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Revision as of 18:43, 28 October 2010

Please do NOT make changes to this Sandbox. Sandboxes 30-60 are reserved for use by Biochemistry 410 & 412 at Messiah College taught by Dr. Hannah Tims during Fall 2012 and Spring 2013.

Contents 1 Lysozyme 1.1 Overview 1.2 Structure 1.2.1 Secondary Structure 1.3 Function 1.4 History

Lysozyme

Overview

Lysozyme is an enzyme that inhibits the growth of bacteria through lyses of the cell walls. It can be found in salvia, tears, other bodily secretions. Lysozyme is also present in high concentrations in hen egg whites. Lysozyme small size and high stability makes it ideal for protein structure and function research. Furthermore, the enzyme is easy to purify from egg whites and easy to crystallize, unlike most proteins.

Structure

The lysozyme used to analyze structural features was isolated from the eggs of the chicken Gallus gallus. Alternatives names for this lysozyme include 1,4-beta-N-acetylmuramidase C, Allergen Gal d IV, Allergen=Gal d 4. The European Commission number, or EC number, is 3.2.1.17. The sequence consists of 147 amino acids with a molecular weight of 16kD.

Secondary Structure

Gallus gallus egg white lysozyme has an alpha+beta fold, consisting of five to seven alpha helices and a three-stranded antiparallel beta sheet. There is also and a large amount of random coil and beta turns. The enzyme is approximately ellipsoidal in shape, with a large cleft in one side forming the active site. The openness of the secondary representation does not allow cleft identification. Click to visualize the cartoon portrayal of the enzyme with alpha helices and beta sheets highlighted. Click for the rainbow color ordered cartoon chain from N-C terminal.

spinqualitylabelsall models Egg White Lysozyme Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image

Function

History

Lysozyme was first discovered by Alexander Fleming during his research for medical antibiotics. When searching for any sort of bacterial inhibitor, he added a drop of mucus to a live culture. To Fleming’s surprise, it successfully killed the bacteria. He had discovered one of the human body’s natural defenses against infection. Lysozyme could not successfully be used as a drug however, because its large size inhibits transportation through cells.

Lysozyme was the first enzyme to ever have its structure solved. David Chilton Phillips is responsible for this breakthrough. In 1965 he successfully solved the structure through X-Ray analysis with 2 angstrom resolution. Lysozme is easily purified from egg-white and very east to crystallize, which made it the best object for X-Ray analysis for many years. The X-Ray beam diffraction of lysozyme crystals has a very high resolution, the highest reaching 0.94 Angstroms.