Structural computational biology: introduction and background

Topics in this module

• Proteins and Their Significance to Biology and Medicine
• Protein Structure
• Experimental Methods for Protein Structure Determination
• Protein Structure Repositories
• Visualizing Protein Structures

Proteins and their significance to biology and medicine

Proteins are the molecular workhorses of all known biological systems. Among other functions, they are the motors that cause muscle contraction, the catalysts that drive life-sustaining chemical processes, and the molecules that hold cells together to form tissues and organs.

The following is a list of a few of the diverse biological processes mediated by proteins:

• Proteins called enzymes catalyse vital reactions, such as those involved in metabolism, cellular reproduction, and gene expression.
• Regulatory proteins control the location and timing of gene expression.
• Cytokines, hormones, and other signalling proteins transmit information between cells.
• Immune system proteins recognize and tag foreign material for attack and removal.
• Structural proteins prevent cells from collapsing on themselves, as well as forming large structures such as hair, nails, and the protective, largely impermeable outer layer of skin. They also provide a framework along which molecules can be transported within cells.

The estimate of the number of genes in the human genome has been changing dramatically since it was annotated (the latest gene count estimates can be found in this Wikipedia article on the human genome ). Each gene encodes one or more distinct proteins. The total number of distinct proteins in the human body is larger than the number of genes due to alternate splicing . Of those, only a small fraction have been isolated and studied to the point that their purpose and mechanism of activity is well understood. If the functions and relationships between every protein were fully understood, we would most likely have a much better understanding of how our bodies work and what goes wrong in diseases such as cancer, amyotrophic lateral sclerosis, Parkinson's, heart disease and many others. As a result, protein science is a very active field. As the field has progressed, computer-aided modeling and simulation of proteins have found their place among the methods available to researchers.

Protein structure

An amino acid is a simple organic molecule consisting of a basic (hydrogen-accepting), amine group bound to an acidic (hydrogen-donating) carboxyl group via a single intermediate carbon atom: