Frances Jay scite author profile

Three low molecular mass polypeptides have been isolated by using the technique of organic solvent extraction of thylakoid membranes or whole cells from Rhodopseudomonas viridis. Their primary structures were determined by long liquid phase sequencer runs, combined with the isolation and sequence analysis of the C-terminal o-iodosobenzoic acid fragment and carboxypeptidase degradation. The polypeptide which consists of 58 amino-acids and is 46% homologous to the antenna polypeptide B880-alpha from Rhodospirillum rubrum was designated as B1015-alpha (1 His residue). The sequence homology between the second polypeptide, named B1015-beta (55 amino acids, 2 His residues) and B880-beta from Rs. rubrum is 52%. For the third polypeptide consisting of 36 amino acids and exhibiting a high hydrophobicity, no equivalent polypeptide has so far been found in other purple bacteria. The molar ratio of these three organic solvent soluble polypeptides from Rp. viridis was estimated to be 1:1:1. Accordingly, the 36 amino-acid polypeptide is likely to be an additional constituent of the light-harvesting complex B1015, consequently termed as B1015-gamma. According to hydrophathy profiles, the transmembrane arrangement of B1015-alpha and B1015-beta within the thylakoid membrane is supposed to be similar. B1015-gamma, however, shows a somewhat different hydropathy profile. A particular feature of this polypeptide is its high amount of aromatic amino acids. It is postulated that B1015-gamma is involved in the formation of regular arrays of light-harvesting complexes.

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Immunogenic Properties of Lipid A

Galanos

Freudenberg

Jay

et al. 1984

Clinical Infectious Diseases

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The preparation and characterisation of native photoreceptor units from the thylakoids of Rhodopseudomonas viridis

et al. 1984

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The photosynthetic membranes of Rhodopseudomonas viridis consist of a regular array of structural units. Each unit is composed of a central core (thought to contain the reaction centre complex) surrounded by a subdivided ring of protein (of likely antennae function). These individual units can be dissociated from the membrances using a variety of detergent treatments. The absorption spectrum, used as a criterion of a native state, is retained. All of the seven major polypeptides, the four reaction centre polypeptides (cytochrome, H, M and L chain) as well as the three light‐harvesting polypeptides (B1015‐α, β and ξ) are shown to be present. Electron microscopy of the units shows a similar structure to the units within the membrane. surface‐specific iodination of both membranes and units labels predominantly polypeptides H, B1015‐α, and ξ. M and L are weakly labelled. In addition, B1015‐β is labelled in the isolated units. This, with other evidence, supports an allocation of light‐harvesting polypeptides to the outer ring. Further solubilisation of these units separates the reaction centre (as a native complex containing all four polypeptides) from the light‐harvesting polypeptides. The light‐harvesting polypeptides are obtained in a form containing all three polypeptides and bound pigment, however the peak at 1015 nm corresponding to native bacteriochlorophyll b is lost.

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Localisation of reaction centre and light harvesting complexes in the photosynthetic unit of Rhodopseudomonas viridis

1986

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Frances Jay

The Light-Harvesting Polypeptides ofRhodopseudomonas viridis.The Complete Amino-Acid Sequences of B1015-α, B1015-β and B1015-γ

Immunogenic Properties of Lipid A

The preparation and characterisation of native photoreceptor units from the thylakoids of Rhodopseudomonas viridis

Localisation of reaction centre and light harvesting complexes in the photosynthetic unit of Rhodopseudomonas viridis

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