Literature DB >> 1710937

Fourier transform infrared evidence for a predominantly alpha-helical structure of the membrane bound channel forming COOH-terminal peptide of colicin E1.

P Rath1, O Bousché, A R Merrill, W A Cramer, K J Rothschild.   

Abstract

The structure of the membrane bound state of the 178-residue thermolytic COOH-terminal channel forming peptide of colicin E1 was studied by polarized Fourier transform infrared (FTIR) spectroscopy. This fragment was reconstituted into DMPC liposomes at varying peptide/lipid ratios ranging from 1/25-1/500. The amide I band frequency of the protein indicated a dominant alpha-helical secondary structure with limited beta- and random structures. The amide I and II frequencies are at 1,656 and 1,546 cm-1, close to the frequency of the amide I and II bands of rhodopsin, bacteriorhodopsin and other alpha-helical proteins. Polarized FTIR of oriented membranes revealed that the alpha-helices have an average orientation less than the magic angle, 54.6 degrees, relative to the membrane normal. Almost all of the peptide groups in the membrane-bound channel protein undergo rapid hydrogen/deuterium (H/D) exchange. These results are contrasted to the alpha-helical membrane proteins, bacteriorhodopsin, and rhodopsin.

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Year:  1991        PMID: 1710937      PMCID: PMC1281217          DOI: 10.1016/S0006-3495(91)82268-8

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  37 in total

1.  Frustrated multiple internal reflection infrared spectroscopic studies on 1H--2H exchange in protein films.

Authors:  G Deutschmann; V Ullrich
Journal:  Anal Biochem       Date:  1979-04-01       Impact factor: 3.365

2.  Direct observation of the hydrocarbon chain tilt angle in phospholipid bilayers.

Authors:  J B Stamatoff; W F Graddick; L Powers; D E Moncton
Journal:  Biophys J       Date:  1979-02       Impact factor: 4.033

3.  Orientation of rhodopsin alpha-helices in in retinal rod outer segment membranes studied by infrared linear dichroism.

Authors:  M Michel-Villaz; H R Saibil; M Chabre
Journal:  Proc Natl Acad Sci U S A       Date:  1979-09       Impact factor: 11.205

4.  Studies on the mechanism of action of channel-forming colicins using artificial membranes.

Authors:  V L Davidson; K R Brunden; W A Cramer; F S Cohen
Journal:  J Membr Biol       Date:  1984       Impact factor: 1.843

5.  Vibrational analysis of peptides, polypeptides, and proteins. XVIII. Conformational sensitivity of the alpha-helix spectrum: alpha I- and alpha II-poly(L-alanine).

Authors:  A M Dwivedi; S Krimm
Journal:  Biopolymers       Date:  1984-05       Impact factor: 2.505

Review 6.  The membrane channel-forming bacteriocidal protein, colicin El.

Authors:  W A Cramer; J R Dankert; Y Uratani
Journal:  Biochim Biophys Acta       Date:  1983-03-21

7.  Orientation of intrinsic proteins in photosynthetic membranes. Polarized infrared spectroscopy of chloroplasts and chromatophores.

Authors:  E Nabedryk; J Breton
Journal:  Biochim Biophys Acta       Date:  1981-05-13

8.  Dependence of the conformation of a colicin E1 channel-forming peptide on acidic pH and solvent polarity.

Authors:  K R Brunden; Y Uratani; W A Cramer
Journal:  J Biol Chem       Date:  1984-06-25       Impact factor: 5.157

9.  A spectroscopic study of rhodopsin alpha-helix orientation.

Authors:  K J Rothschild; R Sanches; T L Hsiao; N A Clark
Journal:  Biophys J       Date:  1980-07       Impact factor: 4.033

10.  Fourier transform infrared study of photoreceptor membrane. I. Group assignments based on rhodopsin delipidation and reconstitution.

Authors:  K J Rothschild; W J DeGrip; R Sanches
Journal:  Biochim Biophys Acta       Date:  1980-03-13
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  9 in total

1.  Colicin E1 forms a dimer after urea-induced unfolding.

Authors:  B A Steer; A A DiNardo; A R Merrill
Journal:  Biochem J       Date:  1999-06-15       Impact factor: 3.857

2.  Differentiation between transmembrane helices and peripheral helices by the deconvolution of circular dichroism spectra of membrane proteins.

Authors:  K Park; A Perczel; G D Fasman
Journal:  Protein Sci       Date:  1992-08       Impact factor: 6.725

3.  Membrane topography of ColE1 gene products: the hydrophobic anchor of the colicin E1 channel is a helical hairpin.

Authors:  H Y Song; F S Cohen; W A Cramer
Journal:  J Bacteriol       Date:  1991-05       Impact factor: 3.490

4.  Solid-state NMR studies of the membrane-bound closed state of the colicin E1 channel domain in lipid bilayers.

Authors:  Y Kim; K Valentine; S J Opella; S L Schendel; W A Cramer
Journal:  Protein Sci       Date:  1998-02       Impact factor: 6.725

5.  Membrane binding of the colicin E1 channel: activity requires an electrostatic interaction of intermediate magnitude.

Authors:  S D Zakharov; J B Heymann; Y L Zhang; W A Cramer
Journal:  Biophys J       Date:  1996-06       Impact factor: 4.033

6.  Membrane-bound state of the colicin E1 channel domain as an extended two-dimensional helical array.

Authors:  S D Zakharov; M Lindeberg; Y Griko; Z Salamon; G Tollin; F G Prendergast; W A Cramer
Journal:  Proc Natl Acad Sci U S A       Date:  1998-04-14       Impact factor: 11.205

7.  Fourier transform infrared spectroscopy and site-directed isotope labeling as a probe of local secondary structure in the transmembrane domain of phospholamban.

Authors:  C F Ludlam; I T Arkin; X M Liu; M S Rothman; P Rath; S Aimoto; S O Smith; D M Engelman; K J Rothschild
Journal:  Biophys J       Date:  1996-04       Impact factor: 4.033

8.  Membrane helix orientation from linear dichroism of infrared attenuated total reflection spectra.

Authors:  B Bechinger; J M Ruysschaert; E Goormaghtigh
Journal:  Biophys J       Date:  1999-01       Impact factor: 4.033

9.  The Pathogenic A116V Mutation Enhances Ion-Selective Channel Formation by Prion Protein in Membranes.

Authors:  Ambadi Thody Sabareesan; Jogender Singh; Samrat Roy; Jayant B Udgaonkar; M K Mathew
Journal:  Biophys J       Date:  2016-04-26       Impact factor: 4.033
  9 in total

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