STUDY ON THE DESTABILIZATION OF LYSOZYME AND THE CHAPERONE-LIKE ACTIVITY OF ALPHA CRYSTALLIN

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of study
  • 1.3Problem Statement
  • 1.4Objective of study
  • 1.5Limitation of study
  • 1.6Scope of study
  • 1.7Significance of study
  • 1.8Structure of the research
  • 1.9Definition of terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Lysozyme
  • 2.2Structure and Function of Lysozyme
  • 2.3Chaperone Proteins in Biology
  • 2.4Role of Alpha Crystallin as a Chaperone
  • 2.5Destabilization of Lysozyme
  • 2.6Chaperone-Like Activity of Alpha Crystallin
  • 2.7Interactions between Lysozyme and Alpha Crystallin
  • 2.8Studies on Protein Stability and Unfolding
  • 2.9Mechanisms of Protein Aggregation
  • 2.10Research Gaps and Future Directions

Chapter THREE

RESEARCH METHODOLOGY

  • 3.1Research Design
  • 3.2Sampling Methods
  • 3.3Data Collection Techniques
  • 3.4Data Analysis Methods
  • 3.5Experimental Setup
  • 3.6Variables and Controls
  • 3.7Ethical Considerations
  • 3.8Research Limitations

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Data Analysis and Interpretation
  • 4.2Effects of Temperature on Lysozyme Stability
  • 4.3Alpha Crystallin Binding to Denatured Lysozyme
  • 4.4Structural Changes in Lysozyme upon Destabilization
  • 4.5Comparison of Chaperone Activity with Other Proteins
  • 4.6Implications of Findings in Biomedical Research
  • 4.7Experimental Challenges and Solutions
  • 4.8Validation of Results

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusion
  • 5.3Contributions to the Field
  • 5.4Recommendations for Future Research
  • 5.5Implementation Strategies

Project Abstract

<p> </p><p>Destabilization of Lysozyme and chaperone like action of alpha crystallin isolated from goat’s eye lens was investigated at various temperature ranges in phosphate buffer (pH 7.1) solution and dithiothretol (DTT). This was monitored spectrophotometrically at 260nm. The heat and DTT-induced destabilization of lysozyme was prevented by alpha crystallin in a concentration dependent manner. Alpha crystallin like other chaperones, fulfils its chaperone like action in preventing aggregation of denatured proteins by the formation of complexes.</p><br> <br><p></p>

Project Overview

<p> </p><p><strong>1.1 INTRODUCTION</strong></p><p>Proteins are the workhorses of the living cell. Although proteins may differ in sequence, shape and function, but have in common, the same stereo configuration (i.e. they all have to fold into specific three-dimensional structures) which are mandatory for proper function (Bruce et al., 2002). Protein structures however are not rigid, but have a dynamic life style, which may involve unfolding and refolding, complex association and dissociation (Anfisen, 1972). Stress and also many physiological events require proteins to surrender their structure or to regain it at a later stage. A very large number of distinct conformations exist for the polypeptide chain of which a protein spends most of its time in the native conformation, which spans only an extremely small fraction of the entire configuration space. Thus, the amino acid sequence of proteins must satisfy two requirements: one, thermodynamics and the other kinetic. The thermodynamics requirement is that the sequence must have a unique folded conformation, which is stable under physiological conditions.</p><p>Most proteins can be denatured by heat, which has complex effect on the weak interactions in proteins (Vandenberg et al., 2000). If the existing temperature is increased slowly, a protein conformation generally remains intact until an abrupt loss of structure and function occurs over a narrow temperature range (Nelson and Cox, 2008). The spatial arrangement of atoms in a protein is called its conformation (Deechongkit et al., 2004)</p> <br><p></p>

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