Shruti Mittal1, Rimpy Kaur Chowhan2, Laishram Rajendrakumar Singh3. 1. Dr. B. R. Ambedkar Centre for Biomedical Research, University of Delhi, Delhi - 110 007, India. Electronic address: shrutimittal4@gmail.com. 2. Dr. B. R. Ambedkar Centre for Biomedical Research, University of Delhi, Delhi - 110 007, India. Electronic address: rimpy_1989@yahoo.co.in. 3. Dr. B. R. Ambedkar Centre for Biomedical Research, University of Delhi, Delhi - 110 007, India. Electronic address: lrsingh@acbr.du.ac.in.
Abstract
BACKGROUND: Cellular interior is known to be densely crowded due to the presence of soluble and insoluble macromolecules, which altogether occupy ~40% of the total cellular volume. This results in altered biological properties of macromolecules. SCOPE OF REVIEW: Macromolecular crowding is observed to have both positive and negative effects on protein folding, structure, stability and function. Significant data has been accumulated so far on both the aspects. However, most of the review articles so far have focused on the positive aspect of macromolecular crowding and not much attention has been paid on the deleterious aspect of crowding on macromolecules. In order to have a complete knowledge of the effect of macromolecular crowding on proteins and enzymes, it is important to look into both the aspects of crowding to determine its precise role under physiological conditions. To fill the gap in the understanding of the effect of macromolecular crowding on proteins and enzymes, this review article focuses on the deleterious influence of crowding on macromolecules. MAJOR CONCLUSIONS: Macromolecular crowding is not always good but also has several deleterious effects on various macromolecular properties. Taken together, the properties of biological macromolecules in vivo appears to be finely regulated by the nature and level of the intracellular crowdedness in order to perform their biological functions appropriately. GENERAL SIGNIFICANCE: The information provided here gives an understanding of the role played by the nature and level of cellular crowdedness in intensifying and/or alleviating the burden of various proteopathies.
BACKGROUND: Cellular interior is known to be densely crowded due to the presence of soluble and insoluble macromolecules, which altogether occupy ~40% of the total cellular volume. This results in altered biological properties of macromolecules. SCOPE OF REVIEW: Macromolecular crowding is observed to have both positive and negative effects on protein folding, structure, stability and function. Significant data has been accumulated so far on both the aspects. However, most of the review articles so far have focused on the positive aspect of macromolecular crowding and not much attention has been paid on the deleterious aspect of crowding on macromolecules. In order to have a complete knowledge of the effect of macromolecular crowding on proteins and enzymes, it is important to look into both the aspects of crowding to determine its precise role under physiological conditions. To fill the gap in the understanding of the effect of macromolecular crowding on proteins and enzymes, this review article focuses on the deleterious influence of crowding on macromolecules. MAJOR CONCLUSIONS: Macromolecular crowding is not always good but also has several deleterious effects on various macromolecular properties. Taken together, the properties of biological macromolecules in vivo appears to be finely regulated by the nature and level of the intracellular crowdedness in order to perform their biological functions appropriately. GENERAL SIGNIFICANCE: The information provided here gives an understanding of the role played by the nature and level of cellular crowdedness in intensifying and/or alleviating the burden of various proteopathies.
Authors: Sarith R Bandara; Thomas G Molley; Hojun Kim; Priyalini A Bharath; Kristopher A Kilian; Cecilia Leal Journal: Mater Horiz Date: 2019-07-31 Impact factor: 13.266