The gateway to chloroplast: re-defining the function of chloroplast receptor proteins

Chang, Wai-Ling; Soll, Jürgen; Bölter, Bettina

doi:10.1515/hsz-2012-0235

Cited by 17 publications

(12 citation statements)

References 115 publications

(181 reference statements)

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“…This clone, however, lacked a true start methionine, therefore was most likely N-terminally incomplete. In addition, the abundance of the acidic amino acids glutamic acid and aspartic acid as well as the hydroxyl-containing serine and threonine that has been proposed as characteristic features of the A-domain in Arabidopsis Toc159 homologs (Agne et al, 2010; Chang et al, 2012) was also found in both putative A-domain sequences of psToc132 and psToc120. Therefore, both sequences represent genuine A-domains of psToc132 and psToc120 in pea, respectively.…”

Section: Resultsmentioning

confidence: 91%

A new member of the psToc159 family contributes to distinct protein targeting pathways in pea chloroplasts

2014

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Protein import into chloroplasts relies on specific targeting of preproteins from the cytosol to the organelles and coordinated translocation processes across the double envelope membrane. Here, two complex machineries constitute the so called general import pathway, which consists of the TOC and TIC complexes (translocon at the outer envelope of chloroplasts and translocon at the inner envelope of chloroplasts, respectively). The majority of canonical preproteins feature an N-terminal cleavable transit peptide, which is necessary for targeting and recognition at the chloroplast surface by receptors of TOC, where Toc159 acts as the primary contact site. We identified a non-canonical preprotein without the classical transit peptide, the superoxide dismutase (FSD1), which was then used in chemical crosslinking approaches to find new interaction partners at the outer envelope from pea chloroplasts. In this way we could link FSD1 to members of the Toc159 family in pea, namely psToc132 and psToc120. Using deletion mutants as well as a peptide scanning approach we defined regions of the preprotein, which are involved in receptor binding. These are distributed across the entire sequence; however the extreme N-terminus as well as a C-proximal domain turned out to be essential for targeting and import. En route into the plastid FSD1 engages components of the general import pathway, implying that in spite of the non-canonical targeting information and recognition by a specific receptor this preprotein follows a similar way across the envelope as the majority of plastid preproteins.

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Section: Resultsmentioning

confidence: 91%

A new member of the psToc159 family contributes to distinct protein targeting pathways in pea chloroplasts

2014

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“…This simplified view is true for most mitochondrial and chloroplastic proteins. Various aspects of the organellar protein import have been extensively reviewed elsewhere [25][26][27][28][29][30][31][32].…”

Section: Glossarymentioning

confidence: 99%

Shredding the signal: targeting peptide degradation in mitochondria and chloroplasts

Kmiec¹,

Teixeira²,

Glaser³

2014

Trends in Plant Science

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“…Toc75, Toc34, and Toc159 are integral membrane proteins that form complexes in the outer membrane with a minimal size of 800 kDa and a stoichiometry estimated at 4:4:1 or 3:3:1 (Toc75:Toc34:Toc159) (Schleiff et al, 2003; Kikuchi et al, 2006; Chen and Li, 2007). Toc34 and Toc159 bind to the transit peptides of newly synthesized preproteins at the chloroplast surface via their GTPase domains (G-domains) and initiate translocation across the outer membrane by transferring preproteins to Toc75 through a series of intermolecular events controlled by their intrinsic GTPase activities (Figure 1B) (Kessler and Schnell, 2002; Li et al, 2007; Chang et al, 2012; Lee et al, 2013). Genetic and biochemical data indicate that transit peptide binding at the receptors regulates both homo- and heterodimerization between their cytoplasmic GTPase-domains, which in turn controls nucleotide exchange, hydrolysis and the initiation of preprotein translocation (Bauer et al, 2002; Smith et al, 2002; Jelic et al, 2003; Weibel et al, 2003; Becker et al, 2004; Yeh et al, 2007; Koenig et al, 2008a,b; Lee et al, 2009; Rahim et al, 2009; Oreb et al, 2011).…”

Section: Overview Of Toc Functionmentioning

confidence: 99%

“…A multimeric complex in the plastid outer envelope membrane, referred to as TOC (translocon at the outer membrane of chloroplasts), recognizes the majority of plastid-destined proteins at the organelle surface (Kessler and Schnell, 2009; Chang et al, 2012). TOC components bind the N-terminal transit peptides of newly synthesized preproteins and function in coordination with a second complex at the inner envelope membrane, referred to as TIC (translocon at the inner membrane of chloroplasts), to provide direct transport of preproteins from the cytoplasm to the stroma (Li and Chiu, 2010; Jarvis and Lopez-Juez, 2013).…”

Section: Introductionmentioning

confidence: 99%

Targeting and assembly of components of the TOC protein import complex at the chloroplast outer envelope membrane

et al. 2014

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The translocon at the outer envelope membrane of chloroplasts (TOC) initiates the import of thousands of nuclear encoded preproteins required for chloroplast biogenesis and function. The multimeric TOC complex contains two GTP-regulated receptors, Toc34 and Toc159, which recognize the transit peptides of preproteins and initiate protein import through a β–barrel membrane channel, Toc75. Different isoforms of Toc34 and Toc159 assemble with Toc75 to form structurally and functionally diverse translocons, and the composition and levels of TOC translocons is required for the import of specific subsets of coordinately expressed proteins during plant growth and development. Consequently, the proper assembly of the TOC complexes is key to ensuring organelle homeostasis. This review will focus on our current knowledge of the targeting and assembly of TOC components to form functional translocons at the outer membrane. Our analyses reveal that the targeting of TOC components involves elements common to the targeting of other outer membrane proteins, but also include unique features that appear to have evolved to specifically facilitate assembly of the import apparatus.

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The gateway to chloroplast: re-defining the function of chloroplast receptor proteins

Cited by 17 publications

References 115 publications

A new member of the psToc159 family contributes to distinct protein targeting pathways in pea chloroplasts

A new member of the psToc159 family contributes to distinct protein targeting pathways in pea chloroplasts

Shredding the signal: targeting peptide degradation in mitochondria and chloroplasts

Targeting and assembly of components of the TOC protein import complex at the chloroplast outer envelope membrane

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