A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong, J Xu… - Nucleic acids …, 2023 - academic.oup.com
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
[HTML][HTML] A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong, J Xu… - Nucleic Acids …, 2023 - ncbi.nlm.nih.gov
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong… - Nucleic acids …, 2023 - pubmed.ncbi.nlm.nih.gov
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
[PDF][PDF] A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong, J Xu… - Nucleic Acids …, 2023 - academic.oup.com
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
A novel active transposon creates allelic variation through altered translation rate to influence protein abundance.
G Chen, R Wang, Y Jiang, X Dong, J Xu, Q Xu… - Nucleic Acids …, 2023 - europepmc.org
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong, J Xu… - Nucleic acids …, 2023 - experts.umn.edu
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong, J Xu, Q Xu… - Nucleic Acids …, 2023 - par.nsf.gov
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
[引用][C] A novel active transposon creates allelic variation through altered translation rate to influence protein abundance
G Chen, R Wang, Y Jiang, X Dong, J Xu, Q Xu… - Nucleic Acids …, 2023 - europepmc.org
Protein translation is tightly and precisely controlled by multiple mechanisms including
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …
upstream open reading frames (uORFs), but the origins of uORFs and their role in maize are …