Tan0021194.2 (mRNA) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CGTCATTAAAACCAGCTCCTTAATCTTGCTGCTGATTCCTGAAAGGGGAAGAAGAACCAGAGGTCCGAGAAGCTTCCAATCCATTTTCATGGCGGTAGCTATTTTCTTTCCTCCTCAAACTTCATACAACAATCGCCATTATCTTTCTCGCGATTTCCGATTTCGGTCTCCTCTTCGCTTGTCCACTCGTCGTTGTGTCTCCTCTACCGTTCGGGCGAGCTCGACGCTCGTTCTTGAGTCGGTAAGCTCCACCTTAACTTTCTTGTTCCAATTTTCGTTTATAATTCGAATTTTTGATGTTATTGCTGTTAAAACGAATCTCTGTTGTGCGTTGAAGTTGAATTGTATTGTGATATGGAGTTGACGATTCGGACATGTATGTTTCGGGATTGACAATAGGCTGAATTTTGCAATAATTTGGAGAGGAGTATGTAGATGCTACCCCGTGTTTGGCTTTTTAGGGAAATTATTGTTTGAGGAATTTGTAATTTCAACTCAACTTCGAACTGTTTCATTTAGTCGAATTTGGAGTTTCTATTATTATTATTATTTGTTTCCCTCAGGATTTAGGCATTCAACAGGATCAGAATTCAAAAATTGACGTGTTTTCATGCCCTGTTTGTTTTGAGCCACTGTTGAGAAAAGGCCCGCCAGGTTTTAACTTGTAAGTTGACTTAATGTGATGTATTCCATCTTCTGATATTTAACTTGTTGCATTTTATGATATTTCGACCCGAGTGAAGTGGAAAATTTGCAGGCCAGCTATTTATAGGTCTGGTTTCAAGTGTAGAAGATGCAATAAGTCATACACTAGCAAAAACATCTTTTTGGATCTCACAGTTACTTCTGGAATGAAGGAATATGTTGAAGTCAAACCTGGGGGAACTGAGCTGTTTCGGTATCTTTCTGATATTTTCTTTCATTTTTTCTTCTAAATGTTTCATTCACTTCTAAGTTTTCTGATTTTGCTTGCTTCATCTTAAGTGTTAAGTTGATGTCACCCATTACAACTTGTCTAACGAAAGGAAGTGGTACTGTGTTATTGCCATTTTTTCCCCTGAAGGAGACAATTCTCTATTGCTTATGGTTTTTGTACTTTGTAGGAGTCCACTCGTTTCATTTCTGTATGAAAGAGGATGGCGACAAAACTTTAACCGAAGTGGTTTCCCCGGCCTCGATGAAGAAGTATGCTTCCTCTCAATCATAACACTACCATTCAAACGTACGAATATTTTATATTGATATTTTGATGCCGTTCAAAAGATTACTCGTGGAGAAAAACAAGTGTTATCGTATTGTTCATGAGTTGCCTTGGCATTGGATATATGGCCTTTTCATTTCCTTGAATAATGTGAATATGGGCTGATATTTTTCTTTAAATATATGCCATCGCAGTTTAAAATGGCCATGGAGTATTTTAAATCTGTTGAAGGTGGTCTTTTAGTGGATGCAAGCTGTGGTAGTGGTTTGTTCTCCAGAAAATTTGCAAAATCTGGGTCTTTTTCAGGTGTTATTGCACTTGATTTTTCTGAGAATATGCTCCTCCAATGTTATGATTTCATAAAGAAAGATGCTGCGCTTTTGAACAGGTGATTTTATTTTATGACTTTTATACTCTTGTTTAATTAATTCCTTAGAACACAACTGATATACCCTGCTAGCTTGTGTATTAAGTCCTCTCAACTTGCAAGAAAAGTGAAGGCTATCCTAATTGGTATATCTTCTTTTGGAAAATATGCAGTAATCTTGCTCTTGTGAGGGCAGATATCTCTAGGCTTCCCTTTTCATCAGGATCAGTGGATGCTGTTCATGCTGGTGCAGCATTGCATTGCTGGCCATCTCCTTCCAATGCTGTAAGCATTTTGTCTTGTAGGATCATATTATATCATTTGATTTCCTACCATTAGTTGTAATCCGCTGAATGCAACCAGGTTATAGAATATCACTGTCAACTTCATCCCATTATTTTCTTGATCAAAAAAAAAAACTTCATCCCATTATTTTCACTATAGAGTTTCTCTTCTCAACCAGTGTATGTGATTGAATTCATTTAAAGTTTCTCTTTCCATGCTCGCTACAATTCCTCGTGGTACTTAGTCCATTGAAAGGAAGCGATCAAAGCTTTCCCTTCATAATAGTTATATGCACTCAATTCACAAAATAATAATATGTTATTGTGTCTGAAACAACGGCAGGTTCCACTGGGCAATTGGTTTTCTGATATATCTTCTTGACTAATGCATTTCTTTTAGGAAGTTCTATTTGAAATCTTTAGGAATTAGCTCCTGAGTATTTTTGTATGTTTTTAGCAACGAGGCATCCATTTATGATATTTTCAGCTCAGATTCTCATTGTTCAGATGATAAGGTCAATATTTTTCAACTTCTTTAGTAATGGTTTCTTTTAACTCTTCTTATCAGATTGCTGAGATCACTCGTATAATGCGGAGTGGTGGAGTATTTGTAGGAACTACTTTTTTGCGGTACACTTCATCCACTCCCTGGTATATAAGATTTTCTAGAGAGGTATACCCTTAATCTATTCTCTCTCATTTTTGCACTTCTAGATATCACTAGTCAGAAGCAGTTATGACAAACATCTGTGTTATCTGATTGATATTTCTGTTCCAGAGTCATGAATTTGGTAATCATGCATTTATATACACGAAATCCGTCCTTGCATATTTTCCTTTCCAATTAACTATGGTTAATTTCTTGATTCTGTTACTTCAAAATGACAAAAAATGTATTTGGGCACCCTGTAAGGTGGTATAAACAAACTAGCTTCCTTCATGGTTAATTGAACTTCTTGCTGGCTTATATTTTGTCATTTTCATTGGACTGAGTATTGGTATTTATTAGAGTCCATAAATCTTCTGGAACCATACATAAACATGAACTAACATAGTTTGTTTTACTTTCTCAAGTTTATAGAAGATCTCCATTTATCAGTTCGGACAACTTTTTCTCATGTAAAGATTGATATCTGTGTGGAATGTGTTCAAAACTCAGTTTCTTTTGTGCTTGCGCCACCATTTTTTTGGGTTGCTTTTGGATGAGAGGCCAACTTTTATGGAGATAAATGAAAGGATACAGAGGAGGCCGAAAAAGCCATGCCAAAAGCGGAGATTAAATAACTCACAATAAACTTACAAAAAGAACTCATCTAGTAAAGATAACTATGAAAAAAATTTAAACTAAAGTACTAAAATGTGTCAAATCCCAAACACATCATCCCACGACCTACATAATCCAACCAACATTCCCCTATTTCTTTCTAGTCAAACAAACTACAGTATGATGAAGAAGCTAACTTGTTGGAAAGCACAACCTTCTAGGAAAAGGAGGATCCAAGACGACGCCCTCCATCATCCTGTAGATACCGACCTCTAAACTACAAATAATCGATACCAACTGATCCAAAATAAACATCTAAATTGCTACTTACCATATTATGATAAATAATTGTATTGAGGCGACGAGTGAATCTGTGATAAGTATTAGATAACCTGAGGTTCCATCTCAAAACCAATTGGTAATGAGAAGAGTAGCTCATGTATCTTATAAATTGTGAGGTCACCTTACATTTTTTCAATGTAGTATCCTCAACATGCCCTCTCAAGATTGTGCCTGTTTGGATTCACCATTAAGTTGGAATTTTGATCGAATACCCGTTTGGGTTTTATGGGCTATGATACCATATTAGATAACAGGAAGTTCCATCTCAAAACCAATTGAGAATGGGAAGAATAACCATGTATATTATAAATCGTGAGATCATTCTACATTTTTCTAGTGAGAGATCCTCAACAATAAGTTCTCCTCTTTGAACAAACTGCATTAATGTTTTGTATATGGAGATGACACTCACGAGATTCAAGGTTCCTCTAATTCTGAAGGATGCAATGATTTTCACATTTTTTCTATATTATCAAGATGGCATTTGAGGCTATAAGTTTTGTGTGCTGCAGCGTGCTTTTCAGAATTTTGGCTACTTAACAGAGGAAGAAATAGAGGATTTGTGCAAATCCTGCGGTCTGATAAACTATTCAAGCAAAATTCAGCAATCTTTCATTATGTTCTCTGCTCAGAAGCCTTGAAAGTAAGTTCTCAGTTTCATTCTCATTTTCATTGTGATGGGTATGTTCATAATCAAACTCTATAGAATTATATTTGATAATTGAATACCATACCATGTAAATTGTTGAAACTGAAAAGTATAATTAATTGAATTGAATAGAATTATTTGTTAATATACTCCAACTGTTTCAAGATTGAGAAGAAACGTGTAAATTGTAATAATGCCGTCATTAAAACCAGCTCCTTAATCTTGCTGCTGATTCCTGAAAGGGGAAGAAGAACCAGAGGTCCGAGAAGCTTCCAATCCATTTTCATGGCGGTAGCTATTTTCTTTCCTCCTCAAACTTCATACAACAATCGCCATTATCTTTCTCGCGATTTCCGATTTCGGTCTCCTCTTCGCTTGTCCACTCGTCGTTGTGTCTCCTCTACCGTTCGGGCGAGCTCGACGCTCGTTCTTGAGTCGGATTTAGGCATTCAACAGGATCAGAATTCAAAAATTGACGTGTTTTCATGCCCTGTTTGTTTTGAGCCACTGTTGAGAAAAGGCCCGCCAGGTTTTAACTTGCCAGCTATTTATAGGTCTGGTTTCAAGTGTAGAAGATGCAATAAGTCATACACTAGCAAAAACATCTTTTTGGATCTCACAGTTACTTCTGGAATGAAGGAATATGTTGAAGTCAAACCTGGGGGAACTGAGCTGTTTCGGAGTCCACTCGTTTCATTTCTGTATGAAAGAGGATGGCGACAAAACTTTAACCGAAGTGGTTTCCCCGGCCTCGATGAAGAATTTAAAATGGCCATGGAGTATTTTAAATCTGTTGAAGGTGGTCTTTTAGTGGATGCAAGCTGTGGTAGTGGTTTGTTCTCCAGAAAATTTGCAAAATCTGGGTCTTTTTCAGGTGTTATTGCACTTGATTTTTCTGAGAATATGCTCCTCCAATGTTATGATTTCATAAAGAAAGATGCTGCGCTTTTGAACAGTAATCTTGCTCTTGTGAGGGCAGATATCTCTAGGCTTCCCTTTTCATCAGGATCAGTGGATGCTGTTCATGCTGGTGCAGCATTGCATTGCTGGCCATCTCCTTCCAATGCTATTGCTGAGATCACTCGTATAATGCGGAGTGGTGGAGTATTTGTAGGAACTACTTTTTTGCGGTACACTTCATCCACTCCCTGGTATATAAGATTTTCTAGAGAGGTATACCCTTAATCTATTCTCTCTCATTTTTGCACTTCTAGATATCACTAGTCAGAAGCAGTTATGACAAACATCTGTGTTATCTGATTGATATTTCTGTTCCAGAGTCATGAATTTGGTAATCATGCATTTATATACACGAAATCCGTCCTTGCATATTTTCCTTTCCAATTAACTATGGTTAATTTCTTGATTCTGTTACTTCAAAATGACAAAAAATGTATTTGGGCACCCTGTAAGGTGGTATAAACAAACTAGCTTCCTTCATGGTTAATTGAACTTCTTGCTGGCTTATATTTTGTCATTTTCATTGGACTGAGTATTGGTATTTATTAGAGTCCATAAATCTTCTGGAACCATACATAAACATGAACTAACATAGTTTGTTTTACTTTCTCAAGTTTATAGAAGATCTCCATTTATCAGTTCGGACAACTTTTTCTCATGTAAAGATTGATATCTGTGTGGAATGTGTTCAAAACTCAGTTTCTTTTGTGCTTGCGCCACCATTTTTTTGGGTTGCTTTTGGATGAGAGGCCAACTTTTATGGAGATAAATGAAAGGATACAGAGGAGGCCGAAAAAGCCATGCCAAAAGCGGAGATTAAATAACTCACAATAAACTTACAAAAAGAACTCATCTAGTAAAGATAACTATGAAAAAAATTTAAACTAAAGTACTAAAATGTGTCAAATCCCAAACACATCATCCCACGACCTACATAATCCAACCAACATTCCCCTATTTCTTTCTAGTCAAACAAACTACAGTATGATGAAGAAGCTAACTTGTTGGAAAGCACAACCTTCTAGGAAAAGGAGGATCCAAGACGACGCCCTCCATCATCCTGTAGATACCGACCTCTAAACTACAAATAATCGATACCAACTGATCCAAAATAAACATCTAAATTGCTACTTACCATATTATGATAAATAATTGTATTGAGGCGACGAGTGAATCTGTGATAAGTATTAGATAACCTGAGGTTCCATCTCAAAACCAATTGGTAATGAGAAGAGTAGCTCATGTATCTTATAAATTGTGAGGTCACCTTACATTTTTTCAATGTAGTATCCTCAACATGCCCTCTCAAGATTGTGCCTGTTTGGATTCACCATTAAGTTGGAATTTTGATCGAATACCCGTTTGGGTTTTATGGGCTATGATACCATATTAGATAACAGGAAGTTCCATCTCAAAACCAATTGAGAATGGGAAGAATAACCATGTATATTATAAATCGTGAGATCATTCTACATTTTTCTAGTGAGAGATCCTCAACAATAAGTTCTCCTCTTTGAACAAACTGCATTAATGTTTTGTATATGGAGATGACACTCACGAGATTCAAGGTTCCTCTAATTCTGAAGGATGCAATGATTTTCACATTTTTTCTATATTATCAAGATGGCATTTGAGGCTATAAGTTTTGTGTGCTGCAGCGTGCTTTTCAGAATTTTGGCTACTTAACAGAGGAAGAAATAGAGGATTTGTGCAAATCCTGCGGTCTGATAAACTATTCAAGCAAAATTCAGCAATCTTTCATTATGTTCTCTGCTCAGAAGCCTTGAAAGTAAGTTCTCAGTTTCATTCTCATTTTCATTGTGATGGGTATGTTCATAATCAAACTCTATAGAATTATATTTGATAATTGAATACCATACCATGTAAATTGTTGAAACTGAAAAGTATAATTAATTGAATTGAATAGAATTATTTGTTAATATACTCCAACTGTTTCAAGATTGAGAAGAAACGTGTAAATTGTAATAATGC ATGGCGGTAGCTATTTTCTTTCCTCCTCAAACTTCATACAACAATCGCCATTATCTTTCTCGCGATTTCCGATTTCGGTCTCCTCTTCGCTTGTCCACTCGTCGTTGTGTCTCCTCTACCGTTCGGGCGAGCTCGACGCTCGTTCTTGAGTCGGATTTAGGCATTCAACAGGATCAGAATTCAAAAATTGACGTGTTTTCATGCCCTGTTTGTTTTGAGCCACTGTTGAGAAAAGGCCCGCCAGGTTTTAACTTGCCAGCTATTTATAGGTCTGGTTTCAAGTGTAGAAGATGCAATAAGTCATACACTAGCAAAAACATCTTTTTGGATCTCACAGTTACTTCTGGAATGAAGGAATATGTTGAAGTCAAACCTGGGGGAACTGAGCTGTTTCGGAGTCCACTCGTTTCATTTCTGTATGAAAGAGGATGGCGACAAAACTTTAACCGAAGTGGTTTCCCCGGCCTCGATGAAGAATTTAAAATGGCCATGGAGTATTTTAAATCTGTTGAAGGTGGTCTTTTAGTGGATGCAAGCTGTGGTAGTGGTTTGTTCTCCAGAAAATTTGCAAAATCTGGGTCTTTTTCAGGTGTTATTGCACTTGATTTTTCTGAGAATATGCTCCTCCAATGTTATGATTTCATAAAGAAAGATGCTGCGCTTTTGAACAGTAATCTTGCTCTTGTGAGGGCAGATATCTCTAGGCTTCCCTTTTCATCAGGATCAGTGGATGCTGTTCATGCTGGTGCAGCATTGCATTGCTGGCCATCTCCTTCCAATGCTATTGCTGAGATCACTCGTATAATGCGGAGTGGTGGAGTATTTGTAGGAACTACTTTTTTGCGGTACACTTCATCCACTCCCTGGTATATAAGATTTTCTAGAGAGGTATACCCTTAA MAVAIFFPPQTSYNNRHYLSRDFRFRSPLRLSTRRCVSSTVRASSTLVLESDLGIQQDQNSKIDVFSCPVCFEPLLRKGPPGFNLPAIYRSGFKCRRCNKSYTSKNIFLDLTVTSGMKEYVEVKPGGTELFRSPLVSFLYERGWRQNFNRSGFPGLDEEFKMAMEYFKSVEGGLLVDASCGSGLFSRKFAKSGSFSGVIALDFSENMLLQCYDFIKKDAALLNSNLALVRADISRLPFSSGSVDAVHAGAALHCWPSPSNAIAEITRIMRSGGVFVGTTFLRYTSSTPWYIRFSREVYP Homology
BLAST of Tan0021194.2 vs. ExPASy Swiss-Prot
Match: Q0WPT7 (Uncharacterized methyltransferase At2g41040, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At2g41040 PE=1 SV=1) HSP 1 Score: 370.5 bits (950), Expect = 1.7e-101 Identity = 189/286 (66.08%), Postives = 222/286 (77.62%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy Swiss-Prot
Match: Q8LBV4 (Uncharacterized methyltransferase At1g78140, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At1g78140 PE=1 SV=1) HSP 1 Score: 257.7 bits (657), Expect = 1.6e-67 Identity = 136/261 (52.11%), Postives = 169/261 (64.75%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy Swiss-Prot
Match: Q5HP74 (Demethylmenaquinone methyltransferase OS=Staphylococcus epidermidis (strain ATCC 35984 / RP62A) OX=176279 GN=menG PE=3 SV=1) HSP 1 Score: 52.8 bits (125), Expect = 8.0e-06 Identity = 39/117 (33.33%), Postives = 57/117 (48.72%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy Swiss-Prot
Match: Q8CSH9 (Demethylmenaquinone methyltransferase OS=Staphylococcus epidermidis (strain ATCC 12228 / FDA PCI 1200) OX=176280 GN=menG PE=3 SV=1) HSP 1 Score: 52.8 bits (125), Expect = 8.0e-06 Identity = 39/117 (33.33%), Postives = 57/117 (48.72%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy Swiss-Prot
Match: O14321 (Sterol 24-C-methyltransferase erg6 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=erg6 PE=2 SV=1) HSP 1 Score: 51.6 bits (122), Expect = 1.8e-05 Identity = 42/151 (27.81%), Postives = 74/151 (49.01%), Query Frame = 0
BLAST of Tan0021194.2 vs. NCBI nr
Match: XP_038889838.1 (uncharacterized methyltransferase At2g41040, chloroplastic [Benincasa hispida]) HSP 1 Score: 572.8 bits (1475), Expect = 1.8e-159 Identity = 282/296 (95.27%), Postives = 286/296 (96.62%), Query Frame = 0
BLAST of Tan0021194.2 vs. NCBI nr
Match: KGN60753.1 (hypothetical protein Csa_019482 [Cucumis sativus]) HSP 1 Score: 561.6 bits (1446), Expect = 4.0e-156 Identity = 276/296 (93.24%), Postives = 283/296 (95.61%), Query Frame = 0
BLAST of Tan0021194.2 vs. NCBI nr
Match: XP_004139262.1 (uncharacterized methyltransferase At2g41040, chloroplastic [Cucumis sativus]) HSP 1 Score: 561.6 bits (1446), Expect = 4.0e-156 Identity = 276/296 (93.24%), Postives = 283/296 (95.61%), Query Frame = 0
BLAST of Tan0021194.2 vs. NCBI nr
Match: XP_008456627.1 (PREDICTED: uncharacterized methyltransferase At2g41040, chloroplastic isoform X1 [Cucumis melo] >KAA0063556.1 putative methyltransferase [Cucumis melo var. makuwa] >TYJ97883.1 putative methyltransferase [Cucumis melo var. makuwa]) HSP 1 Score: 561.2 bits (1445), Expect = 5.3e-156 Identity = 276/296 (93.24%), Postives = 282/296 (95.27%), Query Frame = 0
BLAST of Tan0021194.2 vs. NCBI nr
Match: XP_008456635.1 (PREDICTED: uncharacterized methyltransferase At2g41040, chloroplastic isoform X2 [Cucumis melo]) HSP 1 Score: 561.2 bits (1445), Expect = 5.3e-156 Identity = 276/296 (93.24%), Postives = 282/296 (95.27%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy TrEMBL
Match: A0A0A0LG50 (Methyltransf_11 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G009410 PE=4 SV=1) HSP 1 Score: 561.6 bits (1446), Expect = 2.0e-156 Identity = 276/296 (93.24%), Postives = 283/296 (95.61%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy TrEMBL
Match: A0A5A7VAW1 (Putative methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold285G00970 PE=4 SV=1) HSP 1 Score: 561.2 bits (1445), Expect = 2.6e-156 Identity = 276/296 (93.24%), Postives = 282/296 (95.27%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy TrEMBL
Match: A0A1S3C4D9 (uncharacterized methyltransferase At2g41040, chloroplastic isoform X2 OS=Cucumis melo OX=3656 GN=LOC103496525 PE=4 SV=1) HSP 1 Score: 561.2 bits (1445), Expect = 2.6e-156 Identity = 276/296 (93.24%), Postives = 282/296 (95.27%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy TrEMBL
Match: A0A1S3C3A2 (uncharacterized methyltransferase At2g41040, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103496525 PE=4 SV=1) HSP 1 Score: 561.2 bits (1445), Expect = 2.6e-156 Identity = 276/296 (93.24%), Postives = 282/296 (95.27%), Query Frame = 0
BLAST of Tan0021194.2 vs. ExPASy TrEMBL
Match: A0A6J1CMF3 (uncharacterized methyltransferase At2g41040, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111012967 PE=4 SV=1) HSP 1 Score: 560.8 bits (1444), Expect = 3.3e-156 Identity = 276/296 (93.24%), Postives = 285/296 (96.28%), Query Frame = 0
BLAST of Tan0021194.2 vs. TAIR 10
Match: AT2G41040.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 370.5 bits (950), Expect = 1.2e-102 Identity = 189/286 (66.08%), Postives = 222/286 (77.62%), Query Frame = 0
BLAST of Tan0021194.2 vs. TAIR 10
Match: AT1G78140.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 257.7 bits (657), Expect = 1.2e-68 Identity = 136/261 (52.11%), Postives = 169/261 (64.75%), Query Frame = 0
BLAST of Tan0021194.2 vs. TAIR 10
Match: AT5G13710.1 (sterol methyltransferase 1 ) HSP 1 Score: 43.1 bits (100), Expect = 4.5e-04 Identity = 42/149 (28.19%), Postives = 70/149 (46.98%), Query Frame = 0
BLAST of Tan0021194.2 vs. TAIR 10
Match: AT5G13710.2 (sterol methyltransferase 1 ) HSP 1 Score: 43.1 bits (100), Expect = 4.5e-04 Identity = 42/149 (28.19%), Postives = 70/149 (46.98%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of 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:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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