Pontin/Reptin-associated complexes differentially impact plant development and viral pathology

Pontin and Reptin are essential eukaryotic AAA+ ATPases that work together in several multiprotein complexes, contributing to chromatin remodeling and TARGET OF RAPAMCYIN (TOR) kinase complex assembly, among other functions. Null alleles of pontin or reptin are gametophyte lethal in plants, which has hindered studies of their crucial roles in plant biology. Here, we used virus-induced gene silencing (VIGS) to interrogate the functions of Pontin and Reptin in plant growth and physiology, focusing on Nicotiana benthamiana, a model species for the agriculturally significant Solanaceae family. Silencing either Pontin or Reptin caused pleiotropic developmental and physiological reprogramming, including aberrant leaf shape, reduced apical growth, delayed flowering, increased branching, chlorosis, and decreased spread of the RNA viruses Tobacco mosaic virus (TMV) and Potato virus X (PVX). To dissect these pleiotropic phenotypes, we took a comparative approach and silenced expression of key genes that encode subunits of each of the major Pontin/Reptin-associated chromatin remodeling or TOR complexes (INO80, SWR-C/PIE1, TIP60, TOR, and TELO2). We found that many of the pontin/reptin phenotypes could be attributed specifically to disruption of one of these complexes, with tip60 and tor knockdown plants each phenocopying a large subset of pontin/reptin phenotypes. We conclude that Pontin/Reptin complexes are crucial for proper plant development, physiology, and stress responses, highlighting the multifaceted roles these conserved enzymes have evolved in eukaryotic cells. ### Competing Interest Statement The authors have declared no competing interest.