Tan0001899 (gene) Snake gourd v1
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.GCCATCGCCATACTCTCTCTGTGAGCGTTAACTGATCAAAATTCTCTCCCTCTCTCTCTCCAACTTCCGCCGGAAAATTCAGTAACTCCGCCATAGCCGTCGTTGGTTTGTTGGCGATGGGGCTGCTGGACCAGCTGTGGGACGACACGCTTGCCGGACCGACGCCGGACTCCGGCCTCGGCAAGCTCCGGAAACCCCTAAAATTCACTCCCCGATCCGCCTCCGCGAAGGGTACGCCGCCACGGACCATAATTTCTGACCATAAATTTCATTACAAATTTCCTCTTCACTAATAAACTTTTAAATTAGTCCCTTTAGTTTTATAAATTTCAACTAAATTCTTATGATTTGGAAGATTGAACAATAACACCATGACTACAAAGGTATCTTTTTCATCCCACCGTTAACATTTATACATTCAGATTTCAGAAGACAGTTAGAAAATGGAAATTTAAACTTAGCTTCGGTGACAATACCACTTACCTCCCTTTAATAGCTATTTAGTATTTTATTTTTAAAAATTAAATCTATAAATATTTTCATGTTTTTTTAGGTAAATTATCAAAAAAAAAAAATTATACATTAAACTTTAAAAAAATTTCATTTCAAGAACTGAAATTTATTTCAAAATTAATTTCAAAATAATTGTTGAAAGTGTTTTTTTTAAGATTTATGGATAAAAAATGGGTAGGAATTTTGATTTCTTTTCGGCATATATATGTTCACCTAAACAACAATACAAACAACAATACAAATGTAAGAATTATTATTAAGGTTGAAGTGTATGATTGAAACAAACCCTATGATTCAAGGGGATTTTTTATAATTTAATCGTATTTTCTATCTATTTTTCTATCTATTTTAAATAATTAGGTTCAATATTGGAAAAAAATAATTTTATTTTAGGCTAGAGAAGGTAAAAACTAGGGTACAGAATATAAAAAAATATTTGGAAGAAATAGTGACAAAATAAATATAATTTTTTTTTAAAAAAAGGTAGGGTTCCATTTGATGGATAACTATTTAGCTTTTTTTATTTTGATTTTTGAAAACTAAACATATCTTCCATCAATGTTTACATACCATGCTCTCCCTTTTGTGAATTTTTAGCAAAATTTTAAAATAAAAAAAATTGAAAATTACAATTTTCTTTAAGTCATGACTTCATTTGTGAAAATGTAATAAAATAAAAAATTCGTAGGTGTTGGTTTTTATTCAAAAACCGTTTTTTTTAGTTTTTAAAATTTTGGCAAAAAGTAGAAGATAAAAAAAGAGAAATTCTCTTTATAGGTTTAATTTTAAAAAATAAAAAATAAAAGTAAATAGTTAGTAAAAGGGGTTTCATTCTCCTTCTCTACTACCATTCAAACTTCCTCCCTTCTAACATTCAAAATTTGAATGGTGGTGTATCAGCAAAAACATAGCGAAATGTTGTAGATTTGACTTCAACTCTTTATCTATTTATGTGGGTAATTTAATTTGACTCTATTAAAATTTAGATCCAGTAAAATTTAAAAGAAAAATGAGGAGGTTTTCTGGTAAGAAAAAGGAATTTAAAGACAAGATTTGAGATTTAATCAACGGATAAGAATTTCAAGGATTAAGGGCTAAATTGAAACTTTTAAGAACAAAGTTTCAAATCATCACAAGGACTCGATGTATTATTTAACTTTATTTGAAGGTTTTGAATTCTTCTAATGACTGAATGAAAATGAAAATGAGTGTTGGAAACAAACTAGATCTCGATCTGAACAGATTTTATGGATGTTTGTTATCGTTTAATTTTTGTTTGTTAATGCGTAGAATCCAATGAGAACGAAGGAACAACGTCCTCATCGGAGGAGACGATAAGAGTTTCCAGAAGAATTATGATCGTAAAGCCACCGGGATATCAGTACGGTTCGCCGCCTATTTCCCCCGCCGCCTCCTCCTCTACGCCGCCGTCGTCTCCTTTTTCCGGTAATTTCCATAGACTTCTTTCTCTTCCTCCTCCGCTTACTCTTAATTCCAATTACAATTATGCCCTCGCCCTTATTATCATTATTTTTTTATTTAAATAACTTTGTATCTAAACCAAGATGGAAAACACCTAAGCATGTGCTTACAGTCATGGTATTAAATTTCCGTCGAGATGTCGATATTTCCATCGATATTTCCACATGTCCATGGGTTCGACATCGACACTAGGGGTGAATCGATATTTTCCATTATATCGTACAAAATTAATGAAATATTAAAGAAAATTACACCAAAATATAACATAATGTGAATATAATATTATGACAACCATTTTAACTTATTTGAAAATGGTTGAAAGTTTATTTTCTAATTTAAATATATTTTTAGAATTTTTGTTTTTTTTTTAAATTTTCCAAAAATATTCATAGATATCGACATTTTATCGATATTTTCATCGACATTTTCATGAAATTGAGACCTCGATATTTCCATCGACATCGACATTTTAAACCTTGGTTACAGTTACACCTTATTCACTCCACTTTTTTTTTAATATATTTTTAAAATAGAAAAAAAAATTTATGTGACTACCAAGAGGTTGTACCATAAATAGGTGTTACAAATATTTTTCAACTTAGATCATCTATAATTTATTCAGTATATTTAGGTGTAGCCTCGAATGTAATATTTTGCCGCTCAATGGTCAGCCACGCAATTTTTATAGATTTTTCTCTTATTTTCTTTTAAAAAAGAACTTCGTGTTAAGAAATGGGCTACACCATCCCGAGCAACACTCAAGTATAACCCTTAAATAAAACAACACAATACGTTCTAATTTGATATACTAGCTCTTATAACTTATTATTAAACCCACACTATATTTCAAATTGCTTTTATACCTACTCTGGAAGGATACTTTTATTATGATTAAAAGAAATTATTCAATGAAATTGTCATGATGTGGGCGATATTTTTTAGTTTTTCCTGAAAAATAGAGAAATATTTTGAATTTATATCTTGTGTTATTTAGACGTGGAATGTAAAAATGATTGAATTCACATTAATATAAAGTAGTTATATTGTGTCGGTCTCTCATTGGATAATTTTTACACGAATTAGCTAAAGTTGATACTATTTATTATTTTTAAGGAAAAAAAGTAGACTTATTTATTTTCACTCTTCGTTTTCCTTTATGTTTTCCAGAAGTAATAGTTGAAATATTATCATCTCTCCTGTCGTACATTTTTTTTTGGGCACAGGGTTAATCTATGCTCACTTCTTTCCTGCACTTGAAATGTTAGTATAGTTACTAGTAAGTAGGAAAAAAAATGAGTTTCATTTTTCAAATATGCTTGTTTCGTCCTTTTTTATGAGGGATTATTTTGATGTTTGTTTGCCAAATTCTAACCCTCCCTTTAATATTAAATTATATATATACTCTTATGAGTTTATTGAGGGTATCAGTCTAGTTGTGGGTAAAAAATATCTCCGACTTTGAGATATTTTGAACAAAATTTTAAATTTTTATTGATATTTTTATAGGACATTTTTAGGAGTTTGATACATTGATATTGATATAAGTCGAGTTTGAGATATTTTGGAGAAGATTTTAAATTTTTATTGATATTTTTATAGGGCATTTTTAGGAGTTTGATACATTGATAATAAGTAAATCGATATTGATAAGCATTTTTGTCATTTGCTTTCAAATTAAAATATTCTTTATAAATAAAATAAAAGCTTCAACCAATCACTGGTTGTTTTTAGAAAAGCACTTATTTCTTGTCCCTCAAACTATAAATGCTTTGAAAGGCAAGGTGATCAAAACACACTCACGTGTATATTTTGGGAGTAAATATTAATTTACACTCGGTCAAATTTATAGGTTGTGTCAACCAAAATCTTAAACGAAGTAATTGTATAAATTTAGTTTTAAATTTTTATAGGTGAATAAATTTAAATCTTTAAAATGGACTGATAATTATGTCTAAATTTTTTTTCAGAAGTATGGATGTAGGGATGATCTTTAAATTGAGGGTTTAAATTAATTTATGCATAAAAATTTAAGAATTTAATTGGTACAAACGAATTTAAACATGAATAAAATGGATATATTTATGGTGATATAACAATTAGTTTGGGGTGGGGTTTAAATTGATATAACTTTTTTCTAGAGTGATCTTGATATTTTGAGAGTTAGTTTCATTTTATCTTAGTTCATACTCAATTAATCTTAAAATAGTTGTTCATACTTGATTAATCTTAAAATAGTTTTTTTATTATTAGATTGACATTAATTTTTAATAATACTAATTTCTAGTGATAATATACAATCTAAATATATTTTGGAAAATTATTATAAAACTATTTATTTTATTTTTTTTTGGAAAGTTTTATGTTAGACTATCTTGATATAATTAAATTTACCCTTAATTATTAGTTTAAGTTTTTAGTTTAATACAATTAAAAAAAAAATTAGTTTAATTGATGATTTAAGATAGTATCAAAATAAGTGGTTCAGGAGGTTTTGTGTTCAAATCCTTACAAAATCAGTTGGCTTTTTATCAAATTTCTAAGCTCACAAATGAGGAGAATGTCAGTTCTTGATATAATTAAATTTACCCTTAATCATTCGCTTAAATTTAAACTAACGGGACTAAAATTGAGTATTTGTTTTTAAATTTACCCTTAATCATCCGCTTAAATTTAAACTAACGGGACTAAAATTGAGTATTTGTTTTTAAATTTATCCTTAATCATCCGCTTAAATTTAAACTAACGGGACTAAAATTGAGTATTTGTTTTAATGAAATTAGACGTTGATGCATAGTATTTTAATCTTATTATTATAATATTTTGGGGTTTGGTTTGCCACAAATATTATTATTATTATTTTTATTATACATTTTTGGTTCGGTTTCCCATAAAGTGGCCAAGGGAGGTGGAGTGGAGTTATCCAGAAAGGGTGGGAGTCTGTTTGTTTTGTCGTTTTATGGAGTTGTTACTTTAGGAGTGGACCAAGTCATTATATTGGGTAATAATTAATTTGAGTATTGATTTTAGTGGGAGTGTGAAATGACCATCATACGCCCCATTGGACTTATGATAATGGCATGGTCTGGCTTGGCTTTTCCTTTGAAAGCTCACACAAATATTTCTTCCAATTTCACTTCTATTCTACAACTTATTTGACAAATTGAAAACTTGCCTAAGCATGGATAAGAAACTAGGGGCCTGTTTGGTATGCAATCCAGATTCTGTTTTATGTTTTCAGATTCACTGAATCCAGTGAATATGTGTTTGGCAGATGTGTTTTTGAAAACTGTTTTTTTCTGATTCAAATAGTAGAAATTCTGAAAACAACATTTTTATGTTTTCATTGTATCCAGATTCTGAATTTAAAATTTTAAAATGCAGAATTATATTAAACAAAGATAAAAATCTTAATAAATACAATATTTCATGTTATAAACTCAACTTACTTTTGTTAAATTAAAATATGTAAAATATAATATATGATAAATTATATAATATTATATTATAAAATGATAACTCTATAAAATTTATAAAATTATGTTCATAAATTAATTAATAATGACTTTTATTCAATCTAATAATAGTTTTGCAACTACACCTAATTTCACGATCTATAAAAATGTTATAAGACACACTTTAAACAACTGTTTAGAATGAAATCAAATTTCCAAATCTGCTACCAAACACATATCTGAAAACATGAAATACAACTCTGTTTTCATTGAATCCCTTGTTTTCAAATTTCTATTTCCAGATTGCTTACCAAACAGGCCCTAGGTTTTTATTTTATATCAATCTACTTTTATTGTATAAGCAAATGCTATTAATATATTTTAAGTAAGTAGAAAGTTTAATGAAAACAATTTAAAAAAATATTTAGGGTCGTTCTGTTTTGGATTTGGATGGTTTTGGATAACCATCCAAATCCAAAACCATGTTTGCCCTAATGTGTTCAAAACCCTTGGTTTTGAAACACAACTCCATGGGTTACAATAGTGCAACCCCATGGGTGTGTTCCATGTTTTCTTATTTTATTTGTCATCTTCCATTTTCGGTGATTATTTCAACAACAATTTTGGTGACAACTCCAACAACTACACTGGTGACCTGACTACAACTAATGGCTACCTCCAACAACAACTTCGGCGACTCGACCACTGCTGACAATTATCTCCGACGACCACACCGGTGACCCCGCTACCTCGGCAGAATCTCGACGATCACACCCCAAGCCCCCTACCATCATGGCGATTACCTCCGGCGACAACCCCGACAACCATACCGATGACCCCAACCACCGCTGACGACTACCTTTGACAAAAATTCTGACGATCACACCGACGACCCCGACCACCGCTGACGACTACCTCCGACGGAAATTTCAACGACCACACCGATGATCCCAACCACTGCTGACAACTACCCCGACGACAATTCTAATGACCACACCTGCGACCTCAACCATCGTTGACGACTACCTCTGATAACAACTTCGATGACCACACCGACAACCTTTGCCACCATTGACGACTACCTCCGACGACCATACCGATGACCCCGACCACCGCTGATGACTACCTCCATGAAAACTCCGACGACCACATCGGCGACCCCTGCCAACGCTGACTACTACCTCCGATGACCTCAACCACTACTGACGACTACGTCCGATGACAACTCTGACGACCCAAACCACCACTAACGAGAACTCCGACGACTACACCGGTGACCCCAACCACCACTAACGATTACCTTGGACGACAACTCTAATGACTACAACGACGACCTAACCACTACTAACGACTACTTTCGACAACCACTCAAGAGACTTGTATACGCCTACCACAACAACCCGATCACTTGAGCAATCAATTACCCTAACGACTTAACTTGTGCGCAATCACCACTTTTCTTAATAGAGTTCCAAAAATAGGTTTTTGGATACTTTGTGGAATAAAATTTTAAATTTTCTAATCACTTAAATATACTTCCAATTTTTTAATTTTTAAAATAAAATTCCAAAAATAAGTTTTTGAATACTTTATAAAATATAGTTTCAAATTACATAATTTATTAAATAGACTTCCATTTTTTTTAATAAAGTAGAATTCCAAAAAAATAGTTTTCAGAATACTATGTGACGTGAAATAGAGTTTTTAATTCCCTAATTTCTTAAATAAATTTCTATTTTTTTAATTTCTAAGATAGAGTTCCAAAATACATTTCTAAATATTTTTTGAAATAGAGATTTAAATCCCTAATTTCTTAAATGGATTTTCAATTTTTTTTAATTTCTAAAATAGAGTTCCAAAAATACTTTTCTAAATAATTTGGGAAATAGAGTTTTAAATTCCCTAATTTCTTACATAGACTTCCAATTTCTTAATTTCTAAAATAGAGTTTCAATTTTGTAATCCATTTATGTTATACAAGGGTTTCTACAATTGACAAAACATCCACTAAAAAATAAGAGAACAAAACAACTAAAGAAAAAAGGAAAAAAAAACAAACAGTATAAATCCAAGATTCAGAACACTGCACCCCAAACACTGTTTTTTATTTCCAGGCTTCAGAATACCCAGAGCAAACCTCCTAGGGTTTTGATTCTAAGACAGGGGGCAAACAACCCTTTAAATGGTTGTACTTTGATAGATTTTTTTTTTTTTTGGCTAAAACCATTGACTCAAAACTAAACAACGTTTTAACCTATTAATCACTTTTTGTTAGCATAATTGGTCGGAGACATCTATTTTAAAAGTACTTTTAAGTGAAAGGTAGGAATATAATTCATAATAATTAAGTGAATCTTATTAATGTCTTTATTTTTTAGTTCAACAATATGAGAGTAGAAATATGAACTTATGATCTAATGATATATATCTTAATTGTTTGACTTTTTTTATAATAGATATCAGTCAAGTGAAAAGGTTCTTAAGAACTCCGATGTGGGGACAAATCTTTTCTTATTCAATCTTTTGGCGAACCCCACAAGGGTGGATGTTGATTTTTTTGGGCGTAGATTCATGTGTGGGTTATTATTCGATAACGACAATAAATGCTATATCATTTCTTTGTAGCAAGAATGCAACAAATGATCAATACTAACGAGATTGTGTATCGTATTTGTCATGGAGGTAGAGAACCATTTCGATTCCGAAGAAGATCGACTTCAGATGCGTACGAGAAGACGACAAGCGACGTTGGACCTCGGGCTCCTACTTCTCCTTATGACATGTGAGATATGATATGAACTTAATCTTCTTCAGCTCCAAAACTTTTGGATGAGGATGATTTTGATATAATGCGAGTCTTTAATCTCTTTTAGAGCTATTTGATATGGTCTTTTTAGCTTTTTGTTGAGAAATGTCAAAAACTTTTTGTCAGTTTTGAGTTTGTGTTTTAATTATGGATGTGTTAAGAAGTGTTTGTGGCCCTGTTGTTGTGTATATATGAATGATGGTTGTGGTTATCACTTGTAGTAAAGGGCTTTTTAATTAACAATGATGGTGTTTTTTTAGTGGTGTA GCCATCGCCATACTCTCTCTGTGAGCGTTAACTGATCAAAATTCTCTCCCTCTCTCTCTCCAACTTCCGCCGGAAAATTCAGTAACTCCGCCATAGCCGTCGTTGGTTTGTTGGCGATGGGGCTGCTGGACCAGCTGTGGGACGACACGCTTGCCGGACCGACGCCGGACTCCGGCCTCGGCAAGCTCCGGAAACCCCTAAAATTCACTCCCCGATCCGCCTCCGCGAAGGAATCCAATGAGAACGAAGGAACAACGTCCTCATCGGAGGAGACGATAAGAGTTTCCAGAAGAATTATGATCGTAAAGCCACCGGGATATCAGTACGGTTCGCCGCCTATTTCCCCCGCCGCCTCCTCCTCTACGCCGCCGTCGTCTCCTTTTTCCGGTAGAGAACCATTTCGATTCCGAAGAAGATCGACTTCAGATGCGTACGAGAAGACGACAAGCGACGTTGGACCTCGGGCTCCTACTTCTCCTTATGACATGTGAGATATGATATGAACTTAATCTTCTTCAGCTCCAAAACTTTTGGATGAGGATGATTTTGATATAATGCGAGTCTTTAATCTCTTTTAGAGCTATTTGATATGGTCTTTTTAGCTTTTTGTTGAGAAATGTCAAAAACTTTTTGTCAGTTTTGAGTTTGTGTTTTAATTATGGATGTGTTAAGAAGTGTTTGTGGCCCTGTTGTTGTGTATATATGAATGATGGTTGTGGTTATCACTTGTAGTAAAGGGCTTTTTAATTAACAATGATGGTGTTTTTTTAGTGGTGTA ATGGGGCTGCTGGACCAGCTGTGGGACGACACGCTTGCCGGACCGACGCCGGACTCCGGCCTCGGCAAGCTCCGGAAACCCCTAAAATTCACTCCCCGATCCGCCTCCGCGAAGGAATCCAATGAGAACGAAGGAACAACGTCCTCATCGGAGGAGACGATAAGAGTTTCCAGAAGAATTATGATCGTAAAGCCACCGGGATATCAGTACGGTTCGCCGCCTATTTCCCCCGCCGCCTCCTCCTCTACGCCGCCGTCGTCTCCTTTTTCCGGTAGAGAACCATTTCGATTCCGAAGAAGATCGACTTCAGATGCGTACGAGAAGACGACAAGCGACGTTGGACCTCGGGCTCCTACTTCTCCTTATGACATGTGA MGLLDQLWDDTLAGPTPDSGLGKLRKPLKFTPRSASAKESNENEGTTSSSEETIRVSRRIMIVKPPGYQYGSPPISPAASSSTPPSSPFSGREPFRFRRRSTSDAYEKTTSDVGPRAPTSPYDM Homology
BLAST of Tan0001899 vs. ExPASy Swiss-Prot
Match: Q8LD26 (Dormancy-associated protein homolog 3 OS=Arabidopsis thaliana OX=3702 GN=At1g56220 PE=1 SV=1) HSP 1 Score: 125.6 bits (314), Expect = 4.0e-28 Identity = 74/137 (54.01%), Postives = 92/137 (67.15%), Query Frame = 0
BLAST of Tan0001899 vs. ExPASy Swiss-Prot
Match: F4HV65 (Dormancy-associated protein homolog 4 OS=Arabidopsis thaliana OX=3702 GN=At1g54070 PE=3 SV=1) HSP 1 Score: 50.1 bits (118), Expect = 2.2e-05 Identity = 39/105 (37.14%), Postives = 51/105 (48.57%), Query Frame = 0
BLAST of Tan0001899 vs. NCBI nr
Match: XP_038878372.1 (dormancy-associated protein homolog 3-like isoform X2 [Benincasa hispida]) HSP 1 Score: 192.2 bits (487), Expect = 2.7e-45 Identity = 104/127 (81.89%), Postives = 110/127 (86.61%), Query Frame = 0
BLAST of Tan0001899 vs. NCBI nr
Match: XP_023530291.1 (dormancy-associated protein homolog 3-like isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 189.5 bits (480), Expect = 1.7e-44 Identity = 103/128 (80.47%), Postives = 108/128 (84.38%), Query Frame = 0
BLAST of Tan0001899 vs. NCBI nr
Match: XP_022925438.1 (dormancy-associated protein homolog 3-like isoform X1 [Cucurbita moschata] >KAG6588486.1 Dormancy-associated protein-like 3, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 189.5 bits (480), Expect = 1.7e-44 Identity = 103/128 (80.47%), Postives = 108/128 (84.38%), Query Frame = 0
BLAST of Tan0001899 vs. NCBI nr
Match: XP_022970123.1 (dormancy-associated protein homolog 3-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 183.7 bits (465), Expect = 9.5e-43 Identity = 100/128 (78.12%), Postives = 106/128 (82.81%), Query Frame = 0
BLAST of Tan0001899 vs. NCBI nr
Match: XP_022145894.1 (dormancy-associated protein homolog 3-like isoform X2 [Momordica charantia]) HSP 1 Score: 183.7 bits (465), Expect = 9.5e-43 Identity = 100/128 (78.12%), Postives = 106/128 (82.81%), Query Frame = 0
BLAST of Tan0001899 vs. ExPASy TrEMBL
Match: A0A6J1EF66 (dormancy-associated protein homolog 3-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111432734 PE=3 SV=1) HSP 1 Score: 189.5 bits (480), Expect = 8.4e-45 Identity = 103/128 (80.47%), Postives = 108/128 (84.38%), Query Frame = 0
BLAST of Tan0001899 vs. ExPASy TrEMBL
Match: A0A6J1I2Y2 (dormancy-associated protein homolog 3-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111469111 PE=3 SV=1) HSP 1 Score: 183.7 bits (465), Expect = 4.6e-43 Identity = 100/128 (78.12%), Postives = 106/128 (82.81%), Query Frame = 0
BLAST of Tan0001899 vs. ExPASy TrEMBL
Match: A0A6J1CWL2 (dormancy-associated protein homolog 3-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111015241 PE=3 SV=1) HSP 1 Score: 183.7 bits (465), Expect = 4.6e-43 Identity = 100/128 (78.12%), Postives = 106/128 (82.81%), Query Frame = 0
BLAST of Tan0001899 vs. ExPASy TrEMBL
Match: A0A0A0LWE4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G569400 PE=3 SV=1) HSP 1 Score: 179.9 bits (455), Expect = 6.6e-42 Identity = 100/132 (75.76%), Postives = 111/132 (84.09%), Query Frame = 0
BLAST of Tan0001899 vs. ExPASy TrEMBL
Match: A0A1S3BPL3 (dormancy-associated protein homolog 3-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103492161 PE=3 SV=1) HSP 1 Score: 174.1 bits (440), Expect = 3.6e-40 Identity = 98/138 (71.01%), Postives = 109/138 (78.99%), Query Frame = 0
BLAST of Tan0001899 vs. TAIR 10
Match: AT1G56220.1 (Dormancy/auxin associated family protein ) HSP 1 Score: 125.6 bits (314), Expect = 2.9e-29 Identity = 74/137 (54.01%), Postives = 92/137 (67.15%), Query Frame = 0
BLAST of Tan0001899 vs. TAIR 10
Match: AT1G56220.3 (Dormancy/auxin associated family protein ) HSP 1 Score: 124.4 bits (311), Expect = 6.4e-29 Identity = 74/140 (52.86%), Postives = 92/140 (65.71%), Query Frame = 0
BLAST of Tan0001899 vs. TAIR 10
Match: AT1G56220.2 (Dormancy/auxin associated family protein ) HSP 1 Score: 94.0 bits (232), Expect = 9.2e-20 Identity = 53/95 (55.79%), Postives = 65/95 (68.42%), Query Frame = 0
BLAST of Tan0001899 vs. TAIR 10
Match: AT1G56220.4 (Dormancy/auxin associated family protein ) HSP 1 Score: 94.0 bits (232), Expect = 9.2e-20 Identity = 53/95 (55.79%), Postives = 65/95 (68.42%), Query Frame = 0
BLAST of Tan0001899 vs. TAIR 10
Match: AT1G54070.1 (Dormancy/auxin associated family protein ) HSP 1 Score: 50.1 bits (118), Expect = 1.5e-06 Identity = 39/105 (37.14%), Postives = 51/105 (48.57%), 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:
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