Litcius/Paper detail

Research Progress in the Interconversion, Turnover and Degradation of Chlorophyll

Xueyun Hu, Tongyu Gu, Imran Khan, Ahmad Zada, Ting Jia

2021Cells89 citationsDOIOpen Access PDF

Abstract

) are tetrapyrrole molecules essential for photosynthetic light harvesting and energy transduction in plants. Once formed, Chls are noncovalently bound to photosynthetic proteins on the thylakoid membrane. In contrast, they are dismantled from photosystems in response to environmental changes or developmental processes; thus, they undergo interconversion, turnover, and degradation. In the last twenty years, fruitful research progress has been achieved on these Chl metabolic processes. The discovery of new metabolic pathways has been accompanied by the identification of enzymes associated with biochemical steps. This article reviews recent progress in the analysis of the Chl cycle, turnover and degradation pathways and the involved enzymes. In addition, open questions regarding these pathways that require further investigation are also suggested.

Topics & Concepts

TetrapyrroleThylakoidPhotosynthesisMetabolic pathwayPhotosystemBiochemistryChlorophyllChemistryBiologyChloroplastEnzymeBiophysicsBotanyPhotosystem IIGenePhotosynthetic Processes and MechanismsLight effects on plantsPlant Stress Responses and Tolerance
Research Progress in the Interconversion, Turnover and Degradation of Chlorophyll | Litcius