Tan0004771 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGCGACGTTCACATCTTTCGTCGCATAGCCTCAAATCTATCGACAAGGTCCGCACAGATTTTCAGGCATTGCGGCGCGTGAGTGACTACTGTCGCACAGATATGCGACGCAACCCTAATTGCGTCGCACGGTGCCATGCGACGTTCGTATGTTTCTTCGCTTAGCCTCGAGTATATCGACAAGGTCCGCACGCCTCGGGCAGAGATATTCAGGGCTATGCAACGCAAACCTTATTTCGTCGCAGATATATGCGACGCAAGCCTCAGGTCGTCGCAACGGTCTGTGCGACGATCGTATCTTTCGTCGTAGAGCCTCGAGTATCTGCACACTTAGGGCACCTCAGGGGACAGGTTTGTTCGGTGAATGCGACGAACTTCGGTGCTTCGTCGCAAGCCATGCGACGAACACTTACGTTCGTCGCAAGCCCTAATAAGAAAACTCATTCGTTTCCTTCGACCATTTTCATTTCAAGTTTTTTTACGCAGAGAAGAGAGTGCCGACGAGGACGCCGTCGACCGCTTCGACGAGGACGCTGTCGACCGGAGAGCACCGACGCCGACGAGGACGCTGCCGACCGGAGAGCGCCGACGAGGACGACCACGCTGCCGACCAGAGAGCACCGGTAAGGGTCGAAAAGCTCGTTTTTTAGTTTCTTTTTTTGGCTCAGCGTTTTCATTCTTCTTTTCTCATTTCCTTTGGTTCCAGATAGAGGGGTAAGTTCAAAGGGAGAGTTCGGTATCAAAGGGTTCAAAGTCGCGAAAAGTCTCTAAACGTCAGTCGAGAACATCGCTTAGGAAAATTTTCATAAGGTTTTTTTGACTCCTGACCCTTTTTCATATTCATTTTTCTGAAATCTCATGTGTTTTTTACTCGTTTAAAATTAAGCTTTATTTGTTAAGAAAATAGATAAAATTATGTGTTGCGAATATGGAATTATGGTGAGAATTTACTGTGATTTCAAGAGATATGAAATTATGGTGAGAAAATAGATAGAATTTTGTTAAGAAAATAGATAGAATTATGTGTTGTGAATATGGAATTTACTTGAGAATTTACTTCATCAAAAGTAAGCTTTATTTGTTGATATTGATAATTTTGAATATGTTATTAATGTTGTGGGTCCTTTAATATCTTAATGGCCAAAATGGAATTGGTGTCCTTGTTATTGGAAAGTCCTTGCTTCTCAAATTCCCCTTTTCATTGATTTCAAGAGATGAGATTTGTGTTTTATTCTTTATTGATGATAAATTGAGTAATTTAGAAAGTTTTATTTAGTTTCAATTATTCTAAGAGAATGTGCTCGGATTAGTAGATTATGGTTTCTCTTGAAGTAATTGTAATTTACGTTAGTTTGGAGTTTAGAGTGTTTCCCATAATTATTCAAATTAATGATTATTGGCATCCTATGTTTTCTAGGATAAGATATGGATAAAAGCTGGATAAAACTTCGAAATAGATTGTGCAAAGAATATATTGATGGAATAAGATCATTTATTGTTGTGGCAAAAGATCATGTTGATAAGAGAGGGTTTACTCGTTGTCCATGTAAAAAGTGTCAGAATATCCTAATGAAACTGCCATGTGATGTCGAAGGGGATTTATACAAATATGGAATGTCTTTCACCTATGATAGATGGGTATATCATGGAGAAATCCCACATTTATCTTCTTACTTGAAACCTAAGGAACATGTGAATACTTCTCAAAATGTAGATAATGGAAATGAAATGCTTGGATTACTGAATGATCTGACAGGGGTCAATGGACATTTTGATGAAGAGAACTCAATTAGGTTTGAAACAAGTGACGATGTGGGGAGTATGAATAATAAATTTCAATCAATGTTTGATGAAGTTAATACGAATTATATCCTGGATGTACTAAGATTTCAAGTTTATCCTTTTGGTTAAGTTAATGCATATCAAAGTACTTAATCATTGGAGTAATAAGTCATTCGATATGTTATTACAATTACTTAAAGAAGTTTTACCCGATGGTACCAAAATTTCGAATTCATATTATGGTGCAAAAAAGACTCTCCGTGACTTGGGTTTAGGTTATGAATGCATACATGCATGTAAGAATGATTGTATGTTATTTTGGAAAGAAAATGAACACGTAGAAGTTTGTCCACACTGCAATGAATCTCGTTATAAAATCGATAACAAGAAAGGAAAAAAGGTTCCACACAAAACTCTGAGACATTTTCCTTTGAAACCAAGATTACAAAGATTATTTTATTCCAAGCATACTGCTAGTGACATGAGATGGCCCAAGGAAAAAAGAATGAACATTGATTGAGTTTTAAGTCATCCGGCAGATGCTGAAGCATGGAAGGATTTTGATAGACAATATGATTGGTTTGCAAGAGATCCAAGGAATGTAAGGTTAGCTCTCTACATTCTTTTGATTTCATCCATTTGGGAACATGAGTACATCATACAAAGACATGGCGGTAATATTAATTCCATATAACTTGCCACCATGGAAATGCATGAAAGAAACATTTTTTTTCATGTCCTTACTTATACCGGGGCCAAAATCGCCAGGAAAAGAGATAGATATTTACTTACAACCACTAATAGAAGAATTGAAAGATTTATGGAGCAATGGCATTGAGACTTACGATGCCCATAGTGGTGAAGACTTTTGTCTTCGTGCAGCCCTGATGTGGACAATTAATGACTTTCCAGCCTATGGTAATTTGTCAAGATGGAGCACTAAAGGATATAAGGCATGCCCGGTTTGTAATCAAGACGTCTCATCTGATTCATTGCATAATAAAATATGTTATATGGGGCATCGTTGATACTTACCTATGAACCATTCTTGGCGAAAAAATAAGCAATTTAATGGAAAAACGGAAAATAAAGTTGCACCACGATCTTTTTCGGGAGTAGATATTCTACACCAGTTAGAAGCTATCGATTTTCCACCACTTGGAAAAACTATAAATATATTGCAATGGAAAAGGAAGCGACTCCATAATGAATTAAATTGGGTGAAAAGAAGTATTTTTTTTGAGTTACCATAATGGTCAAGTCTTAAGATCCGACACAAGCTCGATGTCATGCATATTGAGAAAAATATTTGTGATAATGTCTTGGGTACATTATTAAATATTGAGGGGAAAACAAAAGACACTGACAAAGCACATAAAATGACTTTGAATATTCGTAAAGAACTACATCTTCAACGTGTTGGAAATAAGTTGGTGAAGCCACATGCAAGTTACACATTAACAGTTGATGAAAGGAAAAAGTTTTGTAGTTTTCTAAAAACAGTCAAGTTTCCAGATAGTTTTGCTTCAAACATCTCAAGATGCGTTAGTGTTAAAGATGACAAGATATTTGGATTAAAAAGTCACGATTCACATGTGTTACTACAAAGACTATTACCGTGTAGGAGTTCGCCCCTTTTTACGAAGGATGTAAGTGGTGCAATTCTTTGAATTGTCGAATTTCTTCAAAGAATTGACTGCTAAGACATTGAAAGTCGAGACATTGAATGAACTACAAGAATCGATCGTGATAATCCTTTGTAAATTTGAAAGGATATTTCCTCCAGCATTCTTCGATGTTATGGTGCATCTAGCGGTTCATTTACCAGAAGAAGCCAAACTCGTTGGCCCTGTTGGTTATCGTTGGATGTATCCAATTGAGAGGTATATGTCTATATTTTTATTTGTATGCACAAGAATTCAATCCATATTGTTTTCACAAAACGTTTGCTTATATACATAATAATCTGAACAATAGGAGTTTGAGAACACTGAAGCAATATGTCAAAAATAAAGCCTGTCCTGAAGGTTCGATAGCGGAGGCATTCATAGCAAATGAAGCGTTGACATTTTGTTCAATGTATTTGCATGGAATTGAAACAAAGTTCAATAGAACAGTTCGAAATGATGATGCAACAGACTTGCATACCTCAAACAATGGTGAACATCTACCTATATTCTCACAAAGAGTACGTCTGACTGGTGGCTTACGATTGAAAGAGTTATCACGTGATGAATTACAGAAAGCTCATTGGTATGTCCTAACCAATTGTGAAGCTGTAGATCCATACAGACGGTATGAAACTTACTTCAAAAGCTTTTATTACAAATGTTTGTTTAACTTGTTGCATTTATTTTATAGTGAACATGAGGTTGAGTTAAGGAATAAAGGTGAAGCTAATACCCTTGGAATGCATGAAACACGATTTTCAGAATGGTTTAAAAATAAAGTAAGTTTTTGATATTTTATTACATTTTTACAGAAAGAGTTTTACATATACCTGACAAGTGATTGCAAGATTGACTTTGTTTTTGTTAGATGCAATCACAAGTCCAATCAACGTCTAGTGAAGTTACACGTGAATTATATGCACTTGCATGTGGTCCAGACATTCGAATTAGTTCATATAGTGGGTGTAATGTCAATGGTGTTCGATTTACCTCTAAAGATCGAGATGATCGTTGCACAACTCAGAATAGTGGAATTTGTGTTTTCGGAGGACATGGTAGTGAGGTTACCAACTTTTATGGTATCTTGAAAGAAGTGATTGAGTTGAAATATGTGGATATGAAATCAGTTGTCTTATTTCGTTGTGATTGGTTCGATACACATCCCAGAAAGAATCGATTTCGTGAGGACCATCATTTTACAAGCATAGATACTCGATATTTTTGGTATAGGAACGAACCATTCATTCTTGCCCATCAAGCACAACAAGTATTTTATGTTGAAGATATTCGATTAGGTAATGGGTGGAAAATAGTTCAAAAAATTCAACATAGACATCTATGAGATGTGTCTGAAGTAGAAGAAGTTAGTCCACCTGAACTAGATATACAAGAATGCATAGTTCAAGACGTGGATTTCGAAACACAAACATTTCATAGAGTTGATGCGAGTCCAACAATAGTTTGTGAAAGCAATGAATTGAGTGAAAAAGGGATAAATTTTGTAGAACTAGTAGAATGTGAGGAAGACGAGGAAGACGATGAAGAAGATGAGGAAGATGAGGAAGATGATGAAGACGAGGAAGACGAAGAAGATGTGGAAGATAAGGAAGATGAGGAAGACGATTTTGATGTGGACACTTAGTTAGTACATAATACTTTTTACTTTCTACTTATAATAACATAATTTGTGATAAAATCGTATTGTATTGAATGTTGTGTTTTTTCAGGAAATAATGCTTTCAAATGATGAGGACAACATTGTAGAAATGAATGAAGCGGCATCCTCTAATAGTAGTCAGGTCCGTGGTGTTTCACGTGGACTGGGTCTGGCGAGGATTATTGAGGCCACTGGAGATAGAGTGCGCGTTTCATGGAGTTTACAACAAGGTAAACCTGGTCGGAAGTGTGGCTAGCCTCTTTATGATGAAATTGGATTTCGACGAGGGCGTTCGTCCCATCAAGTATGCAACTAAGTATGACATTCCAAATGAAGTTTTCACTAACATAATGGAGCGGTTGCTGGTAAGTTTGATAGTGAGTTAATGGTGTTCATTATCGAATTTATTATTGTATTACAATTAAATACTAACAGGTGATATTTATTTATGGTTTAGAATAAATTCGACGTTGACATCTCGGAGGAACATATTAAGAATTATATTGTTTATGAAATTGGAACTCGATATAAGGACTACAGATCGAGGTTATATCGATCTCTACGTAAAAATGGGTGACCCAAGGAAGCTCGTGAACGTCCACACAAGGATGTTTCACCTGAAGATTGGATTCTGTTATGTGATAGATGGGAGACTATTGAATGGAAGGTAAATTTTAGTTCAATTTTAAATCATACATGAGTCTTTTTTATCACTAAACATTATAAGGCTAGTCTTCGCAGAACAAATCAAGCAAAGAACAAGGCTAGTAGAAAGCAAGCTCCCTTTCAATTATTGTTGTGGAACAGAAGTCATTTCTTACTTATAGAGAAGAAAAGGTATGTAATATATACTTTATGCCTAGTTTTCAGTAATTTAGAGTTGAAGAAGGTAATGAGATTTATTAATATATGTAATAGAAAAGGGAAGATGGTACTTATTTGAGCCCCATTGAGATCTTCCATCAAACTCATTGGTGTCATTGCAAAGGGATGGACGGACAACGCTGCAAGCGAAGCACATGTAAGTATTCTTTTAAATGTTTGAATAGACAATATTAGTTTTAGTAGTTCAATATCACAACAATATTATTTTTATGTATATACAGCAAAGATGGTAGCACTTGCGAGTAAGAGCAAGCCACGTCGAGTACACCAATGATGACGAACGAAATTGTGGCTAGCGTTCTTGGAACACGAACATCCTATGTTAAAGGAATGGGGTATGGACCAAAACCACCACCATCTCAGAAGAAATCATACTCACAAGATTACGTTCAATCTCTAGAGGCTCGTCTTACACAAACACAAGAAATGTTAGAGACTCAACGCCAAGAAAATGAAAAATTGGAGCAGCGAATGGAACAAAGAATAGAACAACGAATTGAAGAACGAATGGAGATGCAACGCAGTGAGTATGAACGTAGATTTGAGCAGATGGGTGAGCTTTTAGCAAGGTTTACTGGAACAAATCCATCATTTAATAAGGTATGATTTCTAAATATTTTTGTTCTTGAAATTCTGGCGTGAAAGTTCTTGTGATTCTGACTTTGATGTTAAGGATATATAGAGATTATGTTTATGATTTTGGATTATGACTCTATATATAGTTCATTGGGATTCGAGTTTTTGATACTTTGATGCTAAGTATTAGAGATTATGTTGTTGTGTTTTGGACTCACGATTCCTTATATAGTTATTGGTGATTCTGAGTTTGTTTGATACTTTGATGCTAAGTACTAGCGATTATTTATGTTCTTGAAATTCTGGCGTGAAAGTTCTTGTGATTCTGACTTTGATGTTCAGGATATATTGAGATTATGTTTATGATTTTGGATTATGACTCGATATATAGTTGTGTTGGGATTTCGAATTTGTTTGAGCTTTGGTGCTAAGTATTAGAGATTATGTTGTTGTATTTGGACTCGATTCCTTATATAGTTATTGGTGATTCTGAGTTTGTTTGATACTTGTGCTAAGTACTAGCGATTATTTATGTTCACGAAATTCTGGCGTGAAAGTTCTTGTGATTCTGACTTTGATGTTCAGGATATATTGAGATTATGTTTATGATTTTGGATTATGACTCGATATATAGTTGTGTTGGGATTCTGAATTTGTTTGAGACTTTGGTGCTAAGTAGTATTAGAGATTATGTTGTTGTATTTGGACTCTGACTCCTTATATAGTTCTTGGTGATTCTGAGTTTGTTTAATATTTTGAGATTATGACTTCTTTATATTAGAGATTATGTTTATGTTATTAGAAATTATGTTGTTTATGTTTCTTGGATAGAGGAAGGTGGATGAGTGGGAATGTTTGATAATGAGTTGTAAGTGGTAGAGAGTGTTTATCGTTGTTGAATATGGAGATATTTAGGAGATGGATGGTTAATTTAACTTGTGATTGAGTTACTAATTTTTTTTTATTCTTATATATGTGTGTGTTTTCATGCGAGGATCAAACATGATGTTTGAGGATGATATAACATGCGATCGTGATCTTTTCAATCATTTTGGGACGATATAGCTAGTTTGTAAAAGTTAAAACTTTGCACACTTTAGTAATAGTTGTTGTTATTTATTGTGTTTTTATGACCATTTTAATGTTGTTAAGTCATTCACTCTCAAACTTATATGTATTTTGTAATACTTTGGTGTTTGTTATTTTTTCCTATTGTAATGAAAAATATTTTCACAGGTTTTGGTAAAACTGATATATATTTTAGAAGTTCGAATGCGTGGTAAAAAATAATTTTTTTTATCGAATAAAAATATTTGCGACGAATAACGCTATTGTTGCAAAATAAATAATATTGAAGAATATGGGGAATAAATAAAATGAGCCTGCGACGAAAATCAAACAATGTCGCAAAGCTATGCGACGAAAGTATACGTTCGTCGCAGGCTACTATGCGACGCAAGAGCAAGCATTCGTCGCAAATATTTGCGACAAAATAATTATTTTGTCGCAGACGTCTATGCGACGAAATATGGTATCGTCGCAGTCCGCACTGCGACGGATAGAGTATTGCGTCGCATCCTTGGCGACGAAAATAGGTCTATCGTCGCAACTTGCGACGTAAATAAAAGTTTTGTCGCAAATCGTTTTCAGAGACTAGGCTTCAGCGACGAAACGTGCGACGCCAAATATTTCGTCCCTAAAGGTCTACTGCGCCAAATTATGAGTTTCAGCGACGTAATTATTTCGTCGCTAATGACAGTAATTCTTGTAGTGTATCTTTGAACTATAATTATTTTGTTCATGTCATCTTTAAATTTTAAATATACTTTTCAACGGTCAACCTTTTTAAAAAAAAAACTTTTTCTTATCAAAGGAGAAAGAAAACATTTGATCAACCAAAAAGAAAACTCTCGACTTCTCAAGATTCCATCAATAGAACTAAAACAAGAAAAAGATTCGATCGATATTCTACTGCCATATATGTTTATAGCTAGAGATGTCCATTTTTTCTGTGAGGACCCGCTTCTAATAGAGCGGAGAATCTAGGTAGAAAATGGAGGAGGGAGTGAGGAATAATGTTTCTCTATTAGCTAAATGGGACAGGGGTTGGAAATGCCTCTCTCCGCCTCGATTTCTAAACTATAATTCTAAACTTTTATTAAATTTCATTTTATTTTTCTAAAAAAATTTAAAAAAAAATCTCTTAAATAGAAATCTAAGAATTAACCATTTAAATAGAAATTTTCAAAAAATAAAATTTAGGGCAAAATACACTTTTGGTCCCCCAGGTTTGGAGTTGATATCTATTTGGTCCCTGGGGTTTCAAAATATACATTTTAGTCCCTTAAAACCATTTTAAATGGTTCCGGCTTAACTTTAACCTAACAGAATATTGACTAGACAGTTATTTGATAACATGGATAGGATGACAAGTCTATATTTGTTTTGGTGGATGAAATGTTTACTTAGAAAATTAATTAAAAAATCAATTAATACTTGTTGAGGTGGATGATATCTGGATGTTGCAGACATGGAATCTTTATGAGCGAGGGGAGCTCGTTCTGCTAGTAAATATGTCGTTAAATGGCGACTTCGACGGTGAGGAGGCCTGTAAATATCTAAAGATTGGCCTACTCTGCATGCAAGATAGTCTGAAGCTCCGTCCATCAATGTCAACTGTGGTAAAGATGCTAACGGTATCGAAGATAGAAAGATAAATGCGACGTTCACATCTTTCGTCGCATAGCCTCAAATCTATCGACAAGGTCCGCACAGATTTTCAGGCATTGCGGCGCCCTCGAGTATATCGACAAGGTCCGCACGCCTCGGGCAGAGATATTCAGGGCTATGCAACGCAAACCTTATTTCGTCGCAGATATATGCGACGCAAGCCTCAGGTCGTCGCAACGGTCTGTGCGACGATCGTATCTTTCGTCGTAGAGCCTCGAGTATCTGCACACTTAGGGCACCTCAGGGGACAGGTTTGTTCGGTGAATGCGACGAACTTCGGTGCTTCGTCGCAAGCCATGCGACGAACACTTACAGAAGAGAGTGCCGACGAGGACGCCGTCGACCGCTTCGACGAGGACGCTGTCGACCGGAGAGCACCGACGCCGACGAGGACGCTGCCGACCGGAGAGCGCCGACGAGGACGACCACGCTGCCGACCAGAGAGCACCGATAGAGGGACATGGAATCTTTATGAGCGAGGGGAGCTCGTTCTGCTAGTAAATATGTCGTTAAATGGCGACTTCGACGGTGAGGAGGCCTGTAAATATCTAAAGATTGGCCTACTCTGCATGCAAGATAGTCTGAAGCTCCGTCCATCAATGTCAACTGTGGTAAAGATGCTAACGGTATCGAAGATAGAAAGATAA ATGCGACGTTCACATCTTTCGTCGCATAGCCTCAAATCTATCGACAAGGTCCGCACAGATTTTCAGGCATTGCGGCGCCCTCGAGTATATCGACAAGGTCCGCACGCCTCGGGCAGAGATATTCAGGGCTATGCAACGCAAACCTTATTTCGTCGCAGATATATGCGACGCAAGCCTCAGGTCGTCGCAACGGTCTGTGCGACGATCGTATCTTTCGTCGTAGAGCCTCGAGTATCTGCACACTTAGGGCACCTCAGGGGACAGGTTTGTTCGGTGAATGCGACGAACTTCGGTGCTTCGTCGCAAGCCATGCGACGAACACTTACAGAAGAGAGTGCCGACGAGGACGCCGTCGACCGCTTCGACGAGGACGCTGTCGACCGGAGAGCACCGACGCCGACGAGGACGCTGCCGACCGGAGAGCGCCGACGAGGACGACCACGCTGCCGACCAGAGAGCACCGATAGAGGGACATGGAATCTTTATGAGCGAGGGGAGCTCGTTCTGCTAGTAAATATGTCGTTAAATGGCGACTTCGACGGTGAGGAGGCCTGTAAATATCTAAAGATTGGCCTACTCTGCATGCAAGATAGTCTGAAGCTCCGTCCATCAATGTCAACTGTGGTAAAGATGCTAACGGTATCGAAGATAGAAAGATAA MRRSHLSSHSLKSIDKVRTDFQALRRPRVYRQGPHASGRDIQGYATQTLFRRRYMRRKPQVVATVCATIVSFVVEPRVSAHLGHLRGQVCSVNATNFGASSQAMRRTLTEESADEDAVDRFDEDAVDRRAPTPTRTLPTGERRRGRPRCRPESTDRGTWNLYERGELVLLVNMSLNGDFDGEEACKYLKIGLLCMQDSLKLRPSMSTVVKMLTVSKIER Homology
BLAST of Tan0004771 vs. ExPASy Swiss-Prot
Match: Q93YN1 (Cold-responsive protein kinase 1 OS=Arabidopsis thaliana OX=3702 GN=CRPK1 PE=1 SV=1) HSP 1 Score: 87.4 bits (215), Expect = 2.1e-16 Identity = 43/58 (74.14%), Postives = 47/58 (81.03%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy Swiss-Prot
Match: Q8RX80 (Cysteine-rich receptor-like protein kinase 18 OS=Arabidopsis thaliana OX=3702 GN=CRK18 PE=2 SV=2) HSP 1 Score: 54.7 bits (130), Expect = 1.5e-06 Identity = 27/59 (45.76%), Postives = 39/59 (66.10%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy Swiss-Prot
Match: Q9FNE1 (Cysteine-rich receptor-like protein kinase 42 OS=Arabidopsis thaliana OX=3702 GN=CRK42 PE=2 SV=1) HSP 1 Score: 52.4 bits (124), Expect = 7.7e-06 Identity = 28/60 (46.67%), Postives = 35/60 (58.33%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy Swiss-Prot
Match: Q9LMB9 (Cysteine-rich receptor-like protein kinase 1 OS=Arabidopsis thaliana OX=3702 GN=CRK1 PE=2 SV=2) HSP 1 Score: 51.2 bits (121), Expect = 1.7e-05 Identity = 26/54 (48.15%), Postives = 35/54 (64.81%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy Swiss-Prot
Match: Q3E9X6 (Cysteine-rich receptor-like protein kinase 21 OS=Arabidopsis thaliana OX=3702 GN=CRK21 PE=2 SV=1) HSP 1 Score: 50.8 bits (120), Expect = 2.2e-05 Identity = 23/55 (41.82%), Postives = 37/55 (67.27%), Query Frame = 0
BLAST of Tan0004771 vs. NCBI nr
Match: XP_022136534.1 (cold-responsive protein kinase 1 [Momordica charantia]) HSP 1 Score: 105.1 bits (261), Expect = 7.6e-19 Identity = 51/56 (91.07%), Postives = 53/56 (94.64%), Query Frame = 0
BLAST of Tan0004771 vs. NCBI nr
Match: XP_038875621.1 (cold-responsive protein kinase 1 [Benincasa hispida]) HSP 1 Score: 104.8 bits (260), Expect = 9.9e-19 Identity = 50/56 (89.29%), Postives = 53/56 (94.64%), Query Frame = 0
BLAST of Tan0004771 vs. NCBI nr
Match: XP_022981326.1 (cold-responsive protein kinase 1-like isoform X2 [Cucurbita maxima]) HSP 1 Score: 102.4 bits (254), Expect = 4.9e-18 Identity = 49/54 (90.74%), Postives = 51/54 (94.44%), Query Frame = 0
BLAST of Tan0004771 vs. NCBI nr
Match: XP_022981309.1 (cold-responsive protein kinase 1-like isoform X1 [Cucurbita maxima] >XP_022981317.1 cold-responsive protein kinase 1-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 102.4 bits (254), Expect = 4.9e-18 Identity = 49/54 (90.74%), Postives = 51/54 (94.44%), Query Frame = 0
BLAST of Tan0004771 vs. NCBI nr
Match: TYK16388.1 (putative serine/threonine-protein kinase [Cucumis melo var. makuwa]) HSP 1 Score: 102.1 bits (253), Expect = 6.4e-18 Identity = 50/56 (89.29%), Postives = 51/56 (91.07%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy TrEMBL
Match: A0A6J1C4K5 (cold-responsive protein kinase 1 OS=Momordica charantia OX=3673 GN=LOC111008211 PE=3 SV=1) HSP 1 Score: 105.1 bits (261), Expect = 3.7e-19 Identity = 51/56 (91.07%), Postives = 53/56 (94.64%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy TrEMBL
Match: A0A6J1ITN0 (cold-responsive protein kinase 1-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111480476 PE=3 SV=1) HSP 1 Score: 102.4 bits (254), Expect = 2.4e-18 Identity = 49/54 (90.74%), Postives = 51/54 (94.44%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy TrEMBL
Match: A0A6J1IW87 (cold-responsive protein kinase 1-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111480476 PE=3 SV=1) HSP 1 Score: 102.4 bits (254), Expect = 2.4e-18 Identity = 49/54 (90.74%), Postives = 51/54 (94.44%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy TrEMBL
Match: A0A1S3BRT6 (putative serine/threonine-protein kinase OS=Cucumis melo OX=3656 GN=LOC103492993 PE=3 SV=1) HSP 1 Score: 102.1 bits (253), Expect = 3.1e-18 Identity = 50/56 (89.29%), Postives = 51/56 (91.07%), Query Frame = 0
BLAST of Tan0004771 vs. ExPASy TrEMBL
Match: A0A5A7V6V0 (Putative serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold468G00480 PE=3 SV=1) HSP 1 Score: 102.1 bits (253), Expect = 3.1e-18 Identity = 50/56 (89.29%), Postives = 51/56 (91.07%), Query Frame = 0
BLAST of Tan0004771 vs. TAIR 10
Match: AT1G16670.1 (Protein kinase superfamily protein ) HSP 1 Score: 87.4 bits (215), Expect = 1.5e-17 Identity = 43/58 (74.14%), Postives = 47/58 (81.03%), Query Frame = 0
BLAST of Tan0004771 vs. TAIR 10
Match: AT4G23260.1 (cysteine-rich RLK (RECEPTOR-like protein kinase) 18 ) HSP 1 Score: 54.7 bits (130), Expect = 1.1e-07 Identity = 27/59 (45.76%), Postives = 39/59 (66.10%), Query Frame = 0
BLAST of Tan0004771 vs. TAIR 10
Match: AT4G23260.2 (cysteine-rich RLK (RECEPTOR-like protein kinase) 18 ) HSP 1 Score: 54.7 bits (130), Expect = 1.1e-07 Identity = 27/59 (45.76%), Postives = 39/59 (66.10%), Query Frame = 0
BLAST of Tan0004771 vs. TAIR 10
Match: AT5G40380.1 (cysteine-rich RLK (RECEPTOR-like protein kinase) 42 ) HSP 1 Score: 52.4 bits (124), Expect = 5.4e-07 Identity = 28/60 (46.67%), Postives = 35/60 (58.33%), Query Frame = 0
BLAST of Tan0004771 vs. TAIR 10
Match: AT1G19090.1 (receptor-like serine/threonine kinase 2 ) HSP 1 Score: 51.2 bits (121), Expect = 1.2e-06 Identity = 26/54 (48.15%), Postives = 35/54 (64.81%), 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 Position : 0 Zoom : x 1
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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