCTCGTACACCGAAGAAATGGCGGAGGCAGCAAAGTTAAAACATGAAGAATTCAGGGAGAACCATTTGAAGTGGTTAGAAGATGGTAATCTCCATTCTGCAGTTTTCAGCCCCACCATTGATCCCCAGCTTGCGGTTGCTGGCAATTGCAATGCTACCAAAGATCCAAAGCCGAAATACAGAGGGAAGTATGTATAA MWYLCVFYHRLLDYRKAEVESLAELFGENGNHKGGKLEWKLPLHHHPDSPFHFVDLSSDDIARSIANRSILVKGMYELWGVGSDYEELQESIRNFPEERKSPYLQQGSTFKISVESFGKAISFQEQNERIQGLAYIPFKGLVNLRNPDHKFSLMEAADYGLNNGLPPVAQRTIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQALATPGKLVYDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFMQYGLPPPISLLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDDKRTDHIPSTAAYSLVECVHDLLNLAAKMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTLLSSSEQILSSRYSRVLLTMVKHSSYTEEMAEAAKLKHEEFRENHLKWLEDGNLHSAVFSPTIDPQLAVAGNCNATKDPKPKYRGKYV Homology
BLAST of Csor.00g079470 vs. ExPASy Swiss-Prot
Match: Q7Z4G4 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Homo sapiens OX=9606 GN=TRMT11 PE=1 SV=1) HSP 1 Score: 300.8 bits (769), Expect = 2.7e-80 Identity = 173/455 (38.02%), Postives = 252/455 (55.38%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy Swiss-Prot
Match: Q7TNK6 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Rattus norvegicus OX=10116 GN=Trmt11 PE=2 SV=1) HSP 1 Score: 300.8 bits (769), Expect = 2.7e-80 Identity = 172/446 (38.57%), Postives = 253/446 (56.73%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy Swiss-Prot
Match: Q5R962 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Pongo abelii OX=9601 GN=TRMT11 PE=2 SV=1) HSP 1 Score: 300.4 bits (768), Expect = 3.5e-80 Identity = 175/455 (38.46%), Postives = 251/455 (55.16%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy Swiss-Prot
Match: Q9CWH5 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Mus musculus OX=10090 GN=Trmt11 PE=1 SV=1) HSP 1 Score: 298.9 bits (764), Expect = 1.0e-79 Identity = 172/457 (37.64%), Postives = 251/457 (54.92%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy Swiss-Prot
Match: Q05B63 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Bos taurus OX=9913 GN=TRMT11 PE=2 SV=1) HSP 1 Score: 298.5 bits (763), Expect = 1.3e-79 Identity = 170/454 (37.44%), Postives = 254/454 (55.95%), Query Frame = 0
BLAST of Csor.00g079470 vs. NCBI nr
Match: KAG6571734.1 (tRNA (guanine(10)-N2)-methyltransferase-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 990 bits (2560), Expect = 0.0 Identity = 480/480 (100.00%), Postives = 480/480 (100.00%), Query Frame = 0
BLAST of Csor.00g079470 vs. NCBI nr
Match: KAG7011460.1 (tRNA (guanine(10)-N2)-methyltransferase-like protein [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 988 bits (2554), Expect = 0.0 Identity = 479/480 (99.79%), Postives = 479/480 (99.79%), Query Frame = 0
BLAST of Csor.00g079470 vs. NCBI nr
Match: XP_022932935.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Cucurbita moschata] >XP_023511692.1 tRNA (guanine(10)-N2)-methyltransferase homolog [Cucurbita pepo subsp. pepo]) HSP 1 Score: 983 bits (2541), Expect = 0.0 Identity = 476/480 (99.17%), Postives = 478/480 (99.58%), Query Frame = 0
BLAST of Csor.00g079470 vs. NCBI nr
Match: XP_022973875.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Cucurbita maxima]) HSP 1 Score: 968 bits (2503), Expect = 0.0 Identity = 467/480 (97.29%), Postives = 474/480 (98.75%), Query Frame = 0
BLAST of Csor.00g079470 vs. NCBI nr
Match: XP_031744574.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Cucumis sativus]) HSP 1 Score: 929 bits (2401), Expect = 0.0 Identity = 446/480 (92.92%), Postives = 465/480 (96.88%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy TrEMBL
Match: A0A6J1F3J0 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucurbita moschata OX=3662 GN=LOC111439552 PE=4 SV=1) HSP 1 Score: 983 bits (2541), Expect = 0.0 Identity = 476/480 (99.17%), Postives = 478/480 (99.58%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy TrEMBL
Match: A0A6J1ICG5 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucurbita maxima OX=3661 GN=LOC111472466 PE=4 SV=1) HSP 1 Score: 968 bits (2503), Expect = 0.0 Identity = 467/480 (97.29%), Postives = 474/480 (98.75%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy TrEMBL
Match: A0A1S3BG98 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucumis melo OX=3656 GN=LOC103489693 PE=4 SV=1) HSP 1 Score: 924 bits (2387), Expect = 0.0 Identity = 444/480 (92.50%), Postives = 463/480 (96.46%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy TrEMBL
Match: A0A6J1D5Q5 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Momordica charantia OX=3673 GN=LOC111017553 PE=4 SV=1) HSP 1 Score: 877 bits (2265), Expect = 0.0 Identity = 426/484 (88.02%), Postives = 455/484 (94.01%), Query Frame = 0
BLAST of Csor.00g079470 vs. ExPASy TrEMBL
Match: A0A5A7TF32 (tRNA (Guanine(10)-N2)-methyltransferase-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold67G003460 PE=4 SV=1) HSP 1 Score: 852 bits (2201), Expect = 1.10e-308 Identity = 413/451 (91.57%), Postives = 432/451 (95.79%), Query Frame = 0
BLAST of Csor.00g079470 vs. TAIR 10
Match: AT3G26410.1 (methyltransferases;nucleic acid binding ) HSP 1 Score: 740.7 bits (1911), Expect = 7.3e-214 Identity = 358/480 (74.58%), Postives = 408/480 (85.00%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) 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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