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Full Screen- TITLE
- CERTIFICATE
- CERTIFICATE
- DECLARATION
- ACKNOWLEDGEMENT
- ABBREVIATIONS
- CONTENTS
- PREFACE
- I. INTRODUCTION
- Table 1.1Commonly used anticancer drugs
- Table 1.2List of common combinations of drugs
- L-Asparaginase as an antitumor drug
- Tumor markers
- II. SOURCES OF L-ASPARAGINASE
- II. A. Screening of Micro organisms for L-asparaginase
- MATERIALS AND METHODS
- RESULTS AND DISCUSSION
- II. B. Optimization of Cultural Conditions for L-asparaginase Production by Aeromonas
- MATERIALS AND METHODS
- Bacterial strain
- Identification of the Bacterial strain
- Maintenance of Aeromonas
- RESULTS AND DISCUSSION
- Fig. II -2. Effect of pH on growth and enzyme production in Aeromonas.
- Fig. II -3. Effect of Temperature on growth and enzyme production in Aeromonas.
- Fig. II -4. Optimum concentration of Sodium Chloride for growth and enzyme production in Aerouonas.
- Table II. 4Effect of salts on production of L-asparaginase in Aeromonas
- Fig. II -5. Optimum concentration of I.- Asparagine for growth and enzyme production in Aeromonas.
- Fig. II -6. Optimum concentration of L- Glutamine for growth and enzyme production in Aeromonas.
- Fig. II -7. Optimum concentration of L- Aspartic acid for growth and enzyme production in Aeromnas.
- Fig. II -8. Optimum concentration of Glutamic acid for growth and enzyme production in Aeromonas
- Fig. II -9. Optimum concentration of Lactate for growth and enzyme production in Aeroeonas
- Pigure: II -10. Optimum concentration of Yeast Extract for growth and enzyme production in Aeromonas.
- Table II. 5 Effect of carbon sources on growth and enzyme production in Aeromonas
- Table II. 6 Effect of nitrogen sources on growth and enzyme production in Aeromonas
- Table II. 7 Effect Of amino acids on growth and enzyme production in Aeromonas
- Table II. 8 L-asparaginase production by Aeromonas in synthetic media
- III. ISOLATION, PURIFICATION AND CHARACTERIZATION OF ESTUARINE AEROMONAS L-ASPARAGINASE
- III. A. Isolation and Purification of Aeromonas L-asparaginase
- Medium for growth of Aeromonas
- Cultivation of the organism
- Harvesting of the cells
- DEAE cellulose chromatography
- Fig. III -1. DEAE cellulose column Chromatogram.
- Concentration and dialysis
- Gel filtration
- Fig. III -2. Sephadex G-200 co--mn Chromatogram.
- Hydroxyapatite chromatography
- Fig. III-3. Hydroxyapatite column Chromatogram.
- Table 111.1Purification of Aeromonas L-asparaginase
- III. B. Characterization of Aeromonas L-asparaginase
- Substrate specificity
- Effect of substrate concentration
- Fig. III -4. Effect of Substrate concentration (lineveaver-Burk Plot)
- Effect of enzyme concentration
- Fig. III -5. Effect of Enzyme concentration.
- Fig. III -6. Effect of pH on Aeromonas L-asparaginase activity.
- Effect of pH
- Effect of temperature
- Fig. III -7. Effect of Temperature on Aeromonas L-asparaginase activity.
- pH stability of the enzyme
- Heat stability of the enzyme
- Fig. III -8. pH stability of Aeromonas L-asparaginase.
- Fig. III -9. Heat stability of Aeromonas L-asparaqinase.
- Effect of Keto acids
- Effect of amino acids
- Effect of inorganic ions
- Effect of serum and serum constituents
- Effect of sulphydryl agents and sulphydryl inhibitors
- Effect of dissociating agents
- IV. ANTITUMOR PROPERTY OF L-ASPARAGINASE ISOLATED FROM THE AEROMONAS
- IV. A. Solid Tumor Reduction Studies
- MATERIALS AND METHODS
- Experimental animals
- Tumor cell lines and their maintenance
- Asparaginase preparations
- (a) Aeromonas L-asparaginase
- (b) E.coli L-asparaginase
- Determination of antineoplastic activity of L-asparaginase
- Enzyme therapy
- RESULTS AND DISCUSSION
- Table IV.2 Comparison of antineoplastic activity of Leunase and Aeromonas L-asparaginase
- Fig. IV.1 (a) Front view of the tumor growth.
- Fig. IV.1 (b) Side view of the tumor growth.
- Fig. IV.2 (a) Mouse treated with Aeromonas L-asparaginase.
- Fig. IV-2 (b) Mouse treated with Leunase.
- Table IV.3 Effect of L-asparaginase isolated from Aeromonas on Ehrlich ascites tumor bearing mice
- Table IV.4 Effect of E.coli and Aeromonas L-asparaginases on the growth of Ehrlich ascites tumor in mice
- Fig. IV.3. A normal mouse without tumor.
- Fig. IV.4. Mouse bearing Ehrlich ascites tumor.
- Fig. IV.5 (a) Mouse treated with Aeromonas L-asparaginase.
- Fig. IV.5 (b) Mouse treated with Leunase.
- IV.B. Biochemical Studies
- MATERIALS AND METHODS
- I. Carbohydrate Metabolism
- II. Lipid Metabolism
- 1. Extraction of serum and tissues for lipid estimation
- 2. Estimation of cholesterol
- 3. Estimation of triglycerides
- 4. Estimation of phospholipids
- III. Protein Metabolism
- 1. Estimation of protein
- 2. Estimation of blood urea
- IV. Glycoprotein Metabolism
- 1. Extraction of glycoproteins from the tissues
- a) Preparation of dry defatted tissue
- b) Papain digestion
- 2 Estimation of total hexose
- 3. Estimation of fucose
- 4. Estimation of sialic acid
- V. Assay of Serum Enzymes
- 1. Estimation of serum lactate dehydrogenase
- 2. Estimation of serum transaminases
- 3. Serum phosphatases
- (i) Alkaline phosphatase
- (ii) Total acid phosphatase
- (iii) Tartarate labile acid phosphatase
- RESULTS AND DISCUSSION
- I. Gain in Weight
- II. Carbohydrate Metabolism
- Glucose levels in blood
- III. Lipid Metabolism
- 1) Cholesterol
- 2) Triglycerides
- 3) Phospholipids
- IV. Protein Metabolism
- 1) Total protein
- 2) Blood urea
- V. Glycoprotein Metabolism
- 1) Protein bound hexose
- 2) protein bound fucose
- 3) Protein bound sialic acid
- VI. Serum Enzymes as Tumor Markers
- 1) Serum lactate dehydrogenase
- 2) Serum transaminases
- 3) Serum phosphatases
- V. SUMMARY
- REFERENCES