Anbazhagan Veerappan scite author profile

Folding of polytopic transmembrane proteins involves interactions of individual transmembrane helices, and multiple TM helix-helix interactions need to be controlled and aligned to result in the final TM protein structure. While defined interaction motifs, such as the GxxxG motif, might be critically involved in transmembrane helix-helix interactions, the sequence context as well as lipid bilayer properties significantly modulate the strength of a sequence specific transmembrane helix-helix interaction. Structures of 11 transmembrane helix dimers have been described today, and the influence of the sequence context as well as of the detergent and lipid environment on a sequence specific dimerization is discussed in light of the available structural information. This article is part of a Special Issue entitled: Protein Folding in Membranes.

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The membrane environment modulates self-association of the human GpA TM domain—Implications for membrane protein folding and transmembrane signaling

Veerappan

Schneider

2010

Biochimica et Biophysica Acta (BBA) - Biomembranes

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The influence of lipid bilayer properties on a defined and sequence-specific transmembrane helix-helix interaction is not well characterized yet. To study the potential impact of changing bilayer properties on a sequence-specific transmembrane helix-helix interaction, we have traced the association of fluorescent-labeled glycophorin A transmembrane peptides by fluorescence spectroscopy in model membranes with varying lipid compositions. The observed changes of the glycophorin A dimerization propensities in different lipid bilayers suggest that the lipid bilayer thickness severely influences the monomer-dimer equilibrium of this transmembrane domain, and dimerization was most efficient under hydrophobic matching conditions. Moreover, cholesterol considerably promotes self-association of transmembrane helices in model membranes by affecting the lipid acyl chain ordering. In general, the order of the lipid acyl chains appears to be an important factor involved in determining the strength and stability of transmembrane helix-helix interactions. As discussed, the described influences of membrane properties on transmembrane helix-helix interactions are highly important for understanding the mechanism of transmembrane protein folding and functioning as well as for gaining a deeper insight into the regulation of signal transduction via membrane integral proteins by bilayer properties.

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Sulfidation of silver nanoparticle reduces its toxicity in zebrafish

et al. 2015

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Copper nanoparticles as an efflux pump inhibitor to tackle drug resistant bacteria

et al. 2015

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Jacalin-copper sulfide nanoparticles complex enhance the antibacterial activity against drug resistant bacteria via cell surface glycan recognition

Ahmed

Subramaniyan

Banu

et al. 2018

Colloids and Surfaces B: Biointerfaces

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Spectroscopy investigation on chemo-catalytic, free radical scavenging and bactericidal properties of biogenic silver nanoparticles synthesized using Salicornia brachiata aqueous extract

Janani

Stevenson

Subramaniam

et al. 2014

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Unfolding a transmembrane helix dimer: A FRET study in mixed micelles

Veerappan¹,

Cymer

Schneider

2010

Archives of Biochemistry and Biophysics

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Synthesis of fibrinolytic active silver nanoparticle using wheat bran xylan as a reducing and stabilizing agent

Harish

Uppuluri

Veerappan

2015

Carbohydrate Polymers

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