Veterinary Physiology
The Department of Physiology and Biochemistry, Bombay Veterinary College was established in the year 1940, when an advanced diploma course was started.Prior to 1940, medical officers deputed by the Government taught the subject of Physiology. The staff of the Department then consisted of one Professor and one Demonstrator. After the affiliation of the college to Bombay University and starting the degree course, the staff consisted of one Professor, one Assistant Professor and two Lecturers.In the year 1966 the department got recognization for postgraduate studies from the Bombay University.The Bombay Veterinary College was affiliated to Maharashtra Agricultural University in 1968 and thereafter to Konkan Krishi Vidyapeeth in 1972.In 2003, as per the Veterinary Council of India’s regulation, the Maharashtra Animal & Fishery Sciences University, Nagpur, created two separate departments, Department of Veterinary Physiology and Department of Veterinary Biochemistry including Clinical Biochemistry.The departments impart training to undergraduate and graduate students. Academic programs for masters and doctoral degrees in both the disciplines of Veterinary Physiology and in Veterinary Biochemistry are offered by the departments.Besides the academic programs, the departments’ conduct basic and applied research and technology transfer in Veterinary and Animal Sciences with emphasis on animal health and production. The department also offers diagnostic facilities of Veterinary Laboratory Diagnostics to the Teaching Veterinary Clinical Complex, Zoo, National Park, Dairy Farms, Field Veterinarians and Pet Owners.
UG Syllabus
First Year B.V.Sc & A.H.Veterinary Physiology ISemester I: VPB 111 (Blood, Cardiovascular, Excretory System and Body Fluids)Credit Hours: 2 + 1 = 3Tentative lecture schedule
First Year B.V.Sc & A.H.Semester I: VPB 112 (General Veterinary Biochemistry)Credit Hours: 1 + 1 = 2Tentative lecture schedule
First Year B.V.Sc & A.H.Veterinary Physiology ISemester II: VPB 121 (Neuromuscular, Digestive and Respiratory systems)Credit Hours: 2 + 1 = 3Tentative lecture schedule
First Year B.V.Sc & A.H.Veterinary Physiology ISemester II: VPB 122 (Veterinary Intermediary Metabolism)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Second Year B.V.Sc & A.H.Veterinary Physiology IISemester IV: VPB 221 (Endocrinology, Reproduction, Growth and Environmental Physiology)Credit Hours: 3 + 1 = 4Tentative lecture schedule
Third Year B.V.Sc & A.H.Semester VI: VPB 221 (Endocrinology, Reproduction, Growth and Environmental Physiology)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Lecture No. | Topic |
1 & 2 | Importance of veterinary physiology and Scope of course; Definition and composition of blood. Plasma, serum; Functions of blood; Properties of blood like haematocrit, ESR, viscosity, osmotic pressure, specific gravity, osmotic fragility (isotonicity, hypertonicity and hypotonicity); Reaction of the blood i.e. blood pH. |
3. | Plasma proteins- albumin, globulin, fibrinogen and others; Origin and functions of plasma proteins; Plasma lipids- HDL, LDL and VLDL; Origin and functions of plasma lipids; Blood volume and its determination- direct and indirect methods |
4 | Erytropoeisis: Reticuloendothelial system, shape, size and number with species, life span, surface; Factors affecting erythropoeisis – hormonal, nutritional and others; Metabolism – Iron absorption, transport, storage and utilization |
5 & 6 | Chemical structure of haemoglobin; Biosynthesis of haemoglobin; Physiological functions of haemoglobin; Derivatives of haemoglobin- oxyHb, carbaminoHb, carboxyHb, metHb, sulphoHb and myoglobin; Fate of RBCs: intravascular and extra vascular haemolysis, haemoglobin; Degradation, haemoglobinemia, haemoglobinurea, erythrocytic indices, Anemia: classification |
7 | Platelet: origin, morphology, number and functions; Haemostasis mechanism and its regulation; Coagulation mechanism and coagulating factors; Factors affecting coagulation mechanism |
8 & 9 | Leukocytes: classification, leucopoeisis, number, life span; Functions of leukocytes: phagocytic, immunogenic and others |
Cardiovascular System | |
10 & 11 | Gross morphology of heart; Properties of heart muscles, Metabolism and energetics of cardiac muscles; Specialized excitatory and conduction system of heart; Conduction and Transmission of cardiac impulse; Regulation of heart pumping; Coronary circulation |
12 & 13 | Cardiac cycle; Cardiac output and its regulation; Properties of pulse: pulsatile flow of blood in artery, Oscillatory flow system of circulation, Pressure pulse contours (normal and abnormal), Pulse wave propagation and shape of pressure pulse. |
14 | Circulatory mechanics: Functional parts of the circulation (aorta to vena cava), Pressure in different parts of the circulation, Cross section areas and velocity of blood flow; Interrelationships among pressure, flow and resistance: Laminar flow of blood in vessels, Turbulent flow of blood in vessels; Resistance to blood flow: Unit of resistance, Total peripheral vascular resistance and total pulmonary vascular resistance, Conductance and Poiseuille’s law. |
15 | Nervous control of vascular system: sympathetic and parasympathetic innervations of blood vessels, (vasoconstriction and vasodilation); Hormonal and humoral control of vascular system: (epinephrine, nor epinephrin, Angiotensin II, vasopressin, endothelin, bradykinin and histamine). |
16 & 17 | Control of blood pressure (Intrinsic and extrinsic regulation): Role of NS in rapid control of BP: vasoconstrictor function, cardio-accelerator function and reciprocal inhibition of parasympathetic vagal inhibitory signals (extrinsic), Reflex mechanisms for maintaining normal BP- Baroreceptor reflex, Chemoreceptor reflex, Atrial and Pulmonary artery reflexes, Volume reflex, Bainbridge reflex (intrinsic). Vagal escape, Circulating fluid volume control of blood pressure: role of venous return (intrinsic), Other factors: pressure diuresis and pressure natriuresis and Renin – Angiotensin – Aldosterone system (extrinsic). |
18 | Regional circulation to vital organs: (Cerebral, Pulmonary, Coronary, Renal); Foetal circulation; Capillary exchange-forces/pressures causing filtration and reabsorption at arterial and venous end of capillaries; Circulatory control during exercise and shock stress. |
19 & 20 | Electrocardiography: Definitions, Characteristics of normal ECG. Methods of recording ECG (standard, unipolar, bipolar); Diagnostic uses of ECG recordings in veterinary science; Echocardiography; Terminologies related to cardiac activities. |
Excretory System | |
21 | Kidney: Structural and functional morphology of nephron; Renal blood and plasma flow; factors determining renal plasma flow. |
22 & 23 | Formation of urine: Glomerular filtration: factors determining filtration pressure; Determinants and factors affecting Glomerular Filtration Rate; Regulation of Glomerular Filtration Rate; Tubular reabsorption (of glucose, protein, amino acids and electrolytes) and its regulation; Tubular secretion and its regulation; Excretion of ammonia |
24 | Concentrations of urine: counter current mechanism; Glomerulotubular balance: changes in osmolarity in different segments of the tubules; Physiology of micturition; Uremia, terminology related to urinary excretion |
25 | Methods of studying renal function test: Tests depending upon both blood and urine analysis viz test based on clearance of creatinine, para-amino hippuric acid test, inulin and urea; volume study |
26 | Formation and excretion in birds: characteristics of nephron type; formation, concentration, composition, flow, and excretion of urine |
Body fluids | |
27 & 28 | Body fluid compartments- Intracellular, Extracellular and Transcellular; Ionic and Electrolyte composition in of body fluids; Total osmotic pressure, osmolarity, osmolality; regulation of ECF osmolarity; Electrolyte imbalances: excessive blood loss, diarrhea, vomition and dehydration), regulation of ECF electrolyte: Na, K, Ca, Mg, P concentration; Regulation of bone metabolism for maintenance of calcium and phosphate ion concentration in body fluids |
29 | Water imbalances; water intoxication and dehydration; regulation of ECF volume; Physiology of thirst, fluid therapy |
30 | Regulation of H+ concentration and acid base balance: Buffer systems: bicarbonate, phosphate, haemoglobin and plasma proteins, Respiratory regulation of acid base balance: alveolar ventilation, Renal control of acid base balance: secretion of H+, reabsorption of HCO3– and generation of new HCO3–. |
31 | Acid base imbalances: Respiratory acidosis and alkalosis, Metabolic acidosis and alkalosis; Physiological mechanism for correction of acid base imbalance |
32 | Cerebrospinal fluid: formation, flow composition and functions; Synovial fluid- formation, flow composition, and functions; Other body fluids: intraocular, peritoneal and pericardial lymph |
LectureNo. | Topic |
1 & 2 | Scope and importance of biochemistry. Buffer system and pH. Dissociation of and Handerson – Hasselbalch equation |
3 & 4 | Structure of cell membranes and transport across cell membranes. Donnan membrane equilibrium |
Biochemistry of carbohydrates: Biological significance (structure and properties) of: | |
5 | Monosaccharides (ribose, glucose, fructose, galactose, mannose and amino sugars) |
6 | Disaccharides (maltose, isomaltose, lactose, sucrose and cellobiose |
7 | Polysaccharides (starch, dextrins, dextrans, glycogen, cellulose, inulin, chitin) |
8 | Mucopolysaccharides including bacterial cell wall polysaccharides |
Biochemistry of lipids: | |
9 & 10 | Properties (structure) and biological significance of simple, compound and derived lipids and lipoproteins |
11 | Structure and functions of prostaglandins. Chemistry of bile and bile salts |
12 | Amino acids: Classification and structure of neutral basic and acidic amino acids |
13 | Properties of amino acids: amphoteric nature, optical activity and peptide bond formation |
14 | Structure properties, biological significance and chemical reactions of proteins |
Biochemistry of nucleic acids | |
15 | Chemistry of purines and pyrimidines, nucleosides and nucleotides. Biological significance of nucleosides and nucleotides |
16 | Structures and functions of deoxyribonucleic acid (DNA) and a typical ribonucleic acid |
LectureNo. | Topic | |
Digestive System | ||
1 & 2 | Introduction and scope of the course. Basic characteristics / functions of digestive system. morphological characteristic of monogastric and polygastric digestive system: comparative aspects herbivores, carnivores, omnivores, etc Developmental aspects of digestion; gastrointestinal motility, importance of colostrums feeding, digestive s3ecrition and microflora development | |
3 | Ingestion, Prehension, Mastication. Deglutition, Salivation, digestion Defecation, Vomition. Hunger, appetite control, retching, drinking, belching, eructation and rumination. | |
4 | Salivary glands: classification according to location and type of secretion, quantity of saliva secretion, composition of saliva, functions of salivary secretion and regulation of secretion. | |
5 | Gastric glands: structure, secretion and regulation of secretion; Structure, secretion and regulation of secretion of intestine and pancreas; Structure of biliary tract, secretion of bile, composition, function and factors affecting bile secretion. | |
6 & 7 | Enzymatic digestion in monogastric animals. Functions of large intestine | |
8 & 9 | Ruminant digestion: Factors favoring fermentation, functional anatomy of ruminant stomach, developmental aspect of ruminants stomach, rumination; Ruminal bacteria and protozoa; Fermentative and microbial digestion of carbohydrates, protein, and fat; Modification of toxic substances in rumen | |
10 | Absorption: Permeability characteristics of intestine (sites, route or channels and surface of absorption); forces governing absorption (mechanism of absorption); Control intestinal transport of electrolyte and water. | |
11 | Digestion in birds: special characteristics of avian digestive system | |
Neuromuscular Physiology | ||
12 | Muscle physiology : Basic muscle unit characteristics (structural and functional aspect of cardiac, skeletal and smooth muscle) | |
13 & 14 | Properties of excitable tissues; excitability, conductivity, All or non law, refractory period, summation, adaptation, accommodation, indefatigability; Electrical phenomenon in muscle cell: Membrane potential. Ionic basis of resting membrane potential, muscle action potential, excitation and propagation of impulse characteristics. | |
15 & 16 | Neuromuscular transmission Contractile mechanism – excitation contraction coupling. Types of muscle contraction, , rigor mortis | |
Nervous system | ||
17 | Organization and general functions of nervous system (sensory, consciousness, emotion, motor and visceral control); Mechanism of information processing, hierarchical control; Major functional divisions of nervous system. | |
18 | Basic functional unit: neuron structure, types of neuron, functional characteristics of subunits of neuron. Neurotransmitters. | |
19 | Membrane potential – ionic basis of resting membrane potential (RMP), nerve action potential, excitation and propagation of impulse characteristic latent period-refractiveness, threshold level- All or none characteristics | |
20 | Nerve fiber: classification (histological, and functional, chemical, electrophysiological, system of Lloyd, and physio anatomical); Properties of nerve fiber, degeneration and regeneration of nerve fiber; Synaptic and junctional transmission. | |
21 & 22 | Reflexes: Reflex arc and reflex action, varieties of reflex arc, types of reflexes (conditional and unconditional); Reflexes of brain stem and spinal cord; Control of posture and movements. | |
23 & 24 | Higher function of nervous system (brain parts and functions: cerebral cortex, cerebellum, pons and medulla, hypothalamus etc.) Learning, memory. Wakefulness and sleep cycle; Familiarization with common equipments used in neurophysiology (Oscilloscope, electroencephalography, machine stimulators, etc.) | |
25 | Autonomic nervous system: Functional and anatomical division, functions in general, major differentiating features of CNS and ANS; Differentiating features of sympathetic and parasympathetic division; Specific functions of ANS ( visceral control) | |
26 & 27 | Sense organs and receptors physiology of special senses (types and functions); Eye: functional morphology, nourishment and protection, neural pathway, receptors: optics, ocular muscles and movements, photochemistry, eye defects and eye examinations (aid to clinical evaluation); Ear: Physiology of hearing and common hearing impairment. Vestibule apparatus. Physiology of olfaction and taste. | |
Respiratory System | ||
28 | Functional morphology of respiratory apparatus. Mechanisms and regulation of breathing. (Respiratory volumes and capacities). Pressures, recoil tendency, elasticity, surfactants, pleural liquid, compliance. | |
29 | Transport of blood gases, Dissociation curves, ,, exchange of gases in lungs and tissues, diffusion, perfusion, hypoxia and related terms, fetal and neonatal oxygen transport | |
30 | Frictional resistance to air flow, airways smooth muscle contraction, respiratory muscle work, panting, adaptation of respiration during muscles exercise, high altitude | |
31 | Non respiratory lung functions (thermoregulation & acid base balance, excretion) | |
32 | Characteristics of Respiration in birds | |
LectureNo. | Topic |
1 & 2 | Enzymes: Definition, classification and EC numbering of enzymes. Coenzymes, cofactors & isoenzymes. Enzyme units: International units, katal, turnover number & specific activity. |
3 & 4 | Properties: Protein nature, Enzyme-substrate complex formation, Modern concept of enzyme specificity of enzyme action: substrate specificity, Group specificity, stereo specificity, optical specificity. |
5 | Factors influencing enzyme action: Effects of temperature, pH, concentration of substrate and enzyme; Enzyme inhibition: Competitive, non competitive, uncompetitive and suicidal inhibition allosteric enzymes. |
6 & 7 | Biological Oxidation: Enzymes and coenzyrnes involved in oxidation and reduction viz. Oxidoreductase, Oxidases, oxygenases, dehydrogenases, Hydroperoxidases & cytochromes. |
8 & 9 | Respiratory chain / electron transport chain, oxidative phosphorylation, inhibitors, uncouplers and other factors influencing electron transport chain |
Carbohydrate metabolism along with bioenergetics: | |
10 | Glycolysis |
11 | Kreb’s cycle along with energetics |
12 | Glyoxilate cycle, HIVIP shunt. Gluconeogenesis |
13 | Cori cycle, Glycogenesis, Glycogenolysis |
14 | Hormonal control of carbohydrate metabolism & regulation of blood sugar. |
Lipid metabolism with bioenergetics: | |
15 | Beta oxidation of fatty acid, Ketone body formation |
16 | Biosynthesis of fatty acids. Triacylglycerol metabolism |
17 | Phospholipids & lipoprotein metabolism |
Protein metabolism: | |
18 | Biosynthesis of proteins |
19 | Degradation of protein: deamination, transamination & decarboxylation of amino acids |
20 | Ammonia transport and urea cycle. |
21 & 22 | Nucleic acids: Metabolism of purines and pyrimidines |
23 | DNA & RNA biosynthesis |
24 | Integration of metabolism |
25 | Metabolic functions of macro nutrients |
26 | Metabolic functions of micro nutrients |
Metabolic functions of lipid soluble vitamins: | |
27 | Metabolic functions of Vitamin A & E |
28 | Metabolic functions of Vitamin D & K |
Metabolic functions of water soluble vitamins: | |
29 | Vitamin C |
30 | Thaimine, Riboflavin, Niacin & Pyridoxine, |
31 | Pantothenic acid, Folic acid & Cynocobalamin. |
32 | Use of isotope in metabolic studies. |
LectureNo. | Topic |
Endocrinology | |
1 | Introduction and scope of the course, historical background and components of endocrine system (endocrine glands, hormones, target cells / receptors). Methods of studying endocrine glands and measurements of hormones, endocrine, paracrine autocrine action and solinocrine secretion receptors, agonists, antagonists. Effects of hormone action. |
2 & 3 | Physiology of hormones: definition, classification (according to the source of secretion, chemical nature and nature of action). Hormone transport, general mode of action (peptide, steroid, and amine). Hormone cell interaction, regulation / control of hormone secretion (humeral, nervous, genetic control), metabolism of hormones, biological half life clearance from the blood. General functions of hormones. |
4 to 6 | Hypothalamo – hypophyseal hormones (development of the pituitary gland, location, histological details / cells, hormones, chemistry of hormones, physiological actions, dysfunctions) hypothalamo – hypophyseal axis |
7 & 8 | Thyroid (development of the gland, location, histological details / cells, hormones, chemistry of hormones, biosynthesis and fate of thyroid hormones, physiological actions, dysfunctions: hypo and hyper thyroidism, goiter and types, treatment) anti thyroid compounds, control of secretion. |
9 & 10 | Pancreas ( location, histological details / cells, hormones, chemistry of hormones, physiological actions, dysfunctions – diabetes mellitus) control of secretion |
11 & 12 | Adrenals – Adrenal cortex (location, histological details / cells, hormones, chemistry of hormones, physiological actions, dysfunctions – Cushing’s syndrome Addison’s diseases and others). Control of secretion Rennin Angiotensin mechanism. Atrial Natriuretic Factors (ANF) |
13 & 14 | Adrenal medulla (location, histological details / cells, hormones, chemistry of hormones, physiological actions, differences and similarities between epinephrine and non epinephrine, control of secretion |
15 & 16 | Calcium regulating hormones – Parathyroid gland (location, histological details / cells, hormones, chemistry of hormones, physiological actions, control of secretion, dysfunctions) |
17 & 18 | Calcitonin and vitamin D: source of secretion, chemistry, physiological action and control of secretion in action of calcium regulating hormones Disorders and differences |
19 & 20 | Thymus and pineal gland (location, histological details / cells, hormones, chemistry of hormones, physiological actions, dysfunctions) control of secretion |
21 | Prostaglandins, erythropoietin, pheromones: source of secretion, chemical nature and action. |
22 | Gastrointestinal hormones: source of secretion, chemical nature and action. |
Reproduction | |
23 & 24 | Genetic and endocrine control of gonadal development. Modification of GnRH release (introspective and extrospective) Functional anatomy of female reproductive tract (puberty and sexual maturity, endocrine mechanism and factors affecting photoperoidism) |
25 & 26 | Ovarian functions. Follicular development, dynamics. Ovulation. Endocrine and receptor profile. Functions and regulation of estrogens and progesterone; Ovarian cycle. Sexual receptivity. Ovum transport. Reproductive cycles in farm animals and changes in female reproductive tract. |
27 & 28 | Functional anatomy of male reproductive tract. Functions of sertoli and leydig cells. Spermatogenesis, spermatogenic cycle and wave, structure of spermatozoan; Semen: composition: evaluation. Testosterone: function and regulation. Cryptorchidism. Uses of androgens. Capacitation. Mating. Fertilization. |
29 | Pregnancy / gestation: period of ovum, embryo and foetus. Placentation functions of placenta. Hormones in biological fluids during pregnancy and their use in pregnancy diagnosis. |
30 | Maternal, foetal and placental participation in pregnancy and parturition.Factors inducing the parturition preparturient endocrine events. Mechanism of parturition. Immunology of gestation. |
Lactation | |
31 | Functional and metabolic organization of mammary glands, structure and development. Hormonal control of mammary growth, Effect of estrogens and progesterone. |
32 & 33 | Lactogenesis and galactopoiesis: Role of hormones. Biosynthesis of milk constituents, secretion of milk, milk let down. Lactation cycle. |
34 | Composition of milk, metabolic changes in mastitis. Prolactin and mammary tumors. |
Growth and environmental physiology | |
35 – 36 | (Growth – concept – cellular – hyperplasia and hypertrophy – and other aspects etc.) Biochemical and genetic determinants of growth. Regulation of growth. Metabolic and hormone interactions. (Prenatal growth – aspects – cleavage and differentiation). Organogenesis. (Developmental horizons). (Factors affecting prenatal and post natal growth) (EGF, NGF, Chalones, Promines, retine, erythropoietin etc.) |
37 – 38 | Factors affecting efficiency of growth and production in ruminants and single stomach animals. Growth in meat producing animals and birds. Growth curves (absolute, relative and specific growth). (Growth regulators: hormones, feed additives, antibiotics, anthelmentics, etc.). |
39 | Recombinant gene transfer technologies in growth manipulation – advantages and limitations. Growth in meat producing animals and birds. Protein deposition in animals and poultry. |
40 | Climatology: (definition of weather, climate, Macroclimate, And Micro climate. Thermoneutral zone and critical temperature). Cold and warm blooded animals. |
41 | General Adaptation Syndrome (GAS) Circadian rhythm. Importance and effects of various environmental variables like – temperature, humidity, light, radiation and altitude on animal performance, endocrine functions and reproductive functions. |
42 & 43 | Hibernation and aestivation. Heat exchange mechanisms: physical (conduction, convection and radiation) and chemical (metabolic) regulation Body temperature. Heat balance. Heat tolerance. Hyperthermia and hypothermia. Thermoregulation in farm animals. |
44 | Acclimation, acclimatization; Role of skin; Responses of animals to heat and cold; (Circulatory responses, sweating, panting, thermogenesis); Heuristic models and role of hypothalamus in thermoregulation; Fever. |
45 & 46 | System and patterns (types) of behavior; Neurophysiology of behavior; |
47 & 48 | Communication; Learning and memory; Behavioural plasticity. |
LectureNo. | Topic |
Endocrinology | |
1 | Definitions, basic concepts and scope of animal biotechnology. |
2 & 3 | Recombinant DNA technology: Principles, procedures and applications |
4 & 5 (Micro) | Gene cloning, vectors and expression vectors. New generation vaccines: subunit, recombinant and recombinant vectored vaccines |
6 | Animal tissue culture: Principles, procedure and application |
7 & 8 | Transformation and cell lines: Principles, procedure and application |
9 | Polymerase chain reaction (PCR) and its application in molecular diagnosis. DNA probes, nucleic acid hybridization |
10 & 11 | Transfection, Transgenic animal and biopharming |
12 & 13 | Construction of genomic library and cDNA library |
14 & 15 | DNA sequencing – genome, sequencing and mapping |
16 | Marker assisted selection and gene banking |
17 | Nutritional biotechnology including bioconversion of lignocellulose, genetic manipulation of microbes for improved feed utilization and health |
18 & 19 | Principles of transfer of nucleic acids and proteins (Southern, Northern and Western blotting), DNA fingerprinting and its applications |
20 | Tumour markers and acute phase proteins |
21 | Hybridoma and monoclonal antibodies |
22 | Fermentation process |
23 | Technologies for milk, meat and leather |
24 (Gyn) | Biotechnological application in animal improvements: Embryo biotechniques, in vivo embryo production, Embryo micromanipulation |
25 | In vitro embryo production, Embryo sexing |
26 | Embryo preservation, Embryo cloning |
27 & 28 | Ethics and regulatory issues in biotechnology, IPR, Bioinforrnatics |
PG Syllabus
PG SyllabusFirst Year M.V.Sc.Veterinary PhysiologySemester I: VPY 601 (Physiology of Digestion)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester I: VPY 602 (Cardiovascular and Respiratory Physiology)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester I: VPY 603 (Renal Physiology and Body Fluid Dynamics)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester II: VPY 604 (Haematology)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester II: VPY 605 (Vitamins and Minerals in Animal Physiology)Credit Hours: 2 + 0 = 2Tentative lecture schedule
Semester II: VPY 606 (Physiology of Animal Reproduction)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester II: VPY 607 (Clinical physiology)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester II: VPY 608 (Neuromuscular physiology)Credit Hours: 2 + 1 = 3Tentative lecture schedule
Semester II: VPY 609 (Chemical bioregulation in physiological functions)Credit Hours: 3 + 0 = 3
First Year M.V.Sc.Veterinary BiochemistrySemester I: VBC 601 (Chemistry of Animal Cell)Credit Hours: 2 + 0 = 2
Semester I: VBC 602 (Techniques in Biochemistry)Credit Hours: 0 + 2 = 2
Semester I: VBC 603 (Applications of Genomics and Proteomics in Molecular Biology)Credit Hours: 2 + 0 = 2
Semester I: VBC 604 (Biochemistry of Biomolecules: Carbohydrates Lipids and Membrane’s Structure)Credit Hours: 2 + 0 = 2
Semester I: VBC 605 (Enzyme Catalysis, Kinetics, Inhibition and Regulation)Credit Hours: 2 + 0 = 2
Semester II: VBC 606 (Metabolism – I: Carbohydrates and Lipids)Credit Hours: 2 + 0 = 2
Semester II: VBC 607 (Metabolism – II: Nucleic Acids and Amino Acids)Credit Hours: 2 + 0 = 2
Semester II: VBC 608 (Metabolism – III: Integration and Regulation)Credit Hours: 2 + 0 = 2
Semester II: VBC 609 (Central Dogma and Protein)Credit Hours: 2 + 0 = 2
Semester II: VBC 610 (Clinical Biochemistry of Animals)Credit Hours: 2 + 1 = 3
Semester III: VBC 606 (Biochemical Basis of Diseases of Domestic Animals)Credit Hours: 2 + 0 = 2
Semester III: VBC 612 (Endocrinology and Reproductive Biochemistry)Credit Hours: 2 + 0 = 2
Semester III: VBC 613 (Biochemical Basis of Animal Production)Credit Hours: 2 + 1 = 3
LectureNo. | Topic |
1 – 2 | Basic characteristics and comparative physiology of digestive system of domestic animals |
3 – 4 | Gastro-intestinal motility |
5 – 10 | Secretary functions of gastro-intestinal tract and their regulation |
11 – 12 | Gastro-intestinal hormones |
13 – 16 | Absorption, metabolism and excretion of various nutrients |
17 – 18 | Appetite and control of feed intake |
19 – 20 | Development of ruminant system and rumen environment |
21 – 24 | Ruminant microbial digestion, its advantages and disadvantages |
25 – 26 | Rumino-reticular motility, its significance and control |
27 | Rumen microbiology |
28 | Digestion in birds |
LectureNo. | Topic |
1 | Heart muscle, heart as pump, origin and propagation of heart beat |
2 – 4 | Electrophysiology of heart, rhythmic excitation of heart, cardiac cycle |
5 | Heart sound and dynamics of valvular and congenital heart defect |
6 – 7 | Cardiac output and its measurements, factors affecting cardiac output. Venous return and its regulation. |
8 – 9 | Control of the heart |
10 | Normal electro-cardiogram |
11 – 12 | Electrocardiographic interpretation in cardiac myopathies and cardiac arrhythmias |
13 | Circulation and haemodynamics |
14 – 16 | Coronary, systemic and pulmonary circulation & their regulation |
17 – 18 | Energetics of circulation, pathophysiology of circulation |
19 – 20 | Respiration, mechanism of ventilation |
21 | Haemoglobin |
22 – 24 | Oxygen and carbon dioxide transport. Respiratory gas exchange |
25 | Respiratory adjustment at high altitude and deep swimming |
26 – 27 | Neural and chemical control of respiration, artificial respiration |
28 | Respiration in birds |
LectureNo. | Topic |
1 – 2 | An overview of nephron structure and function |
3 – 5 | Renal homeostatic function and renal excretory function |
6 | Quantitative analysis of renal function |
7 | Renal haemodynamics |
8 – 10 | Glomerular filtration: its mechanism and measurement |
11 – 13 | Selectivity permeability of the glomerular capillary wall, structural basis of GFR |
14 – 16 | Tubular reabsorption and transport |
17 – 18 | Role of kidney in acid–base balance |
19 – 20 | Physiology of micturition, endocrine control of renal function |
21 | Non excretory functions of kidney |
22 – 23 | Skin- general anatomy of epidermis, dermis, hypodermis. Mechanical protection, permeability, actinic irradiation |
24 | Sweat glands, sebaceous glands. Skin grafting. Immune properties of skin |
25 – 27 | Composition of body fluids and their regulation |
28 | Excretory system in birds |
LectureNo. | Topic |
1 | Blood Cells |
2 | Anemia |
3 | Types of Polycythemia |
4 – 5 | Effects of Anemia and Polycythemia in mammals and birds |
6 | Leucocytes and tissue macrophage system. |
7 | Inflammation |
8 – 9 | Immunoglobulins – IgG, IgA, IgM, IgD, IgE. |
10 | Immunity – Types |
11 | Immunogenetics |
12 – 1 4 | Polymorphism in Hemoglobin and Transferrin |
15 | Blood changes in disease conditions: Coagulopathy |
16 | Blood changes in disease conditions: Anemias |
17 | Blood changes in disease conditions: Parasitic diseases |
18 | Blood changes in disease conditions: Impairment in clotting mechanism |
19 | Blood changes in disease conditions: Diabetes |
20 | Blood changes in disease conditions: Acidosis, alkalosis and other diseases) |
21 | Iatrogenic blood diseases: Cushing disease in dogs |
22 | Iatrogenic blood diseases: Transmissible spongiform encephalopathy, other diseases during blood transfusion |
23 | Hemorrhagic diathesis |
24 | Hemophilia |
25 | Coagulation factors |
26 | Platelets – Role in Coagulation |
27 | Fibrinolysis |
28 | Fibrinolysis |
29 | Blood groups |
30 | Transfusion of blood |
31 | Conditions causing bleeding disorders: Disseminated intravascular coagulation |
32 | Conditions causing bleeding disorders: Haemophilias |
33 | Tissue and organ transplantation |
34 | Tissue and organ transplantation |
LectureNo. | Topic |
1 | Introduction to vitamins & minerals in physiology |
2 | Historical background and importance of study |
3 | Definition and classification of vitamins |
4 – 5 | Overview of functions and properties |
6 – 7 | Vitamin A: Classification, metabolism, functions, deficiency and toxicity |
8 – 9 | Vitamin D: Classification, metabolism, functions, deficiency and toxicity |
10 – 11 | Vitamin E: Classification, metabolism, functions, deficiency and toxicity |
12 – 13 | Vitamin K: Classification, metabolism, functions, deficiency and toxicity |
14 – 18 | Vitamin B Complex: Classification, metabolism, functions, deficiency and toxicity |
19 – 20 | Vitamin C: Classification, metabolism, functions, deficiency and toxicity |
21 | Calcium and Phosphorus: Function, homeostasis, source, deficiency & toxicity |
22 | Sodium & Potassium: Function, homeostasis, source, deficiency & toxicity |
23 | Chloride & Sulphur: Function, homeostasis, source, deficiency & toxicity |
24 | Copper & Cobalt: Function, homeostasis, source, deficiency & toxicity |
25 | Iodine & Iron: Function, homeostasis, source, deficiency & toxicity |
26 | Manganese & Molybdenum: Function, homeostasis, source, deficiency & toxicity |
27 | Selenium & Zinc: Function, homeostasis, source, deficiency & toxicity |
28 – 2 9 | Other micro minerals: Function, homeostasis, source, deficiency & toxicity |
30 | Toxic minerals |
31 – 32 | Role of vitamins and minerals in growth and reproduction |
LectureNo. | Topic |
1 | Functional Histomorphology of male reproductive system |
2 | Development of male sex organs |
3 | Functional Histomorphology of female reproductive system |
4 | Development of female sex organs |
5 | Puberty in males and females and factors affecting puberty |
6 | Hormones of Reproduction – male reproductive system |
7 – 9 | Hormones of Reproduction – female reproductive system |
10 – 11 | Oestrous Cycle – endocrinology and cytology |
12 – 13 | Sexual behavior exhibited in females |
14 – 15 | Oogenesis, Folliculogenesis and Ovulation |
16 | Secretions of female reproductive tracts in animals |
17 | Male mating behavior |
18 – 20 | Spermatogenesis, Spermiogenesis and Seminiferous epithelial cycles |
21 – 23 | Spermatozoa : Structure and composition; Maturation & Transport |
24 | Secretions of male reproductive tracts |
25 | Transport of male and female gametes |
26 | Fertilization & Implantation |
27 – 29 | Pregnancy |
30 – 31 | Parturition |
32 | Post partum recovery in different species of animals |
Lecture No. | Topic |
1 | Heart, cardiac cycle |
2 | Cardiovascular system, Respiratory system. |
3 – 4 | Evaluation of Heart in disease conditions |
5 – 6 | Evaluation of Respiratory system in disease conditions |
7 – 8 | Hepatic evaluation in disease conditions |
9 – 10 | Renal evaluation in disease conditions |
11 – 12 | Carbohydrate metabolism in normal condition and disease conditions |
13 – 14 | Fat metabolism in normal condition and disease conditions |
15 – 16 | Protein metabolism in normal condition and disease conditions |
17 – 18 | Mineral metabolism in normal condition and disease conditions |
19 – 20 | Functions and dysfunctions of Liver |
21 – 22 | Functions and dysfunctions of Kidneys |
23 – 24 | Functions and dysfunctions of Gastro Intestinal Tract |
25 – 26 | Immune response and its clinical evaluation |
27 – 28 | Immunological evaluation of immune response |
29 – 30 | Enzymes and their importance |
32 – 36 | Tests for enzymes (SGOT, SGPT LDH, AKP) |
Lecture No. | Topic |
1 – 3 | Types and classification of muscles, comparative histopathology of muscles |
4 – 7 | Properties of skeletal muscle fibers, membrane and action potential at myo-neuronal junction |
8 – 9 | Molecular characteristics of contractile filaments, molecular mechanism of muscle contraction |
10 – 12 | Relationship between actin and myosin filaments, overlap and tension developed by the contracting muscles |
13 | Length and tension relationship, force and velocity relationship of skeletal muscle |
14 | Contractile process of smooth muscles |
15 – 16 | Skeletal muscle energetics, metabolism and lactate shuttle |
17 – 18 | Exercise, adaptation to training and performance |
19 | Neuromuscular disorders of domestic animals |
20 – 22 | Nervous system, synapse, transmission and processing of information, receptors |
23 | Brain and spinal reflexes |
24 – 27 | Motor functions of brain stem, limbic system, memory, sleep and learning |
28 – 30 | Autonomic nervous system |
31 – 32 | Special senses and somatic senses |
1 – 2 | Methods of study in bioregulation including methods of endocrine analysis |
3 – 4 | Manipulation and disruption of biorhythms in homeostatic and natural ecosystem |
5 | Concepts in hormone function |
6 – 7 | Genetic and genomic approaches in endocrinology. Animal models and alternate uses of animal model |
8 – 10 | Classification of hormones on the basis of chemical nature, location of endocrine glands and on the basis of physiological functions |
11 – 13 | Methods of study – hormonal assay (bioassay, RIA and ELISA) |
14 – 15 | Mechanism of hormone synthesis, release and transport |
16 – 18 | Mechanisms of hormone action, target cell interactions |
19 – 22 | Regulation and metabolism of hypothalamic, hypophyseal hormones |
23 – 24 | Regulation and metabolism of thyroid hormones |
25 – 26 | Regulation and metabolism of adrenal hormones |
27 – 30 | Regulation and mechanism of action of gonadal and placental hormones |
31 | Hormonal principles of pineal gland and its role in production |
32 – 33 | Endocrine control of carbohydrate homeostasis |
34 – 35 | Endocrine control of calcium homeostasis |
36 – 37 | Hormones and adaptation to environment |
38 | Hormonal regulation of gastro-intestinal activity |
39 – 40 | Prostaglandins (Physiological and therapeutic role) |
41 – 43 | Hormones in fertility regulation (Female and male) |
44 – 46 | Hormones in production augmentation. Hormonal relationship in animal production |
47 – 48 | Avian endocrinology |
Tentative lecture schedule | ||
| ||
1] Pre-biotic world and chemical evolution. | ||
2-3] Cellular architecture and molecular organization of cell. | ||
4] Metabolic functions of cell. | ||
UNIT II | ||
5] Thermodynamics, | ||
6] Chemical equilibrium and standard state. | ||
7-8] Living cell as steady state and open system obeying laws of thermodynamics. | ||
9] Minimum energy conformation. | ||
10-11] Quantum mechanical calculation. | ||
12] ∆G and ATP. | ||
UNIT III | ||
13] Properties of water. | ||
14] Homeostasis | ||
15] Colloids and determination of size of colloidal particles. | ||
16] Brownian motion, precipitation, mutual precipitation and protective colloids. | ||
17] Dialysis and ultrafiltration | ||
18-19] Donnan’s theory of membrane equilibrium, membrane hydrolysis | ||
20-21] Application of physicochemical laws in living organisms (osmosis, viscosity, surface forces, adsorption, etc.) | ||
22] Bronsted’s theory of Acids and Bases, titratable and actual acidity. | ||
23] Determination of pH, Henderson – Hasselbalch Equation | ||
24] Buffers and factors affecting buffering capacity. | ||
25] Bicarbonate buffer system, Phosphate buffer system, | ||
26] Protein buffer system and Haemoglobin buffer system. | ||
27] Amino acid buffer system, buffer of RBC’s and plasma. | ||
28-29] Chemical basis of oral and parental fluid/electrolyte therapies | ||
30] Bacterial toxigenic diarrhoeas | ||
31] Problem solving – Lecture1 to12. | ||
32] Problem solving – Lecture13 to30. |
Tentative lecture schedule | ||
| ||
2] Determination of pKa and buffer concentration | ||
3] Calculation of normality. | ||
4] Principle and application of colorimetry and spectrophotometry. | ||
5] Application NMR-X ray crystallography. (Theoritocal back ground). | ||
6] Principle and application of Paper Chromatography. | ||
7] Principle and application of Thin Layer Chromatography. | ||
8] Principles and applications of Column chromatography. | ||
9] Partition chromatography and adsorption co-efficient. | ||
10] Quantitative and qualitative chromatography of amino acids. | ||
11] Quantitative and qualitative chromatography of lipids. | ||
12] Quantitative and qualitative chromatography of sugars. (Theoritocal back ground) | ||
13] Elution following Column chromatography. | ||
14] Gas chromatography. (Theoritocal back ground) | ||
15] Packing of column and choice of detectors and densitometry. | ||
16] Application of electrophoresis. Electrophoresis of proteins. | ||
17] Electrophoresis of nucleic acids. | ||
18] Use of sodium dodecyl sulfate and molecular weight determination. | ||
19] Use of sodium dodecyl sulfate and molecular weight determination. | ||
20] Densitometry procedures and quantitative assays. | ||
21] Immuno-electrophoresis and its applications. | ||
22-23] Preparation of agar/agarose gel for immuno-electrophoresis. | ||
24] Isoelectrofocussing. | ||
25] Isotacophoresis. | ||
26] Molecular sieving and its application in Biochemistry. | ||
27] General properties of dextran, acrylamide, agar and other media used for gel filtration. | ||
28] Ultracentrifugation– its principle and use. | ||
29-30] Preparative analytical and density gradient ultracentrifugation. | ||
31] Fractionation of sub-cellular components. | ||
32] Molecular weight determination using ultracentrifuge. |
Tentative lecture schedule | ||
| ||
1] Nucleotides and nucleic acids. | ||
2] High order structures, cohesions and condensins in chromosome structure. | ||
3] SMC proteins and sequencing. | ||
4] Mutation and evolution. | ||
5] DNA libraries. | ||
6] Bacterial RNA polymerase. | ||
7] RNA interference. | ||
8] DNA replication. | ||
9] RNA synthesis. | ||
10] Control of gene expression. | ||
11] DNA microarrays/chips. | ||
UNIT II | ||
12] PCR and factors affecting it. | ||
13] r-DNA technology in improving domestic animals. | ||
14] RELP, Gene and gene products. | ||
15] Genetic changes in hereditary diseases, cancer and detection using DNA probes. | ||
16] Gene Therapy, DNA vaccines, anti-tumor antibodies. | ||
17] Telomerases and Topoisomerases in treatment of diseases. | ||
18] Staphylococcus resistance to erythromycin. | ||
UNIT III | ||
19] Peptide bonds and protein structure. | ||
20] Acid-base properties and stereochemistry of proteins. | ||
21] Side chain modifications and biological activities of proteins. | ||
22] Green fluorescent protein and use. | ||
23] Polypeptide diversity, protein purification and analysis. | ||
24] Protein sequencing, reconstructing the protein sequence. | ||
25] Gene duplication and protein families. | ||
26] Protein modules, combinatorial peptide libraries folding. | ||
27] Structural bio-informatics. | ||
28] Protein structure prediction, designing and Proteomics. | ||
29] Drug molecules, myoglobin and haemoglobin. | ||
30] Mechanism and co-operativity in Hb. | ||
31] High altitude adaptation in ruminants and equines. | ||
32] Use of amino acid analysis in disease diagnosis. |
Tentative lecture schedule | ||
| ||
1] Carbohydrates: structure | ||
2] Glycoconjugates in cell surface, extra cellular matrix, | ||
3] Sugar code functions, peptidoglycan-specific antibiotics | ||
4] Cellular effects of Insulin | ||
5] Glucose supply and removal | ||
6] Ruminal fermentation | ||
7] Role of liver | ||
8] Glucose tolerance, indirect monitoring of blood glucose | ||
9] Ketone bodies | ||
UNIT II | ||
10] Lipid classification, | ||
11] Metabolism of LCFA, TAG, PL, | ||
12] Sphingolipids, cholesterol, lipoproteins | ||
13] Regulation of lipid metabolism in fed and fasted states | ||
14] Regulation of FA oxidation, fas as regulatory molecules | ||
15] Glucose production and fas in type II diabetes | ||
16] Ketone bodies as fuel. | ||
UNIT III | ||
17] Lipid bilayers, lipid motility, | ||
18] Integral membrane proteins, lipid linked proteins, peripheral membrane proteins | ||
19] Fluid mosaic model, membrane skeleton, | ||
20] Lipid asymmetry, vesicle trafficking | ||
21] Secretory pathway, membrane rafts | ||
22] Caveolae fusion | ||
23] Lung surfactant | ||
24] Structure of bacterial rhodopsin | ||
25] Thermodynamics of membrane transport | ||
26] Ionophores, porins, ion channels, aquaporins, transport proteins | ||
27] P and F types (Na+ – K+ ) atpases | ||
28] Ca , Ion–gradient, Gap Junction, | ||
29] Cl–HCO- exchanger | ||
30] Cardiac 2+3 glycosides | ||
31] Abnormalities in cell membrane fluidity | ||
32] Haemolytic anaemia |
Tentative lecture schedule | ||
| ||
1] Introduction to the enzymes their classification and functions. | ||
2] Enzyme activation energy. | ||
3] Mechanisms of acid-base reaction co-ordination. | ||
4] Mechanisms of covalent reaction co-ordination. | ||
5] Mechanisms of metal ion reaction co-ordination. | ||
6] Proximity and orientation effects. | ||
7] Preferential transitional state binding. | ||
UNIT II | ||
8] Chemical kinetics of reaction. | ||
9] Enzyme kinetics of reaction. | ||
10] Kinetic data analysis. | ||
11] Bisubstrate reactions. | ||
12-13] Competitive, Uncompetitive, Mixed inhibitors. | ||
14] Allosteric regulation. | ||
15] Enzymes in drug designing. | ||
16] Enzymes in drug discovery. | ||
17] Bioavailability and toxicity. | ||
18] Enzymes in clinical trials. | ||
19] Cytochrome P450 and adverse drug reactions. | ||
20] Synthesis of bacterial peptidoglycans. | ||
21] Synthesis of Oxygenases. | ||
22] Synthesis of mixed function oxidases. | ||
23] Enzyme linked diagnostics. | ||
UNIT III | ||
24] Lysozymes. | ||
25] Serine proteases. | ||
26] Physiology and tumor cell metastasis. | ||
27] Nerve poisons. | ||
28] Blood coagulation cascade. | ||
29] Equine immuno-deficiency enzyme inhibitors. | ||
30] Suicide activators (DFMO for inhibition of ornithine decarboxylases in trypanosomiasis). | ||
31] Problem solving – Lecture1 to12. | ||
32] Problem solving – Lecture13 to30. |
Tentative lecture schedule | ||
| ||
1] Metabolic control, | ||
2] Analyses for enzymes limiting the flux through a pathway. | ||
3] Trophic strategies, | ||
4] Universal mapping of metabolic pathways | ||
5] Thermodynamic relationships. G, | ||
6] ATP and phosphoryl group transfer | ||
7] Coupled reactions, thioesters, | ||
8] NAD+ and FAD. | ||
UNIT II | ||
9] Overview of carbohydrate and lipid cycles, | ||
10] Control of glycolysis | ||
11] Glycolysis in cancer cells | ||
12] Control of pentose phosphate pathways | ||
13] Deficiency of glucose-6-phosphate dehydrogenase | ||
14] Control of glycogen metabolism | ||
15] Control of gluconeogenesis | ||
16] GSD. | ||
17] Regulation of citric acid cycle | ||
18] Pathways that use citric acid intermediates | ||
19] Sugar interconversions and nucleotide – linked sugar formation | ||
20] Disorders associated with impairment of metabolism | ||
UNIT III | ||
21] Electron transport and oxidative phosphorylation | ||
22] Generation of heat by uncoupling in brown adipose tissue. | ||
UNIT IV | ||
23] Regulation of fatty acid metabolism | ||
24] Inhibitors of fatty acids biosynthesis | ||
25] Sphingolipid degradation | ||
26] Lipid storage disease | ||
27] Regulation of cholesterol synthesis | ||
28] PGs in NSAID | ||
29] Leukotrienes | ||
30] HETEs | ||
31] Hypersensitivity | ||
32] Influence of glucose metabolism on lipid metabolism |
Tentative lecture schedule | ||
| ||
1] Overview of pathways of amino acid | ||
2] Overview of pathways of nucleic acid metabolism | ||
3] Lysosomal degradation | ||
4] Ubiquitin | ||
5] Proteosome | ||
6] Breakdown of amino acids | ||
7] Heme biosynthesis and degradation | ||
8] Biosynthesis of physiologically active amines | ||
9] Nitric oxide | ||
10] Homocystein as marker of disease | ||
11-12] Diseases of amino acid metabolism | ||
13] Porphyrias | ||
UNIT II | ||
14] Nucleotide synthesis and degradation | ||
15] Inhibition of thymidylate synthesis in cancer therapy | ||
16] Mutation in coenzyme binding sites and diseases | ||
17] Forces stabilizing NA structure | ||
18] Restriction endonucleases | ||
19] Small inhibitory RNAs | ||
20] Chromatin organization | ||
21] Inhibitors of topoisomerases as antibiotic | ||
22] Anti-cancer agents interfering with purine and pyramidine metabolism | ||
UNIT III | ||
23] Viral nucleic acids | ||
24] DNA damage and repair | ||
25] Telomerase | ||
26] Ageing and cancer | ||
27] Topoisomerases as drug targets | ||
28] Chemotherapy can target precursors of DNA synthesis | ||
29] Antibiotics and toxins that target RNA polymerase | ||
30] Lysosomal enzymes | ||
31] Gout | ||
32] Diseases in purine and pyrimidine nucleotide metabolic impairment |
Tentative lecture schedule | |||
| |||
1] Regulation of carbohydrate metabolism | |||
2] Regulation of lipid metabolism | |||
3] Regulation of protein metabolism | |||
4] Regulation of nucleic acid metabolism | |||
5] Integration all metabolic pathways | |||
UNIT II | |||
6] Organ specialization in fuel metabolism: Brain, muscle | |||
7] Organ specialization in fuel metabolism: adipose tissue, liver, kidney | |||
8] Inter organ metabolic pathways | |||
9] Hormonal control of fuel metabolism | |||
10] Tracing metabolic fates perturbing the system | |||
UNIT III | |||
11] Signal transduction, gated ion channels | |||
12] G-proteins | |||
13] Adenylate cyclase, cGMP, Ca2+ | |||
14] Receptor tyrosine kinase | |||
15] Protein phosphatases | |||
16] Interaction of Ca2+ with phosphoserine/tyrosine | |||
17] Integrations of proteins/ messengers in signal transduction | |||
18] Drugs and toxins | |||
19] Cell cycle and CDKs that affect cell signaling | |||
UNIT IV | |||
20] Oncogenes and cancers | |||
21] Mitochondrial genes and diseases | |||
22] Reactive oxygen species | |||
23] Cyanide and arsenic poisoning | |||
24] Metabolic inter-relationships in obesity, diabetes, and cancer | |||
25] Metabolic inter-relationships in aerobic and anaerobic exercise in horses | |||
26] Metabolic inter-relationships in pregnancy, lactation and stress injury | |||
27] Mitochondria in apoptosis and oxidative stress, cell suicide | |||
28] Liver diseases | |||
29] Renal diseases | |||
30] Acid-base balance | |||
31] Metabolic/sensory transduction in nervous tissue | |||
32] | Vision, blood coagulation |
Tentative lecture schedule | ||
| ||
1] Overview of transcription and translation in eukaryotes | ||
2] Collision between DNA polymerase and RNA polymerase | ||
3] Inhibitors of transcription | ||
4] Introns | ||
5] Evolution and expansion of the genetic code | ||
UNIT II | ||
6] The effects of antibiotics and toxins on protein synthesis | ||
7] X – chromosome inactivation | ||
8] Eukaryotic gene expression | ||
9] Protein targeting | ||
UNIT III | ||
10] Actin structure | ||
11] Microfilament dynamics | ||
12] Actin-myosin reacting cycle | ||
13] Tubulin dimmer | ||
14] Microtubules dynamics | ||
15] Kinensins and dyeins | ||
UNIT IV | ||
16] Antigen-antibody binding | ||
17] Cytokines | ||
18] Principles of immunochemical methods | ||
19] Agglutination, precipitation | ||
20] Typing of major histo-compatibility antigens | ||
21] Blood group substances in farm animals | ||
UNIT V | ||
22] Proteins as infectious agents (prions – BSE). | ||
23] Protein misfolding and aggregation | ||
24] Plasma proteins, synthesis, functions | ||
25] Influences of physiological factors and inflammation on proteins | ||
26] Dysproteinemias | ||
27] Defects in collagen synthesis | ||
28] Transmissible multiple drug resistance | ||
29] Transcription factors and cardiovascular diseases | ||
30] Transferrin | ||
31] Lactoferrin | ||
32] Ferritin and Ceruloplasmin |
Tentative lecture schedule | ||
| ||
1-3] Disturbances of gastro-intestinal function- Irritable Bowel Syndrone Ulcerative Collitis | ||
4-6] Disturbances of rumen function. – Bloat (Tympany), urea poisoning, acute rumen indigestion, Lactic acidosis | ||
7-8] Pickled pigs and malignant hyperthermia. | ||
9-10] Diagnosis of neuromuscular disorders. Eg. mitochondrialdiseases | ||
UNIT II | ||
11] Myocardial infarction, | ||
12] Respiratory distress syndrome. | ||
13-14] Primary renal dysfunctions and test, | ||
15-16] Doping. Problems in game horses. | ||
UNIT III | ||
17-18] Enzymes of diagnostic importance. | ||
19-20] Toxicity of ammonia in animals.Genetic defects in urea cycle. | ||
21] Lysosomal storage diseases. | ||
22-23] ATP synthase inhibitory protein during ischemia. Ischaemic – reperfusion injury. | ||
UNIT IV | ||
24-25] Molecular oncology and tumor markers. | ||
26] CSF characteristics in diseases. | ||
27] Clinical Biochemistry in toxicology. | ||
28] Glycosylated hemoglobin, HbA1c, fructosamine. | ||
29] Deranged glucose metabolism in cancerous tissue. | ||
30] Free Radical damage. | ||
31] Problem solving for lectures 1-16 | ||
32] Problem solving for lectures 17-30 |
Tentative lecture schedule | ||
| ||
1] Diabetes mellitus | ||
2-3] Hyperinsulemia, galactosemia, hypoglycaemia of baby pigs, | ||
4] Glycogen Storage Disease. | ||
5] Carbohydrate balance in ruminants. | ||
6] Biochemical alterations in body fluids of ruminants in hypoglycaemia, | ||
7] Ruminant ketosis. | ||
UNIT II | ||
8] Hypercholesterolemia, | ||
9] Atherosclerosis, | ||
10-11] hyperlipidemia in canine, feline, equine. | ||
12] Pathophysiology of ketonemia. | ||
13-14] Ketosis associated with fasting, diabetes, pregnancy, lactation and post exercise. | ||
UNIT III | ||
15] Anemias of the newborn, | ||
16-17] Cytosolic enzyme deficiencies and membrane abnormalities in erythrocytes. | ||
18] Porphyrins and porphyrias. | ||
19] Disorders of iron metabolism, | ||
21] Neutrophil function defects and its testing. | ||
22] Equine immuno-deficiency. | ||
UNIT IV | ||
23-24] Hepatic insufficiencies and its laboratory assessment | ||
25-26] Pancreatitis and insuffiency | ||
27-28] Metabolic diseases of Ca, P, Mg metabolism | ||
29] Iron overload and injection | ||
30] Inorganic polyphosphate metabolism | ||
31] Problem solving for lectures 1 – 16 | ||
32] Problem solving for lectures 17 – 30 |
Tentative lecture schedule | ||
| ||
1-2] Mechanism of hormone action | ||
3] Receptor binding, | ||
4-6] Biosynthesis of hormones and factors | ||
7-8] Metabolic aspects in physio-pathology of hormones, factors, and minerals. | ||
UNIT II | ||
9-10] Metabolic functions of the hormones of the hypothalamus | ||
11-12] Metabolic functions of pituitary | ||
13] Metabolic functions of Thyroid | ||
14] Metabolic functions of parathyroid | ||
15] Metabolic functions of pancreas | ||
16-17] Metabolic functions of adrenal | ||
18] Metabolic functions of pineal | ||
19] Metabolic functions of ovaries | ||
20] Metabolic functions of testes | ||
21-22] Biochemistry of prostaglandins and related agents. | ||
23-24] Clinical endocrine aspects in production in domestic animals | ||
25-26] Clinical endocrine aspects in reproduction status in domestic animals | ||
27-28] Clinical endocrine aspects in production in poultry | ||
29-30] Clinical endocrine aspects in reproduction status in poultry | ||
31] Problem solving for lectures 1-15 | ||
32] Problem solving for lectures 15-30 |
Tentative lecture schedule | ||
| ||
1-2] Chemistry of milk lipids, | ||
3-4] Chemistry of milk proteins, | ||
5-6] Chemistry of milk carbohydrates, | ||
7-8] Chemistry of milk minerals, | ||
9-10] Chemistry of milk vitamins, | ||
11-12] Chemistry of milk pigments and enzymes. | ||
13-14] Structure of milk lipids, fat globular membranes, modification of milk fat. | ||
15-16] Milk proteins – casein, amino acid composition, whey proteins, immunoglobulins, genetic polymorphism. | ||
17-18] Carbohydrates: structure and sweetness. | ||
UNIT II | ||
19-20] The biochemistry controlling postmortem energy metabolism mechanisms. | ||
21-22] Application of genomic technologies to the improvement of meat quality of farm animals. | ||
23-24] Identification of meat quality parameters by proteomics. | ||
25-26] Application of proteomics to understand the molecular mechanisms behind meat quality. | ||
27-28] Oxidative stability of post mortem muscles from sheep of various ages. | ||
UNIT III | ||
29-30] Metabolic demands of draft animals, and biochemical aspects of work and kinesiology. | ||
31] Problem solving for lectures 1-15 | ||
32] Problem solving for lectures 15-30 |
List of Research Topics of M.V.Sc Theses
Sr. No. | Name of the Student | Title of the Thesis | Year | University |
1. | Dr. V. G. Joshi | Some haematological observations on Rathi cows | 1968 | Bombay |
2. | Dr. Y. G. Gadgil | Studies on blood serum proteins of Rathi cows | 1968 | Bombay |
3. | Dr. (Mrs.) B. A. Talvelkar | Studies on certain aspects of eggs in the pure bred strains of White Leghorn, Australorp and their cross White Austro | 1970 | MPKV |
4. | Dr. K. B. Puranik | Studies on blood serum proteins of crossbred cow calves and Murrah buffalo calves by starch agar gel electrophoresis | 1970 | MPKV |
5. | Dr. G. D. Behre | Studies on blood serum proteins of chickens of exotic breeds and of local (Desi) chickens. | 1970 | MPKV |
6. | Dr. M. V. Chavan | Studies on the use of biostimulator (spleen extract) in broilers | 1975 | KKV |
7. | Dr. S. J. Pardikar | Haematological and biochemical studies in sheep and goats | 1976 | KKV |
8. | Dr. U. K. Parchure | Studies on serum proteins in Bannur sheep | 1978 | KKV |
9. | Dr. M. Rafi | Studies on some serum electrolyte levels in Bannur sheep | 1986 | KKV |
10. | Dr. (Ms.) A. J. Mhatre | Studies on some haematological and biochemical parameters in broilers under different temperature regimes. | 1986 | KKV |
11. | Dr. P. B. Bhangale | A study on effects of some climatic factors on physiological responses in Gir and crossbred lactating cows | 1986 | KKV |
12. | Dr. M. D. Patil | Studies on haematology of Murrah buffaloes | 1989 | KKV |
13. | Dr. Mir Manzoor | Concentration of some major elements in blood plasma and milk of crossbred lactating cows during different stages of lactation | 1990 | KKV |
14. | Dr. S. D. Dhande | Immunoglobulin levels in lacteal secretions of indigenous and crossbred cows in early lactation | 1992 | KKV |
15. | Dr. S. W. Bonde | Passive immune status in neonatal crossbred calves | 1992 | KKV |
16. | Dr. B. V. Jichkar | Serum immunoglobulin levels in crossbred cows | 1992 | KKV |
17. | Dr. D. S. Jagdale | Studies on estradiol – 17ß, progesterone and lipid profile in crossbred cows | 1993 | KKV |
18. | Dr. S. H. Dalvi | Blood serum thyroid hormone concentration during late pregnancy, parturition and early lactation of crossbred cows | 1993 | KKV |
19. | Dr. S. M. Deshpande | Studies on macro elements during gestation and early postpartum period in Gir and crossbred cows | 1994 | KKV |
20. | Dr. P. D. Bansode | Effect of oxytocin on milk production and its composition in crossbred cows | 1994 | KKV |
21. | Dr. N. S. Sonawane | Effect of bovine somatotropin on blood lipid profile in lactating crossbred cows. | 1995 | KKV |
22. | Dr. S. K. Bhere | Effect of administration of bovine somatotropin on milk yield, milk composition, feed intake and body weights of lactating crossbred cows | 1996 | KKV |
23. | Dr. V. D. Garje | Effect of exogenous bovine somatotropin on major elements of milk in lactating crossbred cows | 1996 | KKV |
24. | Dr. L. R. Gadhave | Studies on serum protein profile during gestation and early postpartum period in Gir and crossbred cows | 1997 | KKV |
25. | Dr. S. D. Ingole | Serum enzyme profile during gestation and early lactation in Gir and crossbred cows | 1997 | KKV |
26. | Dr. (Ms.) S. V. Bharucha | Effect of bovine somatotropin on blood serum proteins in lactating crossbred cows | 1997 | KKV |
27. | Dr. B. V. Atak | Serum enzyme profile during growth in Gir and crossbred calves | 1998 | KKV |
28. | Dr. S. P. Patil | Studies on serum protein profile during growth in Gir and crossbred calves | 1998 | KKV |
29. | Dr. (Ms.) S. V. Bhide | Effect of induced hypothyroidism on blood biochemical constituents in goats | 1998 | KKV |
30. | Dr. N. B. Vadnere | Effect of induced hypothyroidism on haematology and thyroid hormones concentration in goats | 1998 | KKV |
31. | Dr. M. N. Harlikar | Trace element profile during growth in crossbred calves and heifers | 1999 | KKV |
32. | Dr. (Ms.) A. S. Lourenco | Haematological profile in crossbred calves and heifers | 1999 | KKV |
33 | Dr. R. R. Patil | Trace element profile during gestation and lactation in crossbred cows | 2000 | KKV |
34 | Dr. Y. S. Mehere | Haematological and trace element profile during peripartum period in crossbred cows | 2000 | KKV |
35 | Dr. (Ms.) A. A. Pimputkar | Haematological profile during gestation and lactation in crossbred cows | 2000 | KKV |
36 | Dr. K. B. Bahiram | Mineral profile during growth in crossbred calves and heifers | 2001 | BSKKV |
37 | Dr. D. N. Paikrao | Mineral profile during gestation, peripartum period and lactation in crossbred cows | 2001 | BSKKV |
38 | Dr. R. R. Dhotre | Comparative study of serum testosterone profile and seminal characteristics of cow and buffalo bulls | 2001 | BSKKV |
39 | Dr. S. B. Nalavade | Comparative study of serum lipid profile in buffalo bulls and cow bulls | 2002 | MAFSU |
40 | Dr. P. L. Gade | Serum trace elements profile in cow bull and buffalo bull | 2002 | MAFSU |
41 | Dr. S. Y. Bidye | Concentrations of serum thyroxine, triiodothyronine and thyroid stimulating hormone in buffalo and cow bulls | 2002 | MAFSU |
42 | Dr. T. P. Bawane | Serum Inhibin, FSH, LH concentrations and seminal plasma Inhibin activity in buffalo and cow bulls | 2003 | MAFSU |
43 | Dr. (Ms.) G. V. Parab | Comparative study of serum protein profile in buffalo bulls and cow bulls | 2003 | MAFSU |
44 | Dr. S. R. Nikam | Seminal plasma lipid profile in buffalo and cow bulls | 2003 | MAFSU |
45 | Dr. S. B. Kancharla | Seminal plasma trace element profile in buffalo and cow bulls | 2003 | MAFSU |
46 | Dr. (Ms.) S. D. Borkar | Effect of inhibin immunization on seminal characteristics in buffalo bulls | 2004 | MAFSU |
47 | Dr. S. N. Itankar | Effect of Inhibin immunization on haematological parameters in buffalo bulls | 2004 | MAFSU |
48 | Dr. S. K. Aghadate | Effect of Inhibin immunization on serum electrolytes concentration in buffalo bulls | 2005 | MAFSU |
49 | Dr. D. V. Ingavale | Effect of Inhibin immunization on serum thyroxine, triiodothyronine and thyroid stimulating hormone in buffalo bulls | 2005 | MAFSU |
50 | Dr. (Ms.) S.D. Konkar | Effect of inhibin immunisation on serum protien profile in buffalo bulls | 2005 | MAFSU |
51 | Dr. (Ms.) S. D. Dhaware | Follicular fluid biochemical profile of buffalo | 2006 | MAFSU |
52 | Dr. (Ms.) Shiny Joy | Follicular fluid protein profile in buffalo | 2006 | MAFSU |
53 | Dr. (Ms) V. K. More | Electrolyte concentration in follicular fluid of sheep | 2006 | MAFSU |
54 | Dr. (Ms.) A. D. Gandhe | Serum Protein profile during lactation in buffalo | 2007 | MAFSU |
55 | Dr. P. M Tripathi | Serum lipid profile during lactation in buffalo | 2007 | MAFSU |
56 | Dr. (Ms.) V. M. Tekade | Serum Protein profile during early pregnancy in buffaloes | 2009 | MAFSU |
57 | Dr. Sushanta Debbarma | Serum progesterone and thyroid hormone profile during gestation and early post partum period in goats | 2010 | MAFSU |
58 | Dr. T. R. Mahanwar | Serum enzyme profile during gestation and early post partum period in goats | 2010 | MAFSU |
List of Research Topics of Ph.D. Theses
Sr. No. | Name of the Student | Title of the Thesis | Year | University |
1. | Dr. B. A. Kulkarni | Studies on Immunoglobulins in Indian Buffaloes (Bos bubalus bubalis) | 1971 | Bombay |
2. | Dr. (Mrs.) A. M. Mantri | Studies on the Leutinizing Hormone (LH) in Domestic Fowl (Gallus Domesticus) | 1977 | KKV |
3. | Dr. V. G. Joshi | Study of Thyroid Function in Different Strains of Fowl in Relation to Growth Rate and Laying Performance | 1978 | KKV |
4. | Dr. (Mrs.) B. A. Talvelkar | Studies on Serum Leutinizing Hormone and Prolactin Levels in Purebred Gir and Crossbred Dairy Animals | 1980 | KKV |
5 | Dr. B. T. Deshmukh | Influence of Frequency of Feeding and Milking on the Secretion of Milk in Lactating Crossbred Cows | 1985 | Kurukshetra |
6 | Dr. S. D. Ingole | Endocrine profile from birth to puberty in buffalo calves and heifers | 2009 | MAFSU |
7 | Dr. (Mrs.) A. S. Nagvekar | Profiles of serum Somatotropin, Gonadotropin, Ovarian Steriods and Thyroidal Hormones during gestation of Buffalo | 2009 | MAFSU |
Awards and Recognition
In recognition of the impressive contributions to research, education and extension education activities, the faculty of the Department, was honoured with following Awards:Dr. B. A. Kulkarni, Head of the Department, was awarded “Best Research Worker Award,” for the year 1987, by The Veterinarians Association, Konkan Krishi Vidyapeeth, Dapoli.Dr. B. T. Deshmukh received the “Best Poster Award” for the year 1990, for his research paper on “Hormonal induction of lactation in dairy cattle” presented at the International Conference on Frontiers in Reproductive Physiology, held at the All India Institute of Medical Sciences, New Delhi, November 8 – 10, 1990.Dr. B. A. Kulkarni, Head of the Department received a “Silver Medal” from Ciba – Gaigy Basal, Switzerland for his meticulous research in the area of Animal Health in the year 1991.Dr. B. A. Kulkarni, Head of the Department received the “International Award for the Best Paper / Poster Presentation” at the International Conference on Fertility Regulation Bombay, India held between the 5 – 8 November 1992.Dr. B. A. Kulkarni, Head of the Department received the “ISSAR Fellowship Award” from the Indian Society for Study of Animal Reproduction in the year 1997.The Indian Association for the Advancement of Veterinary Research awarded its “FELLOW AWARD 1998” to Dr. (Mrs.) B. A. Talvelkar, Professor, on the basis of her National and International outstanding contributions in the field of Veterinary Sciences and Animal Husbandry.Dr. B. A. Kulkarni, Head of the Department, received the “Best Poster Award” for his research paper on “SDS – Polyacrelamide gel electrophoresis of proteins of caudal epididymal fluid, vas deferens fluid and seminal plasma of buffalo bulls” presented at the International Conference on Reproductive Health, held at Mumbai; March 15 – 19, 1998.Dr. (Mrs.) B. A. Talvelkar, Professor, has been honoured with the “Fellowship of the National Academy of Veterinary Sciences” by National Academy of Veterinary Sciences, New Delhi, in recognition of her significant contributions for the advancement of Veterinary Sciences, during the year 1999 – 2000.Dr. B. T. Deshmukh has been honoured with the “Fellowship of the National Academy of Veterinary Sciences” by National Academy of Veterinary Sciences, New Delhi, in recognition of his significant contributions for the advancement of Veterinary Sciences, during the year 1999 – 2000.Dr. B. V. Atak, Dr. (Mrs.) B. A. Talvelkar, Dr. B. T. Deshmukh, Dr. (Mrs.) A. S. Nagvekar and Dr. S. A. Patil received “Shri. Anjan K. Oruganti Memorial Award 2000” from the Indian Veterinary Association for their article “Serum enzyme profile during growth in Gir and crossbred calves” which appeared in April 2000 (Vol. 77, No. 4, pp. 296 – 299) of the Indian Veterinary Journal.Dr. Bahiram K. B., Talvelkar, B. A., Deshmukh, B. T., Nagvekar, A. S. and Ingole, S. D. received Award for Poster Presentation of article entitled “Mineral profile during growth in crossbred calves and heifers” during IX Annual Conference of Indian Association for Advancement of Veterinary Research and Indian Veterinary Congress held on 4 – 5 February 2002 at Nagpur Veterinary College, Maharashtra Animal and Fishery Sciences University, Nagpur.Dr. B. T. Deshmukh received the “Best Research Worker Award” of Veterinarian’s Association, Maharashtra Animal and Fishery Sciences University, Bombay Veterinary College, in appreciation of his outstanding and meritorious professional services, for the year 2002.Dr. (Mrs.) B. A. Talvelkar, Professor, received Fellow Award Veterinarian’s Association 2002 by Veterinarians Association, MAFSU, Bombay Veterinary College, Parel, Mumbai 400 012.Dr. (Mrs.) B. A. Talvelkar, Professor and Dr. B. T. Deshmukh received on 26.01.2004, “Scroll of Honour” from the Dean, Bombay Veterinary College, Parel, Mumbai 400 012, in appreciation of their outstanding and meritorious professional services rendered.
List of Papers Published
1. Talvelkar, B. A. (1967). The effect of molting on some of the egg qualities in White Leghorn and Rhode Island Red birds.B.V.C.M. 14 : 16-19.2. Talvelkar, B. A. (1968). Behavior of the wild animals.B.V.C.M. 15 : 61-633. Talvelkar, B. A. and Kulkarni, M. V. (1969) .Studies on Growth of White Leghorn Chicks.B.V.C.M. 16: 40-425. Raikar, R.K., Talvelkar, B. A. and Joshi, V. G. (1975)A Preliminary report on some electrolytes in broilers.B.V.C.M. 20 : 45-47.6. Talvelkar, B. A., Kulkarni, B. A. and Raikar, R. K. (1980). Haematological Studies in Gir and Crossbred Cows.Indian Vet. J. 57 : 640-643.7. Talvelkar, B. A., Raikar, R. K., Sheth, A.R. and Gadgil, B. A. (1981).Serum LH Levels in Fertile Vs Infertile Inseminations in Purebred and Crossbred Cows. Indian J. Animal Sciences 51: 832-8338. Talvelkar, B. A., Raikar, R. K., Sheth, A. R. and Gadgil, B. A. (1981).Diurnal Variation in The Serum LH and Prolactin Levels in Gir and Crossbred Heifers. Indian J. Dairy Sci. 34 : 469-4719. Raikar, R. K., Joshi, V. G., Mantri, A. M., Deopurkar, V.L. and Deshmukh, B. T. (1981) A note on the effect of Prajana on layer performance. The Indian Poultry Gazette 65 (1) : 27 – 2810. Talvelkar, B. A., Raikar, R.K. and Gadgil, B. A. (1982). Note on Serum Luteinizing Hormone and Protactin Levels in Purebred Gir and Crossbred Heifers before the Onset of Puberty. Indian J. Anim. Sci. 52 : 948-950.11. Talvelkar, B. A., Raikar, R .K., Sheth, A. R. and Gadgil, B. A. (1982). Serum LH and Prolactin Levels during Late Pregnancy, Parturition and Early Lactation Period in Gir and Crossbred Cows. Indian J. Dairy Sci. 35 : 318 – 321.12. Talvelkar, B. A., Raikar, R.K., Sheth, A. R. and Gadgil, B. A.(1982). Serum Prolactin Levels and Milk Yield in Gir and Crossbred Cows. Indian J. Dairy Sci. 35: 361-36513. Talvelkar, B. A., Raikar, R. K., Sheth, A. R. and Gadgil, B. A. (1982). Serum LH and Serum Prolactin Levels during Postpartum Period in Purebred Gir and Crossbred Cows.Indian J. Dairy Sci. 35: 505-51014. Kulkarni, B A., Talvelkar, B. A., Deshmukh, B. T., Kolhatkar V. P., Patankar D. D. and Gokani, S. S. (1983). Biochemical Studies in Gir and Crossbred Dairy Cows. Indian Vet.J. 60: 17-22.15. Deshmukh, B. T. and Chorey, P. A. (1983) Influence of milking rate on yield and composition of milk. P. K. V. Research Journal7 (2) : 62 – 6516. Kulkarni, B. A., Talvelkar, B. A., Kaushik, R. V., Gokani, S. S., Patankar, D. D., Kulkarni, B. S. (1984). Biochemical Studies in Gir and Jersey Lactating Cows. Indian Vet. J. 61 : 377 – 381.17. Kulkarni, B. A., Talvelkar, B. A., Kaushik, R. V., Gokani, S. S., Patankar, D. D. and Kulkarni, B. S. (1984). Studies on Serum Biochemical Constituents in Lactating and Dry Indian buffaloes. Indian Vet.J. 61: 564 – 568.18. Deshmukh, B. T and Ludri, R. S. (1985) Residual milk at different frequencies of milking and stages of lactation in crossbred cows. Indian Journal of Animal Sciences. 55 (10) : 898 – 90019. Deshmukh, B. T. and Ludri, R. S. Effect of oxytocin administration at different frequencies of feeding and milking on yield and organic constituents of milk in crossbred cows. (1987) International Journal of Animal Sciences. 2 (2) : 109 – 11220. Talvelkar, B. A. (1988). Studies on Certain Aspects of Eggs in The Purebred Strains of White Leghorn, Australorp and Their Crosses, White – Austro. I.A.L.V. Bulletin 2 : 27 – 32.21. Deshmukh, B. T. (1989) Tin Vela Dudh Kadhun Dudhacha Adhik Utpadan (Marathi)Shetkari Magazine. March Issue PP 23 – 2422. Deshmukh, B. T. and Ludri, R. S. Citric acid in milk of crossbred cows at different frequencies of milking and stages of lactation. (1989) Indian Journal of Animal Sciences. 59 (4) : 474 – 47523. Deshmukh, B. T. (1989)Effect of radioactive contamination on animal and public health. Dairy Guide. 12(10-12) : 25 – 2724. Deshmukh, B. T. and Ludri, R. S. (1990) Some observations on water consumption and body weights in crossbred cows fed and milked at varying intervals. Indian Journal of Dairy Science. 43(2) : 160 – 16325. Kulkarni, B. A., Talvelkar, B. A., Kaushik, R. V., Gokani, S. S., Patankar, D. D. and Kulkarni, B. S. (1990). Studies on Blood Metabolic Profiles in Gir, Rathi, Kankrej and Harayana Lactating Cows. J. Vety. Physiol & Allied Sci. 1 : 16 – 27.26. Bhangale, P. B., Joshi. V. G., Kulkarni, B. A., Talvelkar, B. A. and Deshmukh, B. T. (1990). A study of Effects of some Climatic Factors on Physiological Responses in Gir and Crossbred Lactating Cows. Indian J. Dairy Sci. 43: 282 – 286.27. Deshmukh, B. T. and Ludri, R. S (1991) Influence of equal hours of feeding and milking on secretion of milk in lactating crossbred cows. Indian Journal of Dairy Science. 44 (2) : 147 – 15028. Deshmukh, B. T., Joshi, V. G. Patil, M. D. Talvelkar, B. A. and Mhatre, A. J. (1991).Induced lactation in dairy cattle for increased milk production: Effect on Major Milk Constituents.Indian J. Dairy Sci. 45 : 110-113.29. Joshi, V. G., Rajwade, N. A., Desai , N. K. and Talvelkar, B. A. (1992) .The Study of Indigenous and White Leg Horn Layers in Their Key Physiological StatesIndian J. Anim. Sci. 62 : 629-634.30. Patil M. D., Talvelkar, B. A., Joshi V. G. and Deshmukh, B. T., (1992). Haematological Studies in Murrah Buffaloes.Indian Vet. J. 69 : 661 –663.31. Patil M. D., Talvelkar, B. A., Joshi V. G. and Deshmukh, B. T. (1992). Haematological Studies in Murrah Buffaloes: TLC, DLC and micrometry of leucocytes. Indian Vet. J. 69 :760 – 761.32. Kulkarni, B. A, Talvelkar, B. A. , Kaushik, R. V., Gokani, S. S., Patankar, D. D. and Kulkarni B. S. (1993) . Studies on Blood Metabolic Profiles in Crossbred Lactating Cows.Indian J. Anim. Sci. : 63: 716 –719.33. Deshmukh, B. T., Joshi, V. G., Katkam, R. R. and Puri, C. P. (1993) Hormonal induction of lactation in dairy cattle: Major milk constituents and oestradiol and progesterone levels in serum and milk. Indian Journal of Animal Sciences. 63 (6) : 611 – 61734. Manzoor, M; Deshmukh, B. T., Joshi V. G., Kulkarni, B. A., Talvelkar, B. A., Pahuja, D. N. Borkar, A. V. and Samuel A. M. (1994 ). Concentration of some Major Elements in Blood Plasma and Milk of Crossbred Cows during Different Stages of Lactation Indian J. Dairy Sci. 47: 94 –98.35. Kulkarni, B. A., Deshmukh, B. T., Katkam, R. R. and Puri, C. P. (1994) Follicular fluid steroid hormone levels of the Indian buffalo. Buffalo Journal.1 : 71 – 7436. Deshmukh, B. T. and Ludri, R. S. (1994) Influence of frequency of feeding and milking on dry matter intake, milk yield and composition in crossbred cows. Indian Journal of Animal Sciences. 64 (9) : 992 – 99537. Jagdale, D. S. ,Talvelkar, B. A., Mantri, A. M. and Deshmukh, B. T.(1995). Studies on Lipid Profile in Crossbred Cows Indian J. Dairy Sci. 48: 96- 9838. Dalvi, S. H., Deshmukh, B. T., Mantri, A. M, and Talvelkar, B. A. (1995). Concentration of Blood Serum Thyroid Hormones during Late Pregnancy, Parturition and Early Lactation in Crossbred Cows. Indian J. Anim. Sci. : 65: 15 – 1939. Bansode, P. D., Mantri, A. M., Deshmukh, B. T. and Talvelkar, B. A. (1996). Effect of Intramuscular injection of Oxytocin on Milk Production and its Constituents. Indian J. Dairy Sci. 40 : 718- 72040. Deshmukh, B. T. and Ludri, R. S. (1996) Dry matter consumption and milk production of crossbred cows as influenced by the environmental variables. Indian Journal of Dairy Science. 49 (10) : 648 – 65341. Jagdale, D. S. ,Talvelkar, B. A. , Mantri, A. M. and Deshmukh, B. T. (1996 – 98).Studies on Estradiol –17 ß and Progesterone in Crossbred Cows.J. Bombay Vet. Coll. 6 : 41- 43 .42. Deshmukh, B. T. and Mantri, A. M. (1997)Thyroid hormones concentration during lactation in cows.Indian Journal of Animal Sciences. 67 (10) : 880 – 88143. Bhere, S. K., Deshmukh, B. T, Nagvekar A. S. and Talvelkar, B. A. (1997).Effect of Bovine Somatotropin on Production Parameters in Cows.Indian J. Anim. Sci. : 67: 897 – 901.44. Deshpande, S. M., Mantri, A. M., Talvelkar, B. A. and Deshmukh, B. T. (1998).Studies on Macroelements during Gestation and Early Postpartum Period in Gir and Crossbred Cows.Indian J. Dairy Sci. 51: 275 – 279.45. Garje, V. D., Talvelkar, B. A., Mantri, A. M. and Deshmukh, B. T. (1999).Effect of Exogenous Bovine Somatotropin on Sodium, Potassium and Chloride Contents of Milk of Lactating Crossbred Cows.Indian J. Anim. Sci. 69 : 482 – 484.46. Ingole, S. D. Talvelkar, B. A., Deshmukh, B. T. and Nagvekar, A. S. (1999).Serum Enzyme Profile during Gestation and Early Lactation in Gir and Crossbred Cows.Indian J. Anim. Sci. 69 : 479 – 481.47. Gadhave, L. R., Mantri, A. M., Talvelkar, B. A. and Deshmukh, B. T. (2000).Serum Protein Profile during Gestation and Early Postpartum Period in Gir and Crossbred Cows.Indian Vet. J. 77 : 114 – 116.48. Atak, B. V., Talvelkar, B. A. , Deshmukh, B. T., Nagvekar, A. S. and Patil, S. P. (2000) .Serum Enzyme Profile during Growth in Gir and Crossbred Calves.Indian Vet. J. 77 : 300 – 302.49. Patil, S. P., Talvelkar, B. A. , Deshmukh, B. T., Nagvekar, A. S. and Atak, B. V. (2000 ).Studies on Some Blood Values during Growth in Gir and Crossbred Calves.Indian Vet. J. 77 : 296 – 299.50. Vadnere, N. B., Deshmukh, B. T., Talvelkar, B. A., Nagvekar, A. S. and Chinchkar, S. R. (2000) Induced hypothyroidism in goats.Indian Journal of Animal Sciences. 70 (6) : 600 – 60251. Harlikar, M. N., Ingole S. D. and Talvelkar, B. A. (2000).Studies on Serum Iron and Copper levels in crossbred female calves and heifersThe Veterinarian 24 : 5-6.52. Deshmukh, B. T. (2000)Somatotropin and lactationISSRF Newsletter July 2005: 18 – 1953. Harlikar, M. N., Talvelkar, B. A., Deshmukh, B. T., Nagvekar, A. S and Ingole S.D.( 2000)Trace elements profile during growth in crossbred calves and heifers.Indian Journal of Animal Sciences. 70(11): 1147-114954. Deshmukh, B. T., Nagvekar, A. S., Talvelkar, B. A., Dalvi, S. A. and Chinchkar, S.R(2001)Effect of bovine somatotropin on blood serum minerals, thyroid hormones and eproductive performance of lactating crossbred cows.Indian Journal of Animal Sciences. 71(7): 663-6655. Bharucha, S. V., Deshmukh, B. T., Nagvekar, A. S. and Talvelkar, B. A. (2001)Effect of bovine somatotropin on blood serum protein profile in lactating crossbred cows.Indian Journal of Animal Sciences. 71(7): 667-66956. Bhide, S. V., Deshmukh, B. T., Talvelkar, B. A. and Nagvekar, A. S.(2001) Effect of induced hypothyroidism on blood biochemical constituents in goats.Indian Veterinary Journal . 78: 205-20857. Vadnere, N. B., Deshmukh, B. T., Talvelkar, B. A. and Nagvekar, A. S. (2002)Effect of induced hypothyroidism on haematological parameters in goats.Indian Journal of Animal Sciences. 72(2): 151-15358. Sonawane, N. S., Talvelkar, B. A., Nagvekar, A. S., Bharucha, S. V. and Deshmukh, B. T. (2002)Effect of recombinant bovine somatotropin on the blood lipid profile in lactating crossbred cows.Indian Journal of Animal Sciences. 72(4): 306-30859. Mehere, Y. S., Talvelkar, B. A., Deshmukh, B. T., Nagvekar, A. S. and Ingole, S. D. (2002).Haematological and Trace Elements Profile during Peripartum Period in crossbred Cows.Indian Journal of Animal Sciences. 72 : 148-15060. Nalavade, S. B., Talvelkar, B. A., Deshmukh, B. T., Nagvekar, A. S., Ingole, S. D. and Vadnere, N. B. (2002).Comparative Study of Blood serum Lipid Profile in Buffalo and Cow Bulls.The Journal of Bombay Veterinary College. 10 : 15 – 1861. Bahiram, K. B., Talvelkar, B. A., Deshmukh, B. T., Nagvekar, A. S. and Ingole, S. D. (2002).Mineral Profile During Growth in crossbred Calves and Heifers.The Journal of Bombay Veterinary College. 10 : 25 – 2762. Nikam, S. R., Deshmukh, B. T., Vadnere, N. B., Nagvekar, A. S and Ingole, S. D. (2005).Comparative appraisal of seminal plasma lipid profile in buffalo and cow bulls.Journal of Bombay Veterinary College. 13 (1&2) : 46 – 4963. Bidye, S. V., Deshmukh, B. T., Vadnere, N. B., Nagvekar, A. S and Ingole, S. D. (2005).Comparative appraisal of serum thyroid hormones in buffalo and cow bulls.Journal of Bombay Veterinary College. 13 (1&2) : 57 – 5964. Kancharla, S. B., Deshmukh, B. T., Vadnere, N. B., Nagvekar, A. S and Ingole, S. D. (2006).Comparative appraisal of seminal plasma trace elements in buffalo and cow bulls.Indian Journal of Animal Sciences. 76 (2) : 137 – 13865. Talvelkar, B. A., Patil, R. R., Ingole, S. D., Bharucha, S. V. and Pawar, L. D. (2006)Haematological profile of buffaloes during peripartum period.Journal of Bombay Veterinary College. 14 (1&2) : 75 – 7766. Talvelkar, B. A., Patil, R. R., Ingole, S. D., Bhere S. K. and Bharucha, S. V. (2006)Haematological profile of buffaloes during gestation and lactation.Journal of Bombay Veterinary College. 14 (1&2) : 93 – 9567. Talvelkar, B. A., Patil, R. R., Ingole, S. D. and Bharucha, S. V. (2007)Influence of enzymes on milk production and reproductive efficiency.Intas Polivet. 8(1) :185 – 18768. Dhaware, S. D., Deshmukh, B. T., Nagvekar, A. S., Ingole, S. D., Dalvi, S. H and Shiny Joy. (2007)Biochemical profile of buffalo follicular fluid.Buffalo Journal. 1 : 19 – 2869. Talvelkar, B. A., Patil, R. R., Ingole, S. D. and Bharucha, S. V. (2008)Serum enzymatic profile of buffaloes during gestation, lactation.and peripartum period.Indian Journal of Animal Sciences. 78 (3) : 247 – 25070. Tripathi, P. M., Ingole, S. D., Deshmukh, B. T., Nagvekar, A. S. and Bharucha, S. V. (2010)Serum lipid profile during lactation in buffalo.Indian Journal of Animal Sciences. 80 (3) : 217 – 21971. Ingole, S. D., Deshmukh, B. T., Nagvekar, A. S. and Bharucha, S. V.Endocrine profile from birth to puberty in buffalo calves and heifers.Indian J. Anim Sci (July 2011)72. Nagvekar, A. S., Deshmukh, B. T and Ingole, S. DProfiles of serum somatotropin, gonadotropins, ovarian steroids and thyroidal hormones during gestation of Murrah buffalo.Indian Vet. J. (In Press)
Completed Research Projects
Project No. 1
The study investigated the blood serum protein pattern in dairy animals. Project No. 2
The suckling neonatal calves had significantly higher total immunoglobulins and IgG levels as compared with bucket fed calves. Compared to 0 hour, the levels of total immunoglobulins significantly decreased at 24 hours, and further there was consistent fall in the total immunoglobulins levels upto one week. The results indicated that the calves of Gir cross with Jersey and Gir cross with Holstein Friesian showed great adaptability to the hot humid climate of the Konkan region. Further, significantly higher level of seminal plasma IgG was observed in crossbred bulls as compared with Holstein Friesian breeding bulls.Project No. 3
The results of this study indicated that treatment with oestradiol – 17b and progesterone is a viable method of inducing lactation in infertile cows. The quality and quantity of induced milk is comparable to that of the normal lactating animals. The levels oestradiol and progesterone in blood serum and milk did not exceed those found in serum and milk of normal cows.Project No. 4
The concentration of thyroxine and tri-iodothyronine did not differ and remained almost the same during early, mid and late stages of lactation The average milk yield in early stage of lactation was significantly higher (P<0.01) than the yields in mid and late stages of lactation. The yields in the mid and late stages of lactation did not differ.In early lactation, the levels of thyroxine were negatively correlated with milk yield. It was suggested that lower thyroxine of plasma was associated with higher lactational performance, possibly due to greater utilization of plasma thyroxine in higher producers.Project No. 5
Seminal plasma protein profiles of normal fertile, subfertile and infertile buffalo and different breeds of cattle (HF, Jersey crosses) bulls were studied by using Sephadex gel filtration chromatography, Sodium dodecyl sulfate polyacrelamide gel electrophoresis (SDS- PAGE), Two dimensional high resolution polyacrelamide gel electrophoresis (2 DHR – PAGE), Isoelectric focusing immunoelectrophoresis and immunodiffusion analysis. This study established heterogenisity of seminal plasma proteins of cattle and buffalo bulls. Distinct difference in the SDS – PAGE pattern of sperm proteins, seminal plasma and blood plasma proteins was evident in both the species. Seminal plasma total proteins, albumin, globulin and creatinine concentrations were lowest in Jersey and highest in HF bulls.Project No. 6
The results of this study clearly established that administration of recombinantly derived bovine somatotropin causes significant increase in milk production (17.26% to 21.96%, FCM yield 21.03% to 24.26%) in crossbred cows. Milk fat, protein, lactose, ash & total solids percentages are unaffected by bovine somatotropin treatment. Dry-matter intake remained almost the similar in control and treated cows but a feed efficiency was apparently better in treated cows. The increase in milk production observed in this study could be due to partitioning of nutrients towards the mammary gland for milk synthesis & away from use by body tissues.The percentages of cows remaining pregnant and calving rate were almost comparable in bovine somatotropin treated & control cows. Services per conception were lower in 250 mg & 500 mg groups when compared with controls, suggesting that services per conception were not affected due to bST treatment. Bovine somatotropin treatment had no discernible effect on gestation length. The animals maintained good health throughout.Project No. 7
The study was conducted on 180 Gir x Jersey and Gir x HF crossbred calves, heifers and 221 crossbred cows. Effect of growth, pregnancy and lactation on haematological parameters and serum Fe, Cu, Co, Zn and Mn concentrations was studied. The results revealed that erythrocyte and leucocyte count increased with age in calves. Serum iron and copper levels significantly increased during maturity. This may be due to high estrogenic activity during puberty. During pregnancy decreasing trend in iron values were recorded which could be attributed to placental iron transport. Serum Cu level was maintained at elevated plateau in early pregnancy as Cu is involved in brain and nervous tissue development of foetus. The increasing trend in serum Fe values during lactation may reflect increased ceruloplasmin synthesis. Changes in Co concentration during lactation period might be related to its demand and utilization during stages of lactation.Project No. 8
a) Comparative study of seminal characteristics, serum inhibin, gonadotropins, testosterone and seminal plasma inhibin activity in buffalo and cow bulls: The results revealed that the volume of ejaculate was lower in buffalo bulls than in cow bulls. The sperm concentration per ml was however, similar in buffalo and cow bulls. The other seminal characters viz., seminal pH, per cent live sperm, per cent abnormal sperm, per cent normal sperm and per cent acrosomal intactness remained almost similar in buffalo and cow bulls.The serum testosterone concentration was about 6 times lower in buffalo bulls. The serum FSH concentration was comparatively lower in buffalo bulls than that in cow bulls. Small difference in FSH concentration of Murrah, Holstein Friesian, Jersey and crossbreds bulls however was not statistically significant. The serum LH and inhibin concentrations were higher in buffalo bulls than in cow bulls. The Buffalo bulls due to their black skin coat are more prone to heat stress and probably due to this reason, they require more LH concentration to maintain basal testosterone level. Seminal plasma inhibin activity was higher in buffalo bulls than in cow bulls, except in crossbred bulls, which was almost similar. Serum FSH concentration was positively correlated with seminal plasma inhibin activity in cow bulls.b) Effect of inhibin immunization on seminal characteristics, serum gonadotropins and testosterone concentrations in buffalo bulls: This study was undertaken to evaluate the effect of immunization against porcine inhibin alpha 1-32 (pIα1-32) on seminal characteristics, serum gonadotropins and testosterone concentrations in buffalo bulls. The result of radioimmunoassay of inhibin antibody titer and Ouchterlony’s diffusion test revealed that no lines of precipitation were observed. It was suggestive of absence of antibodies against pIα1–32 in serum samples of immunized buffalo bulls. The failure to elicit the immune response in immunized buffalo bulls might be due to insufficient dose of immunogen or failure of immunogen to evoke immune response in buffalo bulls.Except transient variations, immunization against inhibin did not affect the seminal characteristics viz.; volume of ejaculate (ml), seminal pH, sperm concentration (million / ml), sperm concentration (million / ejaculate), mass activity, per cent initial motility, per cent live sperm, per cent abnormal sperm and per cent acrosomal intactness.The serum FSH, LH and testosterone concentrations did not significantly differ and remained almost similar in control and inhibin–immunized buffalo bulls. Further at primary and booster immunization, the levels of FSH and LH remained unaffected except testosterone which in comparison with pre – immunization levels, showed a significant increase at primary and 1st booster immunizations, followed by 2nd and 3rd boosters, in both control and inhibin–immunized buffalo bulls. The increase may be attributable to a non-specific response to Freund’s adjuvant, which constituted the bulk in both, inhibin immunized and control groups. During the two-hour blood collection period, the mean serum FSH, LH and testosterone concentrations in both control and inhibin–immunized buffalo bulls remained unaffected. Among the samplings at 20 minutes intervals, the mean serum FSH and LH also remained unaffected. However, a progressive increase in the serum testosterone concentration was recorded in both control and inhibin–immunized buffalo bulls. The significance of this finding is unclear. On the basis of these results, it is suggested to undertake studies involving more number of boosters with higher immunogen quantity to evince the antibody response.Project No. 9
Project No. 10
The results of the study indicated that the average age at puberty in Murrah buffalo heifers was 28.35 ± 0.08 months with an average body weight of 361.42 ± 1.34 kg. The serum progesterone profile could be used as the criterion for cyclicity commencement in the present study. The gradual rise and highest GH concentration at prepubertal period indicates gradual development and maturation of reproductive organs. Thus, GH is an important regulator in the process of sexual differentiation and pubertal maturation in buffalo heifers. The increase in serum FSH in prepubertal and pubertal heifers indicated that the heifers had attained puberty and this change in FSH could be associated with waves of follicular development during ovulatory cycles. Further, the high concentration of serum LH in prepubertal heifers is a critical event which leads to onset of puberty and helps to trigger initiation and organization of cyclic ovarian activity in buffalo heifers. The sharp decrease in serum T3 and T4 concentrations after birth could be attributed to the phenomena of adaptation, as the calves remain under stress for a considerable time after birth due to extra uterine environment which is substantiated by high circulatory levels of cortisol. The high thyroid levels during prepubertal stage may be necessary for gain in weight. The increase in serum estradiol around puberty is followed by increase in body weight. This rise in body weight reflected the development and maturation of reproductive organs as well as skeletal maturation. The high concentration of cortisol after birth may be due to exposure of calves to stressful external environment and in prepubertal and pubertal heifers which could be attributed to the stress due to high environmental temperature during summer.The results indicated that the average gestation length in Murrah buffaloes recorded was 321 ± 2.65 days. The growth hormone level in serum remained unaffected during gestation. The concentration of serum FSH exhibited increasing trend from early to mid gestation, the levels were low during late gestation. The LH and estradiol concentrations in serum exhibited increasing trend from early through late gestation. Serum thyroid stimulating hormone was higher during mid gestation followed by late and early stages. Higher concentration of serum T3 and T4 was recorded during mid gestation. The T4 : T3 ratio however, was higher during late gestation followed by early and mid gestation. The serum progesterone and cortisol concentrations remained unalterd during gestation. The differences in serum hormone patterns in aborted buffalo and the buffaloes delivering a normal living calf were observed. The relationship of gestation fortnights with serum hormones revealed that the gestational fortnights were positively correlated with serum GH and estradiol and negatively with serum cortisol. The serum GH was negatively correlated with serum cortisol. The serum FSH was positively correlated with serum T3. The serum T3 was negatively correlated with serum T4 : T3 ratio. Other relationships were statistically non significant.
Title of the Project | : | Adhoc Research Scheme: Studies on blood serum protein pattern in dairy animals |
Principal Investigator | : | Dr. B. A. Kulkarni |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | 1971 – 1973 |
Title of the Project | : | Adhoc Research Scheme: Studies on humoral immune status of the crossbred and indigenous dairy cattle |
Principal Investigator | : | Dr. B. A. Kulkarni |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | June 1988 to May 1992 |
Title of the Project | : | Adhoc Research Scheme: Hormonal induction of lactation in dairy cattle for increased milk production |
Principal Investigator | : | Dr. B. T. Deshmukh |
Funding Agency | : | Konkan Krishi Vidyapeeth – Bombay Veterinary College |
Duration of the Research Project | : | July 1989 to June 1991 |
Title of the Project | : | Adhoc Research Scheme: Thyroid hormones concentration in relation to stage of lactation in crossbred cows |
Principal Investigator | : | Dr. B. T. Deshmukh |
Funding Agency | : | Department of Atomic Energy (D.A.E), Government of India, Mumbai |
Duration of the Research Project | : | June 1992 to May 1995 |
Title of the Project | : | Emeritus Scientist’s Scheme: Studies on seminal plasma proteins of the Indian Buffalo and Cattle |
Principal Investigator | : | Dr. B. A. Kulkarni |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | February 1993 to January 1996 |
Title of the Project | : | Adhoc Research Scheme: Application of growth hormone biotechnology in dairy cattle for increased milk production |
Principal Investigator | : | Dr. B. T. Deshmukh |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | July 1994 to June 1998 |
Title of the Project | : | Adhoc Research Scheme: Haematological and trace element profile in different physiological states of dairy animals |
Principal Investigator | : | Dr. (Mrs.) B. A. Talvelkar |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | July 1997 to February 2001 |
Title of the Project | : | Adhoc Research Scheme: Studies on inhibin immunization for improving fertility of the Indian Buffalo |
Principal Investigator | : | Dr. B. T. Deshmukh |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | December 2000 to November 2003 |
Title of the Project | : | Emeritus Scientist’s Scheme: Studies on Haematological and Enzyme Profiles in Buffalo (Bubalus bubalis) and their influence on Milk Production and reproductive Efficiency |
Principal Investigator | : | Dr. (Mrs.) B. A. Talvelkar |
Funding Agency | : | Indian Council of Agricultural Research, New Delhi |
Duration of the Research Project | : | 2005 to 2007 |
Title of the Project | : | Adhoc Research Scheme: Hormone assays and endocrine applications for optimization of production of buffalo |
Principal Investigator | : | Dr. B. T. Deshmukh |
Funding Agency | : | DAE, BRNS, Mumbai |
Duration of the Research Project | : | 2007 to 2010 |
Retired Professors
Dr. B. A. KulkarniEx-Prof. and Head, Department of Physiology and Biochemistry and Emeritus Scientist (ICAR), Bombay Veterinary College, Parel, Mumbai Dr. B. A. Kulkarni was born on 7th February 1932. He completed his Bachelors Degree from Osmania University – Hyderabad. He then did his Masters (M.V.Sc.) in Physiology and Biochemistry from Madras University, Madras. Dr. Kulkarni did his Ph.D. Degree under Bombay University, Mumbai and his Ph.D. thesis ‘Immunoglobulins of the Indian Buffalo’ was highly appreciated by Prof. R. R. Porter (Nobel Laureate), Oxford University, who was foreign referee for evaluation of Ph.D. thesis.Dr. B. A. Kulkarni has contributed significantly towards the knowledge of Immunoglobulins of cattle and buffaloes. His research on buffalo immunoglobulins is the first in the world literature of buffalo immunology. In addition to bovine immunoglobulins, Dr. B.A. Kulkarni has contributed towards the knowledge of blood metabolic profiles of dairy cattle and buffaloes, seminal plasma proteins of indigenous, exotic and crossbred bulls and buffalo bulls, and their relationship with other seminal attributes. Using modern physicochemical and immunochemical methods such as Ion-exchange chromatography, Sephadex G-200 gel filtration, immunodiffusion, immunoelectrophoretic analysis (IEA), single radial immunodiffusion (SRID) techniques. Dr. B.A. Kulkarni isolated and characterized seminal plasma proteins of cattle and buffalo bulls and published the results in reputed National and International Scientific Journals. In view of his research contributions, Dr. B. A. Kulkarni was selected as Emeritus Scientist by ICAR, New Delhi from 1993 – 1996. A text-book entitled ‘Bovine Semen and Seminal Plasma Proteins’ by B.A. Kulkarni is under publication of ICAR, New Delhi.Dr. B. A. Kulkarni has received the following awards:
- Best Research Worker Award by Veterinarian’s Association, Konkan Krishi Vidyapeeth. (1987)
- Silver Medal Award by Ciba-Geigy Basal Switzerland. (1991)
- International Award for best Poster presentation at International Conference, Bombay. (1992)
- ESSAR Fellowship Award for significant contribution to Bovine reproduction, by Indian Society for study of Animal reproduction (ISSAR) (1997).
- International Award for best Poster presentation of research work at International Conference Bombay (1998).
- National Award for best poster presentation at SAPI Conference Palampur (2001)
- Fellowship Award for outstanding research in Animal Physiology by National Academy of Veterinary Sciences, New Delhi (2002).
- G. N. Nirmalan Award for Research work in Bovine Physiology at SAPI Conference – Guwahati (2006 – 2007).
- ISSAR Award for best paper presentation at National Conference at Bhubaneswar (2007).
- Recently Dr. B.A. Kulkarni has been selected as a ‘Great Mind of 21st Century’ for fifth edition of Great Minds of 21st Century by ABI (American Biographical Institute) for his outstanding contribution in Physiology, Biochemistry & Immunochemistry of Dairy Animals.
- Indian Society for study of Animal reproduction (ISSAR)
- Society of Animal Physiologists of India (SAPI)
- Indian Association for Advancement of Veterinary Research (IAAVR)
- American Society of Andrology – USA.
- Society for study of reproduction and fertility. (ICMR)
- Dr. B. A. Kulkarni is the member of Editorial Advisory Board of International Buffalo Journal (Thailand)
- Dr. Sorab K. Nariman Scholarship, University of Bombay for topping the aggregate in B.V.Sc. & A.H. Examination, 1968.
- Diamond Jubilee Commemoration Prize for the First Rank in B.V.Sc. & A.H. Examination, 1968, University of Bombay.
- Award of sets of ICAR Books for All Round Best Undergraduate Student of Veterinary College 1967 – 68.
- Third Prize Winner at the Poultry Judging Contest, All India Poultry Show, Bangalore, 1968.
- ICAR Prizes for Cattle and Poultry Judging Contests, held at the Veterinary College Bombay 1967 – 68.
- Prize for Commonwealth Bureau of Animal Health, Central Veterinary Laboratory, Vaybridge, Surrey, England for the highest aggregate total in the Subjects of Pathology, Bacteriology and Parasitology in the T.Y.V.Sc. Examinations of Bombay University, 1967.
- Silver Medals for First – Class – First in F.Y.V.Sc., S.Y.V.Sc. and B.V.Sc. & A.H. Examinations, Bombay University, awarded by Bombay Veterinary College.
- Competed for the award of Junior ICAR Fellowship and won it for the study of M. V. Sc. degree in Animal Physiology and Biochemistry in 1969.
- Competed for the award of Senior ICAR Fellowship and won it for the doctorate studies in Physiology and Biochemistry in 1971 but could not utilize it due to service conditions.
- Received Fellow IAAVR 1998 Award by Indian Association for the Advancement of Veterinary Research.
- Received Fellow NAVS 1999 Award by National Academy of Veterinary Sciences (New Delhi).
- Received along with her coworkers an award for poster presentation during IX Conference of IAAVR at Nagpur, for their paper entitled “Mineral profile during growth in crossbred cows and heifers”.
- Received the Shri. Anjan K. Oruganti Memorial Award for the year 2000 from the Indian Veterinary Association jointly with co – workers for the article “Serum enzyme profile during growth in Gir and crossbred calves” which was published in the April 2000 issue, (Vol. 77, No. 4, pp. 296 – 299) of the Indian Veterinary Journal.
- Society of Animal Physiologists of India (SAPI).
- Indian Association of Lady Veterinarian.
- Bombay Veterinary College Alumni Association.
- Nuclear Technology of Animal Sciences, Tamilnadu.
- Indian Society for the Study of Reproduction and Fertility.
- Indian Association for the Advancement of Veterinary Research (IAAVR).
- National Academy of Veterinary Sciences (NAVS), New Delhi.
- Received Senior Research Fellowship in Animal Physiology under Improvement of Teaching Faculty Competence Scheme for study and research leading to Ph.D. degree at NDRI, Karnal from Indian Council of Agricultural Research (ICAR), New Delhi for the year 1981– 1982.
- Received along with coworkers the Best Poster Award at the International Conference on Frontiers in Reproductive Physiology, All India Institute of Medical Sciences, New Delhi from The Indian Society for the Study of Reproduction & Fertility in 1990.
- Was honoured with the Fellowship of the National Academy of Veterinary Sciences (India), for the year 1999 – 2000, in recognition of his significant contributions for the advancement of Veterinary Sciences.
- Received along with coworkers the Shri Anjan K. Oruganti Memorial Medal Awarded for the best article in Physiology published in Indian Veterinary Journal; year 2000 (Vol. 77) from The Indian Veterinary Association in 2000.
- Received along with coworkers Best Poster Award at the IX Annual Conference of IAAVR & National Symposium, Nagpur Veterinary College, Maharashtra Animal and Fishery Sciences University, Nagpur from The Indian Association for Advancement of Veterinary Research (IAAVR) in 2002.
- Received the Best Research Worker Award from Veterinarian’s Association, Bombay Veterinary College, MAFSU, Mumbai in 2002.
- Received an Appreciation Certificate for IAAVR Best Paper Award – 2002 at the hands of Hon’able Vice Chancellor, Maharashtra Animal and Fishery Sciences University, Nagpur in 2003.
- Received the Scroll of Honour in appreciation of outstanding & meritorious professional services from the Dean, Bombay Veterinary College (MAFSU), Parel, Mumbai in 2005.
- Received Best Research Scholar Award – 2010, of the Maharashtra Animal and Fishery Sciences University, Nagpur, for his valuable contribution in the field of Veterinary Science.
- Society of Animal Physiologists of India (SAPI)
- Indian Society for the Study of Reproduction and Fertility
- Indian Society for Buffalo Development
- Indian Society for Nuclear Technology in Animal Sciences
- Indian Association for the Advancement of Veterinary Research (IAAVR)
- Bombay Veterinary College Alumni Association
- Nagpur Veterinary College Alumni Association
- Member: Indian Dairy Association (1987 – 98)