Information report for TaPDIL5-1-4A
Gene Details
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Functional Descriptions
- Simultaneous editing of host factor gene TaPDIL5-1 homoeoalleles confers wheat yellow mosaic virus resistance in hexaploid wheat.
- TaPDIL5-1 homoeoalleles did not affect agronomic performance, the simultaneous knockout of all three copies of this susceptibility factor gene can be used to improve virus resistance in wheat.
- These results demonstrate that triple editing of the three TaPDIL5-1 homoeoalleles was sufficient to achieve reliable resistance against WYMV in hexaploid wheat.
- Demonstrates the functional redundancy of the TaPDIL5-1 homoeologues and their ability to compensate for each other in their compatibility with virus infection.
- Since loss of the TaPDIL5-1 homoeoalleles did not affect agronomic performance, the simultaneous knockout of all three copies of this susceptibility factor gene can be used to improve virus resistance in wheat.
Functional Keywords
Literature and News
Gene Resources
- NCBI ID: 123085553
- UniProt accessions: A0A3B6HTU4
- EnsemblPlants: TraesCS4A02G107900.1
- Gramene: TraesCS4A02G107900.1
- GO: GO:0003756 , GO:0005783 , GO:0006457
- OMA: WCRHSRN
- InterPro: IPR013766 , IPR036249 , IPR051063
- PANTHER: PTHR45672 , PTHR45672:SF3
- SUPFAM: SSF52833
- PROSITE: PS51352
- Gene3D: 3.40.30.10
- OrthoDB: A0A3B6HTU4
- SMR: A0A3B6HTU4
Sequences
cDNA Sequence
- >TraesCS4A02G107900.1
TCAGAGGAGTATTAAATAGCATAATGGATCTGAACATATAATCTTCCACCAAATAAACCATATAGTAATCAACTACAAGATGTAATCAACACTACTAGTCACCCATAAGTACCAATCTATAGTTCCGGTAACAAGATTGAACACAGGAGATGAACTAGGGTTTGAGAGGAGATGGTGTTGTTGAAGATGTTGATGGAGATTTCCCTCCCCAAGATGCGAGAGTTGTTGGTGATGATGATGACGATGATTTCCCCCTCTGGGAGGGAAGTTCCCCCGGCGGAATCGCTCCGCCGGAGGGCAAAAGTGCTCCTGCCTAAGTTCCACCTTGAGGCGGCGGCGCGTCGTCCCGAAAGTCCTTCTCTTTTTTTTTCTAGGTCAAAATGACTTATATAGCAAAAGGTGGGCACCAGAGGTGGGCCGAGGAGGCCACAACCCACCAGGGCGCGCCTGGGGGGCCTAGCGTGCCCAGGTGGGTTGTGGCCACCTGGTGGCCCCCTCTGGTGTTTATTGGCTCTAGTATTTCTCAAATAATCCATAAAAAATCTCTGTAAAGTTTCAACTCATTTGGAGTTGTGCAGAATAGGTGGTCCGACGTAGCTTTTCCAGGTCCAGGTTTCCAGCTGCCGGAATTCTCCCTCTTGGTGTGTTCCTTGCAAATTATGAGAGAAAAGGCATTAGAATTACTCCAAAAAGCATTATTATGGATAAAAACATTATAAATAACAGTAAGAAAACATGATGCAAAATAGACGTATCAGGCGGATATGTTGTCACGATACACCACAGTGGCCTTGTTAATAGGACAAGAGCGCTCGAAGAGAAGCTGCCGAAGCCAAGAGCATTCAGCAACGATGTTAGCCACTGTGCGATACTCAACCTGAGCACTAGGCCGAGGAATTGTGGGCTGCTGCTTGGATGACCAGGAGATAAGTGATGGTCCAAGGTAGACACAGTAACCGAAGGTGGAATGCCATGTGTCCGGGCAGCCAGCCCAGTCTACATCAGAGTATGCCACGATGTCCATAGCCGCTGAAGCATGGAGCGAGAGGCCAAGATCCATAGTGCCGCAAATGTAACAGAGAATCTGTTTCACCACGGTCCAATGAGCATCACAAGGTGAATGGATATGAAGGCACACCTGCTGCACCGCGTACTGCAACTCCGGGCGAGTGAGTGTCAAGTATTGCAAAGCACCAACAATTGAGCGGTAGAAGGGGGCATCCAGGGCCGGCAAACCATCGGTGGCGGAGAGGTTGGCCTTCATGTCGACGGGGGTGGTTGCGGGTTTGTAATTAAGCATCCCAGTGCGGTCAAGCAACTCTGGTGAAGAAAGAAGTCATTCACCCGCCGTACCACCTCGATGCTGAGGAAGTAGTGTAGCAGGCCTAAGTCCTTGATGGCGAACTCAGCGCGAAGTCGATCAGTGAGCCGTCGAAGAAGATCAGTAGTGCACGACGTCAAGATGATGTCATCGACATAGAGGAGGACATAGGCAGTCTCATGGCCCTGTTGATAGACAAACATTAAGGCGGAGGAGCGAGTGGAGCGAAAGACGAGCTAATAAAGAAACACGATGATGCGCTGGTACCAGGCGCGTAGTGCCTGCTTGGGCCCATATAACGAGCGAGAAAGCAGGCACACATGATCCAGATATGTGTCATCGACAAAACTAGCGGGCTACTGGCAATACACTTGTTCATCGAGATGACCATGGAGAAAGGCGTAGGAGACATCCATCTGGTCCACCGGCCACGCCTGAGACATCGCGAGGTGCAGGTGGTACGAATCATGCCCGGTTTGACAACCAGGGTAAAGGTGTCCGTGAAGTTGACGCCGGATCACTAGCAAAAGCCTCGCACCACACAACGCGCTTTGTAGCGCTCGAATGTACCATCAGGGCAAAGTTTGTGCTTGAACACCCACTTGCCAGAGATGGCATTGGCACCGCGTGGACGGGGAACAAGCTGCCATGTCCGGTTGCGCTGTAGGGCGTCGAACTCCTCCAGCATGGCCGCATGCCACTGCGGATCCCGGAGAGCCACCCGAGCGGAGGTGGGCAACGGTGAGGCTGCAGAGGTGGAGGCCGCACACACGTACTCATCGATGGAGTAGCGGGAGCTCGGACGGCACACACCCGCATGAGACGAGTAACGGGACCCGTCGGTGGTGGATGCGACCCGCTCGCAGCCGTGGTGGCCGAGCTTGGCCAGTGAGGCGGTCGAGGAGGCCAATGAAGCAGCCGCGGAAGTCAGTGAGGCAGCCGCAATAGCTGAGGAGACCGGCATCGAAGCGGTCGGTGAGGCCGGCGTGGAGGCAGTCGGAGAAGCAATCGACGTCGAGGCGGCTAGAGTAGCCAATGCCAAGGCGGTGGGAGAAGCATCTAGCATGGCCGACGTCGAGGCAACCGGAGAAGCAGCCGGCATGCCGCGGTCGGAGTACTAGCCGGCGTGGCCAGCGTCGAGGCGTGACCGACCGAAGAAGCAGTTGGAGTGGCCGGTGTCAAGGGGACCGGCGAAGTGGCTAGAGTAGCCGGTGAAGCAGCCACGACATGCGGGCCACGACGGCATGGGGCGTCAGGGCCAGCTTGGGAACGGCCAGTGGCGAGGCGAGGTGCCACCGAAGATGACGGCGGCGCCACTCTTGCTTGGTGGGTAGCCGAGAAAATGTTGGCAGGGACTACGGTGCGAGCTTATGTGGAGTGGTGGTTGTGATGCTAGCGTAGCACAAACAACCGAAGATCATCATAATATGGCGGCCAGCCGAAGAGAAGCTGGTGTGGTGTATAGGTCCATCGAACACGGCAAGGCTCGATATTAATGAGAAGGGTTGTTGTGGCGAGTGCATCGGGCCAAAAGCGAGGTGGAGCATGAGCATGAAACAGGAGAGTGCGTACACAACCATTAAGGGTGCGGAGCATACATTCGGCGCGACTGTTTTGTGACGAGGTGTAAGGACACGTGAGCCGAAAGATGATGCCATGGGATGCAAGAAGAGTGTGGATGCTAAGGTCGTCAAACTCCTTTCCATTGTCAGTTTGCAAAGCATGAACGGACCTCCCGAACTGTGTAGACACGTAAGAAAAAATATGGTGAGTGTAGATGGAACATCAGATTTTTGACGGAGAGGAAAGGTCCACACAAAATAGGAATAATCATCCAATATCACAAAATAATAAATATAACTGGAATTACTTGGAATAGGTGAGGTCCATACATTAGTATGAATTGACTGAAACGGAAAATATGCAAATGTGGAAAACGAACTAAATAGAAGACGAACATGCTTGCTGAGACGACATGCATGACAAGTATGGTTGTCTGTTTTATCACAAAAAGAAAGAAAATCCTTGCATGATTGTGCGAAGTGCGGCGGAGCCCGGATGACCAAGGCGTGTGTGCCAAAGGTCAACCTCGGCAGAGAGGGCCACCGGTCCAGTAGTGGAAGATGATGATGGCTGGACGGAGTAGAGATTGGCAGGACTATCACATCGGTGCAGAATCATCCGAGTACATGCATCCTTAACAGAGAAACCAACTCCATCAAATTTCACAGTTACATGATTGTCACGAGTAAAGGAATAGAGAGAGACTAGATTTTTGATAAGGTTAGGTGAAACAATAACATTATGTAGAGATAAAGGTGTAGAGTTTGAAGGAAACGGAATGGAACCGACATTTTCTTTTTCATTTGGTGGCTGCTCAGGAAGTGCCAGAGGCGGGTGAAAGATATTGGTGCCAAACTCAGGGGATTCTTCAGTGTTGATTGTAAATTATTTTCTTTTACGGGTGTTTATTTGTGCAAAAGCTAGCTAGTCATTAACGTGACTTGTAATGTGATCTTTATGATATAAATTTTTTAGGAACATATTTATGATATGACAACAGTAGACGCTTTTTTCTCCGAGCAAATAAAGCCGATGAATAATGTGAACGCCGAGGCAGGCGAGCACTGTGGCTGACGGCCTCTGGCAAAGCAAGAAGGCGACGACAGTGGCCCACGTCCGGTCGGAGGCCCAGGTTCCACATGCTTTTTTTTATAGGTCAGAGCTATGCTTAAACCCGTGTCATCGTCTATCCTAGCCCGACCCGGCCCGGCCCGGCCCAGGGAAATACTACATCGACCCACCCCGGCTTGCGTATCCGCCTTCTCCTTGTCTCCCCGTCGTCGCCGTGGCCGTCCTCCGATCGAGCCATGGATCCGGCTCTTCGGCGCCGCTCCCGCCTCCCTATCCACCTCCTGCTGGTGGCCGTCACGTTACTCGCCGCCCTGGCCGCGCGATCCGGCGCCGAGGTCATCACCCTCACCGAAGAGACCTTCTCCGACAAGATAAAGGAGAAGGACACAGTGTGGTTTGTGCAATTCTGCGTCCCTTGGTGTAAGCACTGCAAGAGCCTAGGAACTCTTTGGGAGGACCTCGGGAAGGTTATTGAAGGTACGGATGAAATTGAGATCGGAAAAGTTGATTGCGGTGCAAGCAAACCAGTCTGCTCAAAGGTGGACATTCATTCATACCCAACATTCAAGGTGTTCTATGATGGCGAAGAAGTTGCAAAATATAAAGGGCCTAGGGACGTGGAGTCTCTCAAGACCTTTGTGTTGAACGAAGCTGAGAAAGCAGGTGAGGTGAGGCCTGAAGATGAGCTATAGGTGTTCGTAGCAGGCACATGCCAATAGACGATGATACTCCGGTCAAGCAACTTTGGAATGCTCTCGACCTGTTTAAATTTTTCGACCAAGTTGGCTTGTACTGCCGCCTCCTGGCGCTTGTGGCTAACTTAGAATGGTACTACGTCAGATGCAAGAAGAAAACTTTTTTGTAACTTTTAACCTTTTCAATTCAGTTAGATGAACCTGCTCGGTGCAGACAATTTTCGAAAAGCTATTCTGCGGGCTTGGGCTTAACTTTGATGTATACAAGATACACCATGTCTATTCAGTGACCTAAAGACAAAGACTAGAAATTTCACCGGACTAAGCAAAACAGAAAAAAATGTTTAACCC
CDS Sequence
- >TraesCS4A02G107900.1
ATGGATCCGGCTCTTCGGCGCCGCTCCCGCCTCCCTATCCACCTCCTGCTGGTGGCCGTCACGTTACTCGCCGCCCTGGCCGCGCGATCCGGCGCCGAGGTCATCACCCTCACCGAAGAGACCTTCTCCGACAAGATAAAGGAGAAGGACACAGTGTGGTTTGTGCAATTCTGCGTCCCTTGGTGTAAGCACTGCAAGAGCCTAGGAACTCTTTGGGAGGACCTCGGGAAGGTTATTGAAGGTACGGATGAAATTGAGATCGGAAAAGTTGATTGCGGTGCAAGCAAACCAGTCTGCTCAAAGGTGGACATTCATTCATACCCAACATTCAAGGTGTTCTATGATGGCGAAGAAGTTGCAAAATATAAAGGGCCTAGGGACGTGGAGTCTCTCAAGACCTTTGTGTTGAACGAAGCTGAGAAAGCAGGTGAGGTGAGGCCTGAAGATGAGCTATAG
Protein Sequence
- >TraesCS4A02G107900.1
MDPALRRRSRLPIHLLLVAVTLLAALAARSGAEVITLTEETFSDKIKEKDTVWFVQFCVPWCKHCKSLGTLWEDLGKVIEGTDEIEIGKVDCGASKPVCSKVDIHSYPTFKVFYDGEEVAKYKGPRDVESLKTFVLNEAEKAGEVRPEDEL