Osmolytes and Intrinsically Disordered Proteins: From Functional Regulation to Disease Pathogenesis | Buch | 978-0-443-29320-7 | sack.de

Buch, Englisch, Format (B × H): 152 mm x 229 mm

Osmolytes and Intrinsically Disordered Proteins: From Functional Regulation to Disease Pathogenesis


Erscheinungsjahr 2025
ISBN: 978-0-443-29320-7
Verlag: Elsevier Science & Technology

Buch, Englisch, Format (B × H): 152 mm x 229 mm

ISBN: 978-0-443-29320-7
Verlag: Elsevier Science & Technology


Osmolytes and Intrinsically Disordered Proteins: From Functional Regulation to Disease Pathogenesis, Volume 112 delves into the fascinating interplay between osmolytes and intrinsically disordered proteins (IDPs), exploring their pivotal roles in cellular function and disease mechanisms. This volume brings together experts to present cutting-edge research on how osmolytes regulate functional behavior of IDPs and ensure cellular stability and adaptability under stress conditions. Specific chapters cover Functional diversity of IDPs and their structural heterogeneity: Protein structure-function continuum, Osmolytes as structure-function regulators of intrinsically disordered casein, Synergism of the effects of osmolytes and crowders on structure and function of IDPs/IDRs: The natural habitat, and more.

Additional chapters delve into Osmolyte-IDP Interactions during Desiccation, Modulation of aggregation/fibrillation propensity of IDPs by osmolytes, Osmolytes in modulating the structural and functional integrity of a-synuclein: a study based on Parkinson's disease, Regulation of the structural dynamics, aggregation, and pathogenicity of polyQ-expanded Huntingtin by osmolytes, Aggregation and inhibitory strategies of amyloid fibrillation, and much more.
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Weitere Infos & Material


1. Functional diversity of IDPs and their structural heterogeneity: Protein structure-function continuum
Vladimir N. Uversky
2. Osmolytes as structure-function regulators of intrinsically disordered casein
Mohd. Younus Bhat
3. Synergism of the effects of osmolytes and crowders on structure and function of IDPs/IDRs: The natural habitat
Terrence G. Oas
4. Osmolyte-IDP Interactions during Desiccation
Vincent Nicholson, Thomas Boothby and Emma K. Meese
5. Modulation of aggregation/fibrillation propensity of IDPs by osmolytes
Tanveer Ali Dar Sr.
6. Osmolytes in modulating the structural and functional integrity of a-synuclein: a study based on Parkinson's disease
Laishram R. Singh
7. Regulation of the structural dynamics, aggregation, and pathogenicity of polyQ-expanded Huntingtin by osmolytes.
Alice Y. Liu, Amala Mathew, Christopher Karim, Pierre Eshak and Kuang Yu Chen
8. Md Nadir Hassan, Murtaza Hussain, Rizwan Hasan Khan, Aggregation and inhibitory strategies of amyloid fibrillation
Rizwan Hasan Khan and Rizwan H. Khan
9. Modulation of amyloid beta and Tau aggregation by Phytochemicals: Implications in Alzheimer’s Disease
Mohd. Kamil Hussain, Shakir Ahamad, Moazzam Ahmad, Mohammad Saquib, Shahnaaz Khatoon, Karam Fatima and Mohsin Vahid Khan
10. The Emerging Landscape of Natural Small-molecule Therapeutics for Huntington’s Disease
Shahnawaz Ali Bhat, Shakir Ahamad, Sameera Khan and Nargis Bano
11. Molecular crowding and amyloidogenic self-assembly: emergent perspectives from modern computations
Neelanjana Sengupta


Dar, Tanveer Ali
Dr. Tanveer Ali Dar, affiliated with University of Kashmir, stands as a pioneer in the dynamic and evolving field of osmolyte-protein biology. Holding advanced degrees in his field, Dr. Dar has dedicated his career to advancing scientific knowledge and innovation in osmolyte research. Utilizing a multidisciplinary approach that combines biochemical, biophysical, and molecular biology techniques, Dr. Dar explores the dynamic interplay between osmolytes and proteins at the molecular level. His research sheds light on how osmolytes modulate protein structure and dynamics, enabling cells to adapt and thrive under stressful conditions such as osmotic stress, temperature fluctuations, and disease states. He has to his credit several breakthrough contributions in the area of exploring the osmolyte induced structural-functional integrity of proteins and their implications in protein misfolding disease interventions. Besides focusing on several aspects of osmolyte research, his research particularly emphasizes on understanding the roles of osmolytes and intrinsically disordered proteins in cellular function and disease pathogenesis. His pioneering investigations have shed light on the dynamic interplay between these molecular entities, unraveling fundamental mechanisms underlying cellular resilience and disease progression. Dr. Dar is recognized for his contributions to both theoretical understanding and practical applications in the osmolyte-field, and his work has been published in numerous peer-reviewed international journals. Moreover, he has to his credit a couple of books published by Springer International Ltd., Apple academic Press and Elsevier, USA. Dr. Dar is also a recipient of Indian National Science Academy visiting fellowship and is a member of various international and national scientific societies like ASBMB, Canadian Society of Molecular Biosciences, National Academy of Sciences India, India Biophysical society etc. He is a prolific reviewer, editor and editorial board member of a number of prestigious journals. As an educator, he is committed to nurturing the next generation of scientists, mentoring students and guiding them towards excellence in research.

Uversky, Vladimir N
Prof. Vladimir N. Uversky, PhD, DSc, FRSB, FRSC, F.A.I.M.B.E., Professor at the Department of Molecular Medicine, Morsani College of Medicine, University of South Florida (USF), is a pioneer in the field of protein intrinsic disorder. He has made a number of groundbreaking contributions in the field of protein folding, misfolding, and intrinsic disorder. He obtained his academic degrees from Moscow Institute of Physics and Technology (Ph.D., in 1991) and from the Institute of Experimental and Theoretical Biophysics, Russian Academy of Sciences (D.Sc., in 1998). He spent his early career working mostly on protein folding at the Institute of Protein Research and the Institute for Biological Instrumentation (Russia). In 1998, moved to the University of California Santa Cruz. In 2004, joined the Indiana University?Purdue University Indianapolis as a Senior Research Professor. Since 2010, Professor Uversky is with USF, where he works on various aspects of protein intrinsic disorder phenomenon and on analysis of protein folding and misfolding processes. Prof. Uversky has authored over 1250 scientific publications and edited several books and book series on protein structure, function, folding, misfolding, and intrinsic disorder. He is also serving as an editor in a number of scientific journals. He was a co-founder of the Intrinsically Disordered Proteins Subgroup at the Biophysical Society and the Intrinsically Disordered Proteins Gordon Research Conference. Prof. Uversky collaborated with more than 12,500 colleagues from more than 2,750 research organizations in 89 countries/territories.


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