Joseph Y. Cassim scite author profile

Techniques for purifying teh purple membrane of Halobacterium halobium are given. This purple membrane contains a chromoprotein with a retinal prosthetic group similar to rhodopsin, the chromprotein found in the visual systems of higher invertebrates and vertebrates. The described purple membrane isolation procedures yield a highly purified preparation as determined by transmitting electron microscopy and gel electrophoresis. Critical analysis of the absorption spectra of the purple membrane was also employed to establish criteria of purity for the preparation. The visible absorption spectra of the purified purple membrane preparation in buffer was found to have a maximum at 559 nm which shifted to 567 nm on light exposure. No indication of any spectral perturbation arising from bacterioruberin-containing membrane, the major contaminant in purple membrane preparations, was found. Furthermore, the ratio of protein aromatic amino acid absorbance at 280 nm to chromophore absorbance at 567 nm was found to be 1.5 in light-exposed preparations compared to the previously reported ratio of 2.3.-3 The decrease in the value of this ratio is also indicative of an increase in the purity of the purple membrane preparation.

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A computerized calibration of the circular dichrometer

Cassim¹,

Yang²

1969

Biochemistry

290

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Effects of light adaptation on the purple membrane structure of Halobacterium halobium

Becher¹,

Cassim²

1976

Biophysical Journal

102

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Absorption, circular dichroism and optical rotatory dispersion of the bacteriorhodopsin containing purple membrane form Halobacterium halobium were studied in regard to the structural stability of this membrane during the photoisomerization of the retinal of the bacteriorhodopsin from the 13-cis to the all-trans configuration. The following conclusions were reached: (a) the macromolecular structure (protein-protein interaction which may result in the possible exciton interaction of the retinal pi-pi* (NV1) transition moments and protein-lipid interaction) are not significantly altered, (b) possibilities of delocalized conformation changes of the apoprotein involving secondary and/or tertiary structure can be ruled out, (c) localized secondary structure conformation changes of the apoprotein must be limited to the involvement of no more than one or two amino acid residues and localized tertiary structure conformation changes of the apoprotein must be limited to a very short segment of the protein chain containing only a few aromatic amino acid residues, and (d) the interaction between the apoprotein and retinal seems to be relatively more pronounced when the retinal is in the all-trans form than the 13-cis from and also the apoprotein seems to impose a more pronounced dissymmetric constraint on the retinal in the all-trans form than in the 13-cis form.

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Interpretation of the absorption and circular dichroic spectra of oriented purple membrane films

Muccio¹,

Cassim²

1979

Biophysical Journal

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The absorption and circular dichroic (CD) spectra of purple membrane films in which the plane of the membranes is oriented perpendicular to the incident beam are compared with the solution spectra. This enables one to relate structural features of the purple membrane to a coordinate system as defined by a normal to the membrane plane and two mutually perpendicular in-plane axes. The film and solution absorption spectra were similar except for a relative depression in the 200 - 225-nm region of the film spectrum. However, the CD spectra showed significant differences in the visible region, where the biphasic band in the solution spectrum was replaced by a single positive band at 555 nm in the film spectrum and in the far ultraviolet region, where the 208-nm band was deleted from the film spectra of the native and regenerated membranes. Moreover, a small shoulder occurred at 208 nm in the film spectrum of the bleached membrane. The near ultraviolet spectra also showed differences, whereas the 317-nm band remained essentially the same for both spectra. Based on excitonic interpretations of the visible and far ultraviolet spectra the following conclusions were reached: (a) a relatively strong in-plane monomeric interaction occurs between te retinyl chromophore and apoprotein; (b) the helical axes of the native and regenerated membrane proteins are oriented primarily normal to the membrane plane; and (c) the helical axes of the bleached membrane proteins are tilted more in-plane than the axes of the native or regenerated membrane. Additional conclusions were that an interaction occurs between an in-plane magnetic dipole moment of the retinyl chromophore and probably an in-plane electric dipole moment of a nearby aromatic amino acid(s), and that although the membrane is anisotropic with respect to coupling between electric and magnetic moments of the aromatic amino acids, the transition dipole moments of the aromatic amino acids are not preferentially oriented in either direction.

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Large Scale Global Structural Changes of the Purple Membrane during the Photocycle

Draheim¹,

Cassim²

1985

Biophysical Journal

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Both the solution and the oriented film absorption and circular dichroic spectra of the bacteriorhodopsin (bR(568)) and M(412) intermediate of the purple membrane photocycle were compared over the wavelength region 800-183 nm to assess structural changes during this photocycle. The main findings are (a) loss of the excitonic interaction among the chromophoric retinal transitions indicating disordering of the retinal orientations in the membrane and distortions of the membrane hexagonal crystal lattice, (b) structural change of the chromophoric retinal, (c) changes in the key interactions between the retinal and specific groups in the local environment of the apoprotein, (d) significant changes of the tertiary structure of the bR with negligible secondary structure involvement, and (e) a net tilting of the rodlike segments of the bR polypeptides away from the membrane normal. These findings are in accord with large scale global structural changes of the membrane during the photocycle and with structural metastability of the bR molecules. An important implication of these changes is the possibility of transmembrane retinal-regulated pulsating channels during the photocycle. The significance of this possibility in respect to models for the proton translocation function of this membrane is discussed.

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Effects of Bleaching and Regeneration on the Purple Membrane Structure of Halobacterium halobium

Becher¹,

Cassim²

1977

Biophysical Journal

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Sequential bleaching in the presence of hydroxylamine and subsequent regeneration of the purple membrane of Halobacterium halobium was studied by concomitant monitoring of its absorption and circular dichroic spectra in order to ascertain its effects on protein interaction(s) (which may result in possible excitonic interaction between the retinal chromophores), chromophore-apoprotein interaction(s), and protein conformational stability in the membrane. It was concluded that (a) although experimental results are consistent with an exciton mechanism for the interaction between retinal pi - pi* (NV(1)) transition movements in the purple membrane, no evidence for such a mechanism for interaction between retinaloxime transition moments is apparent in the case of the bleached membrane; (b) the bacteriorhodopsin molecules organized in clusters of three in the membrane appear to bleach simultaneously; (c) the retinaloxime produced on bleaching the purple membrane in the presence of hydroxylamine is strongly optically active, because of dissymmetry-inducing and/or -selecting constraints on the chromophore by a component of the membrane (most likely the apoprotein), and when the membrane is regenerated by the addition of retinal, these constraints are lost; and (d) evidence from ultraviolet absorption and circular dichroic spectra suggests that the membrane apoprotein undergoes appreciable conformational changes involving tertiary structure on bleaching with no significant secondary structure involvement. These results are compared with recently reported results from this laboratory on the effects of bleaching on the bovine rod outer segment disk membrane structure.

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Interpretations of the effects of pH on the spectra of purple membrane

Muccio

Cassim

1979

Journal of Molecular Biology

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Evidence for an .alpha.II-type helical conformation for bacteriorhodopsin in the purple membrane

Gibson¹,

Cassim²

1989

Biochemistry

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Bacteriorhodopsin in native purple membrane is generally thought to be approximately 80% a-helical. However, all published far-UV circular dichroism spectra for purple membrane suspensions have been found to differ, both in shape and in magnitude, from published spectra of soluble proteins such as myoglobin, whose structure has been established as 80% a-helical by X-ray diffraction techniques. This has been interpreted as evidence that (1) bacteriorhodopsin has considerable 0-sheet content or (2) optical artifacts are significant in the circular dichroism spectrum. It is proposed that this discrepancy is in fact more consistent with a substantial alI-type conformational character for the protein a-helices. Although a-helical proteins are generally envisioned as having a classical aI-type geometry in which the amide planes are all nearly parallel to the helical axis, there is no steric barrier to changing the dihedral angles so that the amide planes become significantly tilted with respect to the helical axis. The hydrogen-bonding character of the helices, however, will be affected, so this transition may require energy input. If the amide planes tilt far enough to eliminate hydrogen bonding along the helix, the structure is considered to be aII. The conclusion that bacteriorhodopsin has significant aII character is strongly supported by oriented film circular dichroism studies presented here. In addition, assuming a substantial aII-type rather than an exclusive aI-type conformation for the bacteriorhodopsin can result in excellent agreement between circular dichroism and infrared linear dichroism techniques as regards estimated helix tilt angles both before and after bleaching of the purple membrane with hydroxylamine in the presence of light.

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Joseph Y. Cassim

Improved Isolation Procedures for the Purple Membrane of Halobacterium Halobium

A computerized calibration of the circular dichrometer

Effects of light adaptation on the purple membrane structure of Halobacterium halobium

Interpretation of the absorption and circular dichroic spectra of oriented purple membrane films

Large Scale Global Structural Changes of the Purple Membrane during the Photocycle

Effects of Bleaching and Regeneration on the Purple Membrane Structure of Halobacterium halobium

Interpretations of the effects of pH on the spectra of purple membrane

Evidence for an .alpha.II-type helical conformation for bacteriorhodopsin in the purple membrane

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