The atypical kinase ABC1K1 interacts with the EXECUTER pathway to promote chloroplast biogenesis

Joy Collombat; Thibaut Pralon; Jenny Pego Magalhaes; Sarah Rottet; Brigitte Ksas; Gaetan Glauser; Michel Havaux; Felix Kessler; Fiamma Longoni

doi:10.21203/rs.3.rs-1155824/v1

The atypical kinase ABC1K1 interacts with the EXECUTER pathway to promote chloroplast biogenesis

Joy Collombat, Thibaut Pralon, Jenny Pego Magalhaes, Sarah Rottet, Brigitte Ksas, Gaetan Glauser, Michel Havaux, Felix Kessler, Fiamma Longoni

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Abstract

Multiple chloroplast-to-nucleus signaling pathways contribute to the regulation of chloroplast biogenesis during plant greening. Here, we provide evidence for the direct implication of the atypical kinase ABC1K1. ABC1K1 is required for sufficient plastoquinone (PQ) allocation to the photosynthetic electron transport chain. Unexpectedly, mutation of abc1k1 suppresses greening and results in pale cotyledons under red light. This phenotype was not observed in other photosynthetic mutants and points to a specific signaling defect. Under red light, abc1k1 accumulated EXECUTER1 (EX1), a trigger of singlet oxygen (1O2) signaling. Consistent with the role of the FTSH metalloprotease in chloroplast biogenesis and EX1 degradation, the ftsh2 mutant var2, mimicked the greening defect of abc1k1 and accumulated EX1 under red light. We propose that this novel ABC1K1-dependent signal is required for chloroplast biogenesis to progress in challenging light conditions.

Original language	English
Journal	Research Square
DOIs	https://doi.org/10.21203/rs.3.rs-1155824/v1
Publication status	Published - 2021

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title = "The atypical kinase ABC1K1 interacts with the EXECUTER pathway to promote chloroplast biogenesis",

abstract = "Multiple chloroplast-to-nucleus signaling pathways contribute to the regulation of chloroplast biogenesis during plant greening. Here, we provide evidence for the direct implication of the atypical kinase ABC1K1. ABC1K1 is required for sufficient plastoquinone (PQ) allocation to the photosynthetic electron transport chain. Unexpectedly, mutation of abc1k1 suppresses greening and results in pale cotyledons under red light. This phenotype was not observed in other photosynthetic mutants and points to a specific signaling defect. Under red light, abc1k1 accumulated EXECUTER1 (EX1), a trigger of singlet oxygen (1O2) signaling. Consistent with the role of the FTSH metalloprotease in chloroplast biogenesis and EX1 degradation, the ftsh2 mutant var2, mimicked the greening defect of abc1k1 and accumulated EX1 under red light. We propose that this novel ABC1K1-dependent signal is required for chloroplast biogenesis to progress in challenging light conditions.",

author = "Joy Collombat and Thibaut Pralon and Magalhaes, {Jenny Pego} and Sarah Rottet and Brigitte Ksas and Gaetan Glauser and Michel Havaux and Felix Kessler and Fiamma Longoni",

year = "2021",

doi = "10.21203/rs.3.rs-1155824/v1",

language = "English",

journal = "Research Square",

publisher = "Creative Commons",

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TY - JOUR

T1 - The atypical kinase ABC1K1 interacts with the EXECUTER pathway to promote chloroplast biogenesis

AU - Collombat, Joy

AU - Pralon, Thibaut

AU - Magalhaes, Jenny Pego

AU - Rottet, Sarah

AU - Ksas, Brigitte

AU - Glauser, Gaetan

AU - Havaux, Michel

AU - Kessler, Felix

AU - Longoni, Fiamma

PY - 2021

Y1 - 2021

N2 - Multiple chloroplast-to-nucleus signaling pathways contribute to the regulation of chloroplast biogenesis during plant greening. Here, we provide evidence for the direct implication of the atypical kinase ABC1K1. ABC1K1 is required for sufficient plastoquinone (PQ) allocation to the photosynthetic electron transport chain. Unexpectedly, mutation of abc1k1 suppresses greening and results in pale cotyledons under red light. This phenotype was not observed in other photosynthetic mutants and points to a specific signaling defect. Under red light, abc1k1 accumulated EXECUTER1 (EX1), a trigger of singlet oxygen (1O2) signaling. Consistent with the role of the FTSH metalloprotease in chloroplast biogenesis and EX1 degradation, the ftsh2 mutant var2, mimicked the greening defect of abc1k1 and accumulated EX1 under red light. We propose that this novel ABC1K1-dependent signal is required for chloroplast biogenesis to progress in challenging light conditions.

AB - Multiple chloroplast-to-nucleus signaling pathways contribute to the regulation of chloroplast biogenesis during plant greening. Here, we provide evidence for the direct implication of the atypical kinase ABC1K1. ABC1K1 is required for sufficient plastoquinone (PQ) allocation to the photosynthetic electron transport chain. Unexpectedly, mutation of abc1k1 suppresses greening and results in pale cotyledons under red light. This phenotype was not observed in other photosynthetic mutants and points to a specific signaling defect. Under red light, abc1k1 accumulated EXECUTER1 (EX1), a trigger of singlet oxygen (1O2) signaling. Consistent with the role of the FTSH metalloprotease in chloroplast biogenesis and EX1 degradation, the ftsh2 mutant var2, mimicked the greening defect of abc1k1 and accumulated EX1 under red light. We propose that this novel ABC1K1-dependent signal is required for chloroplast biogenesis to progress in challenging light conditions.

U2 - 10.21203/rs.3.rs-1155824/v1

DO - 10.21203/rs.3.rs-1155824/v1

M3 - Article

JO - Research Square

JF - Research Square

ER -

The atypical kinase ABC1K1 interacts with the EXECUTER pathway to promote chloroplast biogenesis

Abstract

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