The roles of molecular modeling strategies in validating the effect of chrysin on sodium arsenite-induced chromosomal and dna damage

 

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 Molecular Modeling
  • 2.2Chrysin: Properties and Uses
  • 2.3Sodium Arsenite-Induced Chromosomal Damage
  • 2.4DNA Damage and Repair Mechanisms
  • 2.5Importance of Validating Effects
  • 2.6Previous Studies on Chrysin
  • 2.7Molecular Modeling Techniques
  • 2.8Computational Tools for Validation
  • 2.9Role of Structural Biology
  • 2.10Integration of Experimental Data

Chapter THREE

RESEARCH METHODOLOGY

  • 3.1Research Methodology Overview
  • 3.2Study Design and Approach
  • 3.3Data Collection Methods
  • 3.4Sampling Techniques
  • 3.5Molecular Modeling Protocols
  • 3.6Validation Procedures
  • 3.7Statistical Analysis Methods
  • 3.8Ethical Considerations

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Analysis of Chromosomal Damage Effects
  • 4.2Evaluation of DNA Damage Responses
  • 4.3Comparison with Previous Studies
  • 4.4Molecular Docking Results
  • 4.5Molecular Dynamics Simulations
  • 4.6Structural Insights from Modeling
  • 4.7Experimental Validation Considerations
  • 4.8Interpretation of Findings

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Conclusion and Summary
  • 5.2Recap of Research Objectives
  • 5.3Key Findings Discussion
  • 5.4Implications for Future Research
  • 5.5Recommendations for Practice

Project Abstract

<p> Arsenic is a major environmental toxicant as well as a human carcinogen which is present in large amounts in the environment. Biotransformation of arsenic generates reactive methylated species which can bind and facilitate chromosomal and DNA damage. This work investigated the effects of chrysin on sodium arsenic-induced damage on lipid, protein and chromosome of male Wistar rats.Rats were divided into six groupsand treated daily as follows normal control; 1a and 1b, 10mg/kg sodium arsenite as negative control, 10mg/kg chrysin as positive control, co-administration of sodium arsenite and chrysin, chrysin followed by sodium arsenite and sodium arsenite followed by chrysin. At the end of the experiment, the animals were sacrificed and lipid peroxidation, protein carbonyl and DNA fragmentation in liver, blood, brain and bone marrow cells micronuclei were assayed for. <em>In silico</em>&nbsp;molecular docking of S-adenosyl-methionine-dependent methyltransferase in the presence of chrysin was conducted. Chrysin significantly (p&lt;0.05) decreased the level of lipid peroxidation, protein carbonyls and DNA fragmentation in blood, liver and brain tissues compare to group treated with sodium arsenite only. Chrysin significantly (p&lt;0.05) reduced the level of micronuclei generated in bone marrow cells. Furthermore, chrysin was able to dock into the active site of SAM-dependent methyltransferase with strong hydrogen bond and hydrophobic interactions.The binding energy of the docking was -99.82kJ/moland predicted inhibition constant (Ki) of 0.959ยตM.Chrysin at 10mg/kg bodyweight was shown to exhibits ameliorative, preventive and curative in effects. This study might have unraveled the beneficial effects of chrysin against sodium arsenite-induced chromosomal and DNA damage, which could be due to inhibition of SAM-dependent methyltransferase. <br></p>

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