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theory_question [2025/02/08 06:05] admintheory_question [2025/02/10 07:17] (current) – [PG Previous year question paper] admin
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-MD (Biochemistry) +=====MD (Biochemistry)===== 
-Approximate distribution of Topics for Theory Papers+====PG Resident Resource==== 
 +====Approximate distribution of Topics for Theory Papers====
  
 ^Paper^Topics^ ^Paper^Topics^
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 |4|Laboratory medicine,Clinical chemistry,Molecular diagnostics and recent advances| |4|Laboratory medicine,Clinical chemistry,Molecular diagnostics and recent advances|
 The Postgraduate study is integrative in nature. Overlap of topics is expected in all papers The Postgraduate study is integrative in nature. Overlap of topics is expected in all papers
-Logbook word copy and PDF 
-|[[logbook_biochemistry.pdf]]| [[logbook_biochemistry.docx]]|[[microbiology_joining.odt]]|[[biochemistry_journal.pdf]]|[[pathology_joining.odt]]|[[pathology_letter.odt]]|[[microbiology_letter.odt]]| 
  
-Miscellaneous topic enzyme_multiplied_immunoassay_technique.pdfdirect_indriect_method_of_sampling.pdfmiselenious.pdfmeasurment_of_radioactivity.pdfacid_base_balance.pdfbook-teaching_and_learning_methods_in_medicine_pdfdrive_.pdfbook_medical_teachers.pdf+====Logbook word copy and PDF==== 
 +|{{:logbook_biochemistry_new_1_.pdf |}}| {{ :logbook_biochemistry_new_1_.docx |}}|
  
-(Incomplete) Example List of questions for PG (MD Biochemistry Students)+====Resident External Posting==== 
 +|{{:resident_external_posting.pdf|}}|{{ :resident_external_posting.docx |}}| 
 + 
 +====Resident Practical Resourse==== 
 +|{{:ug_journal.docx |}}|{{ :ug_journal.pdf |}}| 
 + 
 +====PG Previous question paper==== 
 +^batch^Month & year^theory^pdf^ 
 +|2022-2025|Dec 2024|Prelims|{{ :prelims_theory_paper_nov_2024.pdf |}} | 
 +| | |University|{{ :university_theory_paper_2025_1_.pdf |}} | 
 + 
 + 
 +====Example List of questions for PG (MD Biochemistry Students)====
 =====Core biochemistry===== =====Core biochemistry=====
   - How H2O2 is formed in human body | Describe biochemical reactions causing H2O2 mediated damage to cell membrane lipid| How NADPH is used to metabolize H2O2| How G6PD mutations are inherited| What are biochemical events causing hemolysis in G6PD deficiency| Explain principle of Methelene Blue based screening test for diagnosis of G6PD deficiency   - How H2O2 is formed in human body | Describe biochemical reactions causing H2O2 mediated damage to cell membrane lipid| How NADPH is used to metabolize H2O2| How G6PD mutations are inherited| What are biochemical events causing hemolysis in G6PD deficiency| Explain principle of Methelene Blue based screening test for diagnosis of G6PD deficiency
   - Explain role of Fe2+, heme and globins in hemoglobin mediated O2 and CO2 transport. Emphasize role of distal and proximal histidine of globin. Enlist series of molecular events responsible for increased O2 affinity of Hb when one of its globin bind O2. Explain molecular basis of relationship between O2 and carbon monoxide in context of hemoglobin structure and function. What is carbon monoxide concentration in various environment   - Explain role of Fe2+, heme and globins in hemoglobin mediated O2 and CO2 transport. Emphasize role of distal and proximal histidine of globin. Enlist series of molecular events responsible for increased O2 affinity of Hb when one of its globin bind O2. Explain molecular basis of relationship between O2 and carbon monoxide in context of hemoglobin structure and function. What is carbon monoxide concentration in various environment
-  - Describe biochemical structure of bacterial cell wall and give overview of its synthesis. How does it differ in Gram positive and negative organisms. Describe biochemical mechanism of action of antibiotics affecting bacterial cell wall. Explain biochemical strategies used by bacteria to develop resistance to these antibiotics. Explain mechanism of autoimmune disease following bacterial infection and immune-mediated hypersensitivity to antibiotics +  - Describe biochemical structure of bacterial cell wall and give overview of its synthesis. How does it differ in Gram positive and negative organisms. Describe biochemical mechanism of action of antibiotics affecting bacterial cell wall. Explain biochemical strategies used by bacteria to develop resistance to these antibiotics.      
-  - Protein life cycle+  - Explain mechanism of autoimmune disease following bacterial infection and immune-mediated hypersensitivity to antibiotics 
 +  - [[Protein life cycle]]
   - Protein sequencing using Edman reaction   - Protein sequencing using Edman reaction
   - Protein folding and its perturbation causing diseases   - Protein folding and its perturbation causing diseases
   - Post-translational modifications in collagen   - Post-translational modifications in collagen
-  - Enzymatic pathways of methemoglobin reduction and biochemical basis for use of methelene blue in treatment of methemoglobinemia. +  - [[Enzymatic pathways of methemoglobin reduction and biochemical basis for use of methelene blue in treatment of methemoglobinemia.]] 
-  - Enzymatic pathways of methemoglobin reduction and biochemical basis for use of methelene blue in reagents for diagnosis of G6PD deficiency. +  - [[Enzymatic pathways of methemoglobin reduction and biochemical basis for use of methelene blue in reagents for diagnosis of G6PD deficiency.]] 
-  - Amino acid substitutions in hemoglobin variants and correlation with electrophoretic mobility and sickling test+  - [[Amino acid substitutions in hemoglobin variants and correlation with electrophoretic mobility and sickling test]]
   - Single molecule enzymology   - Single molecule enzymology
   - Molar absorptivity of NADH and calculation of enzyme factors   - Molar absorptivity of NADH and calculation of enzyme factors