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Hysteretic Pressure Dependence of Ca 2+ Binding in LH1 Bacterial Membrane Chromoproteins.

Kõu TimpmannLiina KangurArvi Freiberg
Published in: The journal of physical chemistry. B (2023)
Much of the thermodynamic parameter values that support life are set by the properties of proteins. While the denaturing effects of pressure and temperature on proteins are well documented, their precise structural nature is rarely revealed. This work investigates the destabilization of multiple Ca 2+ binding sites in the cyclic LH1 light-harvesting membrane chromoprotein complexes from two Ca-containing sulfur purple bacteria by hydrostatic high-pressure perturbation spectroscopy. The native (Ca-saturated) and denatured (Ca-depleted) phases of these complexes are well distinguishable by much-shifted bacteriochlorophyll a exciton absorption bands serving as innate optical probes in this study. The pressure-induced denaturation of the complexes related to the failure of the protein Ca-binding pockets and the concomitant breakage of hydrogen bonds between the pigment chromophores and protein environment were found cooperative, involving all or most of the Ca 2+ binding sites, but irreversible. The strong hysteresis observed in the spectral and kinetic characteristics of phase transitions along the compression and decompression pathways implies asymmetry in the relevant free energy landscapes and activation free energy distributions. A phase transition pressure equal to about 1.9 kbar was evaluated for the complexes from Thiorhodovibri o strain 970 from the pressure dependence of biphasic kinetics observed in the minutes to 100 h time range.
Keyphrases
  • protein kinase
  • high resolution
  • immune response
  • binding protein
  • magnetic resonance
  • minimally invasive
  • transcription factor
  • high speed
  • fluorescence imaging