Tan0021320 (gene) Snake gourd v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGACGGGTTTGTCATTAACCTGACCTGGGCCCATGGCCTTGAATCATCATCTCAAATCCGAACCGAGTGGTTCGTAGAGTTCGCTCGCTGATATTTGCAACGAGTGGAGGGCACTTTGCAATGGCGTCCTCCAGGAATTTCACTTTTATCAATCATCTTCATCTCAGCAATTCAATTACAATTATAATCCGCATACTCCCACAATATTTAAGAAAAAAAACTATAAATAAATCCAGAGATTATCCTTCTTCTTCTTCTCCGAATTTACAGGTTTCTTCTCTTCCTCCTTTTCCGTTGCTTTGTCCTAATGATTCTACAAGCTTCATCGTTCAATATCGCCGTTCCACTCTCCGGTCCTTCCCCCGGACGTTCCCGTTACAGCCATGTTGTTCGAGCTCAAGGTAATTATATCCATTTCGGAACTGATTGTATATCTTGTTTTACTGATGTATGGAACTAGTCTTTTCAAATCTCGAGATTCTAGGGCCAATTTGTGTTTGCTGCATCGTTCTCTGTTGATTGATGTAGATGTCGAACTAGAAAGTTCTTGTTCTTGTTGAGCGCTGTATGATAATGCGAATGGAATTTCTTTGTTGTTGCAGGGGAACCGTCCGAGAAGTCGGTCGAAATAATGAGGAAATTCTCGGAGCAGTATGCTCGTAAGTCAGGAACGTATTTCTGTGTAGACAAGGGGGTTACTGCTGTTGTTATCAAGGTTCTTTTCTGAGATTTTCTTGTGGTATTAATTAATATCCAATCCAACTACTTATTTATGTAATTTTCATTTTTCTGCCTTGGTTCTGTGGTAATGAAGTTGCTTGCGTGACTTAGATGATTTTGTTTACCTGTTGACCTTTTTGGAACATCTCGTTAATTATACGTTATGAATTGATAGGTTTTCTAGTTAATCATTCTCCAATTGAATGACTATTTATTAGTTACTGAAGCAATTGAGGGGAAGAAACTTCGGTATGCCTGTGCTCCCACAAGTAGACGTTAACTTAAATAAAATTTGATAATCAATATTCTTTGAAAAAAAATTTCTTGACATTGCTGATAAAGTTTATGATGGTAGAGTTTAGTTTTACTGTGGCAAGTTGATTGCATAAGTTCCAGAAGTTCATTACTTGTTGAAACTGTATTAATGGATCTTTGTATTAATTGGGTGCATATGAGATATTGCTCATGAATTTGGTCGAATAGTTTTCTTGTCATGAGATAAAATTGTTGGGTGTTACCACGGAATTGTGAATTTCTTTTACTTGATTATTTCTTTAGCCCTACCTTTTATTAATTGATTGAATGTCGTTGATTTGTAATTAGTGTAAGAGAAGCTCATGTTAGATCTAAACAGGGACTGGCAGATCACAAAGATACATTGGGTGCACCACTTTGTCCCTGTCGGTTAGTATTTATAATGCTTTATGCAGAAATCTTGTATTATTTTCTTTAACTAATGGTAGTTCAAGCTATCTTTAACGCAAAAATTGCAAATTCAAATAGTTTGATTTTTTTCCAGGCATTATGATGACAAAGCTGCTGAGGTTGCACAAGGTTTTTGGAACTGCCCATGTGTTCCTATGAGAGAAAGGTAAAATATGCACTTACAATTAAGAACTGATGTGCAAAAACAGTTGAAGAATAGCTTGGGGAAATTCCTTTTTTTCTGTCTGGAATTTGTAAAATCATACACGTGCATGTCTGCATTATACTCATAAAACGTTTTTGTTACTTGATTTATTGACTCACTGATTGATTTGCATTAATATTATTCAACTTCATAAGTCTTATTCTTATAAAAGAGAAGGGGTGGGAGATTACAGGGAGATATTTTATTTTATTTGTTTAGATGATGGGTGCTGAGATTTACAGTAGTAGGTTATTGAACCTGGAAGTAAATACCTTGAGCCCTATACTGACTTGTGGCACATGAAAAGCAGGGGTTTACATGTTTCATAAAGTGACTTTGTTAAAATTATTTCCGGTGGTAAGCTAGTAAACTAAATTGGTAGTCGGTTAATCACATGCATAACCGAGCTGTTCACTCTAGCAAATAAGGTTGTTTTTATGTTATATTTGTTAAAGGAAATTCGCTATTCTTCCCAGGAATAATGTAATAACGGGCTGACTTTCAAGGCCCTTGTCTATTGGAATGGTTTCAGGAAGGAAAGAAATGTAGATAATAGGTCGCTGTTACTCATTTTACTCCACATCAGGCGCATAGGGTCTGAAAATTAAGTTTTCTTTGCAGGAAAGAGTGTCACTGCATGCTTTTCCTTACTCCTGAGAATGACTTTGCGGGCAACGATCAGGTAATTAGTATCAATTACTCTGGATCTGATAGATTGAACTGATAGTTCTAATATATGAAAAGAATCTCAATGAAATGACTACATACCGAAAAGATGATTCAATTGGCCAAAACGAGTGGTAGTTTATTGCTTAGACATCCACACTACTCCAGAATGCTACTGATTTTTCTTCTTAGTTTTATCCTCTCGTCATTAACTAGCTCTACTCCTTGAACACTCTGCTAAATGTGAAAGCATATATCACAAGCTCTTTTAGCACAGAAAATCGAATATTAAGCGTGAGCTTTGCTATCCGAGTTAAACTGCAAATATTATCGTTCATTTACTTTGCATATGTTGTAATCATCCATCGTTTCTGCTGTGAATAATTCTTTCGTGCCCTCGCTGGATTTCTTGATTCCTCTTTTCTGCAGGCAATCTCCTTGGAAGATATCAGGGCAACAACAGCAAACATGTAACCCCTAATTTCCACTCGTTAATTTCATTGAACAGTTACTTCACATTGTGCTGTGATTGAAACGGGTGGAAATATACAAAGTGAAATTATGTATGTAACACTACATGGATGAGGTAATGAATGGTTCTGCCATATCTACTGCTGACAAATGATTAGATTTCTTTTCCATAGTATTTGTAACGTGTAAGTTTTGATGATCATGGAAGAATATTTGGTTTGGTTTGGTTTGGTTTGGGTGGGGTTCACTTGGATTCATATATGGATGAGTGGTTTAAGAGAGGATCCAATGCAGGAATATGAACGATGAGAAAGAATAAAAAGCCTGCAACTTTAAGGAAAGTGGCTTTTTAGGATACGTTTAATAGAGTTTTGGTTTTAATTTTCTGTTTCTAAAAAGTATATTTTTTTCAAATATTTCCTCATTTTCTAATCTTCTTCCATGTATCCTTTTCTTTTTATCTCCGAGAGAATAGAGTGTCTGCAAAAAAAAAATAATAATAAATAAATCAATAAAGGTGCTGCTATTGCCATTGTGAGCATAAAGTAAATCGTCAGTTTCTTGCTCTGATTTCTGGTTCTTAAGTTCGATTTTTCATCAAGTAATTTCCGGATTTGAGTTGTAAAGGCTTTTACGTTTCTTTTCTTTTCTTAATCCCAGTTTTAGTTTTAAAAACTAAAAGAAATAATTTTCAAATATTTGGTTTTTTTTTTTGGTTTCTAGAAGTTGACACATATTTTTAAAAATGTACAAATGTAGCTGAGGATAGGTCAAGTGATTTATAAGTTCAATTACAATGGTCAATTTGAGTATAATTTAATAGTTAAAGTATTAGTGATTCTTGAAAGTTTGAATTCTCATATCTAATTTTAAATACAATTTAATCTAAGTAGGAAGTTCTTTCCAATTTAAGGGGGTGTTTGGTTGATGGGGTTGAGTTGGGTTAATATACCAACTCCTTGTTTGGTTCACCAACAATTTTAACCGGTGACTTAATAACCCAACCCCATGGAGTTGGGTTATTAACTCAACCGTACAGTACTTTCCGGCGGCGATCCAACAACTTTCCGACGACGATCCGGTGACTCTCCGATGACGACCCGACAACTCTCCGGCGAAGGTTCGACGACTCTCCGATAATGGTCCGGCGACAATCCGACAACTTTCCGACTACGACCCGACGAGATGAACAAAGTGGAGAAAAGAATAATATGAGAAGAGTTTTGAAGTGTGCGTTTAAATTGCTAATACTCTAATTTAAATAGGCTCCAAAAAGTCATAATCCTTTTAGAACAAGAAATTCTAATCTTTTTAGGAAAAGAAATCCTAAACTCTTTTAAAATAGAAATCATAATCCTTTTTTAAACTTTGGAACCCCCTTTCCTAATTCTGATCTGATTATCCAAAGATTCAAATTTAAAACAAATACAATTAAAACACCTAATTTTATGGTGTGTCAAAATATACTCATTTAAGAAAAACTTTCGTCCTCTAAAGTTGCTAGAACCTTACAACGGTCACGTCTTCGAGCCATAATCTAAACTTAAATTCTAAAATACCTTAGCACAAGAACAAAGAAGTCAAAAGCATAACATAACAAGTGTCAACACACAAGCAACTCAAATAACTTTAACTACTTTACAAAATAAAAACAAACCTGGAGATAACGAGACGACTTCCTGCGAGAGGCTATAATGATCGATGCCTACGATGTAGACGAGTATGCAGAATCTAAAACTCATACTATGATAACAACTGTAATGACCCTAATTTTTCAAACTCAACATTTCCTAGAGACATTACTAAACAACATCGCTTTGCACTAAAAGTTTAGGCAGCATAATTGCCAAGTTGCTAAGTCTCTTGATGACATGTCTAAATATCAAACCAAATATCCATTAGTTTTGTAAATATTCACATACATACATTTGATATCAAACCCAATATCCATTAGTTTTGTAAATATTCTTGACATACATTTGGCAAATGGTAATATATATTGTAATTTTATAATTGATCACATAATTGAGTTTTGAAATTGTAGACAAATGTGTTTGTATTTGATTTGTTGTGAAAACAAAGTAAGGGAAAAAGTAAAAAAAAAAAAAAAAAAAAACATCTTTCACTTTACATAAGATAAAAATGGTAATATATATTATAAATTTGTAATTGATCTCATAATAAAATTTTGAAATTGTAGATAAATATGTTTGCAATTGATTTGGTGGAAACAAAAAAAGTAAAGAAAAAAAGCAAAAGTTGAACTTATTCACTTTACAAAAAAGCTACACTGTATAATCTTCTGATATAATAACTCAACTCTATGAACCAAACATCGACTTCCCCGACTTCTCAACTCAACTCAGAAACCAAACACCGATTTCCGGCTCACCGACAAAACAACTCTGCACAACTCAACTCAACCTAATTCAACCCAACTCTGCGATCCAAACGCCCCCTAAGTGGTTTTGACAAAACATCATTTTAGAGGTCATCATTATTGGTGGTTCAATTTTATGGTAAATTTTATTTTAAGAAATAAATAGCAAATATCAATGTGTTTTCAAGTGGAAGGTTTAAATTTTATCACTAAAGTGGTATTGACAAATGGTAAACATCTATGAAACATGGGGACGGAGATTAAGTTGGAATTTTATGAGTACTTTTTGTACACAAACGCATGTAGATGCAATATGAATAAAGTTAATTCACTCAAAAAGATACTGATGGGCTGTAAGGAATGTCAAAGAAAATTATAAAAATTTTATGACTTAATAAATAAATTTAACTTTTTTTTTATCAACTCAAAAAGATATTGATGGCTATATAGTATACTAATTTTGTTATCATCTAGCCTGAGCGGACTGCCCAAAGTGAATAATCTCAATGGTAATTGATATGTACCCTTAATTGAGGTTTAAATCTTTCACTATCAAATGTTGTCATGCACTAAAAAACGAGAATCTGACCTACCGTAAAAGGTTCGTTAAGGCCCCAATATATCTAACTATAGTAAGGACATCAAGTGTCACATCCATTGCTCTAATCTTCAAGCATGCAGTTGATAATTTTAATTTGTATGTCTATATTTATCACCTCTTAAACTTAAAGTTTTTAGTTGTTGTTCAAGAAAAATAAATAATTACAAACTAAAATGAGATTGTCTAACTACTAGTAACTTTTTTTTGTAATTATTTATTTTTTTAATTCAACAACATATGGAATGGCGGGATTCAAATTTTGACATTTGACTTAACCATGCTCAAATTGCATTAGTATAACAATTTTTACCATTATTATTTTTTTTTTAAGTTCTTTGAGAAACTGTTCATATAGATTGAAACTTATATGGTCTTATTTGATAACTATTTGATTTTTAGCTTTTAGTATTTAAAAATTAAATCTATAAATATTACTTTTACGTATAGTTTTTTTTTTTTTTGTTATCTACTTTTGATATATGTTTCTAAAAATCCAGCAAAGTTTTTATAATTAACAATAATAGTTTTTAAAAACATATTTTTGTTTATAAAATTTAACTAAGATTTCAAATAGTTTCCTTTTTTTTAAAGAGAAATATGAGAGTTATAATAGAGAAATCAACGGACAAACTTAATTTTAAAAAATAAAAAATTTAAAAAGTTATACCTATATTTTTCGATTTTCGATTGCAGGCTACAGGTGCCGAGCCGTTGTAGCCCAGCCCAGAGTGACTCGGCCAATTGGCTCAACCATTGCCGCGCACCGTACGCGTCCCTCACATCATCTTCTTCATCGTTTCTTTCCCAATTCCTTGCAGCTTGATTATTATTCCTAGGGTTTCATTGCATTTCTGCATATAATTTTTCTACCTTTCCATTCCTTTTTGTATTACCTTGCTAGATAGGTCGAGCCCTATAACCTTTCAGAGCACTACAGCCTTCGTTTCTCGGAGATGTCGAGGCCCCAAGTCACCATCACTCTCGGGCGCTCTGGTCAGGTAATAAAATTCATATCCACATACTGACGAGCGCATTTAGTTTGTTCTAGCGAATTTTTAAGAAGCAAATAGAAAAAGGCAGAGATTTTCCGAGTTTGCATTTACTTTTTCTCGTACGAGTGGTGTTATCGACGATTATTGCACTTACTGAGCTTTCCTTTTTGTGATTGTATCGTTTTCAGGTGGTAAAGAGAGGAGGTTTAGCCTCAGACTTCGCACAATCGAATATTGATTCTGGATCAGAGTCAAGAAGAAAACGGTATATTGAGAGATCCGCTGATAATGCAGAGGATTTGTTCTCATCCACGAATAAGCGGTTTGTTTTTCCTTCTCTCTTTTCTTCGTATTGTTTATTTGCAGCATATACCCATCCGGGCGTTCTTTCTCTTCTTTTCTTTATGCCCCATTTATCCGGCTTATCTGTATTGAATATGTTATAAATTTTTCGTGCTCTCAGCCCCTCTCGTAGTTGGTTTCCCTTACATTTATGGTGTACTTTAACAGGAAAAATTTAACGAATTTTGTTGGCCACTTACTTGTTTCTTTCAGTCTGATTTGATTTCAGCTCTAAAGATCTCCTTAATTTAACTGCAGCTTTTGAGATAATTACATTCCTTTTATTATGACTATTGTGTGACGTTGAAGTTCTAATTTTTCATACAATGATGACTTGGTGGATATTTTATTCTGTATGAATCTGCTCATTTTAACTAGAAATTTTGAGCTAGTATGTATTCTGAATTTGGCATGCCTTAGTTGAGTATGTATTCTCTTTGCAGGCAACGTGGGGATGGTTTTCATTGGAGTTCAAGTGGTGAAAGAAAAGACGGTACAGGCCAATTCTCTACTTTTATTATTTTATGTTTTTTACACATATTGTTTTTCTGTGAACTCGTGGTTACTTCAGTTCTTATTTGAATAAAGCCTACAGAGTTGGTCAAAATGATCTGCGCTTGAAACTTATGCGCAAAAATCAATCCAAGAAAATTGGTATTGGGGAAGAACACTCGAGGATGGGCTTACACCATCAATTATCAAAGAATTCTCTGCCTTCGACTAGTGGAGATGTAATACATCGCAGGCATGAATTTAGAGGGAGCAATCTTGTAAGGCGACCACATTCTAGAGAGAGTGCCGATGATCTATACCTAGAACATTCACAGAGGAAAAGTACTGTTTCATATGTTGACAGATTGAGAGTTAGATCCCCAGATGGGATCATGAAAAGCTCCATGGGGCATTCACCACCTCGATACAATGATGAGTTTAGGAGAACCTCATCTATGAGGGAAGCTGATCGTTCAAGAGATGAATGGTTTTTTAGGAACAGCGTTGCTGATAGTTATAGGTCTGTAGACTCTGCACCTGTGAAAATGAAAGCCGCCCTCCCTGTGTCTGGCAAGGAAGTTAAGGATCTCACACCAATAGGTGGCAGCATGCAGAGAAGTTCCTCAATGGTATACTTTATGGCCGTTATGCTTATTGATCTGATTTAGTGTGCCAATTCAATTTATTAAATTTTATAATCTTATAGATTAGCTCATCTTAGATGCCAAATCAAGCCTTTTGTTGCTAAGTCTCGTTAATGATTGTTTACAGGGGGAGGGTTCCCTTTCTGTTGCTGGCTTGTTGAGTTCACTTGGTTTGGGGAAATATGCCATTCATTTTCAAGCCGAAGAAGTAAGTAATATCTGCTTGTATATTATTTTACAATATTATTAAGGATGCCGAATGTATGTATTTTCCTGACAGTTAAGTTTCTTTTCATTAATCAATTAGAAATTCGTATCTTTTTTTTTTTTAAAAAAAACATTATGAAATGTAAATTCTGTAGCATACAATGACAGGGCTTTTTTTAACCATGTGGATGTTATGTGTTATGTTCCTCGTGGCTGAGCTGAGGTGTGATGACGATTGTCCATGGGCTTTTAAATGTTTGTATATGAACTTAGATTCTTTTTGTAAATTATATCTTGCAGATTGATATGACAGCTTTGAGACAGATGGGAGACAAGGATCTTAAAGAGTTGGGGATACCAATGGTACTTCCATTTCCCTGGCCTTCTACGATTGTCAAACTCTAATTGAAATACATTTTTGGCTTGCAAACTTACTTTCTCTTCTGTACGGCGTGCTTGCCAAACTGTGATTTTTATGATTCGTGTTAGTTGAGAACTAGTTTGTCATACCATCAAGTTTTAGTTGACGAAGGTTTGTACTTGCAAGTGGCCTTAGGATTCAATAAAAATGTCCTGGAACATTGAATGTTCCATGAGGTTCTTAAGTGTCATAATTTTATAGGGTCTTACCAATGTTACCATTATACTTCATAAACTTGGAAGTTATGAGTTTCCTGAAACATGGGGATGGATTGAGATAGATAGGGCTTGTAAATTAGTTTTTATTCATAATTACTGAATTCCAGAATCAATTAATTTGCTACACTTAGATAAATTACTTTGTAATATTAAAATTAGTTAATCTTTAAATTGTTTTTGAACAAATTAAAGTTTTTAACTCTAATTTTGATCACTAATTACTTGGCTAAAAAATAATTATATTTAATCTTGATTGATATTAAAATTATATTGAATAATTACTAATTTATGTTACTTCATTTTAGTTAACTCATAAATTAACTAACTAATTTATTTCATTGAATAATAATATAGTTCAATTATAAGATTGAGTAATAAGATTAAGTAACCACATTTACTTGGTTTTAATGGATTAATATGGTTAAGACATATGCTCTTGACCAAGAAATTAGAGATTCGAATCTCCTCACCCCCACATGTTGTTGAACTCATAAAAGAAGTAATAAAATTAAGCTTATTAATTATGTTACTTCGCTTGATTTAAAGTTCTCATTTAATACTAATTTATCAACTTTGAAATTTCTGTTCATACTTTATTGGTTTATTCGACTTGTTTTTACTAATTCATTAATACAGCATTATTATAGAACGAAGAGATGAAATCCTAACCAAAGATCTATTCCACTTTTACAGCATTATTAAATATTTCTGTCTATATACCACCAAATACAACATCTTATTTCTAGATATCTTTTTCCCATGCGAACCTAAAAACGAATGCCCCTGAAGGATACTGATATAGCATCAATAATACCAAAGTCTGAAGAGGCTTGGCTTCTTTTTTCTAAGTTCAACAACATTTGGGGATGAGGAATTCAAACCTTTTAACCTCTTGGTCAAGAGTACATACCAATTATAGCTGAGCTATGTCACTTTGTCCTGAAGTGGCTTGGCTTCCATGTTGTATTGGTTATGTAAATGTTTTCATCTGTCACATTCATCATTCATCAGATTATTAGTATTGCCAAAGAAGAACGTATCATATAGCATGTGTTACATGCATTAGCATTATGAAATCATTTGATAAAAAGTACTCTATGCGTGGTAATTGCTTCTTACTAACTAGTCTATTATAATGATTTCACTTGGAATTTTAATATCATCCAAGCTTGTTGTATACACTGAAATTTAATTTGAGCCCTGACCTGGTATTCCTACTCAACAGGGACCAAGGAAAAAGATTCTTCTCGCGCTGTTGCCCCGTTCTAAGCAGCCGCAGCCGCCACCACCACTCTCAATGGCACGAACATAGATGGACGGGTTTGTCATTAACCTGACCTGGGCCCATGGCCTTGAATCATCATCTCAAATCCGAACCGAGTGGTTTCTTCTCTTCCTCCTTTTCCGTTGCTTTGTCCTAATGATTCTACAAGCTTCATCGTTCAATATCGCCGTTCCACTCTCCGGTCCTTCCCCCGGACGTTCCCGTTACAGCCATGTTGTTCGAGCTCAAGGGGAACCGTCCGAGAAGTCGGTCGAAATAATGAGGAAATTCTCGGAGCAGTATGCTCGTAAGTCAGGAACGTATTTCTGTGTAGACAAGGGGGTTACTGCTGTTGTTATCAAGGGACTGGCAGATCACAAAGATACATTGGGTGCACCACTTTGTCCCTGTCGGCATTATGATGACAAAGCTGCTGAGGTTGCACAAGGTTTTTGGAACTGCCCATGTGTTCCTATGAGAGAAAGGAAAGAGTGTCACTGCATGCTTTTCCTTACTCCTGAGAATGACTTTGCGGGCAACGATCAGGTGGTAAAGAGAGGAGGTTTAGCCTCAGACTTCGCACAATCGAATATTGATTCTGGATCAGAGTCAAGAAGAAAACGGTATATTGAGAGATCCGCTGATAATGCAGAGGATTTGTTCTCATCCACGAATAAGCGGCAACGTGGGGATGGTTTTCATTGGAGTTCAAGTGGTGAAAGAAAAGACGCCTACAGAGTTGGTCAAAATGATCTGCGCTTGAAACTTATGCGCAAAAATCAATCCAAGAAAATTGGTATTGGGGAAGAACACTCGAGGATGGGCTTACACCATCAATTATCAAAGAATTCTCTGCCTTCGACTAGTGGAGATGTAATACATCGCAGGCATGAATTTAGAGGGAGCAATCTTGTAAGGCGACCACATTCTAGAGAGAGTGCCGATGATCTATACCTAGAACATTCACAGAGGAAAAGTACTGTTTCATATGTTGACAGATTGAGAGTTAGATCCCCAGATGGGATCATGAAAAGCTCCATGGGGCATTCACCACCTCGATACAATGATGAGTTTAGGAGAACCTCATCTATGAGGGAAGCTGATCGTTCAAGAGATGAATGGTTTTTTAGGAACAGCGTTGCTGATAGTTATAGGTCTGTAGACTCTGCACCTGTGAAAATGAAAGCCGCCCTCCCTGTGTCTGGCAAGGAAGTTAAGGATCTCACACCAATAGGTGGCAGCATGCAGAGAAGTTCCTCAATGGGGGAGGGTTCCCTTTCTGTTGCTGGCTTGTTGAGTTCACTTGGTTTGGGGAAATATGCCATTCATTTTCAAGCCGAAGAAATTGATATGACAGCTTTGAGACAGATGGGAGACAAGGATCTTAAAGAGTTGGGGATACCAATGGGACCAAGGAAAAAGATTCTTCTCGCGCTGTTGCCCCGTTCTAAGCAGCCGCAGCCGCCACCACCACTCTCAATGGCACGAACATAG ATGGACGGGTTTGTCATTAACCTGACCTGGGCCCATGGCCTTGAATCATCATCTCAAATCCGAACCGAGTGGTTTCTTCTCTTCCTCCTTTTCCGTTGCTTTGTCCTAATGATTCTACAAGCTTCATCGTTCAATATCGCCGTTCCACTCTCCGGTCCTTCCCCCGGACGTTCCCGTTACAGCCATGTTGTTCGAGCTCAAGGGGAACCGTCCGAGAAGTCGGTCGAAATAATGAGGAAATTCTCGGAGCAGTATGCTCGTAAGTCAGGAACGTATTTCTGTGTAGACAAGGGGGTTACTGCTGTTGTTATCAAGGGACTGGCAGATCACAAAGATACATTGGGTGCACCACTTTGTCCCTGTCGGCATTATGATGACAAAGCTGCTGAGGTTGCACAAGGTTTTTGGAACTGCCCATGTGTTCCTATGAGAGAAAGGAAAGAGTGTCACTGCATGCTTTTCCTTACTCCTGAGAATGACTTTGCGGGCAACGATCAGGTGGTAAAGAGAGGAGGTTTAGCCTCAGACTTCGCACAATCGAATATTGATTCTGGATCAGAGTCAAGAAGAAAACGGTATATTGAGAGATCCGCTGATAATGCAGAGGATTTGTTCTCATCCACGAATAAGCGGCAACGTGGGGATGGTTTTCATTGGAGTTCAAGTGGTGAAAGAAAAGACGCCTACAGAGTTGGTCAAAATGATCTGCGCTTGAAACTTATGCGCAAAAATCAATCCAAGAAAATTGGTATTGGGGAAGAACACTCGAGGATGGGCTTACACCATCAATTATCAAAGAATTCTCTGCCTTCGACTAGTGGAGATGTAATACATCGCAGGCATGAATTTAGAGGGAGCAATCTTGTAAGGCGACCACATTCTAGAGAGAGTGCCGATGATCTATACCTAGAACATTCACAGAGGAAAAGTACTGTTTCATATGTTGACAGATTGAGAGTTAGATCCCCAGATGGGATCATGAAAAGCTCCATGGGGCATTCACCACCTCGATACAATGATGAGTTTAGGAGAACCTCATCTATGAGGGAAGCTGATCGTTCAAGAGATGAATGGTTTTTTAGGAACAGCGTTGCTGATAGTTATAGGTCTGTAGACTCTGCACCTGTGAAAATGAAAGCCGCCCTCCCTGTGTCTGGCAAGGAAGTTAAGGATCTCACACCAATAGGTGGCAGCATGCAGAGAAGTTCCTCAATGGGGGAGGGTTCCCTTTCTGTTGCTGGCTTGTTGAGTTCACTTGGTTTGGGGAAATATGCCATTCATTTTCAAGCCGAAGAAATTGATATGACAGCTTTGAGACAGATGGGAGACAAGGATCTTAAAGAGTTGGGGATACCAATGGGACCAAGGAAAAAGATTCTTCTCGCGCTGTTGCCCCGTTCTAAGCAGCCGCAGCCGCCACCACCACTCTCAATGGCACGAACATAG MDGFVINLTWAHGLESSSQIRTEWFLLFLLFRCFVLMILQASSFNIAVPLSGPSPGRSRYSHVVRAQGEPSEKSVEIMRKFSEQYARKSGTYFCVDKGVTAVVIKGLADHKDTLGAPLCPCRHYDDKAAEVAQGFWNCPCVPMRERKECHCMLFLTPENDFAGNDQVVKRGGLASDFAQSNIDSGSESRRKRYIERSADNAEDLFSSTNKRQRGDGFHWSSSGERKDAYRVGQNDLRLKLMRKNQSKKIGIGEEHSRMGLHHQLSKNSLPSTSGDVIHRRHEFRGSNLVRRPHSRESADDLYLEHSQRKSTVSYVDRLRVRSPDGIMKSSMGHSPPRYNDEFRRTSSMREADRSRDEWFFRNSVADSYRSVDSAPVKMKAALPVSGKEVKDLTPIGGSMQRSSSMGEGSLSVAGLLSSLGLGKYAIHFQAEEIDMTALRQMGDKDLKELGIPMGPRKKILLALLPRSKQPQPPPPLSMART Homology
BLAST of Tan0021320 vs. ExPASy Swiss-Prot
Match: O49856 (Ferredoxin-thioredoxin reductase catalytic chain, chloroplastic OS=Glycine max OX=3847 GN=FTRC PE=2 SV=1) HSP 1 Score: 234.2 bits (596), Expect = 3.1e-60 Identity = 109/132 (82.58%), Postives = 116/132 (87.88%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy Swiss-Prot
Match: P41348 (Ferredoxin-thioredoxin reductase catalytic chain, chloroplastic OS=Spinacia oleracea OX=3562 GN=FTRC PE=1 SV=2) HSP 1 Score: 215.3 bits (547), Expect = 1.5e-54 Identity = 93/127 (73.23%), Postives = 108/127 (85.04%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy Swiss-Prot
Match: Q9SJ89 (Ferredoxin-thioredoxin reductase catalytic chain, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=FTRC PE=1 SV=1) HSP 1 Score: 214.9 bits (546), Expect = 2.0e-54 Identity = 102/134 (76.12%), Postives = 111/134 (82.84%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy Swiss-Prot
Match: P41349 (Ferredoxin-thioredoxin reductase catalytic chain, chloroplastic OS=Spinacia oleracea OX=3562 PE=2 SV=1) HSP 1 Score: 207.6 bits (527), Expect = 3.1e-52 Identity = 91/106 (85.85%), Postives = 100/106 (94.34%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy Swiss-Prot
Match: P41347 (Ferredoxin-thioredoxin reductase catalytic chain, chloroplastic OS=Zea mays OX=4577 GN=FTRC PE=2 SV=1) HSP 1 Score: 203.4 bits (516), Expect = 5.9e-51 Identity = 96/124 (77.42%), Postives = 105/124 (84.68%), Query Frame = 0
BLAST of Tan0021320 vs. NCBI nr
Match: KAG6602457.1 (Ferredoxin-thioredoxin reductase catalytic chain, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 770.8 bits (1989), Expect = 7.1e-219 Identity = 401/489 (82.00%), Postives = 417/489 (85.28%), Query Frame = 0
BLAST of Tan0021320 vs. NCBI nr
Match: XP_022962043.1 (uncharacterized protein LOC111462622 [Cucurbita moschata] >KAG7033138.1 hypothetical protein SDJN02_07191, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 532.3 bits (1370), Expect = 4.2e-147 Identity = 278/315 (88.25%), Postives = 291/315 (92.38%), Query Frame = 0
BLAST of Tan0021320 vs. NCBI nr
Match: XP_023542365.1 (uncharacterized protein LOC111802287 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 531.2 bits (1367), Expect = 9.4e-147 Identity = 277/315 (87.94%), Postives = 292/315 (92.70%), Query Frame = 0
BLAST of Tan0021320 vs. NCBI nr
Match: XP_022134249.1 (uncharacterized protein LOC111006551 [Momordica charantia]) HSP 1 Score: 529.6 bits (1363), Expect = 2.7e-146 Identity = 281/315 (89.21%), Postives = 296/315 (93.97%), Query Frame = 0
BLAST of Tan0021320 vs. NCBI nr
Match: XP_022989853.1 (ankyrin repeat and SAM domain-containing protein 6-like [Cucurbita maxima]) HSP 1 Score: 528.1 bits (1359), Expect = 8.0e-146 Identity = 274/315 (86.98%), Postives = 294/315 (93.33%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy TrEMBL
Match: A0A6J1HDK6 (uncharacterized protein LOC111462622 OS=Cucurbita moschata OX=3662 GN=LOC111462622 PE=4 SV=1) HSP 1 Score: 532.3 bits (1370), Expect = 2.0e-147 Identity = 278/315 (88.25%), Postives = 291/315 (92.38%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy TrEMBL
Match: A0A6J1BY99 (uncharacterized protein LOC111006551 OS=Momordica charantia OX=3673 GN=LOC111006551 PE=4 SV=1) HSP 1 Score: 529.6 bits (1363), Expect = 1.3e-146 Identity = 281/315 (89.21%), Postives = 296/315 (93.97%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy TrEMBL
Match: A0A6J1JRI8 (ankyrin repeat and SAM domain-containing protein 6-like OS=Cucurbita maxima OX=3661 GN=LOC111486918 PE=4 SV=1) HSP 1 Score: 528.1 bits (1359), Expect = 3.9e-146 Identity = 274/315 (86.98%), Postives = 294/315 (93.33%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy TrEMBL
Match: A0A6J1K0P7 (ankyrin repeat and SAM domain-containing protein 6-like OS=Cucurbita maxima OX=3661 GN=LOC111489570 PE=4 SV=1) HSP 1 Score: 527.7 bits (1358), Expect = 5.0e-146 Identity = 277/316 (87.66%), Postives = 293/316 (92.72%), Query Frame = 0
BLAST of Tan0021320 vs. ExPASy TrEMBL
Match: A0A6J1FGV4 (ankyrin repeat and SAM domain-containing protein 6-like OS=Cucurbita moschata OX=3662 GN=LOC111445564 PE=4 SV=1) HSP 1 Score: 526.9 bits (1356), Expect = 8.6e-146 Identity = 276/316 (87.34%), Postives = 292/316 (92.41%), Query Frame = 0
BLAST of Tan0021320 vs. TAIR 10
Match: AT2G04700.1 (ferredoxin thioredoxin reductase catalytic beta chain family protein ) HSP 1 Score: 214.9 bits (546), Expect = 1.4e-55 Identity = 102/134 (76.12%), Postives = 111/134 (82.84%), Query Frame = 0
BLAST of Tan0021320 vs. TAIR 10
Match: AT1G70180.2 (Sterile alpha motif (SAM) domain-containing protein ) HSP 1 Score: 85.5 bits (210), Expect = 1.3e-16 Identity = 70/185 (37.84%), Postives = 93/185 (50.27%), Query Frame = 0
BLAST of Tan0021320 vs. TAIR 10
Match: AT1G70180.1 (Sterile alpha motif (SAM) domain-containing protein ) HSP 1 Score: 70.9 bits (172), Expect = 3.2e-12 Identity = 62/175 (35.43%), Postives = 84/175 (48.00%), Query Frame = 0
BLAST of Tan0021320 vs. TAIR 10
Match: AT5G48680.1 (Sterile alpha motif (SAM) domain-containing protein ) HSP 1 Score: 69.3 bits (168), Expect = 9.4e-12 Identity = 37/57 (64.91%), Postives = 40/57 (70.18%), Query Frame = 0
BLAST of Tan0021320 vs. TAIR 10
Match: AT3G07170.1 (Sterile alpha motif (SAM) domain-containing protein ) HSP 1 Score: 62.0 bits (149), Expect = 1.5e-09 Identity = 64/199 (32.16%), Postives = 87/199 (43.72%), 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.
|