Structure and thermal stability of photosystem II reaction centers studied by infrared spectroscopy.

The secondary structure of photosystem II reaction centers isolated from pea has been deduced from quantitative analysis of the component bands of the infrared amide I spectral region, determined by FTIR spectroscopy. The analysis shows the isolated complex to consist of 40% alpha-helix, 10% beta-sheet, 14% beta-strands (or extended chains), 17% turns, 15% loops, and 3% nonordered segments. These structural protein elements were determined for samples in H2O, in D2O, and in dried films. The isolated reaction center, composed of proteins D1,D2,cytochrome b559, and PsbI, has been predicted to contain a total of 13 transmembrane alpha-helices, which conveys a percentage of this type of structure congruent with the structural determination deduced from FTIR spectra. The process of thermal destabilization of the reaction centers has also been studied by FTIR spectroscopy, showing a clear main conformational transition at 42 degrees C, which indicates a high thermal sensitivity of the secondary structure of this protein complex. Such thermal instability may correlate with the well-described high sensitivity of photosystem II to damage and may relate to the process of rapid protein degradation that photosystem II suffers during photoinhibition of plants.