Phosphorylation of LHI β during membrane synthesis in the photosynthetic bacterium Rhodovulum sulfidophilum

IUSTMAN, LAURA J. RAIGER; PUCHEU, NORMA L.; KERBER, NORMA L.; VANDEKERCKHOVE, JOEL; TADROS, MONIER H.; GARCIA, AUGUSTO F.

CURRENT MICROBIOLOGY

SPRINGER

Año: 2001 vol. 42 p. 323 - 329

0343-8651

Cells of Rhv. sulfidophilum were grown under different conditions in the presence of 32P-phosphate and the corresponding H and L membrane fractions obtained and fractionated by SDS-PAGE. Both membranes showed almost identical polypeptide composition. The bacteriochlorophyll (Bchl) specific content in H was always lower that in L. As described before, oxygen did not regulate gene expression. Under high light, an almost two- to threefold decrease of the cellular specific Bchl content was observed. Pulse and chase experiments showed that transitions from aerobiosis to light-anaerobiosis did not quantitatively affect the Bchl content of the membranes, although a turnover of the 32P-phosphate and 35S-methionine was observed. LHI β was the only polypeptidic subunit of the Bchl-binding polypeptides that was phosphorylated in vivo, and phosphotyrosine was the only phosphorylated amino acid detectable. The phosphorylated LHI β was determined to be insoluble in the organic solvent mixture of (vol/vol) 1:1 chloroform-methanol containing ammonium acetate (0.1 M final concentration). Treatment with a chaotropic agent such as Na2CO3 solubilized the phosphorylated LHI β, indicating that part of this posttranslationally modified polypeptide was not inserted in a transmembrane position. These results were used to speculate about the regulatory properties of this posttranslational modification of LHI β on membrane differentiation.