Characterization of Tic110, a Channel-forming Protein at the Inner Envelope Membrane of Chloroplasts, Unveils a Response to Ca2+ and a Stromal Regulatory Disulfide Bridge

Balsera, Mónica; Goetze, Tom A.; Kovács-Bogdán, Erika; Schürmann, Peter; Wagner, Richard; Buchanan, Bob B.; Soll, Jürgen; Bölter, Bettina

doi:10.1074/jbc.m807134200

Cited by 93 publications

(131 citation statements)

References 55 publications

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“…As shown in Figure 2, CmTic110 is predicted to have a chloroplast-targeting transit peptide at its N terminus, followed by the two transmembrane helices agreed upon by both models (TM1 and TM2, Figure 2; shaded in yellow), and a large C-terminal region, similar to other Tic110s. As previously reported (Balsera et al, 2009), CmTic110 has similar secondary structure features to Tic110s from green plants except that it contains several insertions in the regions between TM2 and TM3, and between TM3 and TM4 of model 1. The C-terminal half Figure 2) conserved in all Tic110s (Kalanon and McFadden, 2008).…”

Section: Sequence Analyses Of Tic110 From Cyanidioschyzon Merolaesupporting

confidence: 53%

“…The first model describes Tic110 with six transmembrane helices (herein referred to as TM1 to TM6; Figure 1a, model 1) located throughout the polypeptide. The first two transmembrane helices (TM1 and TM2) function as a signal-anchor sequence to target the protein to the inner membrane (L€ ubeck et al, 1997), and the rest of the polypeptide traverses the inner membrane four more times (TM3 to TM6) to form a Ca 2+ -sensitive and cation-selective channel (Heins et al, 2002;Balsera et al, 2009;Kovacs-Bogdan et al, 2011). Tic110 is therefore proposed to be the major channel for translocation of protein across the inner membrane.…”

Section: Introductionmentioning

confidence: 99%

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Structural characterizations of chloroplast translocon protein Tic110

Hsiao¹,

Tsai²,

Chu³

et al. 2013

Acta Cryst Sect A

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SUMMARYTic110 is a major component of the chloroplast protein import translocon. Two functions with mutually exclusive structures have been proposed for Tic110: a protein-conducting channel with six transmembrane domains and a scaffold with two N-terminal transmembrane domains followed by a large soluble domain for binding transit peptides and other stromal translocon components. To investigate the structure of Tic110, Tic110 from Cyanidioschyzon merolae (CmTic110) was characterized. We constructed three fragments, CmTic110 A , CmTic110 B and CmTic110 C , with increasing N-terminal truncations, to perform smallangle X-ray scattering (SAXS) and X-ray crystallography analyses and Dali structural comparison. Here we report the molecular envelope of CmTic110 B and CmTic110 C determined by SAXS, and the crystal structure of CmTic110 C at 4.2 A. Our data indicate that the C-terminal half of CmTic110 possesses a rod-shaped helixrepeat structure that is too flattened and elongated to be a channel. The structure is most similar to the HEAT-repeat motif that functions as scaffolds for protein-protein interactions.

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Section: Sequence Analyses Of Tic110 From Cyanidioschyzon Merolaesupporting

confidence: 53%

Section: Introductionmentioning

confidence: 99%

Structural characterizations of chloroplast translocon protein Tic110

Hsiao¹,

Tsai²,

Chu³

et al. 2013

Acta Cryst Sect A

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“…These three proteins (Tic110, Tic40, and Hsp93) are thought to drive protein import into the stroma through repeated cycles of binding and release. Although an alternative model for the topology and function of Tic110 has also been proposed, in which Tic110 is a polytopic membrane protein that functions as a protein-conducting channel Balsera et al, 2009), a truncated version of Tic110 lacking the N-terminal transmembrane helices was shown to exist as a soluble protein when expressed in Escherichia coli or in the stroma of transgenic Arabidopsis (Inaba et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

A 1-Megadalton Translocation Complex Containing Tic20 and Tic21 Mediates Chloroplast Protein Import at the Inner Envelope Membrane

et al. 2009

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Chloroplast protein import is mediated by two hetero-oligomeric protein complexes, the Tic and Toc translocons, which are located in the inner and outer envelope membranes. At the inner membrane, many Tic components have been identified and characterized, but it remains unclear how these Tic proteins are organized to form a protein-conducting channel or whether a stable Tic core complex that binds translocating preproteins exists. Here, we report the identification of a 1-megadalton (MD) translocation complex as an intermediate during protein translocation across the inner membrane in Arabidopsis thaliana and pea (Pisum sativum). This complex can be detected by blue native PAGE using the mild detergent digitonin without any chemical cross-linkers. The preprotein arrested in the 1-MD complex can be chased into its fully translocated form after a subsequent incubation. While Tic20 and Tic21 appear to be involved in the 1-MD complex, Tic110, a wellcharacterized Tic component, exists as a distinct entity from the complex. Several lines of evidence suggest that the 1-MD complex functions in between the Toc and Tic110-containing complexes, most likely as a protein-conducting channel at the inner envelope.

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“…This notion was disputed in another study, where the reported Tic21 (Teng et al , 2006 ) most likely represents an ancient metal permease, which regulates iron uptake and metal homeostasis in chloroplast and not a protein conducting channel (Duy et al , 2007 ). Despite the occurrence of several proteinconducting channel candidates for the inner membrane of the chloroplast, considerable lines of evidence clearly pinpoint Tic110 as the central subunit of the TIC complex, forming a high-conductance cation-selective channel Balsera et al , 2009 ). Electrophysiology measurements indicate a pore size of 1.7 nm, similar to that of Toc75.…”

Section: The Tic Complex: a Short Glimpsementioning

confidence: 99%

“…After tranlocating through the outer envelope (OE), preproteins are imported either via Tic110 or Tic20 through the IE. Tic110 is thought to form a homodimer with a total of eight amphipathic transmembrane helices forming the translocation channel and four hydrophobic α -helices involved in the insertion into the membrane (Lubeck et al , 1996 ;Balsera et al , 2009 ). The proposed Tic20 channel is depicted as a homo-oligomer with a proposed molecular mass of > 700 kD but only three molecules are drawn for simplicity.…”

Section: Construction Underway: the Ambiguous Role Of Toc159 Family Amentioning

confidence: 99%

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

Chang¹,

Soll²,

Bölter³

2012

Biological Chemistry

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: Chloroplast biogenesis often requires a tight orchestration between gene expression (both plastidial and nuclear) and translocation of ~ 3000 nuclear-encoded proteins into the organelle. Protein translocation is achieved via two multimeric import machineries at the outer (TOC) and inner (TIC) envelope of chloroplast, respectively. Three components constitute the core element of the TOC complex: a β -barrel protein translocation channel Toc75 and two receptor constituents, Toc159 and Toc34. A diverse set of distinct TOC complexes have recently been characterized and these diversified TOC complexes have evolved to coordinate the translocation of differentially expressed proteins. This review aims to describe the recent discoveries relating to the typical characteristics of these distinct TOC complexes, particularly the receptor constituents, which are the main contributors for TOC complex diversification.

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Characterization of Tic110, a Channel-forming Protein at the Inner Envelope Membrane of Chloroplasts, Unveils a Response to Ca2+ and a Stromal Regulatory Disulfide Bridge

Cited by 93 publications

References 55 publications

Structural characterizations of chloroplast translocon protein Tic110

Structural characterizations of chloroplast translocon protein Tic110

A 1-Megadalton Translocation Complex Containing Tic20 and Tic21 Mediates Chloroplast Protein Import at the Inner Envelope Membrane

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

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