Tan0011724 (gene) Snake gourd v1

Overview


Name	Tan0011724
Type	gene
Organism	Trichosanthes anguina (Snake gourd v1)
Description	tRNA-specific adenosine deaminase 2
Location	LG09: 68841740 .. 68859541 (-)
RNA-Seq Expression	Tan0011724
Synteny	Tan0011724

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGGATACTTCGAGGGAGGATTGCTCTTCTGATACTCTTGGGTTTATGGAGCTTGCAATTCAGCAGGTGAATAGCCTTCCTATACGAGACGTATGGTTCATCTCATCGTTTATGGTGAATTTTAGTCTCACAATTGTCAAAATAACATATCCACACCTAAAAATAAAATGTATGTAGTTCAATTACTTTCCAGGAATTTATGTAGAGCATGAGACGTATGGTTGGGCGCAAGATGTTTTTTGTTGGTCTTTCACTTTCCCACGAGCACCAGGTCGTATGCATGAGGATCTCAATCGTTACTCCCTAATGTCATTGAGATGCTGCAATACTCTTGTTTGTCTACCGTCTTGATTTTCTGTTCTGATTTTATTAGAAATACTTGCCAATAACTCCATTGGAGTTTGCATCTTCTAATGAATGCCTGACCGTAGTTAATTGGAATATTTTACGTGGTATTTTGACCCATGGGTCGACTTTTTTTTATAAAATAAAATTATTCTATTGATGCGTCTCTCCCGTACTGACATCCTTAAATTATTGGACTTTTTAAATCACACATCTTCGTGAAGGTTGGGATCATGGGAATGAAAAAACAGTATGTGGGGGTTGGGCAAAATGGAGGCTGGAAAAAATTCAAGACTAAGTTTGGCTCATCATAACTATTGTAATATTTCGGAGGAGGAGGAGTGCGTCCATATCAGCTTTGGAACTGAGATCAGAGTGTTCTGTAGGGCCGTCTGTCTTTGGATGGGGTTGTTTGTTTTGTTTCAACTGAAAGCCTCTTTTAGACCCAGTAGATTCTCATCAAATTTAAATTTAAATGTTTGTCTTAATGGTGCCAGATTTATTTATCTCTATAGTAACTCAATATTTTCCCATGTCGTGGCAGGCCAAGCTCGCACTGGACAGCCTTGAAGTGCCTGTGGGGTAAGCTATTTTCTATTTTTACCATTCTTGCCGGCAAGATCTGCTGTGTTGCAAAATGAATTTACTGCATTGGTGCATTTTCAAGAGGATGTATTTACGTTTCACTTCAATGCCCATTCTGACAAATAATTCTTGCTTTAAGTTGAAACGATCATCATGCTTCTAACTTAAATTCTTTGTTTCTTCCTTTCGTGTAGTTGTCCCCAAAACTTGTAGTTATTTATGAAAACATTGCTTATATGAGGTCATCGTATTCTTCTTGGTGTTCAGCTGTGTGATTGTTGAAGATGGGATGGTCATTGCCGCTGGAAGAAACCGCACTACTGAGACCCGAAACGTAATTCAACATGGTTCCTATCTTTCTCCCCCTTTTCTTAATAGATATAATTTTCAATTTATTTAGTGGCTGACGTCAATTTTTGGCAGCTGTTCTGTTTTTTGTTTTTTTTTTGTCCCATTCCTTCATCATATTATTCTTGTCGTTCGGCTGTTATTTAGTGAGTGAGCATGCTTGCTGACAGACGTATCTCTGCATTTGTTGAAGCTAGTACTTCTCTATGAGCCACCCAGGATAGGGATATTTCTTTTTTAATTGGAAACAGAACTTGTGTTAAAGGAATGGGGACAAGACACCATCCATACCAGTCTTAACAAAGTCACTTTGTACATCTATAGAAGGTCGAGATGCAATGTAAGAGACTAAGAGTTAGTCGGAGTTCGAGATAAAGGAGATCAATTTCTCCATTTCTCTTCGTCTTGACAATCGGTACGATGAATAGAATAATCAACAAAGTTGGAGAGGATGTTGTTTAGGGGTTTCAAGGTTGGTAGAAAATAGTTTCATTTAACTCATTTTCTTACTACAAATGACTTACCATTCTTTTACTAGAAGAATAAATTGAAGTTGGTAGGTTGTTCCTTCAAGATTTTTTGGGAATGCTTTGAGTCTAAAAATTAGCAGGCGAAAGTTTTGTAGTAGACATTAATATGACTTATGGTTGGCAAATATTGCTTCTACCTTCAATTGCAATAATTTTCTTGGTCGTTTCTACCTTGACATGTCTTTGGGAGGTGATCAAGGCCTCAATATTTTTAGGACTGCATGGTTGATTAACTCAGCGAAAACTAAATTCCCTTGCTAAAGTTGACATACTTGATCCTACCATTGTTTTCAAGATACTATTTCCATTTGCTTAAAATCCCCAAAATACTTGTTGAAAGGTTGAAAAGGAGATCCTAGATTTCATATAGGAGGGTCTAAAGGAAGAAAGCAGGAACCACTTGGTTCATTGAAAGGAAATGCCTCTTCGGATGAACTTGGGGTCCTTGGGATGGGTAACATCAGGAGAAGAAGTGTTTTTTTTTTAATAATTTTTTTAATGAGAAAACATGCTTTCATTGAGAATAAATGAAAGAATACAAAAGAACATACAAAAAGCCAACCCAACAAACTGAAACACTCCCTCTCCAATGCTAATCTTCGGCTAGGTCCCAGAATCACTTTAGATCACCGACGACTCTTTTTGGACTCTGGGACTCTTAATTGGGGCCCTTGTTCCCTCCATTTCGAGAACATGTGGCTGGAGCACCATTCTTTTAAAGCCTCTATCCCAGCTTGGTGGTAGAAGGGGGTGTCTGGAAATTGGGAAGGGTTTCAGTTCATGGGTAAGCTTAAAGCTCTTAAGGAGGTGTTGAATACTTGGAACCGCGAGGTTTTTGGAGATGGGTTAGGAAGCAAGAGGTCTTAAGCCACCTCCAAGCTTTGGATAGTCTGGAGGAAGAAGGGGGTTTGAGTGAGGTCTTAAAGGAGGAGCATTATTCGGTTAAAAAGGAGTATGAGGAGCTGGTTCGGAAAGAAACGATAAGATGGAGACAAAAGACTAGATTATGTTGGGCTAAGTTCGGTGACGCTAATTCTGCTTACTTTCACAGAATTGCGAGTGGAAGAGGCAATAAGAATGCCATCTGTTCTCTAGAAAATGGAGTAGGTGAGGTTGTGCGGGAGCCAAGGAGGATTGAGGAAGAAATTATATCTTTTCACACAAGCCTCTATGCCCCTCCTGTGCGTAAGCGTGGGTTTCTGGAAGGAATTGAGTGGAGTCCTATCCCTAACGAGGCCTATTCGCCCCTTGTCAGTCCTTTTACCCTTGGAGAGATTCGACAAGTGGTCTTTAGCTTTGACAGAAGCAAAGCCCCTGAGATTGATGGCTTCTCTTTGGCTTTCTTCCAGGACGGTTGGGATACTATTAAAGAGGATCTTTGGAAGGTTTTCTGTGAGTTCTTCGAACGGGAGACCTTGGATAGTTCCCTTTCTGACACTCTGGTTTGTTTGATTCCCAAGAAAGAGGAGGCTAGGAAGGTGGGAGACTTTCGACCGATTAGCCTGGTTACAAATGTGTATAAGATTATTGCCAAGATTATTGCTTGTTGATTGAGGAAAGTGCTCCCTGTAATTATTGCGGACTCGCAAGGAGCCTTTGTGCAAGGAAGATAGATCTTAGATCAATCCCTGACAGCTAATGAGGTCTTAGAGGATTATAGATTAAGAAACCAGGAAGAGATTCTTTTTAAGATTGATTTTGAGAAGGCTTACGATCACGTGGATTGGGATTTCCTGGATAAGGTTTTGGCCAAGAAAGGCTTTGGTTTTAAGTGGAGATCGTGGATGTGGAGTTGTGTGAGATCGGTCAAATATTCTTTTCTGGTGAATGGCTGTGCGAGGGGTCAGGTTTCCGCTACTAGAGGTTTGAGACAAGGGAACCCCATTTCTCCCTTTTTTTTCCTTTTGTGATAGTTGATGTCCTTAGTAGAATTATTTCGCGGGGAGTGGAGAGTGCGATTCTTGAGGGGTTTAGGATAGGTACTGAAAGTTTATATGTCTCTCATCTCCAGTTTGCGGACGACACCTTGTTCTTCTGCTCTGGTAATGAGGAGTCCTTTGTTCACCTGAATAATCTCCTCGCCTTTTTTGAATCTATCTCTGGGTTGTGTATCAATAGGGGCAAATGCTAAGAAGCACGGACACAGACACGACACGACACGACGATGCGTCAATTTCTAAAAAAGTAGGACACGGACACGTTGGGGATACGTTCTTTTTTTTTTAATTATTATTTTAGGATATATGTACATTTAACATAAAATACTAAACTTAATCTACTAAAAAGTATAAAATGTCAAGTTAATTAACCATAGTAATTGTACAAAACACATTATCTAACATTCAATAAACAAAGTTTTCAAATGAAATAAGAGTAAATACAAAAAAAAAAAAAAAAAAAGAAAATAGAAAACATGTTTTGTTCATGAGTGGTAGAAGAGTTTTTAATTTTTTAGTTTTATTATTTATGTTTTTAATGTTTATTTTTTTTGTGTTTAAAATTTCAAATTAAATGAGCTTTTAACTTTGGGCTCAAAATAAATGGTTAGGCCTTTTTTTGGGTTAAAAATTTATCCAACGTGTCCGATGCGTGTCCGTCGCGTGTCCACAACGTGTCCGAAATTAAAAATAATAATAATAATAAGGGACATGTAAATTGGCGTGTCCGACACGTGTCCGGAGCGTGTCTGTGTCCGACACGGACACTTTGTCTAAAATAGAGTGTCCGTGCTTCTCAGGGCAAATGTCAGCTTGTGGGAGTGAATTGTGGTCCTGGAAAGCTAAGAAGATGGGCAAACATGGTTGGTTGTGAGGTGGGTTCCTTGCCGTCATCCTATTTGGGTCTCCCTCTTGGGCATAGCCCAAGGTCTAGTTCGTTTGGGACCCTGTGGTGGGAAAGATCCAAAAAAAGTTAGCCTCATGGAAGAGATGCTTCTTTTCAAAAGGAGGTCGACTTACCCTGATTCAGTCTGTCCTGAGTGGTTTCCCAATGTATTTCATGTCTCTCTTCAAGATACCGACCACGATTTGTAATCATTTTGAGAAGCTAATGTGTGACTTCTTGTGGGAGGGTGTGGAAGAGGGTGGGGGAGTCCATCTGGTTAATTGGGCTACAATGTCTAAATCTTTCGACCTTGGAGGGTTGGGGATTGGTAACTTGAGAGCTCGTAACAAGGTTTTGCTGACCAAATGGTTGTGGCGTTTCCACTATGAAACTTCCACTCTCTGGCATAGGGTCATCGTGAGCAAGTACGGGGAGTCCCCTTTGAGTGGGCTTGTAGTGGTCGGGGAGGCTCCTTTAGATGTCCTTGGACTGGTATTGCGGAGGGTTTTCTTCCGTTCACTGAGCTTGTTCATTTTCGGGTGGGTAATGGGGAGGGCACCTTGTTTTGGGAAGATAAGTGGTTGAGGGATGAACCTCTGTGTTCGGTTTTTCTGCGTCTTTATCATTTGTCTAATTCCAAACATAAGAGGGTGGCTAATGTTTTATTTCATTCGGGTCTTCTTGCGACCCCCTCTTTCGGTTTTCAGCGTGCCTTATCTGATAGAGAGACGACAGATGTCACACCCCTCCTTTCTCTTTTGGAAGATCTTATGTGTTGTCCGGATAGGAAGGATGTCCGCTATTGGCATTCTGATTCGATAGCTGGGTTTTTGTGTCGGTCCTTTTTCCTGTCTTTGGTTAATCCTACCCCTCCTGCTTCTCAAGGGGTGTCAGTCTGTAACGACCTTAGTTTTCAACCCAACTCTAACTAGGGACGCCACTAGGTAGCACCCTATGCGCCGAAATTTCAGCAGCATAACGGCGCTACTCAGACAACTCCAGCTATTGGCGTCCTGATTCGATAGCTGGGTTTTTGTGTCGGTCCTTTTTCCTGTCTTTGGTTAATCCTACCCCTCCTGCTTTTCAGGGGATGTCAGTCTAAAACGACCTTAGTTTTCAACCCAACTCCAACTAGGGACGCCACTAGGTAGCACCCTATGCGCCAAAATTTCAGCAGCATAACGATGCTACCCGGACAACTTCAAAAATTCACTTGACCTGTTTTAAGCAAAGATGCACTTCAAAGGGTTCCCACAACGCTCGACCTCCTCCAAACTACAAATATAACAAGGTCGGGCTCCAACAGAACAGAAACACAACAAGAACAACACATTCACCACTTAAAGCAGTTATACGAGCATGCTATGCCAGAAAACCAAAATGAATAAATTCATGCATCCAACAATCACAACCAGTTCAAATCCAGCCAAACATCAACTAAAAACACAGGATTCAACCCTAAGGTACAAAAGATTTGTCCTAAGTACAAAAATGTTTCTCCGAGTCATAGGAGTGGTCCCATAGCCTTGTCACGCGCCACCGTCGCTCTCCAACTCACTGTTTGCCCTTACCTGCAACCAAAGACATCAAAGTAGACGGGTGAGTATAAGAATACTCAATTAGTAGCCCACTCACGTCCAAGCTACTACTGCACACACAGAAAATAGGTCTAGCTCACAACCAAAAACATCTTAAGACTCACGACTAGGCACCACTCGTGCATACCTCACCCCGAGACTCACTGGCGATCCAGGAACCTAGGCGGCCACAGACGGGGACACACCTTAATACGAAAGAACAATCGCTCTAATGCCCACACAAAGATGCAATAGAGTCTTGAACTCTAAAGTCCACACATATCGCACAACGACGACCCACCCAAGTGCCCACACAACTCGCAAAAGGGTGCGCTCGACCCTAATGCCCACACAGTGATCACAAAAGGTCGCTCAACCCTATGCCACACAGCTCGCAGTAGGATGCTCGACCCTACCGCCCACACAACTCGCATTAGGATGCTCGACCCTAATGCCCACACAGAATCGCCAGCCTAGAGGTTCGGTCTCGCCCGTGGTCTCTTATAGGGTTTGGTGAAGCCAACCTAGAAGGTCAGATTTTCATGCCACCTCTAAGGCTTCCCCTAAACTTATCTTGCCGTTGCCTTAGGTGCCTTCCTCTAGAGTCCTTAACCACCAGTCCAACCTAATCAACCACGCAACCCAAGCCAAGAAACCCTTGGCCCAACCACATAGCTATCAACCAAGCACCCTTGGCCTAACCAACCACACAACTTAAACCATTCAACTTCCAGGGGTCGAACACACATCTCATACTACCACATAGGAACTCACACTCAAGTCTCCTCACAAGCAACCAGTCACAGGTCATAAAGCATCACATTCACGACATGCAGAAAAACCAATTTCAACACAAAAGGCAATGCAGAAGATATTCAGGGTCTCATGAATTTGTCTCCTACCAAAACAGTTACTAGAAATCCACACAGCAAGATACAAAGCAAACCATAAGCCGTAAGCGATCTTGTGCACAAACTCTATCGGTTAAGAGCTTGATGCCTAAACCAAACGACTACTTACCTTTTTGTGGGAGCACGAAGGTTGTCAGGAAAAACAAAAACCCTTCCTAACTGCGCGTTCAACCCACCTAGGGAAAGCAAAACCAAAGCAAAGCTAGACATCAGAGATACTTTTAATCTATCCTTTATTAGCCCTAACCCCATTATACAGTAAACACTAAGGTAAGAAGCACTGTGCGAAACACTTCAAGTTGTAGGGAACTCACCTAGCACGAGCGTCAAATGGTTCGCCGACTCGCTCCTAGTCTCGAGATTTCCCCAACAATGGCCCCTTAACCAACGGATTCGTCCCTGCCAAACCGAAAAAAAAAGCCACAGATCAGAGGGAGAGAGAGACCGAGAGGCAGCTGAGGGGAAGGGAGAGAGAGATCCGAGAGAGCAGTCGAACGGTCGACCGACGACTGTTGATCCCCCTGCACGAGGAAGACGAAGGCGAACGACGGTAGTCGACGCGCGGACTGGGCTTCGATGCGACGTGGGTCTCGGCTCGGAAAGGGATTGAAGGAGATAAAGGAGAGACGGAAACGACGATGGTGGTTGAAAGGAGACGACGAGGTTTGGTTGGGCGCGAGGGGTCGACTACCCGACGTCTGGGCTCGGCGGCGACCGACAACTGGCGGTCAAGCTTCTCCGGCGGGGTCCTCACGCGAAGAAGGTAAGGCGAAGGGGAGGGGGGGTCGCACGTCTGCCCTTCACGTTTCCCTCTTTTTTTTGTTTAAAAAAAAGTTAAAAACCCTAAGTGCCCAAACGAAAGGGAGAGGGAAGAAAAAAACCTCGATTTGCTTCCCCAAAATGCACGATATAAAAAATTAGGGAGCTGACAACTCGAATTTAAAGGCGAGGCTTAACCAATTGGGTCCCTGCAAGATCCAATAATTTACTTCCTAGCCCAAAATTCTGAAATAAAAACGAAATGAGCCCGGAACACAAATTTGCAGAATTAATAACTTTACCTGAATTTTACCGGCCATCGCCCAGTCTTTTCCTTAGTTTGGAAGGTGAGAATCCCTAAGAAAGTAAGGTTTTTTACTTGGCAGGTCCTTCACGGAAGAGTTAAAACTATGGATAGAGTTTCGAGGAGATGACCATCCTTGGTTGGGCCCTGGTGTTGTATTCTTTGTAAGAAGGCGGCTAAGGACATTGACCATTTGTTTTGGAGGTGTGAGGTGGCTCAAGACGTGTGGACGCTATTTTTCGGAGAGTTTGGGATCCCCTTTTCTAGGGGGGGGTGAGGTTTGTAGACAGGTCTTGTTGGAGTTCTTTTTTTTTTTTCCTTGACAAGGCAACAAAGCAATTTCATTGATATAAGAAAAACACAAAAGAAAAAGTACAAGTCTGTAAAAGCGAAGAACAAAACAAAACATCCAGCAAGAAGTAACAATATCAAAGAAACTCTAGAAAAAACAACCAAGATTAAGCATTATGAATAAAAGGATGCCAAGTAAAGCACAAATCTGAAGTCGAGTAGTCAGCAAATTCCTGGGAGAGAACACACCAAGTAGAGGCCTTTAGAAAAATCGAATCAAAATCTTCTATCCCACCCCACTTCTTTATCTTCAATCAATCAAATCTTCTATCCCACACCAAGTAAGAGGTCTTGTTGGAGTTCCTTTGCATCCCCAGGTTCAGGGGAGAGTGACCTTTTTGTGGAGGGCTGGAGTTTGTGCCATTCTTTGGGGGCTCTGGGAGGAGAAAAATAATAGAATCTTTCGAAGGGTCGAGCGATCCTCTTTTGATATTTGGACCCTCATTAGATTTTATGTTTCTCTTTGGGCCTCGGTGGCTAAACCTTTTTGTAATTATCCTTTAGATTTTATTTTGCTTGGGTGGAGTGCTTTACTGTAAGCTCCCCCTTGCTCTTTTGTGGGCTTGTTTTTTTGTGCGCCCGTGTATTCTTTCATTTTCTCAATGAAAGTTCGGTTTCTCATTAAAAAACCCTATAAAAGCTATACAAAAAAGGGGGTCAAATCTAAAAGGACCAACTCTAGAGGATAATTACAAAAAGCTTTTGTCACTAACACCCTTAGGGAGGCATTAAACCTAACAAGGACTACACCTCCTCTTAAGATCTCTTAAGCTCCTAACAAACTCTCCTGTTCCTCTCCAACCCCAATCCCCACCAAATAACAGCAAACAATGAAAACTACCACACGATGCTCCTTTTATCATGAGATGGGGATGGAAGAGCCTCTACTCCATCATCCACAAAACACTTGCTATTCCAGGCCCAACAAACGTCAAAGGTCTCAAGAAAGCAAGTTCCAATTGAGGAAGCATAGGGGCAACTCCAAAACATGTGATTCAAATCCTTTGCTGCACGCCCTTGAAAGGATTACATCACTGTGGACCCAACAAGAAGGGGGAGTATCTAATGGTACGATCCATGATATTGAATCTGCCAAGCAAATAAGCACACCTTCTTGTGCACTTTTTTTTTGACAAGGCAACAAAGGTTTCATTGAAATAATGAAAGGAGACTAACGCTCCAAGTACAAATCTTACAACGAAAAAGAAAAATCAGACCAAAACAAAGCAAAGACCCAAGAGAACATTAAAAAATCCAACAAAACAACAACGACAAATGACAGCCGAAGCGAAAGAAACAAGAAGGAACCAAAGAAGCCACACTTAACCACAACACGACCAAACAAAACCAAAAGTAACCCAAACCCAACCGAATCCTACCAAGACTAACTGCTAAAAAAACCGACCAAAGAACTACCTCAACAACCAACCAACAAAAGCACAAACCAAAACACCCAAGCACTCCCAACTGCGGATCGAACAAACTACTGAGGACAAAAACCCACACAATTCCACAAGCTCCAAAAAGACTTGATACTTAAAATCAAAATAAAACCAAATCTGATTCCTGAAGCAACGCCACGAACAAACTTAATCTTTAGTCCACCCAACTTAGAAACACCCCCAAACCAACCCCCTTTACGAGAGAGAATTCAATGAGTCAAAGCAACTTCAAAAGTAGGGCCAATTCCTCTAAACTGCAAACCACTAGTTTTGATTAACGATTCAAATCTACTTAGTTCCGGAGGTACGACTGGATCTGCAAGAGGTGTCAAACAAACCTTTTTCTACCAGCTTTGGACTACCTGGGGAATCAAACAAACTAGCCAAATTGATAATAGGTGGATCCACAATCAAGTCCTTAGGCACTTTGACACTCCATAATGAGGCGAATAAAGGAGAATGTGGAATATCAGAGTTACACTGAAGATGAAAGAAGGATCCGCAAGAAAACCCCTCCAAAGGACATGGGATCACACACGAAGATCCCTGCCACCTGGATACAAACGGACCAAATCCAACAGAGCAAGTAAAGAAGCAACGTCCACAGCCTCCCTATCCAACAAAGGCCAACAAAAAGATCAACTTATCCACCAACACTTTTGAAGAGTAGGTTGGGAGGCTTGCTTATGGATGGGCGGGAGAGGTAGCTATTATGTATGGAGTGATCAGTCAGATGTGGGATGACTCAAAGAAATGCTGGAACTTGTCTTTTTTATGCGGTTATTCATGGATAGTGATCTGGATGGATGGAAAGATATGTTGAGTGCTCTGTAAAAGGTCAACCTGAGTGACCTAGAATTTGATATGCCGATAGCATAATCCCTTTTTAACTAGGCAACGAAAAAAATTTCAGACTAATAAGCAGCTCTATGGGGGAAACGAAAGTTTCTTTAAGATGTGTAATTTCAACATGCCTAAAATCTATTCTTTGTTGTGATGTTTTTACCCTTGTATGATTAACACCTATGACAGGATCTTCTTCATTTTTGTGCAAAGGAAAAAAGCTCTGACTGTAGATGAACGGCTGCTTCATACTCCTGTCTTCACCTTTCAGCTAAGGACAAGTATAGGCCCACCGTTCAAAGAAAAATCACGACTATGCCCCTCTCATCACTAAAAAAGGTATCGTTTCTAGAAAAGGCCTAGTTCAGCACATTTGCAAAAAAAGTCGAAGGCATAGTATATTATTCTCCCCTGTTCATTGAAAAAGGTCTTTTGTTAAAGAGCAGGATTTGATCTCTACCCAATGAGATACCGTGATGACAGTAGAGCTTTCGTAGAGGAAACCTTTGAGGTTCAGGATGCGTTGGCTAAGGATCTTGGGGACACTAGAGCTTCTGTTCTCCTTTTCTTGTTAATTTGATGGTTTTGTTCCCATCCAGAAAAAAAAAAAGGAACTTGGAGACAAGTTTTGAAAACATTTCAGCGAAGATCATTTAACTGTTTTCAACATAGAGGAGTTTGAACTCCCATATTCGGGGGCATGTTCCAAAATACCTGAGTTGCTCTGATGAATTTTTACTGAGGTGGTTCCTTTGCAAAGCTTAGAAGCTGGTTGCAGTAGTTCTCAAGTTTACACGATTTTGGATTCTCAGAAGAGAATTATCTTGTTATAACTCAACTGAATGAATATTTTTGGGGCCTCAAAATTGGATGCTTACCTAAGATATTAAAATTCCTACAAGATTTCTATGCTAAATGTTCAAGCAGTTATTGTGTGCAGTCCAGGTACTCATAAGGTAGTTAGTGTCATAACCTTATACCATTTTTTTTTTTAAAAAGAAGGAAGAATTACAAGGTAGTTTAGGTTTAAAGGAAGGGTATGCGGGAATTTCCATTACCCCAACTTTCCTTTAAGATTGCGGTGACACATTCTGCTGGCTTGTTTTGTTCATAACGTTTGTAAGCTTTCTTCTGTACATTTTTTATTTTATATCCTCTTAGGCTACCAGACACGCAGAGATGGAAGCTATTGACATCCTGATTGAAGCATGGCAGGGTGATGGACTTTCAACCTCAGAAGTTGCTGATAAATTCTCGAAGTGTAAACTTTATGTTACCTGTGAACCATGCATTATGTGTGCTTCTGCCTTATCAATACTTGGTATGTTTTCTTTGCTCCTTTGTTTCCTTTTTCTCATTTCTCCACGCAGAGGTAACTGTTTGTCCGAAGGGTTCTAGGTCATAGTTACCTTTCACTTAACTTCTGAATATGATTCATTCATTGCTATTGGATCTCCTGTTTTAGGTATAAAGGAGGTATTTTATGGTTGTGCAAATGATAAATTTGGTGGATGTGGATCTATATTGTCACTTCACTTAGGTAGCCGGGAGGCACATACAAGGTCGATTTCTTTATCTACCAATATCAGATTTTAGTTTTGGGGGCGTGAACTCTTTGGTTTTCTTGAACACATTGCTGCAGTTAGTTGTTCACCTTTCCAAATTAAAATAAATTTTATTGTAATTTAAAGTCTTTTACGTACTTGCAAGCTATCAATTCACATGCTTCCTTCGAACTGGGTTTTCTTCAGGAAAAGGTAGGATAAAAATACACCTGCCATGGAAGAATTCTGTAACTTTTCTTTTTCCTTTCGTACTTTTTTTTGTTGGAAAAGAAAACTTAGGACAATAGACAGAATCAAATTGAGCTAATAGGAGAGGGCTGTCGGGGGAGCTCTTCTCATCTGATTTGATTTTTGTTTCCTCTTTGAGGAGAGGGTTGGGAGAAGGTTATGATAGGATATTTTCTTGAAAACTTAAAGCTTGGACGTGTTGTTTGGCCGCAAAATAAGATTAAGTGTTCGGTTTGGTGTTCAGAGGATGTGGGCTGGTTTCTTGTGAAGGCTTTTGTGGAGGCTGTTGGCTGGTTTCTGGTGTGTAAAAGTTTTTGTGGGTTGAGCGGTCTTCGCTTGCTAGTTTTTGTGATGGGCTTTGGAGCGTGAAGGGCGATTTTAAGTTTTTTTTTTGGTTCGTGTATGGAAGCCCTTTTTGAGTGTGTCTAGAAGCTTGAAGTAGTTTTTATCAGTTTTCTGCCAAAGCCGGGTGTTGTTAGTTCAAGTTCCTTGATTGATAGATTTTTTGTTGGAGCGGTGGGAAGAACTGTCTTCAAAGTTCCAGGGGGAGCATGCTTTTCTGTGGATTTGTTTGTTTGGGGCTTCGAGTTGGTTCATGACTTTCTTTTGAATTTTGTTCTTTATGAGATTTTGACTATGTTGGTCTCTTTTGGGGTTTTGTGAGTTGGGTTTTGATTTCTTGTAAGGGGTTTATTTTGTTGTTTTTGTTTCTCTTTGTATTTGAGACTTTGTCTCTCTTTTCATTATTTCAATGAAATTTCTGTTGTCACAAAAAAATTGAGCTAATAACTCGGGGAATTCACTTCAAACTTTAACTAATGTACTGCATAAGAGATTTTTTATTTTTTACTTTTTATTTTTTATTTTTTTTTGAAGACTATAAAAGAAATGGAAACCCAAAACCACAAGAGAAGCATTAGATAACAGGTTTCAAATTCCTACGGATATTTGATCCCCATACACATTTTAGGTATTTAATGAATTACAGCCTGAAATAGATTTGAAATTGGAGATTGACTTGACTTGTTTCACACTTAATTGATCTGAACTGGTTTGACCGACCCATTAGTGAGATAGTCTTGTTAACTTGATTTATGAGATGTTTATGGGTGTTATATCATGTTGTCTCAATAAAAGAAGAGGAATAGACTGTATAAAAGAATTTTTTCGATGAAGACTTGTACGGAAGAAATAGAAAACCAAAACCACAAGAGAAGCATTGGACAACAGGTTTCAAATTTCTACGGAATATTTGATCCCCGTTTAAACATTTTAGGCATTTTATGAACGACAGCCTGCCATAGATTTAAAATTGGAGATTGACTTGACTTGTTTCATCCTTGCTCTGAACTGCATTGACTTATCCCTATTACTGGAATAGCTTCCGGTACACCTGTTACAATTTTGACTGCCCAATAACCAATTTGGTCCCGAGGTAAGGAATAACCAGTTACACCAAAAGATGCGGTCTATACAAACTGAACCACACCTCAGAAACTCAAGTCAATTCACGAGGTTTTTAAAGCCACCAAAGAAGATACACGCAAAATACGTGCAGGATCATCATTAAGACCATCATACTTGCCGACCATCTATGAACTGATCGGATTAACCAACCAAAGTTAGCTTCCGTCATTATATATTGAACAAAAGCAAAAGCCTCAGTAACGGTCGGACGATAGTCAAAAGTCATAGCAAACCCCGTAGCTACTTGTACTAAAATACAAGTAAGCGTAATTCCTCCTAGACAATAAAATATGTCACGTTGTCTCAATAAACCTCAACCTACAAAGTCCTATATTTATTTGCATCTCTCCTCAACATCGCGATAAATACTGATCTTTGAGTTTGACTGCAGTGGTTCTAAGCATTATGATCTTGTGCAGTTGTGCTAACTTAACTTGAGCATAGCTCAATTGGTTAAAACCTAAGAAACATGACCATTGATATGAGACATGAATGTGACCGGACACAAACATGATGATTCATCATTTTTAAAAAATTTAGGACACAGACACGACAAGAACACATTTATTAAGATATACATTTTTTAAAAATATATATCATTTTCATACCAAATAGAAATTAAAAGTTAATAAGTTTATGCATTTATATGCTTAGAAAAATGAGTTTGATGTATTTGACTCTCAAATTTTATTATTTTTGTCCTATATTATTATGTGTGTATTTAGTATACTTAACAAATGTTTGATACATGTCTAACAAATTTTGGACCTATTTGACTTTGTATAACTAGTGTTTAACTGTTAGGGTACTATTAGGGATTTAGGGATAGTAGTAGTATGGTGTTAGTAAGGGCATAAGGGTAATTAGTTGGGGAGTTAGTTAGTGCTTTTGGTTATAAATAGAGAGAGTGGGATTGAGGGAAAGGTAAGCAATTGTTGAGTGGTTTTAGGGCTTGGGTTAGCATACTCAAGAGGGAGGTTCCAAGTGCCTTATACTTGGTTTATCTTGTAGTTTTTATCCTTCTCATTGCAATATATCTCAGTTCTTAGTTCTTGGTATTTGGGTCCTAACAATTGGTATCAGAGCACGTTCATCTTGGGCATCGTTCTTAGCAATGGATCAAGATCGTGCGTTGTTGAAAATACAGGGAATCCTCAAGGAAATGCAACAAACATTGAAAAGAATGCAAAAACAGTTTGAAGATAGTGATCGCTAAAAGATGGAGAGACAACAAAAACAAGAGACAGATAGAGAACAAAAGAGGAAGAAGGAAGATGAAGAAACAATGAAAGAAAGAGAGAGGAAGGAAAAATTGATTAGATAAAAAAAGAACAGTTGTAAGCTTAGTCAAAGAGTGGCGGGAAGGCGTTGGTCTTACTCGAAGACACCTCCAAAAGCGCGAGGGAACACCAGTCGAGAAATTCCAAAGGTGAAAAAGGAAGAATCTCCTCCAAAAAAACATAAGAGGAGGTGAGAATCATGGAGTTTGGTGGAGCAAAGTCGATAAAACATTCATAAAGAAGGTGAAGAAGAAATCGAGGAAGAGAGAAAAGAAAATGTGTAGGCGGTCTCATGATGGAAATGGTGACGAGCAAAGGGATGGAAAAGCAACGAAGGGAAGAAGAAAAAAAAATACCAATGAGAAGGCAAGGCGACAGACGAAGGAAGAAACGATGGAAGAAGAACTTGTTCGAGGTCACCGGTGGCAGACGAGACGAAATGACACTAATGGTTAAGTGGCGGGAGCGACAAGGTGACCGGCGAATGAAAAAGTGGTGGAAGAAAGATACAAGAGCAATCACCAACAACCGGACGAAGAGTTCGTATTTGCTGAAACTTGAAGAGGAAGGTGGGCGGCCAAGGACGAAGAAGAGTTGGGGAAGATGCTGCAAATTTCGTGAAGAGGTGGAGAACCAAATTACTAGTCACGTGAAGTGTCAGGAGGTGGGGCCAGAAGTTGAAAAAGTTGCAGCGCCATTAACTGGTTTGGTTTATGGGCTAGATTTGCACGAAGGGGCCCATTTCTTTGTCAAGGGGAATAATGAGTTATGCAAGTGGATTTTGGGCCCTTTTCATTGCAAAATGCAAGTATGGAAGTGGTCTACGGGAATTTGAGTGGGCTGCTTTATCAGGGTTGCAGTTTTTTTTTTTCCTTGAAATTTTGCTGTTCTTTTTTTTTTTTCTTCTTTTTTTTAGAACATTTTTGGTTTGAGTCTTGTAAGCACACCTTGAGGACAAGGTGTTTTGAAGGGCCCGGTAATGTTAGGGTACTATTAGGGATTTAGGGATAGTAGTAGTATGGTATTAGTAAAGGCATAAGGGTAATTAGTTAGGGAGTTAGTTAGTGTTTTTGGTTATAAATAGAGAGAGTGAGATTGAGGGAAAGGTAAGCAATTGTTGAGTGGTTTTAGGGCTTGGGTTAGCATACTCAAGAGGGAGGTTCCAAGTGCCTTGTACTGTTTATCTTGTAGTTTTTATCCTTCTCATTGCAATATATCTCAGTTCTTAGTTCTTGGTATTTGGGTCTTAACATTAACACATACCTATTATGCTAACTAACAAGTGTCCAATATTTGTCCGACAAGTGTCAGAGTGTCCAAGTGTCAAACATGTGTCGGACATGGACATGCTAGCCAAACTAAAGTGTCCGTGCTTCTTATGATCCAACCATCTTTGGAATTCCCAGCTTTTTTTGCATTATTGTCCATTAACTCCATAGTTGAAACAAAATAACATACCAGGCAAGCAACATACATTTAAAACTCCCAGAGCCTTGAATTGTTACTAGTGATGCATAATGATGAACAAATAATTTAATCACGCTAGTACAAGCACACATGAGATCCCTTGCTATTAACGTTGATTGTTGGAAGAAGGTAAGAGGGTTAAGCGATTAAGAGGAGTAGGGTGTTAAGCGTGGAACCTTAAGTAACTGAACCGTTTCTGATGTAAGCATGAGAGTGTTGGTGGATGTAGAAAGGTAGACTTTGGTGAGGGACCTAAAATATTGGGATAGTACAAGCTCTCTAAATTTCTCCTAGATATATCACTTGCCGTATTAGTAAGAACTCACAACAATGCGTATTAGTAAGAACTCACAACAATGGTCATGTCAGTGTTTATTAGGCATGTAAACACGGAAGGGCTTAGAGGGAATGAATTTAAACCATGATATTCACCTAAGATTCAATACCCTACAAGTTATCTTGGCAATCATGTATACGTATGTAGTAGGGTCATGATAACTATGTATACATAGTAGGGTCAGACAATTGTCTTGTGAGAACAGTCGAGCTGTGTGCAAGTTGACTCATTTTGTCTAGTTCTTCTTAATTTATGTAGTACTTTTCTTTGTTATTGCCTAAATCTCTCTAATTTGTTATGATAGTGGTAATGGGCAAGGAGGGGGGTTCAAATGCACTGCAGGAATAATGGCATCAGAAGCAATTGCTCTTTTTCGAAGTTTTTACGAACAGGGGAATCCCAATGGTATGTGAAATTATTTTGATAATCTGATCTGCACGGTTTGCTCGTGTATTGCACATTGTATCTTCCAAAGACCCACTTATTTTGTTGGTATAATCTATTAGTCATGTTTTTTGTCTTTTGGATTGAGAGACTGAAAAAATGTATTACATCTTAGAGGTTTGATTGATAGTGGTGGTGTTCTGTTGCAGCTCCAAAACCTCACAGGCCCCTTGTTCACCACCAGGCAGGTCAATGA

mRNA sequence

ATGGATACTTCGAGGGAGGATTGCTCTTCTGATACTCTTGGGTTTATGGAGCTTGCAATTCAGCAGGCCAAGCTCGCACTGGACAGCCTTGAAGTGCCTGTGGGCTGTGTGATTGTTGAAGATGGGATGGTCATTGCCGCTGGAAGAAACCGCACTACTGAGACCCGAAACGCTACCAGACACGCAGAGATGGAAGCTATTGACATCCTGATTGAAGCATGGCAGGGTGATGGACTTTCAACCTCAGAAGTTGCTGATAAATTCTCGAAGTGTAAACTTTATGTTACCTGTGAACCATGCATTATGTGTGCTTCTGCCTTATCAATACTTGGTATAAAGGAGGTATTTTATGGTTGTGCAAATGATAAATTTGGTGGATGTGGATCTATATTGTCACTTCACTTAGGTAGCCGGGAGGCACATACAAGTGGTAATGGGCAAGGAGGGGGGTTCAAATGCACTGCAGGAATAATGGCATCAGAAGCAATTGCTCTTTTTCGAAGTTTTTACGAACAGGGGAATCCCAATGCTCCAAAACCTCACAGGCCCCTTGTTCACCACCAGGCAGGTCAATGA

Coding sequence (CDS)

ATGGATACTTCGAGGGAGGATTGCTCTTCTGATACTCTTGGGTTTATGGAGCTTGCAATTCAGCAGGCCAAGCTCGCACTGGACAGCCTTGAAGTGCCTGTGGGCTGTGTGATTGTTGAAGATGGGATGGTCATTGCCGCTGGAAGAAACCGCACTACTGAGACCCGAAACGCTACCAGACACGCAGAGATGGAAGCTATTGACATCCTGATTGAAGCATGGCAGGGTGATGGACTTTCAACCTCAGAAGTTGCTGATAAATTCTCGAAGTGTAAACTTTATGTTACCTGTGAACCATGCATTATGTGTGCTTCTGCCTTATCAATACTTGGTATAAAGGAGGTATTTTATGGTTGTGCAAATGATAAATTTGGTGGATGTGGATCTATATTGTCACTTCACTTAGGTAGCCGGGAGGCACATACAAGTGGTAATGGGCAAGGAGGGGGGTTCAAATGCACTGCAGGAATAATGGCATCAGAAGCAATTGCTCTTTTTCGAAGTTTTTACGAACAGGGGAATCCCAATGCTCCAAAACCTCACAGGCCCCTTGTTCACCACCAGGCAGGTCAATGA

Protein sequence

MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKPHRPLVHHQAGQ

Homology

[Close]

BLAST of Tan0011724 vs. ExPASy Swiss-Prot
Match: Q6IDB6 (tRNA-specific adenosine deaminase TAD2 OS=Arabidopsis thaliana OX=3702 GN=TAD2 PE=1 SV=1)

HSP 1 Score: 273.1 bits (697), Expect = 2.4e-72
Identity = 132/183 (72.13%), Postives = 150/183 (81.97%), Query Frame = 0


Query: 6   EDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEME 65
           ED   D+  +M  A+ QAKLAL++LEVPVGCV +EDG VIA+GRNRT ETRNATRHAEME
Sbjct: 3   EDHCEDSHNYMGFALHQAKLALEALEVPVGCVFLEDGKVIASGRNRTNETRNATRHAEME 62

Query: 66  AIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFG 125
           AID L+  WQ DGLS S+VA+KFSKC LYVTCEPCIMCASALS LGIKEV+YGC NDKFG
Sbjct: 63  AIDQLVGQWQKDGLSPSQVAEKFSKCVLYVTCEPCIMCASALSFLGIKEVYYGCPNDKFG 122

Query: 126 GCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKPHRPLV 185
           GCGSILSLHLGS EA      +G G+KC  GIMA EA++LF+ FYEQGNPNAPKPHRP+V
Sbjct: 123 GCGSILSLHLGSEEAQ-----RGKGYKCRGGIMAEEAVSLFKCFYEQGNPNAPKPHRPVV 180

Query: 186 HHQ 189
             +
Sbjct: 183 QRE 180

[Close]

BLAST of Tan0011724 vs. ExPASy Swiss-Prot
Match: Q5E9J7 (tRNA-specific adenosine deaminase 2 OS=Bos taurus OX=9913 GN=DEADC1 PE=2 SV=1)

HSP 1 Score: 155.6 bits (392), Expect = 5.6e-37
Identity = 83/171 (48.54%), Postives = 110/171 (64.33%), Query Frame = 0


Query: 9   SSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAID 68
           + +T  +ME A+Q AK ALD+ EVPVGC++V +  V+  GRN   +T+NATRHAEM AID
Sbjct: 19  AEETEKWMEQAMQMAKDALDNTEVPVGCLMVYNNEVVGKGRNEVNQTKNATRHAEMVAID 78

Query: 69  ILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFGGCG 128
             ++  +  G S SEV   F    LYVT EPCIMCA+AL ++ I  V YGC N++FGGCG
Sbjct: 79  QALDWCRRRGRSPSEV---FEHTVLYVTVEPCIMCAAALRLMRIPLVVYGCQNERFGGCG 138

Query: 129 SILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPK 180
           S+L +      A       G  F+CT G  A EA+ + ++FY+Q NPNAPK
Sbjct: 139 SVLDI------ASADLPSTGKPFQCTPGYRAEEAVEMLKTFYKQENPNAPK 180

[Close]

BLAST of Tan0011724 vs. ExPASy Swiss-Prot
Match: Q7Z6V5 (tRNA-specific adenosine deaminase 2 OS=Homo sapiens OX=9606 GN=ADAT2 PE=1 SV=1)

HSP 1 Score: 151.8 bits (382), Expect = 8.1e-36
Identity = 80/171 (46.78%), Postives = 110/171 (64.33%), Query Frame = 0


Query: 9   SSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAID 68
           + +T  +ME A+  AK AL++ EVPVGC++V +  V+  GRN   +T+NATRHAEM AID
Sbjct: 19  AEETEKWMEEAMHMAKEALENTEVPVGCLMVYNNEVVGKGRNEVNQTKNATRHAEMVAID 78

Query: 69  ILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFGGCG 128
            +++  +  G S SEV   F    LYVT EPCIMCA+AL ++ I  V YGC N++FGGCG
Sbjct: 79  QVLDWCRQSGKSPSEV---FEHTVLYVTVEPCIMCAAALRLMKIPLVVYGCQNERFGGCG 138

Query: 129 SILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPK 180
           S+L++      A       G  F+C  G  A EA+ + ++FY+Q NPNAPK
Sbjct: 139 SVLNI------ASADLPNTGRPFQCIPGYRAEEAVEMLKTFYKQENPNAPK 180

[Close]

BLAST of Tan0011724 vs. ExPASy Swiss-Prot
Match: Q6P6J0 (tRNA-specific adenosine deaminase 2 OS=Mus musculus OX=10090 GN=Adat2 PE=1 SV=1)

HSP 1 Score: 150.6 bits (379), Expect = 1.8e-35
Identity = 80/169 (47.34%), Postives = 109/169 (64.50%), Query Frame = 0


Query: 11  DTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAIDIL 70
           +T  +ME A++ AK AL+++EVPVGC++V +  V+  GRN   +T+NATRHAEM AID +
Sbjct: 21  ETEKWMEEAMRMAKEALENIEVPVGCLMVYNNEVVGKGRNEVNQTKNATRHAEMVAIDQV 80

Query: 71  IEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFGGCGSI 130
           ++     G S S V   F    LYVT EPCIMCA+AL ++ I  V YGC N++FGGCGS+
Sbjct: 81  LDWCHQHGQSPSTV---FEHTVLYVTVEPCIMCAAALRLMKIPLVVYGCQNERFGGCGSV 140

Query: 131 LSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPK 180
           L++      A       G  F+C  G  A EA+ L ++FY+Q NPNAPK
Sbjct: 141 LNI------ASADLPNTGRPFQCIPGYRAEEAVELLKTFYKQENPNAPK 180

[Close]

BLAST of Tan0011724 vs. ExPASy Swiss-Prot
Match: Q5RIV4 (tRNA-specific adenosine deaminase 2 OS=Danio rerio OX=7955 GN=adat2 PE=2 SV=2)

HSP 1 Score: 144.8 bits (364), Expect = 9.9e-34
Identity = 78/171 (45.61%), Postives = 106/171 (61.99%), Query Frame = 0


Query: 10  SDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAIDI 69
           S+   +M  A   A  AL++ EVPVGC++V +  +I  GRN   ET+NATRHAEM A+D 
Sbjct: 19  SEVQTWMAKAFDMAVEALENGEVPVGCLMVYNNEIIGKGRNEVNETKNATRHAEMVALDQ 78

Query: 70  LIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFGGCGS 129
           +++  +   L   +  +   +  LYVT EPCIMCA+AL +L I  V YGC N++FGGCGS
Sbjct: 79  VLDWCR---LREKDCKEVCEQTVLYVTVEPCIMCAAALRLLRIPFVVYGCKNERFGGCGS 138

Query: 130 ILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 181
           +L +       HT     G  FKC AG  A EA+ + ++FY+Q NPNAPKP
Sbjct: 139 VLDVS-SDHLPHT-----GTSFKCIAGYRAEEAVEMLKTFYKQENPNAPKP 180

[Close]

BLAST of Tan0011724 vs. NCBI nr
Match: XP_022135334.1 (tRNA-specific adenosine deaminase 2 [Momordica charantia])

HSP 1 Score: 364.0 bits (933), Expect = 7.9e-97
Identity = 178/191 (93.19%), Postives = 184/191 (96.34%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+SR+DC SDTLGFMELAIQQAKLAL+SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSRQDCPSDTLGFMELAIQQAKLALNSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAW+ DGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEV+YGCA
Sbjct: 61  HAEMEAIDILIEAWKRDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGS EAHTSGN QG GFKCTAG MASEA+ALFRSFYEQGNPNAPKP
Sbjct: 121 NDKFGGCGSILSLHLGSCEAHTSGNRQGRGFKCTAGTMASEAVALFRSFYEQGNPNAPKP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLVHHQAGQ
Sbjct: 181 HRPLVHHQAGQ 191

[Close]

BLAST of Tan0011724 vs. NCBI nr
Match: XP_023530916.1 (tRNA-specific adenosine deaminase 2-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 363.6 bits (932), Expect = 1.0e-96
Identity = 178/191 (93.19%), Postives = 184/191 (96.34%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+SREDCSSDTL FMELAIQQAKLAL+SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSREDCSSDTLRFMELAIQQAKLALNSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAWQ DGLSTSEVA+K SKCKLYVTCEPCIMCASALSILGI EV+YGCA
Sbjct: 61  HAEMEAIDILIEAWQRDGLSTSEVAEKCSKCKLYVTCEPCIMCASALSILGINEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGSREAHTSGNGQG GFKCTAGIMASEA+ALFRSFYEQGNPNAP P
Sbjct: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGRGFKCTAGIMASEAVALFRSFYEQGNPNAPNP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLVHH+AGQ
Sbjct: 181 HRPLVHHRAGQ 191

[Close]

BLAST of Tan0011724 vs. NCBI nr
Match: KAG7021699.1 (tRNA-specific adenosine deaminase 2 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 357.8 bits (917), Expect = 5.7e-95
Identity = 176/191 (92.15%), Postives = 183/191 (95.81%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+SREDCSSDTL FMELAIQQAKLAL+SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 13  MDSSREDCSSDTLRFMELAIQQAKLALNSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 72

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAWQ DGLSTSEVA+K SKCKLYVTCEPCIMCASALSILGI EV+YGCA
Sbjct: 73  HAEMEAIDILIEAWQRDGLSTSEVAEKCSKCKLYVTCEPCIMCASALSILGINEVYYGCA 132

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGSREAHTSGN QG GFKCTAGIMASEA+ALFRSFYEQGNPNAP P
Sbjct: 133 NDKFGGCGSILSLHLGSREAHTSGNRQGRGFKCTAGIMASEAVALFRSFYEQGNPNAPNP 192

Query: 181 HRPLVHHQAGQ 192
           HRPLVH++AGQ
Sbjct: 193 HRPLVHNRAGQ 203

[Close]

BLAST of Tan0011724 vs. NCBI nr
Match: XP_022933579.1 (tRNA-specific adenosine deaminase 2-like [Cucurbita moschata])

HSP 1 Score: 355.9 bits (912), Expect = 2.2e-94
Identity = 175/191 (91.62%), Postives = 182/191 (95.29%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+SREDCSSDTL FMELAIQQAKLAL+SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 13  MDSSREDCSSDTLRFMELAIQQAKLALNSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 72

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEA DILIEAWQ DGLSTSEVA+K SKCKLYVTCEPCIMCASALSILGI EV+YGCA
Sbjct: 73  HAEMEATDILIEAWQRDGLSTSEVAEKCSKCKLYVTCEPCIMCASALSILGINEVYYGCA 132

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGSREAHTSGN QG GFKCTAGIMASEA+ALFRSFYEQGNPNAP P
Sbjct: 133 NDKFGGCGSILSLHLGSREAHTSGNQQGRGFKCTAGIMASEAVALFRSFYEQGNPNAPNP 192

Query: 181 HRPLVHHQAGQ 192
           HRPLVH++AGQ
Sbjct: 193 HRPLVHNRAGQ 203

[Close]

BLAST of Tan0011724 vs. NCBI nr
Match: XP_004146335.1 (tRNA-specific adenosine deaminase TAD2 [Cucumis sativus] >KGN65486.1 hypothetical protein Csa_020042 [Cucumis sativus])

HSP 1 Score: 355.1 bits (910), Expect = 3.7e-94
Identity = 175/191 (91.62%), Postives = 182/191 (95.29%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+S EDCSSDTL FMELAIQQAKLAL++LEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSVEDCSSDTLRFMELAIQQAKLALNNLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAWQ DGLSTSEVADKFSKCKLYVTCEPCIMCASALSI+GIKEV+YGCA
Sbjct: 61  HAEMEAIDILIEAWQRDGLSTSEVADKFSKCKLYVTCEPCIMCASALSIIGIKEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGS EA TSGNG G GFKCTAGIMASEA+ LFRSFYEQGNPNAPKP
Sbjct: 121 NDKFGGCGSILSLHLGSGEAPTSGNGLGRGFKCTAGIMASEAVGLFRSFYEQGNPNAPKP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLV+HQAGQ
Sbjct: 181 HRPLVNHQAGQ 191

[Close]

BLAST of Tan0011724 vs. ExPASy TrEMBL
Match: A0A6J1C158 (tRNA-specific adenosine deaminase 2 OS=Momordica charantia OX=3673 GN=LOC111007321 PE=4 SV=1)

HSP 1 Score: 364.0 bits (933), Expect = 3.8e-97
Identity = 178/191 (93.19%), Postives = 184/191 (96.34%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+SR+DC SDTLGFMELAIQQAKLAL+SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSRQDCPSDTLGFMELAIQQAKLALNSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAW+ DGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEV+YGCA
Sbjct: 61  HAEMEAIDILIEAWKRDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGS EAHTSGN QG GFKCTAG MASEA+ALFRSFYEQGNPNAPKP
Sbjct: 121 NDKFGGCGSILSLHLGSCEAHTSGNRQGRGFKCTAGTMASEAVALFRSFYEQGNPNAPKP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLVHHQAGQ
Sbjct: 181 HRPLVHHQAGQ 191

[Close]

BLAST of Tan0011724 vs. ExPASy TrEMBL
Match: A0A6J1F059 (tRNA-specific adenosine deaminase 2-like OS=Cucurbita moschata OX=3662 GN=LOC111440965 PE=4 SV=1)

HSP 1 Score: 355.9 bits (912), Expect = 1.0e-94
Identity = 175/191 (91.62%), Postives = 182/191 (95.29%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+SREDCSSDTL FMELAIQQAKLAL+SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 13  MDSSREDCSSDTLRFMELAIQQAKLALNSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 72

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEA DILIEAWQ DGLSTSEVA+K SKCKLYVTCEPCIMCASALSILGI EV+YGCA
Sbjct: 73  HAEMEATDILIEAWQRDGLSTSEVAEKCSKCKLYVTCEPCIMCASALSILGINEVYYGCA 132

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGSREAHTSGN QG GFKCTAGIMASEA+ALFRSFYEQGNPNAP P
Sbjct: 133 NDKFGGCGSILSLHLGSREAHTSGNQQGRGFKCTAGIMASEAVALFRSFYEQGNPNAPNP 192

Query: 181 HRPLVHHQAGQ 192
           HRPLVH++AGQ
Sbjct: 193 HRPLVHNRAGQ 203

[Close]

BLAST of Tan0011724 vs. ExPASy TrEMBL
Match: A0A0A0LZX4 (CMP/dCMP-type deaminase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G425900 PE=4 SV=1)

HSP 1 Score: 355.1 bits (910), Expect = 1.8e-94
Identity = 175/191 (91.62%), Postives = 182/191 (95.29%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+S EDCSSDTL FMELAIQQAKLAL++LEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSVEDCSSDTLRFMELAIQQAKLALNNLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAWQ DGLSTSEVADKFSKCKLYVTCEPCIMCASALSI+GIKEV+YGCA
Sbjct: 61  HAEMEAIDILIEAWQRDGLSTSEVADKFSKCKLYVTCEPCIMCASALSIIGIKEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGS EA TSGNG G GFKCTAGIMASEA+ LFRSFYEQGNPNAPKP
Sbjct: 121 NDKFGGCGSILSLHLGSGEAPTSGNGLGRGFKCTAGIMASEAVGLFRSFYEQGNPNAPKP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLV+HQAGQ
Sbjct: 181 HRPLVNHQAGQ 191

[Close]

BLAST of Tan0011724 vs. ExPASy TrEMBL
Match: A0A5D3DXI1 (tRNA-specific adenosine deaminase 2 isoform X4 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold629G002250 PE=4 SV=1)

HSP 1 Score: 352.8 bits (904), Expect = 8.8e-94
Identity = 175/191 (91.62%), Postives = 180/191 (94.24%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+S EDCSS TL FMELAIQQAKLAL SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSVEDCSSGTLRFMELAIQQAKLALHSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAWQ DGLSTSEVADKFSKCKLYVTCEPCIMCASALSI+GIKEV+YGCA
Sbjct: 61  HAEMEAIDILIEAWQRDGLSTSEVADKFSKCKLYVTCEPCIMCASALSIIGIKEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGS EA TSGNG G GFKCTAGIMASEA+ LFRSFYEQGNPNAPKP
Sbjct: 121 NDKFGGCGSILSLHLGSGEAPTSGNGLGRGFKCTAGIMASEAVGLFRSFYEQGNPNAPKP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLV+HQAGQ
Sbjct: 181 HRPLVNHQAGQ 191

[Close]

BLAST of Tan0011724 vs. ExPASy TrEMBL
Match: A0A1S3BVZ1 (tRNA-specific adenosine deaminase 2 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103494236 PE=4 SV=1)

HSP 1 Score: 352.8 bits (904), Expect = 8.8e-94
Identity = 175/191 (91.62%), Postives = 180/191 (94.24%), Query Frame = 0


Query: 1   MDTSREDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATR 60
           MD+S EDCSS TL FMELAIQQAKLAL SLEVPVGCVIVEDGMVIA GRNRTTETRNATR
Sbjct: 1   MDSSVEDCSSGTLRFMELAIQQAKLALHSLEVPVGCVIVEDGMVIATGRNRTTETRNATR 60

Query: 61  HAEMEAIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCA 120
           HAEMEAIDILIEAWQ DGLSTSEVADKFSKCKLYVTCEPCIMCASALSI+GIKEV+YGCA
Sbjct: 61  HAEMEAIDILIEAWQRDGLSTSEVADKFSKCKLYVTCEPCIMCASALSIIGIKEVYYGCA 120

Query: 121 NDKFGGCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKP 180
           NDKFGGCGSILSLHLGS EA TSGNG G GFKCTAGIMASEA+ LFRSFYEQGNPNAPKP
Sbjct: 121 NDKFGGCGSILSLHLGSGEAPTSGNGLGRGFKCTAGIMASEAVGLFRSFYEQGNPNAPKP 180

Query: 181 HRPLVHHQAGQ 192
           HRPLV+HQAGQ
Sbjct: 181 HRPLVNHQAGQ 191

[Close]

BLAST of Tan0011724 vs. TAIR 10
Match: AT1G48175.1 (Cytidine/deoxycytidylate deaminase family protein )

HSP 1 Score: 273.1 bits (697), Expect = 1.7e-73
Identity = 132/183 (72.13%), Postives = 150/183 (81.97%), Query Frame = 0


Query: 6   EDCSSDTLGFMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEME 65
           ED   D+  +M  A+ QAKLAL++LEVPVGCV +EDG VIA+GRNRT ETRNATRHAEME
Sbjct: 3   EDHCEDSHNYMGFALHQAKLALEALEVPVGCVFLEDGKVIASGRNRTNETRNATRHAEME 62

Query: 66  AIDILIEAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFG 125
           AID L+  WQ DGLS S+VA+KFSKC LYVTCEPCIMCASALS LGIKEV+YGC NDKFG
Sbjct: 63  AIDQLVGQWQKDGLSPSQVAEKFSKCVLYVTCEPCIMCASALSFLGIKEVYYGCPNDKFG 122

Query: 126 GCGSILSLHLGSREAHTSGNGQGGGFKCTAGIMASEAIALFRSFYEQGNPNAPKPHRPLV 185
           GCGSILSLHLGS EA      +G G+KC  GIMA EA++LF+ FYEQGNPNAPKPHRP+V
Sbjct: 123 GCGSILSLHLGSEEAQ-----RGKGYKCRGGIMAEEAVSLFKCFYEQGNPNAPKPHRPVV 180

Query: 186 HHQ 189
             +
Sbjct: 183 QRE 180

[Close]

BLAST of Tan0011724 vs. TAIR 10
Match: AT1G68720.1 (tRNA arginine adenosine deaminase )

HSP 1 Score: 78.2 bits (191), Expect = 8.1e-15
Identity = 60/192 (31.25%), Postives = 81/192 (42.19%), Query Frame = 0


Query: 15   FMELAIQQAKLALDSLEVPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAI---DILI 74
            FM  A+ +AK A D+ EVPVG V+V DG +IA G N   E R++T HAEM  I      +
Sbjct: 1113 FMREALVEAKKAADTWEVPVGAVLVHDGKIIARGYNLVEELRDSTAHAEMICIREGSKAL 1172

Query: 75   EAWQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYGCANDKFGGCGSIL 134
             +W            + +   LYVT EPC MCA A+    +  + +G  N   G  GS +
Sbjct: 1173 RSW------------RLADTTLYVTLEPCPMCAGAILQARVNTLVWGAPNKLLGADGSWI 1232

Query: 135  SLHLGSREAHTSGNGQGGGFK-------------CTAGIMASEAIALFRSFYEQGNPNAP 188
             L  G       GNG     K                G++ SE     + F++       
Sbjct: 1233 RLFPGG-----EGNGSEASEKPPPPVHPFHPKMTIRRGVLESECAQTMQQFFQLRRKKKD 1287

[Close]

BLAST of Tan0011724 vs. TAIR 10
Match: AT5G28050.1 (Cytidine/deoxycytidylate deaminase family protein )

HSP 1 Score: 52.4 bits (124), Expect = 4.7e-07
Identity = 35/105 (33.33%), Postives = 58/105 (55.24%), Query Frame = 0


Query: 15  FMELAIQQAKLALDSLE-VPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAIDILIEA 74
           F+  A+++A   +D  +  P G VIV +  V+A+  N   +  + T HAE+ AI    EA
Sbjct: 33  FLTQAVEEAYKGVDCGDGGPFGAVIVHNNEVVASCHNMVLKYTDPTAHAEVTAIR---EA 92

Query: 75  WQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYG 119
            +   L+  E+    S+C++Y +CEPC MC  A+ +  +K + YG
Sbjct: 93  CK--KLNKIEL----SECEIYASCEPCPMCFGAIHLSRLKRLVYG 128

[Close]

BLAST of Tan0011724 vs. TAIR 10
Match: AT5G28050.2 (Cytidine/deoxycytidylate deaminase family protein )

HSP 1 Score: 52.4 bits (124), Expect = 4.7e-07
Identity = 35/105 (33.33%), Postives = 58/105 (55.24%), Query Frame = 0


Query: 15  FMELAIQQAKLALDSLE-VPVGCVIVEDGMVIAAGRNRTTETRNATRHAEMEAIDILIEA 74
           F+  A+++A   +D  +  P G VIV +  V+A+  N   +  + T HAE+ AI    EA
Sbjct: 52  FLTQAVEEAYKGVDCGDGGPFGAVIVHNNEVVASCHNMVLKYTDPTAHAEVTAIR---EA 111

Query: 75  WQGDGLSTSEVADKFSKCKLYVTCEPCIMCASALSILGIKEVFYG 119
            +   L+  E+    S+C++Y +CEPC MC  A+ +  +K + YG
Sbjct: 112 CK--KLNKIEL----SECEIYASCEPCPMCFGAIHLSRLKRLVYG 147

The following BLAST results are available for this feature:

BLAST of Tan0011724 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q6IDB6	2.4e-72	72.13	tRNA-specific adenosine deaminase TAD2 OS=Arabidopsis thaliana OX=3702 GN=TAD2 P...	[more]
Q5E9J7	5.6e-37	48.54	tRNA-specific adenosine deaminase 2 OS=Bos taurus OX=9913 GN=DEADC1 PE=2 SV=1	[more]
Q7Z6V5	8.1e-36	46.78	tRNA-specific adenosine deaminase 2 OS=Homo sapiens OX=9606 GN=ADAT2 PE=1 SV=1	[more]
Q6P6J0	1.8e-35	47.34	tRNA-specific adenosine deaminase 2 OS=Mus musculus OX=10090 GN=Adat2 PE=1 SV=1	[more]
Q5RIV4	9.9e-34	45.61	tRNA-specific adenosine deaminase 2 OS=Danio rerio OX=7955 GN=adat2 PE=2 SV=2	[more]

BLAST of Tan0011724 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_022135334.1	7.9e-97	93.19	tRNA-specific adenosine deaminase 2 [Momordica charantia]	[more]
XP_023530916.1	1.0e-96	93.19	tRNA-specific adenosine deaminase 2-like [Cucurbita pepo subsp. pepo]	[more]
KAG7021699.1	5.7e-95	92.15	tRNA-specific adenosine deaminase 2 [Cucurbita argyrosperma subsp. argyrosperma]	[more]
XP_022933579.1	2.2e-94	91.62	tRNA-specific adenosine deaminase 2-like [Cucurbita moschata]	[more]
XP_004146335.1	3.7e-94	91.62	tRNA-specific adenosine deaminase TAD2 [Cucumis sativus] >KGN65486.1 hypothetica...	[more]

BLAST of Tan0011724 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1C158	3.8e-97	93.19	tRNA-specific adenosine deaminase 2 OS=Momordica charantia OX=3673 GN=LOC1110073...	[more]
A0A6J1F059	1.0e-94	91.62	tRNA-specific adenosine deaminase 2-like OS=Cucurbita moschata OX=3662 GN=LOC111...	[more]
A0A0A0LZX4	1.8e-94	91.62	CMP/dCMP-type deaminase domain-containing protein OS=Cucumis sativus OX=3659 GN=...	[more]
A0A5D3DXI1	8.8e-94	91.62	tRNA-specific adenosine deaminase 2 isoform X4 OS=Cucumis melo var. makuwa OX=11...	[more]
A0A1S3BVZ1	8.8e-94	91.62	tRNA-specific adenosine deaminase 2 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103...	[more]

BLAST of Tan0011724 vs. TAIR 10


Match Name	E-value	Identity	Description
AT1G48175.1	1.7e-73	72.13	Cytidine/deoxycytidylate deaminase family protein	[more]
AT1G68720.1	8.1e-15	31.25	tRNA arginine adenosine deaminase	[more]
AT5G28050.1	4.7e-07	33.33	Cytidine/deoxycytidylate deaminase family protein	[more]
AT5G28050.2	4.7e-07	33.33	Cytidine/deoxycytidylate deaminase family protein	[more]

InterPro

Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25

Position :

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IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR002125	Cytidine and deoxycytidylate deaminase domain	PFAM	PF00383	dCMP_cyt_deam_1	coord: 15..118 e-value: 7.7E-21 score: 73.9
IPR002125	Cytidine and deoxycytidylate deaminase domain	PROSITE	PS51747	CYT_DCMP_DEAMINASES_2	coord: 10..138 score: 27.20965
None	No IPR available	GENE3D	3.40.140.10	Cytidine Deaminase, domain 2	coord: 7..183 e-value: 2.5E-55 score: 188.7
None	No IPR available	PIRSR	PIRSR006769-1	PIRSR006769-1	coord: 15..122 e-value: 5.1E-8 score: 30.0
None	No IPR available	PIRSR	PIRSR006769-3	PIRSR006769-3	coord: 15..122 e-value: 5.1E-8 score: 30.0
None	No IPR available	PANTHER	PTHR11079	CYTOSINE DEAMINASE FAMILY MEMBER	coord: 4..182
None	No IPR available	PANTHER	PTHR11079:SF149	TRNA-SPECIFIC ADENOSINE DEAMINASE 2	coord: 4..182
None	No IPR available	CDD	cd01285	nucleoside_deaminase	coord: 16..132 e-value: 1.47781E-38 score: 126.578
IPR016192	APOBEC/CMP deaminase, zinc-binding	PROSITE	PS00903	CYT_DCMP_DEAMINASES_1	coord: 61..107
IPR016193	Cytidine deaminase-like	SUPERFAMILY	53927	Cytidine deaminase-like	coord: 11..175

Relationships

The following mRNA feature(s) are a part of this gene:


Feature Name	Unique Name	Type
Tan0011724.1	Tan0011724.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0002100	tRNA wobble adenosine to inosine editing
molecular_function	GO:0052717	tRNA-specific adenosine-34 deaminase activity
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0003824	catalytic activity
molecular_function	GO:0016787	hydrolase activity