VI SEMESTER
Paper 6.1;
Biochemistry-VII
1. Introduction to
metabolism
2h
Anabolism, catabolism, stages in catabolism,
compartmentalization of metabolic pathways in cells and
energy conversation.
2h
Glycolysis entry of other carbohydrates into glycolysis, the
fate of pyruvate, the citric acids cycle, the
energetics of glucose metabolism. Enzymatic control of
glycolysis and TCA cycle. Outline of pentose
phosphate pathway and its significance. The cory cycle, outline
of gluconcogenesis and glycogen
metabolism. The amphipathic and integrating role of the citric
acids cycle. Substrate level
phoshorylation, regulation of blood sugar level. Diabetes
mellitus. Glycogen storage disorder and Cori
disease.
3. Lipid Metabolism 9 h
14
The b-oxidation pathway even and odd numbers, saturated and
unsaturated fatty acids. Structure and
function of fatty acyl synthase. Energetics of total oxidation.
General scheme of biosynthesis of fatty
acids,. Outline of cholesterol biosynthesis. Ketone bodies,
atherosclerosis.
9h
General reaction of amio acids metabolism- transamination,
deamination and decarboxilation. The
Urea cycle and its regulation. Biosynthesis of glycogen, alanin
cysteine and aspartic acid.
Biosynthesis of biologically active amines-epinephrine.
Non- epinephrine. Histomine and poly amines. Disorders of
aminoacid metabolism PKU and AKU.
5. Nucleic Acid
metabolism
4h
Biosynthesis and regulation of purine and pyrimidine
nucleotides. Metabolic disorders. Orotic acid
urea and Gout.
6. Photosynthesis
4h
The photosynthesis apparatus and pigments. Outlines of lights
and dark reactions C3 and C4 plants.
VI SEMESTER BIOCHEMISTRY
PRACTICAL-VII
1. Colorimetric estimations;
a) Protein by F-C method,
b) Iron using ano
c) Phosphate by Firke
d) Creatinne in urine
e) Blood sugar by Folic method
f) Estimation of lactose in milk
2. Determination of the equivalent conductivity
of an electrolye.
3. Conductomtric titration of an amino acid again hydrochloric
acid and sodium.
VI BIOCHEMISTRY
PRACTICAL
Enzymes
1. Preparation of buffer and determination of pH (acetate-pH5.0;
phosphate pH8.0)
2. Determination of the amylase activity in salivn of Effect of
time on amylase activity.
3. Effect of temperature and pH on the activity of the salivary
amylase.
4. Assay of phosphates from potato/green gram.
5. Qualitative analysis of body fluids such as blood (urea,
total count, plasma volume). And urine
(pH, odor, colour, sp. Gravity, proteins, blood, sugar)
6. Estimation of glucose by Hagedorn-Jenson method.
7. Determination of acidity of urine.
15
Paper 6.2; Biochemistry
–VIII
1. Miroscopy
2h
the compound microscope and its uses. Brief mention on electron
microscope and
applications.
2. Classification of micro organizations
2h
Eubactera, archeobactera, fungi, protozoa and viruses
3. Bacterial cell structure
6h
Ultra structure and composition of cell wall, chromosomes,
plasmid, ribosomes, cell
membrane, flagella (Motility) capsule and spores. Gram-stain
classification of bacteria as Gram
positive and Gram negative, Spore stains.
4. Viruses
5h
Brief account of animal viruses polio, influenza, HIV; plant
viruses –TMV and bicteriophage
Teven (Mature and infected cycle)
5. Cultivation of micro organizations
4 h
Nutritional requirements, temperature, pH and oxygen
consideration for optimal growth curve,
control of microorganism by chemical and physical method.
6 Microbial technology
3h
Use of microorganism in- a) fermentation – production of ethanol
baker’s yeast and penicillin, b)
biodegradation of sewage, c) Single cell protein-spirulina.
7. Immunology
10h
Innate and acquired immunity, antigen, antigenic determinants
and heptenes, T and B-limphocytes,
cellular and humeral immunity, immune globulin-classes, and
function, structure of IgG, Antigenantibody
reaction, allergy, vaccines, ABO blood group, blood typing.
8. Introduction to Recombinant DNA Technology
16
8h
Enzymes used in recombined DNA technology; Vectors, chimeric DNA
molecules, introduction of
recombined DNA molecules in host cells. Selection of transformed
cells. Libraries and library
construction. Probes, blotting and hybridization techniques.
Application of recombined DNA
technology. Insulin production.
BIOCHEMISTRY
PRACTICAL-VIII
1. Washing and sterilization of glassware.
2. Preparation of media-plates, stab, slant,
REFERENCE:
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