Established in 1962, the National Institute of General Medical Sciences (NIGMS) supports basic research that increases understanding of biological processes while also laying the foundation for advances in disease diagnosis, treatment, and prevention in the U.S. NIGMS is headed by Director Jon R. Lorsch who oversees the Institutes $2.6 billion budget, which supports this research.
NIGMS supports more than 3,000 investigators and 4,500 research grants around 11% of the total number of research grants funded by the National Institutes of Health (NIH) as a whole. Additionally, it supports around 26% of the National Research Training Award (NRSA) trainees who receive assistance from NIH. It is organised into divisions that support research and research training in a range of different fields.
From 2018 onwards, NIGMS reorganised into three scientific divisions specifically: Biophysics, Biomedical Technology, and Computational Biosciences (BBCB); Genetics and Molecular, Cellular and Developmental Biology (GMCDB); and Pharmacology, Physiology, and Biological Chemistry (PPBC).
The latter of these divisions supports a broad spectrum of state-of-the-art research aimed at improving the molecular-level understanding of fundamental biological processes and discovering approaches to their control. Just some of the goals of this supported research include an improved understanding of drug action and of anaesthesia; mechanisms underlying responses to drugs; new methods and targets for drug discovery; an enhanced understanding of biological catalysis; knowledge of metabolic regulation and fundamental physiological processes; and the integration and application of basic physiological, pharmacological, and biochemical research to clinical issues in anaesthesia, clinical pharmacology, and trauma and burn injury.
The division itself has two components: The Biochemistry and Bio-related Chemistry Branch and the Pharmacological and Physiological Sciences Branch.
It is important to recognise the fundamentals of each branches focal point and what their individual goals are. Understanding the interactions between molecules thats chemistry. And understanding the chemistry that occurs in living organisms, however thats biochemistry. Furthermore, understanding how medicines work in the body and finding ways to make them work better and more effectively thats pharmacology. Studies in these areas are currently focussing on areas such as:
How enzymes generate cellular energy and facilitate chemical reactions.
How medicines are processed inside the body.
What roles natural substances such as fats and sugars play in our bodies.
How a persons genetic makeup can influence a drugs effectiveness.
How to use chemistry to design new medicines.
The possibility of finding new uses for existing medicines.1
The Biochemistry and Bio-related Chemistry Branch supports basic research in the following areas:
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How does research in biochemistry fit into the wider goals of the NIH? - Open Access Government
Recommendation and review posted by G. Smith
