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Architecture of the spinach plastid-encoded RNA polymerase

Tongtong Wang, Guanglei Wang, Ying Fang, Yi Zhang, Wenxin Peng, Yue Zhou, Aihong Zhang, Long‐Jiang Yu, Congming Lu

2024Nature Communications14 citationsDOIOpen Access PDF

Abstract

The plastid-encoded RNA polymerase serves as the principal transcription machinery within chloroplasts, transcribing over 80% of all primary plastid transcripts. This polymerase consists of a prokaryotic-like core enzyme known as the plastid-encoded RNA polymerase core, and is supplemented by newly evolved associated proteins known as PAPs. However, the architecture of the plastid-encoded RNA polymerase and the possible functions of PAPs remain unknown. Here, we present the cryo-electron microscopy structure of a 19-subunit plastid-encoded RNA polymerase complex derived from spinach (Spinacia oleracea). The structure shows that the plastid-encoded RNA polymerase core resembles bacterial RNA polymerase. Twelve PAPs and two additional proteins (FLN2 and pTAC18) bind at the periphery of the plastid-encoded RNA polymerase core, forming extensive interactions that may facilitate complex assembly and stability. PAPs may also protect the complex against oxidative damage and has potential functions in transcriptional regulation. This research offers a structural basis for future investigations into the functions and regulatory mechanisms governing the transcription of plastid genes. The plastid-encoded RNA polymerase serves as the principal transcription machinery within chloroplasts. Here, the authors present the cryo-electron microscopy structure of a 19-subunit plastid-encoded RNA polymerase complex derived from spinach.

Topics & Concepts

SpinachPlastidComputational biologyRNA polymerasePolymeraseBiologyRNARNA polymerase IIGeneticsGeneGene expressionBiochemistryChloroplastPromoterPhotosynthetic Processes and MechanismsGenomics and Phylogenetic StudiesRNA and protein synthesis mechanisms