Download MBBS 1st Year Biochemistry II Important Questions

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1. Brief about the conversion of phenylalanine to tyrosine. Describe in detail about phenylketonurias.
2. Write in detail about ammonia production, transport and disposal. Add a note on disorders of urea cycle.

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3. Write briefly the mechanisms by which the pH of the body fluids is regulated. Add a note on acid base disturbances with examples.
4. Explain the biochemical basis of clinical features of porphyrias.
5. Describe the pathways of methionine metabolism. Add a note on metabolic functions of methionine and cysteine.
6. Describe the biosynthesis of purine nucleotide. Add a note on regulation.
7. Describe the biosynthesis of purine nucleotide. Add a note on regulation.

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8. Name the compounds derived from glycine. Explain any two in detail.
9. Describe in detail the mechanism of regulation of blood PH.
10. Name liver function tests with diagnostic significance of each. Write in detail the biochemical tests of any three done in your laboratory.
11. Describe the pathway for synthesis of urea from ammonia. What is normal blood urea level? Name the conditions in which blood urea level is increased and give the biochemical basis.
12. Describe the steps of s-adenosyl methionine cycle. Explain the term transmethylation with five suitable examples.

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13. Describe the separation of Serum Proteins by paper electrophoresis. Draw the pattern of electrophoresis in i) Multiple Myeloma ii) Nephrotic Syndrome.
14. How is blood pH regulated?
15. Write in details about the initiation, elongation and termination of transcription. Give an account of post transcriptional processing.
16. Write in detail about the absorption, transport, daily requirement and deficiency Manifestation of Iron.
17. What is cloning? Mention the various types of cloning. Describe in detail the steps involved in recombinant DNA technology.

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18. Describe the role of plasma and renal buffers in maintaining acid base homeostasis.

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19. Describe the metabolism of tyrosine. Name the inborn errors associated with this pathway.
20. Enumerate the liver function tests and how Vanden Bergh test distinguishes different types of jaundice.
21. With the help of a figure, describe the process by which DNA replication takes place in a cell.

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22. Name the Aromatic Aminoacids. Add a note on physiologically important derivatives of tyrosine.
23. Explain Protein synthesis in detail. Add a note on drugs that inhibit protein synthesis
24. Describe the catabolism of Heme in the body. Explain the different types of jaundice. How do you investigate a case of jaundice?
25. What is the normal pH of blood. Describe the various mechanisms which maintain it? Mention the acid base disorders.
26. List the parameters that are commonly used in clinical practice as indicators to assess the functions of the liver. Explain the basis of the use of these parameters in assessment of liver function. Briefly discuss medical conditions in which these parameters become abnormal.

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27. Describe the role of the kidney to maintain the pH of blood. What are the compensatory mechanisms the kidney will adopt to maintain pH in the presence of metabolic acidosis?
28. What is the reference range for serum uric’acid? What is the source of uric acid in the body? What is its ultimate fate? Discuss causes of abnormalities in levels of serum uric acid.
29. Describe recombinant DNA technology. Explain the different techniques with its application.
30. Discuss in detail the replication of DNA. Mention the inhibitors of replication.
31. Describe in detail the steps in protein synthesis. Add a note about Post translational modification and inhibitors of protein synthesis.

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32. Describe in detail the steps in protein synthesis. Add a note about Post translational modification and inhibitors of protein synthesis.
33. What is a Buffer? Describe in detail about the Renal Regulation of Blood pH.
34. Describe in detail about the formation and transport of ammonia in our body. Add a note on Urea cycle.
35. Describe in detail about the Synthesis of Tyrosine and its metabolic endproducts.
36. Name the important buffer systems in the body. Describe in detail the role of lungs and kidneys in maintenance of acid base balance.

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37. What is polymerase chain reaction? Write a note on the steps involved in PCR and its applications.

1. Phenyl ketonuria
2. Formation of uric acid
3. Porphyria

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4. Urea cycle
5. ELISA
6. Active Methionine
7. Flame photometer
8. Bilurubin formation & excretion

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9. Plasma proteins
10. Replication
11. Transamination reactions
12. Renal regulation of pH
13. Gout

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14. Mutation
15. Differences between DNA and RNA
16. Oncogenes
17. Post translational modification
18. Formation of creatine

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19. Alkaptonuria
20. Southern blotting
21. Disorders of Tyrosine metabolism
22. Southern blot technique and its applications
23. Write about post transcriptional processing Mention about post transcriptional inhibitors

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24. Describe about the various patterns of diseases in protein electrophoresis
25. Structure of mRNA
26. Liver function tests
27. Laboratory investigations in different types of Jaundice
28. Structure of DNA

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29. Purine Salvage pathway
30. Metabolism of Methionine

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31. What is Blotting technique? Write in detail about Southern blot technique
32. Give a detailed account of how bilirubin is formed and excreted

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33. Transamination reaction and its significance
34. Homocystinuria
35. Essential amino acids
36. Structure of tRNA
37. Restriction endonucleases

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38. Post-translational modifications of proteins
39. What is creatine clearance? Write the normal value of it
40. Sources of ammonia in the body and its metabolism
41. Functions of glycine in the body
42. Heavy metal poisonings

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43. Disorders associated with potassium homeostasis
44. Functions of nucleotides
45. Denaturation of proteins
46. Types of mutations
47. Post-transcriptional modifications of RNA

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48. Restriction endonucleases and their uses
49. Specialized products derived from tyrosine
50. Principle and applications of electrophoresis
51. Cell cycle
52. Causes and clinical features of dehydration

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53. Consequences of hyperuricemia
54. Structure of DNA
55. Active form of methionine and its function
56. Inhibitors of Protein Biosynthesis
57. Porphyria

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58. LAC Operan
59. Transcription & Post Transcriptional modification
60. Cyclic AMP
61. Detoxification by conjugation
62. Renal Function Tests

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63. Tumor Markers
64. Different mechanisms involved in hormone action
65. Thyroid function Tests
66. Recombinant DNA Technology
67. Structure of DNA

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68. Post transcriptional modifications
69. Functions of albumin
70. Electrophoresis and its applications

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71. Causes for respiratory acidosis

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72. Renal mechanism of maintaining Acid Base Balance
73. Purine Salvage pathway
74. Lac Operon concept
75. Post translational modifications
76. Electrophoresis

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77. Repair mechanism of DNA
78. Salvage pathway of Purine synthesis
79. Functions of Glucocorticoids
80. Functions of albumin
81. Precipitation reactions of Proteins

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82. Tubular function tests
83. Role of Kidney in regulating the pH of blood
84. Immunoglobulins
85. Purine salvage pathway
86. Explain the types and functions of immunoglobulins

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87. Phenylketonuria
88. Fluorosis
89. Serum protein electrophoresis
90. Cell cycle
91. Role of Parathormone in Calcium, Phosphate homeostasis

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92. Define Xenobiotics and add a note on the various detoxification reactions
93. Mutation
94. Secondary structure of protein
95. Synthesis and mechanism of action of Nitric Oxide
96. Homocystinurias

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97. Hyperuricemias
98. Metabolic acidosis
99. Phase Two detoxification
100. Cyclic AMP
101. Assessment of hypothyroidism

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102. Mutations
103. Electrophoresis
104. Antioxidants
105. Genetic code
106. Formation of Epinephrine

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107. Cytochrome
108. Purine Salvage pathways
109. Dehydration
110. LAC operon

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111. Orotic acidurias
112. t RNA
113. Phenyl ketoneuria
114. Water toxicity
115. Denaturation

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116. Reverse transcription
117. Sphingolipidoses
118. GOUT
119. Metabolic acidosis
120. Tumor markers

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121. Colorimeter
122. Functions of adrenal cortical hormones
123. Plasmid
124. Functions of albumin
125. Give an account of the formation of specialized products from glycine

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126. Explain the term transamination and its salient features
127. Polymerase chain reaction and its applications
128. Blotting techniques
129. Gene therapy
130. Werite an account of salvage pathway in purine nucleotide synthesis Add a note on Lesch — Nyhan syndrome

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131. Post translational modification
132. What are porphyrias? Describe any three porphyrias in detail
133. Give an account of water distribution and its balance in the body
134. What are isotopes? What are its applications in biochemistry?
135. Name the buffer systems of blood

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136. Sources of carbon and nitrogen in purine ring
137. Wobble hypothesis
138. Write the enzyme defect in (1) Lesch-Nyhan Syndrome (2) Orotic aciduria
139. Okasaki fragments
140. What are Xenobiotics

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141. Causes of Metabolic acidosis

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