Carg19360 (gene) Silver-seed gourd
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.AATAAAATTTTAGGCCGATTTAACCAAGCGTTTGGTGGTTCCCTGCAACAGCGTAGGAGCGAACACCGAACAACGAGACACAGAGCCCTGAGGCTGAGGCTGCGAAATTAGGCGATGACGAGAAAGAAGAGGAAGACGAGAGAGGCAGCCACAATCCACCCTAGAAACAAATACGCTGAAAATCCTCCAGATTTTGCTCTCTTAGCCTCTCTATACCCTTCCTTTCAACCCTTCGTCTTCCTTGAGCCCCGACCCAGAATCGACTGGACCGACTTCAACGCCACCCGTGAACTTACCCGGGTTTTGCTTCTCCACGACCACGCTCTTCACTGGTATCACTCCTTCCCCATAGCTGATGATTCGAGTTTCTGTCGATATGAGAATTGTGCTGTTTTGCTTTCTTTAGTTCTCTTTTCTGCTTCGAACTTGTTGGCTTAGTTAAATTTTGACTTCCATTATTGCAAGGCTCTGATGAAAATTTTAGTGGGGAGAGAAGGGGTTGGCTTCCTCTGGATGCATTTAACTTTTTGTTAGGATTTTGTAGGATTAATGGCTAGTTTTATCCCTTTTGAAGTGATTATGAGATGCAATTTAGCCGTCCATCCTAGGTTAGGAAACACGACTCTCCACAATGGTATGATATTGTCCACTTTGAGTAAAAGGCCTCATACCAATGGAGATGTATTCCTTGCTTTTAAACCCATAATTATTCCCTAAATTAGCCGGATGTGGGACTCCCTCCCAACAATCCTCCCCTCGTACAAAGTACACCATAGAGCCTCCCCTGAGGTCTATGTAGCCTTCGAACAACCTCCCTTTAATTGAGGCTCAACTCTTTTCTCTGGAGTCCTCGAACAAAGTACACCCTTTGTTCGACATATGAGTCACTTTTGACTACACGTTCGAGGTTAGCAATTTCTTTGTTCGACACTGGAGGATTCTATTGACATAGCTAAATTAAGGGTGTGACTCTGATACCATGTTAGAAACTACGACTCTCCACGATGGTATGTTATTGTCCACTTTGAGCATAAGCTCTCATGACTTTGTTAAGGGCGTGACTCTGATACCATGTTAGAAACTACGACTTTCCACGATGGTATGATATTGTCCACTTTGAGCATAAGCTCTCATGGCTTTGTTTTGGGCTTCTCTAAAAGGCCTCATACCAATGAAGATGTATTCCTTATTTATAAACCAATGATCATTCCCTAAATTAGGCAATGTTGGACTCCCTCCCAACAATCCTTCCCTCGAACAAAGTACACCATAGAGCCACCCCTGAGGTTCATGTAGCCTTCAAACAACCTCCCCTTAATTGAGGCTCAACTCCTTTCTCTGGAGTCCTCGAACAAAGTACACCCTTTGTTCGACATATGAGTCACTTTTAACTACACGTTCGAGGTTAGCAATTTCTTTGTTCGACACTGGAGGATTCTATTGACATAGCTAAATTAAGGGTGTGACTTTGATACCATGTTAGAAACTACGACTCTCCACAATGATATGACATTGTCCACTTTGAGCATAAGCTCTCATGGCTTTGCTTTGGGCTTCCTGAAAAGGCCTTGTACCAATGGAGATGTATTCATTGCTTATAAACCCATAATCATTCCTAAATTAGCCAACGTGGGACTCCCTCCCAACAATCCTCAACATCCTAGTGGTAGGATCAATACAATCCAAATCCATGTCAATATGATCAAGAGGACCAACAATATGAAAATGTTTTTTTTTGTCCAATTCGGATGTCTTTATAGATTTTTACATATCAGGTGGATTCCTGATGGACAGCTCTGCCCAACAGTACCCAATAGATCAAATTATATCCATTGGCTTGAAGATCTTTTGTCATCTGATGTCGTTGCAAAGGCAAATAGTGATAGAGGTAGTAATGTAAGAGGTTTTGACATAGGAACGGGGGCAAATTGCATTTACCCTCTTCTTGGTGCCTCTCTTCTCGGGTGGAGTTTCGTCGGGACAGGTGACTTCCTTACCATATCGTTGCTTTTGTTCTTAAATTTCTATGTTATCCATTGATTTGTATGTTTAACAATGACCAGGTTTCGGGTTCCACTCGACTATGTGCAGATGTGACTGATGTAGCGCTAGAGTGGGCTGAAAGAAATGTCAAAAGTAATCCACATGTTTCTGAACTTATTGAAATTAGAAAGGTAGATGATACCTTAGACGGTCTTACGACAGAATTACGTAGTAATGTAGCTGTTGATAATGAATGCAAGATTATGAATGGTATGGACGGTAGGGAAGTAGCGCCATCCCCGCCCTCATCCTCGTCAAAGGAGACGATCCACTCGGAGAAGCGATATCATGGTCCTCCCATTCTTCTTGGTGTTGTCAAAGATGGTGAGGAGTTTGACTTTTGCATGTGCAATCCTCCTTTTTTCGAGAGTATGGATGAAGCGGGATTGAATCCAAAGACTGCTTGTGGTGGAACTCCACAAGAGATGGTTTGTCCGGGCGGGGAGAGGGCATTTATCAGTCGTATGATCGAAGACAGCATCGTCTTGAGGCAAACTTTCCGGTATTTCTACTGCAAAATGGCCTCTGATTCTTCAATACACCTTTTAGGAATCTTATCTTCATTGATCTTTGCAGGTGGTATACTTCAATGATTGGGAAGAAATCAAACCTCAGCTTCCTGATATCTAAACTTTGGAAAGTCGGAGTGACGGTTGTCAAGACTACAGAATTCGTCCAAGGCCAAACTTGCCGGTGGGGACTTGCTTGGTCTTTTATGCCTGCAGGACGGAAGATTATATCTCCGCACGTCACTAACAAGAGCGTTTCGTCTTTCATGCTCGAGGTGGACAAACGTTTGAGCTTTTTTAATCTTCATGTTGGGCTTTCAATCAAATCTTTCCCATGTAGCTCAGTTTTGATATCTTTCTGTTGTCAGGGCCTCCTTCCACAAGTCAGTGCCACGAGTATACTGCAATCAGTGGAACGTTTTCTTAGCGTCGGTGGAGCTTCTTGTAAACTGAACACTTCTTCATTTACAGTAGATGTATGGTTGTTCACTTGGCTTCTCTTTTATCTTTGCAAGTAATGACATCATGCTTACAAGTTCTGTTACCACACATGTTTTGGTAGGTTACTGCATCTAACGCTCATTGCCGAGCAATTCTCGAGAATGGGGCATATGAAGTCGACAAAGGTGCCAGTGGAGTAGCTGTCGAAAAGTCCGAGCCTCAACCCTCAACTGATCTGTGTTTTCGAGTTTCGGTATCTCCCGCTTATCATTTTGTGGTTATGCAAGCTTCATCACTAATGCTTAGGAGTTGAAGTTAGGCTCATACTTTTTTATTGTGGCAATTTTCTTTGTTGTAGGTCTTTCAACAGATCCCTGGCACGCTTCTTGTGAAAGGCTCCTTGCATCATAAGAGTAGTCCTTCTTCAGGTACTACTCACTCATGCTTTGGATCTTTCTTTTGATTATTGTTTCTATGGACTTCTCCAGCTCTTGGGTTGGTGTAGATTTAATCTTTTGAGTCTATTTTCATTTTATGCTCTCTTCCACACGTTTGGCTCGAATATTTGCACGAGGATCAACATGTTAGGATCTCGAACACACGGAAATTGCACGAAACACAAAAATAAAACTATATTGCAATGCATAATATGAATAGCCTTTCAAGAGGGCTATGTCTCTTGTGCAAGCCATCTACAATGGACTGATTGCCACTATACCCGTACTAATACCCTACTAATATTCCCAATACATCGTATTCTCACACTCACACAACACTAATGTGAGATCCCACGTTGGTTGGAGAGGAGAACGAAGCATTATTTATAAGGATGTGGAAACCTCTCCCTAGTAGACGCGTTTTAAAACCTTGAGGGGAAGACCAGAAGTGAAAGCCCCAAAAGGACAATATCTGCTTGCAGTGGGCTTGGGCCGTTACAAATAGTATTAGAGCCAGACATCGGGCGGTGTGCCAGCAAGGACGCTGGGCCCCAAGGGGGGGAGGATTGTGAGATCCCACATTGGTTGGAGAGGAGAACGAAGCATTACTTATAAGGATGTGGAAACTTCTCCCTAGTAGACGTGTTCTAAAACCTTGAGGGGAAGCCCAGAAGGGAAATCCCAAAGAGGACAATATCCGCTAGCGATGGGCTTGGGTTGTGACAAATGATATTCGAGCCAGACACTGCAACGTGTGCCAGCGAGGACGCTAGCCCTCAAGGGGGGAGGATTGTGAGATCTCATATCGGTTGGAGAGGAGGACAAAGCATTACTTTTAAGGATGTGAAAACCTCTCCCTAGTAGACGCGTTTTAAAATCTTTAGGGGAAGCCCAGAAGAGAAAGTCTAGAAGGGAAAGCTCAAGGAGAACAATATCCGCTAGCGGTAGGCTTGGGCTATTACAACTGAGCATTGTTATCAGGAATTAGAGAGAAAACTACTCTGCTAATTTTTTCAATACTATGTGTGATCCAATGAAACAGTAGTATGACCATGGTCCCTTGCAGGCTCATTCTCACAGATTTTCCACCGATTAGAGGAATTCCTGAAAGCTGAATCTTGTAAAGAAAAGGTGTTATAGGAGACCCTTCTGCCCCGAACAATCCTTAGAACTCGAGGACACAGTTGTATAACCTATAAACCGACCCTATTTATGTGGAAGCTGCACAACACGACACTTGTATTGCTCACTTTGTACGGTCGGAGCAAACGAGAATAAGTTAAAAGATCGTTTATACAAAAAGTTAGTAGGTACAATGTTGATCCTTATGAACTTCTTAGCTCCGCCCTTGTGACACTCAACAAATCTAGTTAATTTTTGATCTTTTGAAAAGCTTGAATTCTGGTTTTCTGCTAGAACAGTCATGGTTTTGTAGTAGGGACGTCAGCTCCTCGTCGTACTCTTCGCCTATCGGCTCGACCCACATTTCTGCTAGAATTACAGTTTTTCACTTTGTACCCTCTGTCCTGCCATCTGCATCGGCTCGACGTGACGATGCTTCGATGTTTTCACGGTTCTTGTATTAGTTCAACACATACCTCAGCTGGTTTCTGTTTGTATCAAGTCTATGCTTGTCTTTGGATCTTCGGCTTAAGTTTATCGTTTTCCATACTGTTTTCATACTATTTTCGAAGTTACACTATTGTTCTTGATCTTTTATAAACGTCTCGAAACTATTTTTAAGAGTAGAAATTTGCTAGAAATTGAGGATAAAAGTTGAGACTTGAAACAACGGGATGGACAAGTCATGTCGCACTGTTTTAAGTCTCAATTTTTGTTCGATATTCTAATAAATTTTTACTTCAACAATAGTTTTGAAACCTTCACGTAAGATCAAAGATTTTGTTTCGTTTCGTTTGTAATGTTAGTGAGTTATTATTATTATTTTTAGGTTAAATTAATAAAAATACCTCTAAATTTGCAAGTGCCCCTCGAGTGACGAAATTTTCTTTGGGTGGGTTTGCTAAAACTACCTCCAATTTTTTACTCGTTATATAAGTGAGGCTTTGGAGGTTAATCTTTCGTTTCCTATTTTGCCCTTGCATATTGTAGTCGACTTGTCCCTTTTTTTAACGAGACACGACTCTTCGAGTCTAGATTTTTGTTGAGTCCAATACGTACAATTGATGCCAACGGGATGCGACGGAACAGTGACTCTTTTAAGTACCGTTTTTTTAAAAGTTATGTGTGATAGTGATGTTTTACTAACATAGTAATTGAAAGGTAGTCGAGAGGTTGGTGCATGAAAGATGGTCAAAACGTGTCATATTACGTTTTCTTATGGATTTGTTGTATCCTAAACCTAACATTTCATTAAAGGCCAAACGCTCCTTTTCGTCTTGAACATTAATGTTTCACGACCGATATATAAAGTTGATTGGAATTATTTTTCGATATCAGGAATCTATATTTGACATTTTTATAAGCTACACCTCCCGTTCAAATAGTACTGACTAGATACATCAGTGAATTAACCTAATTCTAGGGTTTATTGTCGAAACCCATAACATCAATAAATATTTAATCAAAATAATTCGCATCGGTACGTTATATGCCTTTAATTTTTCATCAAATATCTGTTCAATTTAACCAAAGTTACATTGTGAGATCCCACATCGGTTGGAGAGGAGAACAAAACATTTCTTACAAGGGTGTGGAAACTTTTCTCTAGTAGACGAGTCTTAGAACCTTGAGGGGATGCCCAGAAAGCCGAAAGAGAACAATATCTGCTAGCGATGTGGTTAAGCTGTTACAAATGGTATTAAACACCGGGCGGTGTGCCAACGAGAACGCTGGGCACCCAAAGGGGTGGACTGTGGGATCTCACATCGAGTAGTGTGCCAGCGAGAACGCTGGGCCCTCAAGGAGGTGGATTGTGAGATCTCACATAAGGGAGTGTAAACCTATATCGAGTAGGACGTGGAAGCCCGTGGAAGCCTAAAAAGGGTAATATCGGAAATGAAATTTAAAACGACAATATTTTTATTTTTTAAAAACAAATAATTATTTCAATGAAGAAAAAGAAATAAATTTGACACGTAAAATGCTAACTTTTCAACCAGAAATGCCCTCGAAGGGCTCACTCCACCAAATCTATTTCCCAAAAAGGTATTCCAGTATCAGCCACGTGAAACACCCGTGGAAATCCACGAACGGATCACCGTTCAATTTGAATACCAAACAATTCACGAACGGCCAAGATTCTCTCCACGTGAACAATTGAACGCCTGCTTGATCTAGGACCGGAACAGGCAATCTTTTTCAACCGTCATGTCCACGTCATCACGCTTTGCGATATAATCCTCGCTTTTCCACCGTCCGATTAAAATACTGTGATGAAATTTCAGCCGTCGATTGGAGTCTATGTCTCTAATTTCTTCATATATTTCATATACCGAGTTTGATAAGCAATGGAGAAGGAAGATTAAGGATTCTCTTCCTCCTTTCTTAATAAACTTGAACAATCACAGACTCGTTTTCTCTCTCTAAGAACCTTTTTCTCTACCTAAAAGATTTCTCTCTCTTTCCCACCTTCAAAATCTGGTGAGTTTCTTATGTTTTTTGTTGATTAGCTATTTGATGTTCGTGTTTTGTTTTTCTTTTGGGCTCATCTGCTTTTGGTTTGATTCATGTGAAATCCTGTTCGAAACATTGTTGCTCAAGAAGGATCTAATGGCTTTGAATTAGTAGGACGCGGGATTGGGCGTTTTTGTTGCGGGTTTTCGATATTGAGTATGTGGAATACTTGTCCATTTCTGGATTTAGGCACTAGGGTTTTCGATTTTGTTGGTTTTTGGAATTTTGAGTTTGTGGTGGATTCTCTGATTGTTGTTGTCTTTGGTTTGATGCGGATTTTTGGTTTTGGTGCATGTAGGACTTCGAGGCTGAAATAAAATTTTAGGCCGATTTAACCAAGCGTTTGGTGGTTCCCTGCAACAGCGTAGGAGCGAACACCGAACAACGAGACACAGAGCCCTGAGGCTGAGGCTGCGAAATTAGGCGATGACGAGAAAGAAGAGGAAGACGAGAGAGGCAGCCACAATCCACCCTAGAAACAAATACGCTGAAAATCCTCCAGATTTTGCTCTCTTAGCCTCTCTATACCCTTCCTTTCAACCCTTCGTCTTCCTTGAGCCCCGACCCAGAATCGACTGGACCGACTTCAACGCCACCCGTGAACTTACCCGGGTTTTGCTTCTCCACGACCACGCTCTTCACTGGTGGATTCCTGATGGACAGCTCTGCCCAACAGTACCCAATAGATCAAATTATATCCATTGGCTTGAAGATCTTTTGTCATCTGATGTCGTTGCAAAGGCAAATAGTGATAGAGGTAGTAATGTAAGAGGTTTTGACATAGGAACGGGGGCAAATTGCATTTACCCTCTTCTTGGTGCCTCTCTTCTCGGGTGGAGTTTCGTCGGGACAGATGTGACTGATGTAGCGCTAGAGTGGGCTGAAAGAAATGTCAAAAGTAATCCACATGTTTCTGAACTTATTGAAATTAGAAAGGTAGATGATACCTTAGACGGTCTTACGACAGAATTACGTAGTAATGTAGCTGTTGATAATGAATGCAAGATTATGAATGGTATGGACGGTAGGGAAGTAGCGCCATCCCCGCCCTCATCCTCGTCAAAGGAGACGATCCACTCGGAGAAGCGATATCATGGTCCTCCCATTCTTCTTGGTGTTGTCAAAGATGGTGAGGAGTTTGACTTTTGCATGTGCAATCCTCCTTTTTTCGAGAGTATGGATGAAGCGGGATTGAATCCAAAGACTGCTTGTGGTGGAACTCCACAAGAGATGGTTTGTCCGGGCGGGGAGAGGGCATTTATCAGTCGTATGATCGAAGACAGCATCGTCTTGAGGCAAACTTTCCGGTGGTATACTTCAATGATTGGGAAGAAATCAAACCTCAGCTTCCTGATATCTAAACTTTGGAAAGTCGGAGTGACGGTTGTCAAGACTACAGAATTCGTCCAAGGCCAAACTTGCCGGTGGGGACTTGCTTGGTCTTTTATGCCTGCAGGACGGAAGATTATATCTCCGCACGTCACTAACAAGAGCGTTTCGTCTTTCATGCTCGAGGGCCTCCTTCCACAAGTCAGTGCCACGAGTATACTGCAATCAGTGGAACGTTTTCTTAGCGTCGGTGGAGCTTCTTGTAAACTGAACACTTCTTCATTTACAGTAGATGTTACTGCATCTAACGCTCATTGCCGAGCAATTCTCGAGAATGGGGCATATGAAGTCGACAAAGGTGCCAGTGGAGTAGCTGTCGAAAAGTCCGAGCCTCAACCCTCAACTGATCTGTGTTTTCGAGTTTCGGTCTTTCAACAGATCCCTGGCACGCTTCTTGTGAAAGGCTCCTTGCATCATAAGAGTAGTCCTTCTTCAGGACTTCGAGGCTGA ATGACGAGAAAGAAGAGGAAGACGAGAGAGGCAGCCACAATCCACCCTAGAAACAAATACGCTGAAAATCCTCCAGATTTTGCTCTCTTAGCCTCTCTATACCCTTCCTTTCAACCCTTCGTCTTCCTTGAGCCCCGACCCAGAATCGACTGGACCGACTTCAACGCCACCCGTGAACTTACCCGGGTTTTGCTTCTCCACGACCACGCTCTTCACTGGTGGATTCCTGATGGACAGCTCTGCCCAACAGTACCCAATAGATCAAATTATATCCATTGGCTTGAAGATCTTTTGTCATCTGATGTCGTTGCAAAGGCAAATAGTGATAGAGGTAGTAATGTAAGAGGTTTTGACATAGGAACGGGGGCAAATTGCATTTACCCTCTTCTTGGTGCCTCTCTTCTCGGGTGGAGTTTCGTCGGGACAGATGTGACTGATGTAGCGCTAGAGTGGGCTGAAAGAAATGTCAAAAGTAATCCACATGTTTCTGAACTTATTGAAATTAGAAAGGTAGATGATACCTTAGACGGTCTTACGACAGAATTACGTAGTAATGTAGCTGTTGATAATGAATGCAAGATTATGAATGGTATGGACGGTAGGGAAGTAGCGCCATCCCCGCCCTCATCCTCGTCAAAGGAGACGATCCACTCGGAGAAGCGATATCATGGTCCTCCCATTCTTCTTGGTGTTGTCAAAGATGGTGAGGAGTTTGACTTTTGCATGTGCAATCCTCCTTTTTTCGAGAGTATGGATGAAGCGGGATTGAATCCAAAGACTGCTTGTGGTGGAACTCCACAAGAGATGGTTTGTCCGGGCGGGGAGAGGGCATTTATCAGTCGTATGATCGAAGACAGCATCGTCTTGAGGCAAACTTTCCGGTGGTATACTTCAATGATTGGGAAGAAATCAAACCTCAGCTTCCTGATATCTAAACTTTGGAAAGTCGGAGTGACGGTTGTCAAGACTACAGAATTCGTCCAAGGCCAAACTTGCCGGTGGGGACTTGCTTGGTCTTTTATGCCTGCAGGACGGAAGATTATATCTCCGCACGTCACTAACAAGAGCGTTTCGTCTTTCATGCTCGAGGGCCTCCTTCCACAAGTCAGTGCCACGAGTATACTGCAATCAGTGGAACGTTTTCTTAGCGTCGGTGGAGCTTCTTGTAAACTGAACACTTCTTCATTTACAGTAGATGTTACTGCATCTAACGCTCATTGCCGAGCAATTCTCGAGAATGGGGCATATGAAGTCGACAAAGGTGCCAGTGGAGTAGCTGTCGAAAAGTCCGAGCCTCAACCCTCAACTGATCTGTGTTTTCGAGTTTCGGTCTTTCAACAGATCCCTGGCACGCTTCTTGTGAAAGGCTCCTTGCATCATAAGAGTAGTCCTTCTTCAGGACTTCGAGGCTGA MTRKKRKTREAATIHPRNKYAENPPDFALLASLYPSFQPFVFLEPRPRIDWTDFNATRELTRVLLLHDHALHWWIPDGQLCPTVPNRSNYIHWLEDLLSSDVVAKANSDRGSNVRGFDIGTGANCIYPLLGASLLGWSFVGTDVTDVALEWAERNVKSNPHVSELIEIRKVDDTLDGLTTELRSNVAVDNECKIMNGMDGREVAPSPPSSSSKETIHSEKRYHGPPILLGVVKDGEEFDFCMCNPPFFESMDEAGLNPKTACGGTPQEMVCPGGERAFISRMIEDSIVLRQTFRWYTSMIGKKSNLSFLISKLWKVGVTVVKTTEFVQGQTCRWGLAWSFMPAGRKIISPHVTNKSVSSFMLEGLLPQVSATSILQSVERFLSVGGASCKLNTSSFTVDVTASNAHCRAILENGAYEVDKGASGVAVEKSEPQPSTDLCFRVSVFQQIPGTLLVKGSLHHKSSPSSGLRG
BLAST of Carg19360 vs. NCBI nr
Match: XP_022952458.1 (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase [Cucurbita moschata]) HSP 1 Score: 946.4 bits (2445), Expect = 3.6e-272 Identity = 461/467 (98.72%), Postives = 463/467 (99.14%), Query Frame = 0
BLAST of Carg19360 vs. NCBI nr
Match: XP_022969493.1 (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase [Cucurbita maxima]) HSP 1 Score: 940.3 bits (2429), Expect = 2.6e-270 Identity = 459/467 (98.29%), Postives = 460/467 (98.50%), Query Frame = 0
BLAST of Carg19360 vs. NCBI nr
Match: XP_023554274.1 (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase [Cucurbita pepo subsp. pepo]) HSP 1 Score: 937.6 bits (2422), Expect = 1.7e-269 Identity = 456/467 (97.64%), Postives = 459/467 (98.29%), Query Frame = 0
BLAST of Carg19360 vs. NCBI nr
Match: XP_008447969.1 (PREDICTED: methyltransferase-like protein 16 homolog isoform X2 [Cucumis melo]) HSP 1 Score: 847.8 bits (2189), Expect = 1.7e-242 Identity = 416/468 (88.89%), Postives = 432/468 (92.31%), Query Frame = 0
BLAST of Carg19360 vs. NCBI nr
Match: XP_016900513.1 (PREDICTED: methyltransferase-like protein 16 homolog isoform X1 [Cucumis melo]) HSP 1 Score: 847.4 bits (2188), Expect = 2.3e-242 Identity = 416/470 (88.51%), Postives = 433/470 (92.13%), Query Frame = 0
BLAST of Carg19360 vs. TAIR10
Match: AT2G21070.3 (methyltransferases) HSP 1 Score: 578.6 bits (1490), Expect = 3.6e-165 Identity = 291/472 (61.65%), Postives = 350/472 (74.15%), Query Frame = 0
BLAST of Carg19360 vs. Swiss-Prot
Match: sp|Q6DC64|MET16_DANRE (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Danio rerio OX=7955 GN=mettl16 PE=2 SV=1) HSP 1 Score: 221.9 bits (564), Expect = 1.5e-56 Identity = 131/339 (38.64%), Postives = 179/339 (52.80%), Query Frame = 0
BLAST of Carg19360 vs. Swiss-Prot
Match: sp|Q6GR37|MET16_XENLA (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Xenopus laevis OX=8355 GN=mettl16 PE=2 SV=1) HSP 1 Score: 219.2 bits (557), Expect = 1.0e-55 Identity = 136/356 (38.20%), Postives = 189/356 (53.09%), Query Frame = 0
BLAST of Carg19360 vs. Swiss-Prot
Match: sp|Q86W50|MET16_HUMAN (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Homo sapiens OX=9606 GN=METTL16 PE=1 SV=2) HSP 1 Score: 217.2 bits (552), Expect = 3.8e-55 Identity = 132/341 (38.71%), Postives = 181/341 (53.08%), Query Frame = 0
BLAST of Carg19360 vs. Swiss-Prot
Match: sp|Q9CQG2|MET16_MOUSE (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Mus musculus OX=10090 GN=Mettl16 PE=1 SV=1) HSP 1 Score: 217.2 bits (552), Expect = 3.8e-55 Identity = 139/380 (36.58%), Postives = 199/380 (52.37%), Query Frame = 0
BLAST of Carg19360 vs. Swiss-Prot
Match: sp|Q5ZIA0|MET16_CHICK (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Gallus gallus OX=9031 GN=METTL16 PE=2 SV=1) HSP 1 Score: 211.1 bits (536), Expect = 2.7e-53 Identity = 129/341 (37.83%), Postives = 179/341 (52.49%), Query Frame = 0
BLAST of Carg19360 vs. TrEMBL
Match: tr|A0A1S3BIM5|A0A1S3BIM5_CUCME (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Cucumis melo OX=3656 GN=LOC103490299 PE=3 SV=1) HSP 1 Score: 847.8 bits (2189), Expect = 1.2e-242 Identity = 416/468 (88.89%), Postives = 432/468 (92.31%), Query Frame = 0
BLAST of Carg19360 vs. TrEMBL
Match: tr|A0A1S4DX15|A0A1S4DX15_CUCME (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Cucumis melo OX=3656 GN=LOC103490299 PE=3 SV=1) HSP 1 Score: 847.4 bits (2188), Expect = 1.5e-242 Identity = 416/470 (88.51%), Postives = 433/470 (92.13%), Query Frame = 0
BLAST of Carg19360 vs. TrEMBL
Match: tr|A0A0A0K5X1|A0A0A0K5X1_CUCSA (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Cucumis sativus OX=3659 GN=Csa_7G009800 PE=3 SV=1) HSP 1 Score: 840.9 bits (2171), Expect = 1.4e-240 Identity = 414/468 (88.46%), Postives = 428/468 (91.45%), Query Frame = 0
BLAST of Carg19360 vs. TrEMBL
Match: tr|A0A1R3HVR9|A0A1R3HVR9_COCAP (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Corchorus capsularis OX=210143 GN=CCACVL1_16687 PE=3 SV=1) HSP 1 Score: 651.7 bits (1680), Expect = 1.2e-183 Identity = 321/469 (68.44%), Postives = 376/469 (80.17%), Query Frame = 0
BLAST of Carg19360 vs. TrEMBL
Match: tr|A0A1R3JDC6|A0A1R3JDC6_9ROSI (U6 small nuclear RNA (adenine-(43)-N(6))-methyltransferase OS=Corchorus olitorius OX=93759 GN=COLO4_17298 PE=3 SV=1) HSP 1 Score: 649.0 bits (1673), Expect = 7.9e-183 Identity = 320/469 (68.23%), Postives = 374/469 (79.74%), Query Frame = 0
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 silver-seed gourd
Date Performed: 2019-03-07
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: |