Gene Details:
- Gene ID: TraesCS4A02G107900
- Gene Symbol: TaPDIL5-1-4A
- Gene Name: protein disulfide isomerase-like 5-1
- Genome: Chinese_Spring1.0
- Species: Triticum aestivum
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.
Function-related keywords:
Literature:
- Simultaneous editing of host factor gene TaPDIL5-1 homoeoalleles confers wheat yellow mosaic virus resistance in hexaploid wheat. DOI: 10.1111/nph.18002 ; PMID: 35092005
Related News:
Gene Resources:
- NCBI ID: 123085553
- UniProt accessions: A0A3B6HTU4
Sequences:
cDNA Sequence
- >TraesCS4A02G107900.1
TCAGAGGAGTATTAAATAGCATAATGGATCTGAACATATAATCTTCCACCAAATAAACCATATAGTAATCAACTACAAGATGTAATCAACACTACTAGTCACCCATAAGTACCAATCTATAGTTCCGGTAACAAGATTGAACACAGGAGATGAACTAGGGTTTGAGAGGAGATGGTGTTGTTGAAGATGTTGATGGAGATTTCCCTCCCCAAGATGCGAGAGTTGTTGGTGATGATGATGACGATGATTTCCCCCTCTGGGAGGGAAGTTCCCCCGGCGGAATCGCTCCGCCGGAGGGCAAAAGTGCTCCTGCCTAAGTTCCACCTTGAGGCGGCGGCGCGTCGTCCCGAAAGTCCTTCTCTTTTTTTTTCTAGGTCAAAATGACTTATATAGCAAAAGGTGGGCACCAGAGGTGGGCCGAGGAGGCCACAACCCACCAGGGCGCGCCTGGGGGGCCTAGCGTGCCCAGGTGGGTTGTGGCCACCTGGTGGCCCCCTCTGGTGTTTATTGGCTCTAGTATTTCTCAAATAATCCATAAAAAATCTCTGTAAAGTTTCAACTCATTTGGAGTTGTGCAGAATAGGTGGTCCGACGTAGCTTTTCCAGGTCCAGGTTTCCAGCTGCCGGAATTCTCCCTCTTGGTGTGTTCCTTGCAAATTATGAGAGAAAAGGCATTAGAATTACTCCAAAAAGCATTATTATGGATAAAAACATTATAAATAACAGTAAGAAAACATGATGCAAAATAGACGTATCAGGCGGATATGTTGTCACGATACACCACAGTGGCCTTGTTAATAGGACAAGAGCGCTCGAAGAGAAGCTGCCGAAGCCAAGAGCATTCAGCAACGATGTTAGCCACTGTGCGATACTCAACCTGAGCACTAGGCCGAGGAATTGTGGGCTGCTGCTTGGATGACCAGGAGATAAGTGATGGTCCAAGGTAGACACAGTAACCGAAGGTGGAATGCCATGTGTCCGGGCAGCCAGCCCAGTCTACATCAGAGTATGCCACGATGTCCATAGCCGCTGAAGCATGGAGCGAGAGGCCAAGATCCATAGTGCCGCAAATGTAACAGAGAATCTGTTTCACCACGGTCCAATGAGCATCACAAGGTGAATGGATATGAAGGCACACCTGCTGCACCGCGTACTGCAACTCCGGGCGAGTGAGTGTCAAGTATTGCAAAGCACCAACAATTGAGCGGTAGAAGGGGGCATCCAGGGCCGGCAAACCATCGGTGGCGGAGAGGTTGGCCTTCATGTCGACGGGGGTGGTTGCGGGTTTGTAATTAAGCATCCCAGTGCGGTCAAGCAACTCTGGTGAAGAAAGAAGTCATTCACCCGCCGTACCACCTCGATGCTGAGGAAGTAGTGTAGCAGGCCTAAGTCCTTGATGGCGAACTCAGCGCGAAGTCGATCAGTGAGCCGTCGAAGAAGATCAGTAGTGCACGACGTCAAGATGATGTCATCGACATAGAGGAGGACATAGGCAGTCTCATGGCCCTGTTGATAGACAAACATTAAGGCGGAGGAGCGAGTGGAGCGAAAGACGAGCTAATAAAGAAACACGATGATGCGCTGGTACCAGGCGCGTAGTGCCTGCTTGGGCCCATATAACGAGCGAGAAAGCAGGCACACATGATCCAGATATGTGTCATCGACAAAACTAGCGGGCTACTGGCAATACACTTGTTCATCGAGATGACCATGGAGAAAGGCGTAGGAGACATCCATCTGGTCCACCGGCCACGCCTGAGACATCGCGAGGTGCAGGTGGTACGAATCATGCCCGGTTTGACAACCAGGGTAAAGGTGTCCGTGAAGTTGACGCCGGATCACTAGCAAAAGCCTCGCACCACACAACGCGCTTTGTAGCGCTCGAATGTACCATCAGGGCAAAGTTTGTGCTTGAACACCCACTTGCCAGAGATGGCATTGGCACCGCGTGGACGGGGAACAAGCTGCCATGTCCGGTTGCGCTGTAGGGCGTCGAACTCCTCCAGCATGGCCGCATGCCACTGCGGATCCCGGAGAGCCACCCGAGCGGAGGTGGGCAACGGTGAGGCTGCAGAGGTGGAGGCCGCACACACGTACTCATCGATGGAGTAGCGGGAGCTCGGACGGCACACACCCGCATGAGACGAGTAACGGGACCCGTCGGTGGTGGATGCGACCCGCTCGCAGCCGTGGTGGCCGAGCTTGGCCAGTGAGGCGGTCGAGGAGGCCAATGAAGCAGCCGCGGAAGTCAGTGAGGCAGCCGCAATAGCTGAGGAGACCGGCATCGAAGCGGTCGGTGAGGCCGGCGTGGAGGCAGTCGGAGAAGCAATCGACGTCGAGGCGGCTAGAGTAGCCAATGCCAAGGCGGTGGGAGAAGCATCTAGCATGGCCGACGTCGAGGCAACCGGAGAAGCAGCCGGCATGCCGCGGTCGGAGTACTAGCCGGCGTGGCCAGCGTCGAGGCGTGACCGACCGAAGAAGCAGTTGGAGTGGCCGGTGTCAAGGGGACCGGCGAAGTGGCTAGAGTAGCCGGTGAAGCAGCCACGACATGCGGGCCACGACGGCATGGGGCGTCAGGGCCAGCTTGGGAACGGCCAGTGGCGAGGCGAGGTGCCACCGAAGATGACGGCGGCGCCACTCTTGCTTGGTGGGTAGCCGAGAAAATGTTGGCAGGGACTACGGTGCGAGCTTATGTGGAGTGGTGGTTGTGATGCTAGCGTAGCACAAACAACCGAAGATCATCATAATATGGCGGCCAGCCGAAGAGAAGCTGGTGTGGTGTATAGGTCCATCGAACACGGCAAGGCTCGATATTAATGAGAAGGGTTGTTGTGGCGAGTGCATCGGGCCAAAAGCGAGGTGGAGCATGAGCATGAAACAGGAGAGTGCGTACACAACCATTAAGGGTGCGGAGCATACATTCGGCGCGACTGTTTTGTGACGAGGTGTAAGGACACGTGAGCCGAAAGATGATGCCATGGGATGCAAGAAGAGTGTGGATGCTAAGGTCGTCAAACTCCTTTCCATTGTCAGTTTGCAAAGCATGAACGGACCTCCCGAACTGTGTAGACACGTAAGAAAAAATATGGTGAGTGTAGATGGAACATCAGATTTTTGACGGAGAGGAAAGGTCCACACAAAATAGGAATAATCATCCAATATCACAAAATAATAAATATAACTGGAATTACTTGGAATAGGTGAGGTCCATACATTAGTATGAATTGACTGAAACGGAAAATATGCAAATGTGGAAAACGAACTAAATAGAAGACGAACATGCTTGCTGAGACGACATGCATGACAAGTATGGTTGTCTGTTTTATCACAAAAAGAAAGAAAATCCTTGCATGATTGTGCGAAGTGCGGCGGAGCCCGGATGACCAAGGCGTGTGTGCCAAAGGTCAACCTCGGCAGAGAGGGCCACCGGTCCAGTAGTGGAAGATGATGATGGCTGGACGGAGTAGAGATTGGCAGGACTATCACATCGGTGCAGAATCATCCGAGTACATGCATCCTTAACAGAGAAACCAACTCCATCAAATTTCACAGTTACATGATTGTCACGAGTAAAGGAATAGAGAGAGACTAGATTTTTGATAAGGTTAGGTGAAACAATAACATTATGTAGAGATAAAGGTGTAGAGTTTGAAGGAAACGGAATGGAACCGACATTTTCTTTTTCATTTGGTGGCTGCTCAGGAAGTGCCAGAGGCGGGTGAAAGATATTGGTGCCAAACTCAGGGGATTCTTCAGTGTTGATTGTAAATTATTTTCTTTTACGGGTGTTTATTTGTGCAAAAGCTAGCTAGTCATTAACGTGACTTGTAATGTGATCTTTATGATATAAATTTTTTAGGAACATATTTATGATATGACAACAGTAGACGCTTTTTTCTCCGAGCAAATAAAGCCGATGAATAATGTGAACGCCGAGGCAGGCGAGCACTGTGGCTGACGGCCTCTGGCAAAGCAAGAAGGCGACGACAGTGGCCCACGTCCGGTCGGAGGCCCAGGTTCCACATGCTTTTTTTTATAGGTCAGAGCTATGCTTAAACCCGTGTCATCGTCTATCCTAGCCCGACCCGGCCCGGCCCGGCCCAGGGAAATACTACATCGACCCACCCCGGCTTGCGTATCCGCCTTCTCCTTGTCTCCCCGTCGTCGCCGTGGCCGTCCTCCGATCGAGCCATGGATCCGGCTCTTCGGCGCCGCTCCCGCCTCCCTATCCACCTCCTGCTGGTGGCCGTCACGTTACTCGCCGCCCTGGCCGCGCGATCCGGCGCCGAGGTCATCACCCTCACCGAAGAGACCTTCTCCGACAAGATAAAGGAGAAGGACACAGTGTGGTTTGTGCAATTCTGCGTCCCTTGGTGTAAGCACTGCAAGAGCCTAGGAACTCTTTGGGAGGACCTCGGGAAGGTTATTGAAGGTACGGATGAAATTGAGATCGGAAAAGTTGATTGCGGTGCAAGCAAACCAGTCTGCTCAAAGGTGGACATTCATTCATACCCAACATTCAAGGTGTTCTATGATGGCGAAGAAGTTGCAAAATATAAAGGGCCTAGGGACGTGGAGTCTCTCAAGACCTTTGTGTTGAACGAAGCTGAGAAAGCAGGTGAGGTGAGGCCTGAAGATGAGCTATAGGTGTTCGTAGCAGGCACATGCCAATAGACGATGATACTCCGGTCAAGCAACTTTGGAATGCTCTCGACCTGTTTAAATTTTTCGACCAAGTTGGCTTGTACTGCCGCCTCCTGGCGCTTGTGGCTAACTTAGAATGGTACTACGTCAGATGCAAGAAGAAAACTTTTTTGTAACTTTTAACCTTTTCAATTCAGTTAGATGAACCTGCTCGGTGCAGACAATTTTCGAAAAGCTATTCTGCGGGCTTGGGCTTAACTTTGATGTATACAAGATACACCATGTCTATTCAGTGACCTAAAGACAAAGACTAGAAATTTCACCGGACTAAGCAAAACAGAAAAAAATGTTTAACCC
CDS Sequence
- >TraesCS4A02G107900.1
ATGGATCCGGCTCTTCGGCGCCGCTCCCGCCTCCCTATCCACCTCCTGCTGGTGGCCGTCACGTTACTCGCCGCCCTGGCCGCGCGATCCGGCGCCGAGGTCATCACCCTCACCGAAGAGACCTTCTCCGACAAGATAAAGGAGAAGGACACAGTGTGGTTTGTGCAATTCTGCGTCCCTTGGTGTAAGCACTGCAAGAGCCTAGGAACTCTTTGGGAGGACCTCGGGAAGGTTATTGAAGGTACGGATGAAATTGAGATCGGAAAAGTTGATTGCGGTGCAAGCAAACCAGTCTGCTCAAAGGTGGACATTCATTCATACCCAACATTCAAGGTGTTCTATGATGGCGAAGAAGTTGCAAAATATAAAGGGCCTAGGGACGTGGAGTCTCTCAAGACCTTTGTGTTGAACGAAGCTGAGAAAGCAGGTGAGGTGAGGCCTGAAGATGAGCTATAG
Protein Sequence
- >TraesCS4A02G107900.1
MDPALRRRSRLPIHLLLVAVTLLAALAARSGAEVITLTEETFSDKIKEKDTVWFVQFCVPWCKHCKSLGTLWEDLGKVIEGTDEIEIGKVDCGASKPVCSKVDIHSYPTFKVFYDGEEVAKYKGPRDVESLKTFVLNEAEKAGEVRPEDEL