Mitochondrial small heat shock protein mediates seed germination via thermal sensing

Wei Ma; Xueying Guan; Jie Li; Ronghui Pan; Luyao Wang; Fengjun Liu; Hongyu Ma; Shuijin Zhu; Jin Hu; Yong Ling Ruan; Xiaoya Chen; Tianzhen Zhang

doi:10.1073/pnas.1815790116

Mitochondrial small heat shock protein mediates seed germination via thermal sensing

Wei Ma, Xueying Guan, Jie Li, Ronghui Pan, Luyao Wang, Fengjun Liu, Hongyu Ma, Shuijin Zhu, Jin Hu, Yong Ling Ruan, Xiaoya Chen, Tianzhen Zhang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

94 Citations (Scopus)

Abstract

Seed germination is an energy demanding process that requires functional mitochondria upon imbibition. However, how mitochondria fine tune seed germination, especially in response to the dynamics of environmental temperature, remains largely unknown at the molecular level. Here, we report a mitochondrial matrix-localized heat shock protein GhHSP24.7, that regulates seed germination in a temperature-dependent manner. Suppression of GhHSP24.7 renders the seed insensitive to temperature changes and delays germination. We show that GhHSP24.7 competes with GhCCMH to bind to the maturation subunit protein GhCcmF _c to form cytochrome C/C ₁ (CytC/C ₁ ) in the mitochondrial electron transport chain. GhHSP24.7 modulates CytC/C ₁ production to induce reactive oxygen species (ROS) generation, which consequently accelerates endosperm rupture and promotes seed germination. Overexpression of GhHSP24.7’s homologous genes can accelerate seed germination in Arabidopsis and tomato, indicating its conserved function across plant species. Therefore, HSP24.7 is a critical factor that positively controls seed germination via temperature-dependent ROS generation.

Original language	English
Pages (from-to)	4716-4721
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	116
Issue number	10
DOIs	https://doi.org/10.1073/pnas.1815790116
Publication status	Published - 2019
Externally published	Yes

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title = "Mitochondrial small heat shock protein mediates seed germination via thermal sensing",

abstract = " Seed germination is an energy demanding process that requires functional mitochondria upon imbibition. However, how mitochondria fine tune seed germination, especially in response to the dynamics of environmental temperature, remains largely unknown at the molecular level. Here, we report a mitochondrial matrix-localized heat shock protein GhHSP24.7, that regulates seed germination in a temperature-dependent manner. Suppression of GhHSP24.7 renders the seed insensitive to temperature changes and delays germination. We show that GhHSP24.7 competes with GhCCMH to bind to the maturation subunit protein GhCcmF c to form cytochrome C/C 1 (CytC/C 1 ) in the mitochondrial electron transport chain. GhHSP24.7 modulates CytC/C 1 production to induce reactive oxygen species (ROS) generation, which consequently accelerates endosperm rupture and promotes seed germination. Overexpression of GhHSP24.7{\textquoteright}s homologous genes can accelerate seed germination in Arabidopsis and tomato, indicating its conserved function across plant species. Therefore, HSP24.7 is a critical factor that positively controls seed germination via temperature-dependent ROS generation.",

keywords = "HSP, Mitochondria, ROS, Seed germination, Temperature",

author = "Wei Ma and Xueying Guan and Jie Li and Ronghui Pan and Luyao Wang and Fengjun Liu and Hongyu Ma and Shuijin Zhu and Jin Hu and Ruan, {Yong Ling} and Xiaoya Chen and Tianzhen Zhang",

year = "2019",

doi = "10.1073/pnas.1815790116",

language = "English",

volume = "116",

pages = "4716--4721",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

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TY - JOUR

T1 - Mitochondrial small heat shock protein mediates seed germination via thermal sensing

AU - Ma, Wei

AU - Guan, Xueying

AU - Li, Jie

AU - Pan, Ronghui

AU - Wang, Luyao

AU - Liu, Fengjun

AU - Ma, Hongyu

AU - Zhu, Shuijin

AU - Hu, Jin

AU - Ruan, Yong Ling

AU - Chen, Xiaoya

AU - Zhang, Tianzhen

PY - 2019

Y1 - 2019

N2 - Seed germination is an energy demanding process that requires functional mitochondria upon imbibition. However, how mitochondria fine tune seed germination, especially in response to the dynamics of environmental temperature, remains largely unknown at the molecular level. Here, we report a mitochondrial matrix-localized heat shock protein GhHSP24.7, that regulates seed germination in a temperature-dependent manner. Suppression of GhHSP24.7 renders the seed insensitive to temperature changes and delays germination. We show that GhHSP24.7 competes with GhCCMH to bind to the maturation subunit protein GhCcmF c to form cytochrome C/C 1 (CytC/C 1 ) in the mitochondrial electron transport chain. GhHSP24.7 modulates CytC/C 1 production to induce reactive oxygen species (ROS) generation, which consequently accelerates endosperm rupture and promotes seed germination. Overexpression of GhHSP24.7’s homologous genes can accelerate seed germination in Arabidopsis and tomato, indicating its conserved function across plant species. Therefore, HSP24.7 is a critical factor that positively controls seed germination via temperature-dependent ROS generation.

AB - Seed germination is an energy demanding process that requires functional mitochondria upon imbibition. However, how mitochondria fine tune seed germination, especially in response to the dynamics of environmental temperature, remains largely unknown at the molecular level. Here, we report a mitochondrial matrix-localized heat shock protein GhHSP24.7, that regulates seed germination in a temperature-dependent manner. Suppression of GhHSP24.7 renders the seed insensitive to temperature changes and delays germination. We show that GhHSP24.7 competes with GhCCMH to bind to the maturation subunit protein GhCcmF c to form cytochrome C/C 1 (CytC/C 1 ) in the mitochondrial electron transport chain. GhHSP24.7 modulates CytC/C 1 production to induce reactive oxygen species (ROS) generation, which consequently accelerates endosperm rupture and promotes seed germination. Overexpression of GhHSP24.7’s homologous genes can accelerate seed germination in Arabidopsis and tomato, indicating its conserved function across plant species. Therefore, HSP24.7 is a critical factor that positively controls seed germination via temperature-dependent ROS generation.

KW - HSP

KW - Mitochondria

KW - ROS

KW - Seed germination

KW - Temperature

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U2 - 10.1073/pnas.1815790116

DO - 10.1073/pnas.1815790116

M3 - Article

SN - 0027-8424

VL - 116

SP - 4716

EP - 4721

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 10

ER -

Mitochondrial small heat shock protein mediates seed germination via thermal sensing

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