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mq_biochemistry [2025/02/21 08:41] admin |
mq_biochemistry [2025/02/24 07:06] (current) admin [Model Question List For Physiotherapy] |
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| =====Model Questions List For MBBS===== | =====Model Questions List For MBBS===== | ||
| + | [[List of Model Short Notes of The Biochemistry With Answer for Under-Graduate]] | ||
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| + | [[List of Model Justifications of The Biochemistry With Answer for Under-Graduate and Post-Graduate]] | ||
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| ^Year^Description^Link^ | ^Year^Description^Link^ | ||
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| - | |< | + | |2017|List of Model Justification For MBBS 2017|{{ : |
| - | |< | + | |2017|Cases for Practical Exam|{{: |
| - | 2025 | + | |
| - | - [[Fluidic Model of Cell membrane]] | + | |
| - | - [[Type and Example of Transport mechanism]] | + | |
| - | - Amphibolic role of TCA cycle | + | |
| - | - Chemi-osmotic hypothesis | + | |
| - | - Electro-transport Chain | + | |
| - | - Blood Buffers | + | |
| - | - Renal mechanism for Acid Base balance | + | |
| - | - Defination & Interpretation of Anion Gap | + | |
| - | - Cause and Interpretation of Metabolic and Respiratory acid-base alteration By arterial blood gas analysis | + | |
| - | - Principle, Type and utility of Electrophoresis. | + | |
| - | - Principle, Type and utility of ELISA. | + | |
| - | - Principle and utility of Colorimeter | + | |
| - | - Biochemical changes in Liver, Adipose tissue and muscle in fasting. | + | |
| - | - Biochemical changes in Liver, Adipose tissue and muscle in well fed state. | + | |
| - | + | ||
| - | Carbohydrate | + | |
| - | - Mucopolysaccharide (Glycosamino glycans) | + | |
| - | - Digestion & absorption of Carbohydrate | + | |
| - | - Lactose intolerance | + | |
| - | - Energy production of Glycolysis | + | |
| - | - Von Gierke’s Disease | + | |
| - | - Regulation of Gluconeogenesis | + | |
| - | - Significant of HMP Shunt pathway | + | |
| - | - Significant of NADPH | + | |
| - | - Role of Glutathione & NADPH for maintain RBC membrane | + | |
| - | - Effect of Alcoholism on gluconeogenesis as well as on beta oxidation of fatty acid. | + | |
| - | - Polyol pathway and it’s significant | + | |
| - | - Diagnosis of Diabetes Mellitus | + | |
| - | - Metabolic alteration in Diabetes Mellitus | + | |
| - | - Acute and Chronic complication of Diabetes Mellitus | + | |
| - | - Biochemical explanation of Diabetic Ketoacidosis | + | |
| - | - Define and significant of Glycated (HbA1c) haemoglobin | + | |
| - | - Advance Glycated End product | + | |
| - | + | ||
| - | Lipid | + | |
| - | - Lipid digestion –absorption. | + | |
| - | - Rancidity of Fatty acid | + | |
| - | - Liposome & Micelle | + | |
| - | - Digestion and absorption of lipid | + | |
| - | - Function of Phospholipids | + | |
| - | - Role of phospholipid in signal transmission | + | |
| - | - Eicosanoids | + | |
| - | - Formation of eicosanoids and explain its inhibitor with significance. | + | |
| - | - Significant and Regulation of Cholesterol. | + | |
| - | - Risk factor for Atherosclerosis | + | |
| - | - Type and Function Lipoproteins | + | |
| - | - Type and function of Apo- lipoproteins | + | |
| - | - Pathogenesis of atherosclerosis in context of Oxidized LDL | + | |
| - | - Cause of Fatty liver | + | |
| - | - Name the Lipotrophic Factor. Explain it’s effect. | + | |
| - | - Type and differentiation of Oxidation of Fatty acid. | + | |
| - | - Beta Oxidation of Long Chain Saturated fatty acid. | + | |
| - | - Energy production of saturated even chain fatty acid | + | |
| - | - Carnitine shuttle | + | |
| - | - Metabolism of HDL | + | |
| - | - Metabolism of LDL | + | |
| - | - Protein and Amino acid | + | |
| - | - Name and defination of Essential & Semi-essential Amino acid | + | |
| - | - Zwitter ion | + | |
| - | - Type of Structure of Protein | + | |
| - | - Exaplain Protein Primary | + | |
| - | - Define Chaperon & Prion protein. | + | |
| - | - Define Protein Denaturation. Give It’s significant & causative factor. | + | |
| - | - Digestion & Absorption of Protein | + | |
| - | - Fates of Tyrosine & Phenlyalanine & it’s related disorder. | + | |
| - | - Biochemical explanation of Phenylketonuria. | + | |
| - | - Biochemical explanation of Albinism & Alkaptonuria. | + | |
| - | - Fates of Tryptophan & it’s related disorder. | + | |
| - | - Functional classification of protein. | + | |
| - | - Role of 2-3 BPG on oxygen diffusion-dissociation and effect during hypoxia | + | |
| - | - Molecular and Biochemical explanation for pathogenesis of Sickle cell disease | + | |
| - | - Molecular and Biochemical bases of Thalassemia. | + | |
| - | - Define and explain cause & effect of Met-haemoglobinemia | + | |
| - | - Define Porphyria. Explain Causes, Clinical Feature and diagnosis of Acute intermittent | + | |
| - | - Porphyria and Congenital erythropoietic porphyria. | + | |
| - | - Developmental changes in Hemoglobin gene expression from intrauterine life to adult. | + | |
| - | - Mechanism of the Bohr effect | + | |
| - | - Peripheral detoxification of Ammonia (Nitrogen disposal) through GDH and Alpha ketoglutarate | + | |
| - | - Transport and Detoxification of Ammonia | + | |
| - | - Haemoglobin degradation (Billirubin formation) and explain it's related disorder. | + | |
| - | - Type of Congenital Jaundice | + | |
| - | - Types , Causes | + | |
| - | + | ||
| - | Enzyme | + | |
| - | - Define Co-Enzyme & Co-Factor. Give Example. | + | |
| - | - Diagnostic importance of isoenzyme | + | |
| - | - Enumerate Liver Function Test & Write it’s | + | |
| - | - Enumerate Cardiac Function Test & Write it’s significant. | + | |
| - | - Write and Explain Factor affecting enzyme activity with example. | + | |
| - | - Type of Enzyme Inhibition. Explain with example. | + | |
| - | - Difference between Competitive inhibition and Non- Competitive inhibition. | + | |
| - | - Explain Difference in Function of Glucokinase and Hexokinase on bases of it’s Vmax and Km. | + | |
| - | + | ||
| - | Nutrition & Vitamin | + | |
| - | - Assessment of obesity. | + | |
| - | - Difference between Kwashiorkor & Murasmus | + | |
| - | - Factor affecting Basal Metabolic Rate | + | |
| - | - Clinical significance of Dietary fibre | + | |
| - | - Metabolism, Function and Clinical significance of Vitamin D | + | |
| - | - Folate trap | + | |
| - | - Mucosal block theory of iron absorption. | + | |
| - | - Function of Vitamin B12. | + | |
| - | - Effect of Warfarin & Dicoumarol | + | |
| - | + | ||
| - | | + | |
| - | - Type and Watson & Crick Model of DNA | + | |
| - | - Molecular basis of Sickle cell anaemia. | + | |
| - | - Name & role of the component of the DNA replication fork | + | |
| - | - DNA repair mechanism. | + | |
| - | - Define Telomer & Telomerase. It’s significant | + | |
| - | - t-RNA. | + | |
| - | - Degeneracy & wobbling phenomena | + | |
| - | - Effect and Type of Mutation with example. | + | |
| - | - Initiation of Transcription | + | |
| - | - Post-transcription modification. | + | |
| - | - Post translation modification. | + | |
| - | - Genetic codon | + | |
| - | - Lac operon | + | |
| - | - Procedure & Significant of PCR | + | |
| - | - Significant of RFLP in diagnosis of Sickle cell disease | + | |
| - | - Microarray | + | |
| - | - Salvage pathway of Purine synthesis | + | |
| - | - Lysch Nyhan Syndrome | + | |
| - | - Primary & Secondary cause of Hyperuricemia (Gout) | + | |
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