Option A: Glutamate oxaloacetate transaminase
Option B: Glutamate pyruvate transaminase
Option C: Alkaline phosphaase
Option D: Acid phosphatase
Correct Answer: Alkaline phosphaase ✔
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Option A: Deficiency of glutamic acid
Option B: Deficiency of oxaloacetic acid
Option C: Liver disease
Option D: All of the above
Correct Answer: Liver disease ✔
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Muscle glycogen, which cannot contribute to blood glucose due to the absence of which enzymes ?
Option A: Phosphoglutamase
Option B: Branching enzyme
Option C: Debranching enzyme
Option D: Glucose-6-phosphotase
Correct Answer: Glucose-6-phosphotase ✔
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Option A: Rate of enzymatic reaction is independent of substrate concentration
Option B: Rate of non enzymatic reaction is proportional to substrate concentration
Option C: Km is the enzyme substrate complex association constant
Option D: Enzyme- substrate complex formation is essential in enzymatic reaction
Correct Answer: Enzyme- substrate complex formation is essential in enzymatic reaction ✔
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Option A: Acetyl co enzyme A
Option B: Biotin
Option C: THF4
Option D: Pyridoxine
Correct Answer: THF4 ✔
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1. Transferase
2. Reductase
3. Oxidoreductase
4. Oxidase
Correct Answer: 1. Transferase ✔
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Option A: Apoenzyme
Option B: Proenzyme
Option C: Protoenzyme
Option D: Holoenzyme
Correct Answer: Holoenzyme ✔
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Option A: Glutamine
Option B: Glutamic acid
Option C: Glycine
Option D: Lysine
Correct Answer: Glycine ✔
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Option A: Intracellular proteolysis
Option B: Electron transport chain
Option C: Transport of ATP
Option D: Protein folding
Correct Answer: Intracellular proteolysis ✔
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Option A: Modification of proteins
Option B: m RNA synthesis
Option C: Protein storage
Option D: t RNA synthesis
Correct Answer: Modification of proteins ✔
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Option A: Globulin
Option B: Albumin
Option C: Collagen
Option D: Hemoglobin
Correct Answer: Collagen ✔
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Option A: Glucose
Option B: Gructose
Option C: Maltose
Option D: Dextrin
Correct Answer: Maltose ✔
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Option A: Mitochondria
Option B: Poly ribosomes
Option C: Nucleus
Option D: Golgi bodies
Correct Answer: Poly ribosomes ✔
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Option A: Haemoglobin
Option B: Myoglobin
Option C: Gall bladder
Option D: A & B
Correct Answer: A & B ✔
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Option A: Cholic acid
Option B: Chenodeoxycholic acid
Option C: Deoxycholic acid
Option D: Lithocholic acid
Correct Answer: All of the above ✔
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Option A: Dopamine hydroxylase
Option B: Dopa decarboxylase
Option C: O-methylation
Option D: N-methylation
Correct Answer: N-methylation ✔
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Option A: Tyrosine to dopa
Option B: Phenylalanine to tyrosine
Option C: Dopa to dopamine
Option D: Dopamine to nor epinephrine
Correct Answer: Tyrosine to dopa ✔
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Option A: Insulin
Option B: Glucagon
Option C: GH
Option D: Androgen
Correct Answer: Glucagon ✔
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Option A: Parathyroid hormone
Option B: Thyroxine
Option C: Triidothyronine
Option D: Serotonin
Correct Answer: Parathyroid hormone ✔
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Option A: Endoplasmic reticulum
Option B: Mitochondria
Option C: Nucleolus
Option D: Plasma membrane
Correct Answer: Endoplasmic reticulum ✔
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Option A: Protein lipid synthesis
Option B: Protein synthesis
Option C: Sorting of glycoproteins
Option D: None of the above
Correct Answer: Sorting of glycoproteins ✔
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Option A: Mitochondrion
Option B: Golgi body
Option C: Endoplasmic reticulum
Option D: Centriole
Correct Answer: Mitochondrion ✔
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Option A: Hyperventilation
Option B: Increased NH3 excretion by kidneys
Option C: Increased urinary phosphates
Option D: Increased HCO3 Production
Correct Answer: Increased NH3 excretion by kidneys ✔
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Option A: 20 : 1
Option B: 30 : 1
Option C: 15 : 1
Option D: 1 : 1
Correct Answer: 20 : 1 ✔
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Option A: 6.8 – 7.0
Option B: 7.0 – 7.12
Option C: 7.38 – 7.4
Option D: 7.7 – 8.0
Correct Answer: C. 7.38 – 7.4 ✔
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Option A: Lipid moiety is amphipathic
Option B: Rigid assembly of protein, lipid and carbohydrate
Option C: Symmertrical bi leaflet structures
Option D: Lipid and protein moiety are held by covalent interactions
Correct Answer: Lipid moiety is amphipathic ✔
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Option A: Structural proteins
Option B: Substrate protiens
Option C: Pigment
Option D: Polymer
Correct Answer: Pigment ✔
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Option A: Metabolic acidosis
Option B: Smell of acetone in breath
Option C: Benedict’s test +ve
Option D: Rothera’s test is +ve
Correct Answer: C. Benedict’s test +ve ✔
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Option A: Flavoprotein
Option B: Cytochrome Cl
Option C: Ubiquinone
Option D: Cytochrome A
Correct Answer: Ubiquinone ✔
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During phagocytosis the metabolic process called respiratory burst involves activation of__________?
Option A: Oxidase
Option B: Hydrolase
Option C: Peroxidase
Option D: Dehydrogenase
Correct Answer: Oxidase ✔
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Option A: Mitochondria
Option B: Rough endoplasmic reticulum
Option C: Golgi apparatus
Option D: Lysomes
Correct Answer: Lysomes ✔
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Option A: Liver
Option B: Kidney
Option C: Skeletal muscle
Option D: Cardiac muscle
Correct Answer: Skeletal muscle ✔
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Option A: Endoplasmic reticulum
Option B: Ribosome
Option C: Golgi body
Option D: Glycogen
Correct Answer: Glycogen ✔
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Option A: Cholesterol
Option B: Aminoacids
Option C: Bilirubin
Option D: Lipoproteins
Correct Answer: Cholesterol ✔
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Option A: 0.5 – 1 mg%
Option B: 1 – 3 mg%
Option C: 3 – 4 mg%
Option D: 4 – 5.5 mg%
Correct Answer: A. 0.5 – 1 mg% ✔
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Option A: Phenyl alanine
Option B: Tyrosine
Option C: Tryptophan
Option D: None of the above
Correct Answer: Tyrosine ✔
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Option A: Epinephrine
Option B: Tyrosine
Option C: Dopamine
Option D: Phenylalanine
Correct Answer: Dopamine ✔
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Option A: Aldosterone
Option B: Methyl testosterone
Option C: Estrogen
Option D: Pregnenolone
Correct Answer: Pregnenolone ✔
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Option A: c AMP
Option B: c GMP
Option C: Phosphatidyl inosital
Option D: Phosphatidyl glycerol
Correct Answer: Phosphatidyl glycerol ✔
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Option A: 20% proteins, 25% fats, 50% carbohydrates
Option B: 20% proteins, 35% fats, 45% carbohydrates
Option C: 25% proteins, 25% fats, 50% carbohydrates
Option D: 35% proteins, 15% fats, 50% carbohydrates
Correct Answer: 20% proteins, 25% fats, 50% carbohydrates ✔
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Option A: Nucleus
Option B: Nucleolus
Option C: Golgi apparatus
Option D: Ribsomes
Correct Answer: Nucleus ✔
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Option A: Lipids and proteins
Option B: Lipids only
Option C: Protein only
Option D: None of the above
Correct Answer: Lipids and proteins ✔
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Option A: Protein synthesis
Option B: Oxidation
Option C: Electron transfer
Option D: Fat synthesis
Correct Answer: Electron transfer ✔
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Option A: Na+
Option B: K+
Option C: Cl
Option D: Proteins
Correct Answer: Na+ ✔
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Option A: O2 Hb +Na hemoglobinate
Option B: O2Hb +K hemoglobinate
Option C: H2CO3 + KHCO3
Option D: H2CO3 +NAHCO3
Correct Answer: H2CO3 +NAHCO3 ✔
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Option A: Hydrogen bonding
Option B: Hydrophobic interactions
Option C: Vander wall forces
Option D: Not known
Correct Answer: Hydrophobic interactions ✔
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Option A: Oxidation
Option B: Reduction
Option C: Conjugation
Option D: Any of the above
Correct Answer: Any of the above ✔
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Option A: Cytochrome
Option B: Cytochrome P450
Option C: Cytochrome C
Option D: Cytochrome A
Correct Answer: Cytochrome ✔
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Option A: Oleic, linoleic and linolenic acid
Option B: Arachidonic, linolenic and linoleic acid
Option C: Palmitic Oleic and arachidonic
Option D: Linoleic, arachidonic and stearic acid
Correct Answer: Arachidonic, linolenic and linoleic acid ✔
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Option A: Chylomicron
Option B: VLDL (Very low density lipoprotein)
Option C: LDL (Low density lipoprotein)
Option D: HDL (High density lipoprotein)
Correct Answer: LDL (Low density lipoprotein) ✔
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Option A: 40%
Option B: 30%
Option C: 50%
Option D: 75%
Correct Answer: 30% ✔
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Option A: 100-140 mgs/100 ml
Option B: 260-360 mgs/100 ml
Option C: 150-250 mgs/100 ml
Option D: 80-250 mgs/100 ml
Correct Answer: 150-250 mgs/100 ml ✔
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Option A: Sphingomyelin
Option B: Lecithin
Option C: Cerebroside
Option D: Cephalin
Correct Answer: Cerebroside ✔
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Option A: Oleic acid
Option B: Arachitlonic acid
Option C: Linolenic acid
Option D: Palmitic acid
Correct Answer: Oleic acid ✔
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Option A: Fructose
Option B: Sucrose
Option C: Galactose
Option D: None of the above
Correct Answer: Galactose ✔
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Option A: Triglycerides
Option B: FFA
Option C: Lipoprotein
Option D: Cholesterol
Correct Answer: Triglycerides ✔
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Option A: Aceto acetyl CoA
Option B: Malonyl CoA
Option C: Propionyl CoA
Option D: Fumaryl CoA
Correct Answer: Propionyl CoA ✔
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Option A: Creatine
Option B: Creatinine
Option C: Carnitine
Option D: Coenzyme A
Correct Answer: Carnitine ✔
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Option A: Acetyl-CoA
Option B: Glucose
Option C: Glycerol
Option D: Acetone
Correct Answer: Acetyl-CoA ✔
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Option A: Carbohydrate
Option B: Protein
Option C: Fat
Option D: All of the above
Correct Answer: Fat ✔
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Option A: Acetoacetic acid and pyruvic acid
Option B: Acetoacetic acid and oxalocacetic acid
Option C: Acetoacetic acid and alpha ketoglutaric acid
Option D: Acetoacetic acid and beta hydroxyl butyric acid
Correct Answer: Acetoacetic acid and beta hydroxyl butyric acid ✔
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Option A: HMG CoA synthetase
Option B: HMG CoA lyase
Option C: HMG CoA reductase
Option D: Mevalonate synthetase
Correct Answer: HMG CoA reductase ✔
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Option A: Pyruvate
Option B: Cholesterol
Option C: Mevalonate
Option D: Acetyl CoA
Correct Answer: Pyruvate ✔
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Option A: Amino acids
Option B: Fatty acids
Option C: Cholesterol
Option D: None of the above
Correct Answer: Cholesterol ✔
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Option A: LDL
Option B: VLDL
Option C: HDL
Option D: Chylomicrons
Correct Answer: HDL ✔
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Option A: HDL
Option B: VLDL
Option C: LDL
Option D: Chylomicrons
Correct Answer: LDL ✔
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Option A: Lipo oxygenase inhibition
Option B: Cyclo-oxygenase inhibition
Option C: Reductase
Option D: Peroxidase
Correct Answer: Cyclo-oxygenase inhibition ✔
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Option A: Growth hormone
Option B: Insulin
Option C: Cortisol
Option D: Gulcagon
Correct Answer: Insulin ✔
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Option A: 1 mg%
Option B: 5 mg%
Option C: 12 mg%
Option D: 20 mg%
Correct Answer: 1 mg% ✔
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Option A: Coconut oil
Option B: Egg yolk
Option C: Hydrogenated fat
Option D: Ghee (unsaturated)
Correct Answer: Egg yolk ✔
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Option A: Increasing acetyl-CoA corboxylase activity
Option B: Increases the transport of glucose in to the cells
Option C: Inhibits Pyruvate dehydrogenase
Option D: Decreases intracellular cAMP level
Correct Answer: Inhibits Pyruvate dehydrogenase ✔
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Option A: Mitochondria
Option B: Nucleus
Option C: Cytosol
Option D: None of the above
Correct Answer: Cytosol ✔
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Option A: Fasting state
Option B: Resting state
Option C: Active state
Option D: All of the above
Correct Answer: Fasting state ✔
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Option A: Pyridoxin
Option B: Niacin
Option C: Thiamine
Option D: Retinotic acid
Correct Answer: Thiamine ✔
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Option A: Transport cholesterol from liver to peripheral tissues
Option B: Esterification with PUFA
Option C: Both of the above
Option D: None of the above
Correct Answer: None of the above ✔
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Option A: Carbohydrate
Option B: Lipid
Option C: Amino acids
Option D: All of the above
Correct Answer: All of the above ✔
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Option A: Glycolysis
Option B: Kreb’s cycle
Option C: Urea cycle
Option D: Pentose phosphate pathway
Correct Answer: Pentose phosphate pathway ✔
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Option A: has a high caloric value
Option B: Provides essential fatty acid
Option C: aids in absorption of carbohydrates
Option D: is necessary for storage of carbohydrates
Correct Answer: Provides essential fatty acid ✔
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Option A: Glucose
Option B: Cholesterol
Option C: Ketone bodies
Option D: Fat
Correct Answer: Glucose ✔
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Option A: VLDL
Option B: Chylomicrons
Option C: HDL
Option D: LDL
Correct Answer: Chylomicrons ✔
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Option A: Succinyl CoA
Option B: Propionyl CoA
Option C: Acetyl CoA
Option D: Malonyl CoA
Correct Answer: Propionyl CoA ✔
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Option A: Short acting
Option B: Present in many tissues
Option C: Some require C-AMP for their action
Option D: All are true
Correct Answer: All are true ✔
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Option A: Chylomicrons
Option B: LDL
Option C: VLDL
Option D: HDL
Correct Answer: LDL ✔
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Option A: Clofibrate
Option B: Gemfibrosil
Option C: Lovastatin
Option D: cholestyramine
Correct Answer: Lovastatin ✔
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Option A: Cholesterol
Option B: Leucine
Option C: Ketone bodies
Option D: Bile acids
Correct Answer: Bile acids ✔
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Option A: Acetic acid
Option B: Acetyl CoA
Option C: Oxalo acetic acid
Option D: Pyruvate
Correct Answer: Acetyl CoA ✔
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Option A: Chenodeoxy cholic acid
Option B: Glycocholic acid
Option C: Testosterone
Option D: Cholecystokinin
Correct Answer: Cholecystokinin ✔
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Option A: Brain
Option B: Liver
Option C: Kidney
Option D: Spleen
Correct Answer: Liver ✔
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Option A: Acetone
Option B: Acetic acid
Option C: Acetocetate
Option D: Beta hydroxybutyric acid
Correct Answer: Acetic acid ✔
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Option A: Liver
Option B: Kidney
Option C: Spleen
Option D: Blood
Correct Answer: Liver ✔
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Option A: Gluconeogenesis
Option B: Glycolysis
Option C: Fatty acid synthesis
Option D: Glycogenolysis
Correct Answer: Fatty acid synthesis ✔
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Option A: Aceto acetate synthetase
Option B: Acyl transferase
Option C: Acetyl CoA carboxylase
Option D: Biotin
Correct Answer: Acetyl CoA carboxylase ✔
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Option A: Glycerophosphatides
Option B: Phosphoinositides
Option C: Phosphosphingosides
Option D: Glycerosphingosides
Correct Answer: Phosphosphingosides ✔
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Option A: Glycogen
Option B: Sphingomyelin
Option C: Prostaglandin
Option D: Oleic acid
Correct Answer: Sphingomyelin ✔
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Option A: Prostaglandins
Option B: Cholesterol
Option C: Cell membrane lipid
Option D: Saturated fatty acid
Correct Answer: Prostaglandins ✔
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Option A: Acid
Option B: Alkali
Option C: Water
Option D: Enzymes
Correct Answer: Alkali ✔
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Option A: Triglycerides
Option B: Phospholipids
Option C: Sphingomyelins
Option D: Fatty acids
Correct Answer: Phospholipids ✔
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Option A: It is a component of cell membrane
Option B: It is a precursor of polyunsaturated fatty acids
Option C: It stores up energy
Option D: None of the above
Correct Answer: It is a component of cell membrane ✔
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Option A: Linoleic acid
Option B: Oleic acid
Option C: Palmitic acid
Option D: Stearic acid
Correct Answer: Linoleic acid ✔
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Option A: Cytoplasm
Option B: Microsomes
Option C: Mitochondria
Option D: All of the above
Correct Answer: Mitochondria ✔
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