Literature DB >> 23839788

Arabidopsis CURVATURE THYLAKOID1 proteins modify thylakoid architecture by inducing membrane curvature.

Ute Armbruster1, Mathias Labs, Mathias Pribil, Stefania Viola, Wenteng Xu, Michael Scharfenberg, Alexander P Hertle, Ulrike Rojahn, Poul Erik Jensen, Fabrice Rappaport, Pierre Joliot, Peter Dörmann, Gerhard Wanner, Dario Leister.   

Abstract

Chloroplasts of land plants characteristically contain grana, cylindrical stacks of thylakoid membranes. A granum consists of a core of appressed membranes, two stroma-exposed end membranes, and margins, which connect pairs of grana membranes at their lumenal sides. Multiple forces contribute to grana stacking, but it is not known how the extreme curvature at margins is generated and maintained. We report the identification of the CURVATURE THYLAKOID1 (CURT1) protein family, conserved in plants and cyanobacteria. The four Arabidopsis thaliana CURT1 proteins (CURT1A, B, C, and D) oligomerize and are highly enriched at grana margins. Grana architecture is correlated with the CURT1 protein level, ranging from flat lobe-like thylakoids with considerably fewer grana margins in plants without CURT1 proteins to an increased number of membrane layers (and margins) in grana at the expense of grana diameter in overexpressors of CURT1A. The endogenous CURT1 protein in the cyanobacterium Synechocystis sp PCC6803 can be partially replaced by its Arabidopsis counterpart, indicating that the function of CURT1 proteins is evolutionary conserved. In vitro, Arabidopsis CURT1A proteins oligomerize and induce tubulation of liposomes, implying that CURT1 proteins suffice to induce membrane curvature. We therefore propose that CURT1 proteins modify thylakoid architecture by inducing membrane curvature at grana margins.

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Year:  2013        PMID: 23839788      PMCID: PMC3753390          DOI: 10.1105/tpc.113.113118

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  69 in total

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  80 in total

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Review 6.  Structural changes of the thylakoid membrane network induced by high light stress in plant chloroplasts.

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Journal:  Plant Physiol       Date:  2018-01-26       Impact factor: 8.340
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