eIFiso4G Augments the Synthesis of Specific Plant Proteins Involved in Normal Chloroplast Function

Andrew D. Lellis; Ryan M. Patrick; Laura K. Mayberry; Argelia Lorence; Zachary C. Campbell; Johnna L. Roose; Laurie K. Frankel; Terry Bricker; Hanjo Hellmann; Roderick W. Mayberry; Ana Solis Zavala; Grace Choy; Dennis Wylie; Mustafa Abdul‐Moheeth; Adeeb Masood; Amy G. Prater; Hailey E. Van Hoorn; Nicola Cole; Karen Browning

doi:10.1104/pp.19.00557

eIFiso4G Augments the Synthesis of Specific Plant Proteins Involved in Normal Chloroplast Function

Andrew D. Lellis(The University of Texas at Austin), Ryan M. Patrick(The University of Texas at Austin), Laura K. Mayberry(The University of Texas at Austin), Argelia Lorence(Arkansas State University), Zachary C. Campbell(Arkansas State University), Johnna L. Roose(Louisiana State University), Laurie K. Frankel(Louisiana State University), Terry Bricker(Louisiana State University), Hanjo Hellmann(Washington State University), Roderick W. Mayberry(The University of Texas at Austin), Ana Solis Zavala(The University of Texas at Austin), Grace Choy(The University of Texas at Austin), Dennis Wylie(The University of Texas at Austin), Mustafa Abdul‐Moheeth(The University of Texas at Austin), Adeeb Masood(The University of Texas at Austin), Amy G. Prater(The University of Texas at Austin), Hailey E. Van Hoorn(The University of Texas at Austin), Nicola Cole(The University of Texas at Austin), Karen Browning(The University of Texas at Austin)

PLANT PHYSIOLOGY

July 15, 2019

10.1104/pp.19.00557

Cited by 14Open Access

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Abstract

plant growth phenotype and increased expression of the validated proteins to wild-type levels was obtained by overexpression of eIFiso4G1. These data suggest a direct and specialized role for eIFiso4G in the synthesis of a subset of plant proteins.

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