Parthasarathi Rath scite author profile

Parthasarathi Rath

2Publications

50Citation Statements Received

82Citation Statements Given

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Affiliations

Institute of Pharmacology and Structural Biology, Université de Toulouse, Université Toulouse III - Paul Sabatier

Publications

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Functional Expression of the PorAH Channel from Corynebacterium glutamicum in Cell-free Expression Systems

Rath

Demange

Saurel

et al. 2011

Journal of Biological Chemistry

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PorA and PorH are two small membrane proteins from the outer membrane of Corynebacterium glutamicum, which have been shown to form heteromeric ion channels and to be posttranslationally modified by mycolic acids. Any structural details of the channel could not be analyzed so far due to tremendous difficulties in the production of sufficient amounts of protein samples. Cell-free (CF) expression is a new and remarkably successful strategy for the production of membrane proteins for which toxicity, membrane targeting, and degradation are key issues. In addition, reaction conditions can easily be modified to modulate the quality of synthesized protein samples. We developed an efficient CF expression strategy to produce the channel subunits devoid of post-translational modifications.15 N-labeled PorA and PorH samples were furthermore characterized by NMR and gave well resolved spectra, opening the way for structural studies. The comparison of ion channel activities of CF-expressed proteins with channels isolated from C. glutamicum gave clear insights on the influence of the mycolic acid modification of the two subunits on their functional properties.

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NMR localization of the O‐mycoloylation on PorH, a channel forming peptide from Corynebacterium glutamicum

et al. 2013

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a b s t r a c tPorH and PorA are two small peptides that, in complex, form a voltage-dependent ion channel in the outer membrane of Corynebacterium glutamicum. Specific post-translational modifications on PorA and PorH are required for the formation of a functional ion channel. The assignment of PorH proton NMR chemical shifts in DMSO, allowed identifying unambiguously the exact position of the PorH Omycoloylation on Ser 56 side chain. This was further confirmed by site directed mutagenesis and mass spectrometry. Together with the previously published localization of PorA mycoloylation, this provides the complete primary structure characterization of this outer membrane porin.

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