Abstract
Deoxyuridine pyrophosphatase (dUTPase) cleaves the α-β phosphodiester bond of dUTP to form pyrophosphate and dUMP, preventing incorporation of uracil into DNA and providing the substrate for dTTP synthesis. Similar to other nucleotide binding proteins, dUTPase also consists of a sequence motif rich in glycine residues known as P-loop motif. The P-loop motif of the nucleotide binding proteins are involved in substrate binding, catalysis, recognition and regulation of activity. In dUTPase the function of the P-loop motif is not well understood. One of the main reasons for this limited information is the lack of the three-dimensional structure of a dUTPase enzyme with an ordered Gly-rich P-loop motif with a bound substrate and Mg2+ ion. This review presents an insight into the role of Gly-rich P-loop motif in the function of dUTPase as revealed from the crystal structure. The analysis reveals the Gly-rich P-loop motif of dUTPase to be the longest in terms of its amino-acid composition as compa red to other nucleotide binding proteins and exhibit a high-degree of sequence conservation among spectrum of species. The enzyme utilizes adaptive recognition to bind to the phosphate groups of the nucleotide. In particular, the α-β phosphodiester bond adopts an unfavorable eclipsed conformation in the presence of the Gly-rich P-loop motif. This conformation may be relevant to the mechanism of α-β phosphodiester bond cleavage.
Keywords: dTTP synthesis, dUTPase, Buchnera aphidicola
Call for Papers in Thematic Issues
Advancements in Proteomic and Peptidomic Approaches in Cancer Immunotherapy: Unveiling the Immune Microenvironment
The scope of this thematic issue centers on the integration of proteomic and peptidomic technologies into the field of cancer immunotherapy, with a particular emphasis on exploring the tumor immune microenvironment. This issue aims to gather contributions that illustrate the application of these advanced methodologies in unveiling the complex interplay ...read more
Artificial Intelligence for Protein Research
Protein research, essential for understanding biological processes and creating therapeutics, faces challenges due to the intricate nature of protein structures and functions. Traditional methods are limited in exploring the vast protein sequence space efficiently. Artificial intelligence (AI) and machine learning (ML) offer promising solutions by improving predictions and speeding up ...read more
Nutrition and Metabolism in Musculoskeletal Diseases
The musculoskeletal system consists mainly of cartilage, bone, muscles, tendons, connective tissue and ligaments. Balanced metabolism is of vital importance for the homeostasis of the musculoskeletal system. A series of musculoskeletal diseases (for example, sarcopenia, osteoporosis) are resulted from the dysregulated metabolism of the musculoskeletal system. Furthermore, metabolic diseases (such ...read more
Protein Folding, Aggregation and Liquid-Liquid Phase Separation
Protein folding, misfolding and aggregation remain one of the main problems of interdisciplinary science not only because many questions are still open, but also because they are important from the point of view of practical application. Protein aggregation and formation of fibrillar structures, for example, is a hallmark of a ...read more
Related Books
Decolorization by Thanatephorus Cucumeris Dec 1
Industrial Applications of Soil Microbes
The Future of Agriculture: IoT, AI and Blockchain Technology for Sustainable Farming
Handbook of Integrated Weed Management for Major Field Crops
Practical Biochemistry
Anticancer Drugs Sourced from Marine Life
Opportunities for Biotechnology Research and Entrepreneurship
Diseases of Ornamental, Aromatic and Medicinal Plants
Diabetes and Breast Cancer: An Analysis of Signaling Pathways
Fundamentals of Cellular and Molecular Biology
9