PUMPKIN, the Sole Plastid UMP Kinase, Associates with Group II Introns and Alters Their Metabolism

Overview

Journal Plant Physiol

Specialty Physiology

Date 2018 Nov 10

PMID 30409856

Citations 12

Authors

Lisa-Marie Schmid

Lisa Ohler

Torsten Mohlmann

Andreas Brachmann

Jose M Muino

Dario Leister

Jorg Meurer

Nikolay Manavski

Affiliations

Soon will be listed here.

Abstract

The chloroplast hosts photosynthesis and a variety of metabolic pathways that are essential for plant viability and acclimation processes. In this study, we show that the sole plastid UMP kinase (PUMPKIN) in Arabidopsis () associates specifically with the introns of the plastid transcripts -UCC, -UAC, and in vivo, as revealed by RNA immunoprecipitation coupled with deep sequencing (RIP-Seq); and that PUMPKIN can bind RNA efficiently in vitro. Analyses of target transcripts showed that PUMPKIN affects their metabolism. Null alleles and knockdowns of were viable but clearly affected in growth, plastid translation, and photosynthetic performance. In mutants, the levels of many plastid transcripts were reduced, while the amounts of others were increased, as revealed by RNA-Seq analysis. PUMPKIN is a homomultimeric, plastid-localized protein that forms in vivo RNA-containing megadalton-sized complexes and catalyzes the ATP-dependent conversion of UMP to UDP in vitro with properties characteristic of known essential eubacterial UMP kinases. A moonlighting function of PUMPKIN combining RNA and pyrimidine metabolism is discussed.

Citing Articles

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