Tan0002068 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSexonthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGCCGTTCATTGAGGTTAATACCAGCACCACAGCTGCAGAGGACGCCAATATCAACACAGCAATCAAAATTTTCTACAGAACTTACGGACGCGGATCGACCAAGGTCCTTCTTATCATAGGTCTCTTCAAGATTGTTCCATTTTTCTTTTTTTCCCTTTCGATTTCTGGTCTTTTGGAACTTGATTCTGATGGCTGTAAAATGGATGAATCGGTGATGGGTAGGATTGGCCGGAACCCACGATTCATGGGGTCCCCAAATCACGGGGCTTACAGGGACCGATGTGCCCAATGACGACGGTGACCGGAATGCTACCAACGGCGGCGAAGAACCCAGCTTCGAGGATGGTGGTGGGATCGAGGTTTGTGCATTTGATAATCGGGGTATGGGTCGGAGCTCCGTCCCCACCAAAAAATCTGAATATACGTGAGTTCCATATTTGTTTGATTATGAATCTCTCTTATCTTTGTTGCGTGTTTGGAGAAAATTGATTAGAATTTTGGGGATTTAGGTAATTTTCTAATACCCGAAGAGAAAGTGAGAGAAAAAAAATGGATAAACCCTTCTTTGCTGGTTTTCATTTTTACTTTTGTTTCAAGTTGCAGAAGAAGCTATTGCAAAAAAAAAAAAAAAAAAAAAAACTTGTAATTTGTTGGTAATCTGTTTTCCTTTTCTTGATCGTGCAGAACAAAGATAATGGCCAAGGATGCCATTGCCTTATTGAATCATTTGGGGTGGGAAAAGGCCCATATTTTTGGTCATTCCATGGGTGAGTGAGTTTTTAACTCTGCTTAATGATTTATGATCAAGATGTAGTTATTAATGCTTTGTTCTTACCTGTCATCTGAATCTTTTCCCCTCACATCTATAGGAGGTATGATAGCTTGCAAATTAGCAGCTATGGCGCCCGAAAAAGTCAAGTCACTGGCCATGCTCAATGTAACTGGTGGAGGTTTTCAATGTTGCCCCAAGGTATCTGAATAAACATTTAGTTCTGCCACTCTGAGCTGCTTGTTTGTTATATAATCTATAGAAAAATATCAAAAAGCTACTACCATGTTCTTACGTTGGTTTAGTGTCTAGATATTTTATGAAACATTAAAAAAGCAATACATTACTACTAGTTCAGCATACATTTTATAAAGGTCATTGATTGGAACCCCCAAAATGCTGTTCAGTTTTGGTTGAGCTCTTTCTTAAGGAATAATGCTGGTGTCTTTCTTCCCACTTTTTATTGTAGCTTGACAGGCAAACATTCAACATTGCAGTTAGATTCTTAAAGGCCAAGACTCCTGAACAAAGGGCTAGTGTTGATTTGGATACACACTATTCGAAGGTAAAGTTACCATTATGTCTATCTTCTGTTATCTTCGATTCTGTGTGAATTTGAATGAGGATGAGTAGATGAATAATTGGAACATCTTGAAACATGTCGGCTGTACCCTCTTCTAAGAAATATTGTTGTATCTTATTGTGCAGGAATATCTTGAGGAGTTTGTCGGATTTGAAAAAAGAAGAGCAGTATTATATCGGGTATGTATGATGGGAGGATCATTTTTAATCTTAACTGGCTTTATGTACCTTCATAGTTGGATTCTGGTTCTCTTATCTTTATATTAAACCTCTTGTACCCCATTCCCGCTCCCCTTTTTTTTTATTATTTATTTTTTTATGGCTTCTGAAGCTTACTAATGACGTTGAAATTAGTCTGAAATATAGCTTCACTGCCATGTAGGGTTGTATTTTTTCTCTGACAACTAGTTAATTCTATTTCTTCAAAAAAAAAAAAAAACTAGTTAATTCTACCATCACAAGTTGCTTCAGATATAAACTGATCTCATACAGTTTTAGATAGTTTGGAACTGTACAACATCTCATCACGAAGATAAACGTACTTTAGTTCGATGATACAAATCTATATCTACGTACATTGAAACAAAAGTGAATCGTGATATTAACTAACAACAGCCAAGTGTTTCTGGCAATGAGCATGGTGTGTGGAATCTAACCATGAAGGAAAAGGAGTAGTCCGACATCCCTGAACCCTCTTACAAGAAACTTCTTTTGAACTTCCTTTAGATAATGACTTTAAGGAAAAGGAATAAGTTAAACAAAGAACTAATGCCAGTGGTAAGGAGGCCTGTTTGAGAAAGGTCTACCTCCTTCCTGTTAATCAAGCTCTTGGGCACCACTTTTCGGTAGTTTTGTTATTGAATCTGAACTCCTGAGCATAAACAATTCCCTCCCAGATAGTTGGTTGTTTCTGAGATTTATCAAAGTCGTGAAATCACATTTAAATGTGTATATGTTTATATAGCAGCACTCTTCCAAAATGGTTGAATTTTGTTTAAACCATGACCAAATATTGAGAGACATCTTAATGTTTGTGAAACTTATAAAAAACTGGAGGTGTATTTGATTCTATGACACTATGTTCATCAACTGATAGTTTATATCAATTATTTTCGGTCTCTATTAACTGTTTTTCTGCAGACAAAGAAATTCGGATCCTTGGTTTCAGAATTTATTTTCCCAAAATCATTTATGTTTTGGATACTCCAGATTATAATCATTACACGCGCACACATTTAAATACGTAGATTAAGATTTAGAGCCCAAGTCAACCTGTAACAATCATTTGCAGGAATATGTTAACGGTATATCAGCAACAGGAATGCAGTCTAATTATGGTTTTTTGGGCCAAGTCAATGCATGCTGGACGCATAAAGTGACAAACAAAGAGATCGAATGCCTTCAGTCTGCTGGATTTCTTGTATCGGTCATTCATGGCAGGTAAATAAACACGTCTGTTAATAGCTATGAAATTGCTGACAGACATCCAAATCTGCAAAGTTCGTGTGCACACAAACATGTTTCTAGCACCTACCATTTATTGCATAGAGATACTTCACCTCGCCGCTGATGGATGATTGATTGGTTTTCAATGACTAGACACGATGTTATTGCTCAAATATACTACGCTAGAAGGCTTGCAGAGAAACTATATCCTGTTGCTAGAATGGTAGACCTCCATGGAGGTCATTTAGTCAGTCGCGAGAGAACCGAAGAGGTATACGTTTTTATTTGAACTGATCTAAATTGTGCTTTGCACTATGTCTAGCCGACAACAGAAACTGATAGTTAACAGTTGTTTTCCGTGAAAGTTCAGGTGAATCAAGCTCTCCTTGACTTAATCAGAGCCTCAGAAACGAAGATGAATCCACATGACTGGACAAACTTGCCAAAGAAAAGCTCATGTGAGCATTTTTCTTTTAGTAGTCCTCTGTTTCTCTTTGGTCCCTTGGAAAGGCTGAAAAATCTGTTTTTTCTAACAGGGTGGATGGAGGAGAGAACGTCATTGGTAACACTGAAGACTGAAGGAGGAAGCAGCGTCTCCTCCAAACCTTTCCTGTTGGAGAGACTACATCTTTTCTTCTTGTATCTCTTTGGTCTGATTCTTTTGGTGTTCGAGTATCTCTGGAACACCCTCAAAAGCTTGAAGCCGGTCCGAGTTGGAGCCTCCCTTACATGAACAAGCATTCCAAAGACTCTAAATTTTTACAGGTGAGTTATCAGATTATCTCAATAAGAGCGCCATGTAAATAATAAAAAATTTAGAGAAAATGAAAATAAACTATATATGGTGGCTACTAACCTAAGATTTAATATCCTTTGAGTTATCACGACAACCAAATGTAGTAGTAGAGTCAGACAATTGTCTTTTGAAAATAGTCGAGGTGTACATAAACTGATTCAAACTCTCACGGAGATTAAGAAAAATGGGCTTTCAAGGGACAGTATCGGGCGGCATAGGTGTGCTGACATTGCATCCCTTCCTATGGATCGGAGGTTCCGATATAGGGCCCGCTAGCGACTGGCGATCCGAGAATGTCTCAACAAAACCAAGTCATAGGAAAGACCGAATTAAGATGGGCGACGTGTACGACCAATTGTCCTTTACTTCCATTGTACTCAAACTACAATAGGTCTCAAGGTTGTTTTTTGCTTCCAACTTTGTTGCAGGGTCTGTTCATTTTTGCTATCTGATGGGCAATGCTCCAATCATCAGAGTGAAGATGGGGAATGAGTTCTCTTGCAATATTGAGAACTTATATCAACACAAGGGAGGGAAACCAACAAAAGGCCAATTTAAAAGGCTGATATACCCCTCCCCTCTTGAATGAATTGTATTCTAACACAACTGCTACTGTTAACTCTATATATCCTTCTGTATAATCTAAAAAAATGTTCATCTTATACCATTAAATGCATATTATTCTCGATTTAAAATTTATTTTATTGTCAACATTAATATAGAACAACTAGTTAAGACATCAACAACATATTTTAAAGGTCAAAGATTTGAATCTCATCCTAGATTGAATTGTATATTAAAAAAAATGTTATAATTGTTGCTTCAAAAATTTATGTTTTTTTTTTCCCCATATTTTAAAGGTGAAAGATTTGAATCTTGATCTCAAAAGATGATCAATGGATGGATATTGGGTATACATAGATCACTCAAATATTTATTTCTAGGGTGTGTATAGCGGAAAATATAAAATGTGATGTTTTCACTAAATTAATATTAATATTTTTGATAACATAACTTTCAATTTTGAAAGTTTGTCTATTTGTAAATCTTTCGAAAAAATCATACATCTCGTCATTGAAGTTTGAGTTAGGTGACATTCTGATTTTTAAGTTTCATTCAGGACATGAAATTTTACCAATGAGAATATTTTGAAAACTCACAATCCCTGTCATTAATATTCTGTTAAATATAGAAATAAAAAGCCAACCGGAT ATGCCGTTCATTGAGGTTAATACCAGCACCACAGCTGCAGAGGACGCCAATATCAACACAGCAATCAAAATTTTCTACAGAACTTACGGACGCGGATCGACCAAGGTCCTTCTTATCATAGGATTGGCCGGAACCCACGATTCATGGGGTCCCCAAATCACGGGGCTTACAGGGACCGATGTGCCCAATGACGACGGTGACCGGAATGCTACCAACGGCGGCGAAGAACCCAGCTTCGAGGATGGTGGTGGGATCGAGGTTTGTGCATTTGATAATCGGGGTATGGGTCGGAGCTCCGTCCCCACCAAAAAATCTGAATATACAACAAAGATAATGGCCAAGGATGCCATTGCCTTATTGAATCATTTGGGGTGGGAAAAGGCCCATATTTTTGGTCATTCCATGGGAGGTATGATAGCTTGCAAATTAGCAGCTATGGCGCCCGAAAAAGTCAAGTCACTGGCCATGCTCAATGTAACTGGTGGAGGTTTTCAATGTTGCCCCAAGCTTGACAGGCAAACATTCAACATTGCAGTTAGATTCTTAAAGGCCAAGACTCCTGAACAAAGGGCTAGTGTTGATTTGGATACACACTATTCGAAGGAATATCTTGAGGAGTTTGTCGGATTTGAAAAAAGAAGAGCAGTATTATATCGGGAATATGTTAACGGTATATCAGCAACAGGAATGCAGTCTAATTATGGTTTTTTGGGCCAAGTCAATGCATGCTGGACGCATAAAGTGACAAACAAAGAGATCGAATGCCTTCAGTCTGCTGGATTTCTTGTATCGGTCATTCATGGCAGACACGATGTTATTGCTCAAATATACTACGCTAGAAGGCTTGCAGAGAAACTATATCCTGTTGCTAGAATGGTAGACCTCCATGGAGGTCATTTAGTCAGTCGCGAGAGAACCGAAGAGGTGAATCAAGCTCTCCTTGACTTAATCAGAGCCTCAGAAACGAAGATGAATCCACATGACTGGACAAACTTGCCAAAGAAAAGCTCATGGTGGATGGAGGAGAGAACGTCATTGGTAACACTGAAGACTGAAGGAGGAAGCAGCGTCTCCTCCAAACCTTTCCTGTTGGAGAGACTACATCTTTTCTTCTTGTATCTCTTTGGTCTGATTCTTTTGGTGTTCGAGTATCTCTGGAACACCCTCAAAAGCTTGAAGCCGGTCCGAGTTGGAGCCTCCCTTACATGAACAAGCATTCCAAAGACTCTAAATTTTTACAGGGTCTGTTCATTTTTGCTATCTGATGGGCAATGCTCCAATCATCAGAGTGAAGATGGGGAATGAGTTCTCTTGCAATATTGAGAACTTATATCAACACAAGGGAGGGAAACCAACAAAAGGCCAATTTAAAAGGCTGATATACCCCTCCCCTCTTGAATGAATTGTATTCTAACACAACTGCTACTGTTAACTCTATATATCCTTCTGTATAATCTAAAAAAATGTTCATCTTATACCATTAAATGCATATTATTCTCGATTTAAAATTTATTTTATTGTCAACATTAATATAGAACAACTAGTTAAGACATCAACAACATATTTTAAAGGTCAAAGATTTGAATCTCATCCTAGATTGAATTGTATATTAAAAAAAATGTTATAATTGTTGCTTCAAAAATTTATGTTTTTTTTTTCCCCATATTTTAAAGGTGAAAGATTTGAATCTTGATCTCAAAAGATGATCAATGGATGGATATTGGGTATACATAGATCACTCAAATATTTATTTCTAGGGTGTGTATAGCGGAAAATATAAAATGTGATGTTTTCACTAAATTAATATTAATATTTTTGATAACATAACTTTCAATTTTGAAAGTTTGTCTATTTGTAAATCTTTCGAAAAAATCATACATCTCGTCATTGAAGTTTGAGTTAGGTGACATTCTGATTTTTAAGTTTCATTCAGGACATGAAATTTTACCAATGAGAATATTTTGAAAACTCACAATCCCTGTCATTAATATTCTGTTAAATATAGAAATAAAAAGCCAACCGGAT ATGCCGTTCATTGAGGTTAATACCAGCACCACAGCTGCAGAGGACGCCAATATCAACACAGCAATCAAAATTTTCTACAGAACTTACGGACGCGGATCGACCAAGGTCCTTCTTATCATAGGATTGGCCGGAACCCACGATTCATGGGGTCCCCAAATCACGGGGCTTACAGGGACCGATGTGCCCAATGACGACGGTGACCGGAATGCTACCAACGGCGGCGAAGAACCCAGCTTCGAGGATGGTGGTGGGATCGAGGTTTGTGCATTTGATAATCGGGGTATGGGTCGGAGCTCCGTCCCCACCAAAAAATCTGAATATACAACAAAGATAATGGCCAAGGATGCCATTGCCTTATTGAATCATTTGGGGTGGGAAAAGGCCCATATTTTTGGTCATTCCATGGGAGGTATGATAGCTTGCAAATTAGCAGCTATGGCGCCCGAAAAAGTCAAGTCACTGGCCATGCTCAATGTAACTGGTGGAGGTTTTCAATGTTGCCCCAAGCTTGACAGGCAAACATTCAACATTGCAGTTAGATTCTTAAAGGCCAAGACTCCTGAACAAAGGGCTAGTGTTGATTTGGATACACACTATTCGAAGGAATATCTTGAGGAGTTTGTCGGATTTGAAAAAAGAAGAGCAGTATTATATCGGGAATATGTTAACGGTATATCAGCAACAGGAATGCAGTCTAATTATGGTTTTTTGGGCCAAGTCAATGCATGCTGGACGCATAAAGTGACAAACAAAGAGATCGAATGCCTTCAGTCTGCTGGATTTCTTGTATCGGTCATTCATGGCAGACACGATGTTATTGCTCAAATATACTACGCTAGAAGGCTTGCAGAGAAACTATATCCTGTTGCTAGAATGGTAGACCTCCATGGAGGTCATTTAGTCAGTCGCGAGAGAACCGAAGAGGTGAATCAAGCTCTCCTTGACTTAATCAGAGCCTCAGAAACGAAGATGAATCCACATGACTGGACAAACTTGCCAAAGAAAAGCTCATGGTGGATGGAGGAGAGAACGTCATTGGTAACACTGAAGACTGAAGGAGGAAGCAGCGTCTCCTCCAAACCTTTCCTGTTGGAGAGACTACATCTTTTCTTCTTGTATCTCTTTGGTCTGATTCTTTTGGTGTTCGAGTATCTCTGGAACACCCTCAAAAGCTTGAAGCCGGTCCGAGTTGGAGCCTCCCTTACATGA MPFIEVNTSTTAAEDANINTAIKIFYRTYGRGSTKVLLIIGLAGTHDSWGPQITGLTGTDVPNDDGDRNATNGGEEPSFEDGGGIEVCAFDNRGMGRSSVPTKKSEYTTKIMAKDAIALLNHLGWEKAHIFGHSMGGMIACKLAAMAPEKVKSLAMLNVTGGGFQCCPKLDRQTFNIAVRFLKAKTPEQRASVDLDTHYSKEYLEEFVGFEKRRAVLYREYVNGISATGMQSNYGFLGQVNACWTHKVTNKEIECLQSAGFLVSVIHGRHDVIAQIYYARRLAEKLYPVARMVDLHGGHLVSRERTEEVNQALLDLIRASETKMNPHDWTNLPKKSSWWMEERTSLVTLKTEGGSSVSSKPFLLERLHLFFLYLFGLILLVFEYLWNTLKSLKPVRVGASLT Homology
BLAST of Tan0002068 vs. ExPASy Swiss-Prot
Match: B1M5I5 (Putative aminoacrylate hydrolase RutD OS=Methylobacterium radiotolerans (strain ATCC 27329 / DSM 1819 / JCM 2831 / NBRC 15690 / NCIMB 10815 / 0-1) OX=426355 GN=rutD PE=3 SV=1) HSP 1 Score: 69.7 bits (169), Expect = 8.5e-11 Identity = 73/290 (25.17%), Postives = 117/290 (40.34%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy Swiss-Prot
Match: A8IAD8 (Putative aminoacrylate hydrolase RutD OS=Azorhizobium caulinodans (strain ATCC 43989 / DSM 5975 / JCM 20966 / NBRC 14845 / NCIMB 13405 / ORS 571) OX=438753 GN=rutD PE=3 SV=1) HSP 1 Score: 68.9 bits (167), Expect = 1.5e-10 Identity = 50/165 (30.30%), Postives = 73/165 (44.24%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy Swiss-Prot
Match: B7KWT4 (Putative aminoacrylate hydrolase RutD OS=Methylorubrum extorquens (strain CM4 / NCIMB 13688) OX=440085 GN=rutD PE=3 SV=1) HSP 1 Score: 68.9 bits (167), Expect = 1.5e-10 Identity = 68/236 (28.81%), Postives = 101/236 (42.80%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy Swiss-Prot
Match: Q6Q2C2 (Bifunctional epoxide hydrolase 2 OS=Sus scrofa OX=9823 GN=EPHX2 PE=2 SV=1) HSP 1 Score: 65.5 bits (158), Expect = 1.6e-09 Identity = 29/75 (38.67%), Postives = 44/75 (58.67%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy Swiss-Prot
Match: C5B0U6 (Putative aminoacrylate hydrolase RutD OS=Methylorubrum extorquens (strain ATCC 14718 / DSM 1338 / JCM 2805 / NCIMB 9133 / AM1) OX=272630 GN=rutD PE=3 SV=1) HSP 1 Score: 65.5 bits (158), Expect = 1.6e-09 Identity = 79/300 (26.33%), Postives = 116/300 (38.67%), Query Frame = 0
BLAST of Tan0002068 vs. NCBI nr
Match: XP_038875890.1 (putative aminoacrylate hydrolase RutD [Benincasa hispida]) HSP 1 Score: 752.7 bits (1942), Expect = 1.7e-213 Identity = 371/402 (92.29%), Postives = 387/402 (96.27%), Query Frame = 0
BLAST of Tan0002068 vs. NCBI nr
Match: XP_004145933.1 (uncharacterized protein LOC101203096 [Cucumis sativus] >KGN49859.1 hypothetical protein Csa_000422 [Cucumis sativus]) HSP 1 Score: 742.3 bits (1915), Expect = 2.2e-210 Identity = 362/402 (90.05%), Postives = 385/402 (95.77%), Query Frame = 0
BLAST of Tan0002068 vs. NCBI nr
Match: XP_008437608.1 (PREDICTED: putative aminoacrylate hydrolase RutD [Cucumis melo]) HSP 1 Score: 733.4 bits (1892), Expect = 1.0e-207 Identity = 359/402 (89.30%), Postives = 382/402 (95.02%), Query Frame = 0
BLAST of Tan0002068 vs. NCBI nr
Match: XP_022995986.1 (uncharacterized protein LOC111491334 [Cucurbita maxima]) HSP 1 Score: 729.6 bits (1882), Expect = 1.5e-206 Identity = 363/409 (88.75%), Postives = 380/409 (92.91%), Query Frame = 0
BLAST of Tan0002068 vs. NCBI nr
Match: XP_023532415.1 (uncharacterized protein LOC111794595 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 724.5 bits (1869), Expect = 4.8e-205 Identity = 362/409 (88.51%), Postives = 380/409 (92.91%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy TrEMBL
Match: A0A0A0KLW7 (AB hydrolase-1 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G139370 PE=4 SV=1) HSP 1 Score: 742.3 bits (1915), Expect = 1.1e-210 Identity = 362/402 (90.05%), Postives = 385/402 (95.77%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy TrEMBL
Match: A0A1S3AUJ9 (putative aminoacrylate hydrolase RutD OS=Cucumis melo OX=3656 GN=LOC103482970 PE=4 SV=1) HSP 1 Score: 733.4 bits (1892), Expect = 5.1e-208 Identity = 359/402 (89.30%), Postives = 382/402 (95.02%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy TrEMBL
Match: A0A6J1K3F3 (uncharacterized protein LOC111491334 OS=Cucurbita maxima OX=3661 GN=LOC111491334 PE=4 SV=1) HSP 1 Score: 729.6 bits (1882), Expect = 7.3e-207 Identity = 363/409 (88.75%), Postives = 380/409 (92.91%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy TrEMBL
Match: A0A6J1H2I9 (uncharacterized protein LOC111459843 OS=Cucurbita moschata OX=3662 GN=LOC111459843 PE=4 SV=1) HSP 1 Score: 722.6 bits (1864), Expect = 8.9e-205 Identity = 362/409 (88.51%), Postives = 380/409 (92.91%), Query Frame = 0
BLAST of Tan0002068 vs. ExPASy TrEMBL
Match: A0A6J1DV10 (uncharacterized protein LOC111024626 OS=Momordica charantia OX=3673 GN=LOC111024626 PE=4 SV=1) HSP 1 Score: 703.7 bits (1815), Expect = 4.3e-199 Identity = 350/408 (85.78%), Postives = 374/408 (91.67%), Query Frame = 0
BLAST of Tan0002068 vs. TAIR 10
Match: AT5G53050.2 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 536.6 bits (1381), Expect = 1.7e-152 Identity = 272/402 (67.66%), Postives = 315/402 (78.36%), Query Frame = 0
BLAST of Tan0002068 vs. TAIR 10
Match: AT5G53050.3 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 536.6 bits (1381), Expect = 1.7e-152 Identity = 272/402 (67.66%), Postives = 315/402 (78.36%), Query Frame = 0
BLAST of Tan0002068 vs. TAIR 10
Match: AT5G53050.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 461.1 bits (1185), Expect = 9.3e-130 Identity = 231/309 (74.76%), Postives = 255/309 (82.52%), Query Frame = 0
BLAST of Tan0002068 vs. TAIR 10
Match: AT4G02340.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 48.9 bits (115), Expect = 1.1e-05 Identity = 24/76 (31.58%), Postives = 38/76 (50.00%), 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
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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