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    Structural Flexibility of Proteins Dramatically Alters Membrane Stability-A Novel Aspect of Lipid-Protein Interaction

    Journal: J. Phys. Chem. Lett.

    Authors: Giri, Rajendra P.; Mukhopadhyay, Mrinmay K.; Sanyal, Milan K.; Bose, Dipayan; Chakrabarti, Abhijit; Quan, Peiyu; Bu, Wei; Lin, Binhua

    Organizations: Divisions of Chemistry (CHE); Materials Research (DMR) , National Science Foundation [NSF/CHE-1834750]; U.S. DOE [DE-AC02-06CH11357]; Department of Science and Technology, GOI

    Protein isoforms are structural variants with changes in the overall flexibility predominantly at the tertiary level. For membrane associated proteins, such structural flexibility or rigidity affects membrane stability by playing modulatory roles in lipid- protein interaction. Herein, we investigate the protein chain flexibility mediated changes in the mechanistic behavior of phospholipid model membranes in the presence of two well-known isoforms, erythroid (ER) and nonerythroid (NER) spectrin. We show dramatic alterations of membrane elasticity and stability induced by spectrin in the Langmuir monolayers of phosphatidylocholine (PC) and phosphatidylethanolamine (PE) by a combination of isobaric relaxation, surface pressure-area isotherm, X-ray scattering, and microscopy measurements. The NER spectrin drives all monolayers to possess an approximately equal stability, and that required 25-fold increase and 5-fold decrease of stability in PC and PE monolayers, respectively. The untilting transition of the PC membrane in the presence of NER spectrin observed in X- ray measurements can explain better membrane packing and stability.
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