Conformational dynamics of a membrane protein chaperone enables spatially regulated substrate capture and release

Liang, Fu‐Cheng; Kroon, Gerard; McAvoy, Camille Z.; Chi, Chris; Wright, Peter E.; Shan, Shu‐ou

doi:10.1073/pnas.1524777113

Cited by 36 publications

(103 citation statements)

References 47 publications

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“…Interestingly, levels of LHC proteins were clearly higher in ffc than in chaos, chaos/ffc, and cpftsy (Fig. 1C), indicating that cpSRP43 functions predominantly and independently from cpSRP54 in targeting of LHC proteins to the thylakoid membranes (Tzvetkova-Chevolleau et al, 2007;Liang et al, 2016). In summary, our initial results suggest that malfunction of the cpSRP pathway depresses steady-state levels of both LHCI and LHCII, while strongly reduced Chl b biosynthesis preferentially affects LHCII.…”

Section: Reduced Contents Of Lhcs In Ch1-2 and Cpsrp Mutantsmentioning

confidence: 71%

Comparative Analysis of Light-Harvesting Antennae and State Transition in chlorina and cpSRP Mutants

Wang

Grimm

2016

Plant Physiol.

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State transitions in photosynthesis provide for the dynamic allocation of a mobile fraction of light-harvesting complex II (LHCII) to photosystem II (PSII) in state I and to photosystem I (PSI) in state II. In the state I-to-state II transition, LHCII is phosphorylated by STN7 and associates with PSI to favor absorption cross-section of PSI. Here, we used Arabidopsis (Arabidopsis thaliana) mutants with defects in chlorophyll (Chl) b biosynthesis or in the chloroplast signal recognition particle (cpSRP) machinery to study the flexible formation of PS-LHC supercomplexes. Intriguingly, we found that impaired Chl b biosynthesis in chlorina1-2 (ch1-2) led to preferentially stabilized LHCI rather than LHCII, while the contents of both LHCI and LHCII were equally depressed in the cpSRP43-deficient mutant (chaos). In view of recent findings on the modified state transitions in LHCI-deficient mutants (Benson et al., 2015), the ch1-2 and chaos mutants were used to assess the influence of varying LHCI/LHCII antenna size on state transitions. Under state II conditions, LHCII-PSI supercomplexes were not formed in both ch1-2 and chaos plants. LHCII phosphorylation was drastically reduced in ch1-2, and the inactivation of STN7 correlates with the lack of state transitions. In contrast, phosphorylated LHCII in chaos was observed to be exclusively associated with PSII complexes, indicating a lack of mobile LHCII in chaos. Thus, the comparative analysis of ch1-2 and chaos mutants provides new evidence for the flexible organization of LHCs and enhances our understanding of the reversible allocation of LHCII to the two photosystems.

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Section: Reduced Contents Of Lhcs In Ch1-2 and Cpsrp Mutantsmentioning

confidence: 71%

Comparative Analysis of Light-Harvesting Antennae and State Transition in chlorina and cpSRP Mutants

Wang

Grimm

2016

Plant Physiol.

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“…cpSRP43 con-tains a substrate binding domain that recognizes LHCPs and two chromodomains, CD2 and CD3 (32,33). CD2 binds the C-terminal tail of the cpSRP54 M-domain to form the cpSRP, and CD3 provides an interaction site with the Alb3 translocase (see below) (34,35).…”

mentioning

confidence: 99%

Anionic Phospholipids and the Albino3 Translocase Activate Signal Recognition Particle-Receptor Interaction during Light-harvesting Chlorophyll a/b-binding Protein Targeting

Chandrasekar

Shan

2017

Journal of Biological Chemistry

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Edited by Thomas Sö llnerThe universally conserved signal recognition particle (SRP) co-translationally delivers newly synthesized membrane and secretory proteins to the target cellular membrane. The only exception is found in the chloroplast of green plants, where the chloroplast SRP (cpSRP) post-translationally targets light-harvesting chlorophyll a/b-binding proteins (LHCP) to the thylakoid membrane. The mechanism and regulation of this posttranslational mode of targeting by cpSRP remain unclear. Using biochemical and biophysical methods, here we show that anionic phospholipids activate the cpSRP receptor cpFtsY to promote rapid and stable cpSRP54⅐cpFtsY complex assembly. Furthermore, the stromal domain of the Alb3 translocase binds with high affinity to and regulates GTP hydrolysis in the cpSRP54⅐cpFtsY complex, suggesting that cpFtsY is primarily responsible for initial recruitment of the targeting complex to Alb3. These results suggest a new model for the sequential recruitment, remodeling, and unloading of the targeting complex at membrane translocase sites in the post-translational cpSRP pathway.

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“…The dynamic opening of the Get3•TA complex is unexpected, as crystallographic analyses suggested that in open Get3, the hydrophobic groove for TMD binding becomes discontiguous (7,26). Intriguingly, our recent (12) and current measurements showed that Get3•TA complexes exhibit high kinetic stability: Using a membrane protein chaperone, cpSRP43 (27,28), as an inert TA trap, the timescale for spontaneous dissociation of Bos1 from Get3 was measured to be ∼4 h (Fig. S4B).…”

Section: -H)mentioning

confidence: 82%

“…Plasmids for recombinant expression of Get3, Get4/5, Get1CD, and a superactive mutant of the cpSRP43 chaperone (intein-cpSRP43) and for in vitro translation of 3xStrep-SUMOnc-Bos1-opsin have been described (10,12,14,28). DNA encoding 2xStrep-Sbh1 was in the pACYCDuet-1 vector.…”

Section: Methodsmentioning

confidence: 99%

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A Protean Clamp Guides Membrane Targeting of Tail-Anchored Proteins

Shan

Chio

2018

Biophysical Journal

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Conformational dynamics of a membrane protein chaperone enables spatially regulated substrate capture and release

Cited by 36 publications

References 47 publications

Comparative Analysis of Light-Harvesting Antennae and State Transition in chlorina and cpSRP Mutants

Comparative Analysis of Light-Harvesting Antennae and State Transition in chlorina and cpSRP Mutants

Anionic Phospholipids and the Albino3 Translocase Activate Signal Recognition Particle-Receptor Interaction during Light-harvesting Chlorophyll a/b-binding Protein Targeting

A Protean Clamp Guides Membrane Targeting of Tail-Anchored Proteins

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