Abstract
The process of protein misfolding and aggregation has been associated with an increasing number of pathological conditions that include Alzheimers and Parkinsons diseases, and type II diabetes. In addition, the discovery that proteins unrelated to any known disorder can be converted into aggregates of morphologies similar to those found in diseased tissue has lead to the recognition that this type of assemblies represents a generic state of polypeptide chains. Therefore, despite the enormous complexity of the in vivo mechanisms that have evolved in living organisms to prevent and control the formation of protein aggregates, the process of aggregation itself appears ultimately to be caused by intrinsic properties of polypeptide chains, in particular by the tendency of the backbone to form hydrogen bonds, and be modulated by the presence of specific patterns of hydrophobic and charged residues. Theoreticians have just recently started to respond to the challenge of identifying the determinants of the aggregation process. In this review, we provide an account of the theoretical results obtained so far.
Keywords: Protein misfolding, protein aggregation, amyloid fibrils, molecular dynamics, sensitive regions for aggregation, aggregation propensity, aggregation mechanism
Call for Papers in Thematic Issues
Advancing the Understanding of Regulatory Mechanisms and Diseases Through Biochemistry and Structural Biology
Modern research is increasingly interested in understanding the regulatory mechanisms and diseases through various integrative approaches. Biochemistry and structural biology offer valuable atomic-level insights that help unravel the complexities of cellular regulatory mechanisms and their association with health and disease. The unique advantage of these fields is that they provide ...read more
Protein Based Biomaterials in Environmental Sustainability, Therapy, and Diagnostics
Protein-based biomaterials have wide variety of therapeutic and diagnostic applications. Important properties of these materials are biocompatibility, biodegradability, functional versatility, and ability to interact with life. They are biodegradable so make sought after targets for environmental applications. These materials are also being investigated for increased applications in water filtration technology ...read more
Recent Advances in Protein Engineering and Design
Protein engineering and design have revolutionized biotechnology, medicine, and industrial applications by enabling the creation of novel proteins with tailored functions. Recent advancements in computational modeling, directed evolution, and synthetic biology have expanded the possibilities for engineering proteins with enhanced stability, specificity, and activity. This special issue will explore state-of-the-art ...read more
Therapeutic Proteins and Peptides of Plant Origin
Plants are still the major repository of biologically active substances. In the last two decades, however, natural peptides and proteins of plant origin have gained increasing attention due to their pharmacological activities over a variety of human illnesses, including those mediated by infections and parasitosis and those involving different cellular ...read more
Related Books
Wild Vegetables: Morphology, Phytochemistry and Utility Part 1
Biology for Students
Medicinal Plants of Pilibhit Tiger Reserve (PTR) India
Plant-Microbe Interactions: A Comprehensive Review
Glycosylation and Glycation in Health and Diseases
Phytogenic and Phytochemical as Alternative Feed Additives for Animal Production
Methods and Techniques in Nematology
Mind Maps in Clinical Biochemistry
A Treatise on Ecological Science
From SARS-CoV to MARS-CoV
22
