Page 34 - B.Tech Biotech Curriculum and Syllabus R2017 - REC
P. 34
Department of BIOTECHNOLOGY, REC
COURSE OUTCOMES:
Students will
gain knowledge on principle of spectrometry and the optical instruments used for that..
able to gain knowledge about the theoretical and practical aspects of molecular spectroscopy
able to comprehend different separation methods are used in Biotechnology.
develop knowledge of NMR and Mass Spectrometry and apply for future experiments.
gain knowledge on different Microscopy.
TEXT BOOKS
1. Skoog, D.A. F. James Holler, and Stanky, R.Crouch ―Instrumental Methods of Analysis‖.
CengageLearning , 2007.
2. Willard, Hobart, etal., ―Instrumental Methods of Analysis‖. VIIth Edition, CBS, 1986.
3. Braun, Robert D. ―Introduction to Instrumental Analysis‖. Pharma Book Syndicate, 1987.
4. Ewing,G.W. ―Instrumental Methods of Chemical Analysis‖, Vth Edition, McGraw-Hill, 1985
REFERENCES
1. Sharma, B.K. ―Instrumental Methods of Chemical Analysis : Analytical Chemistry‖ Goel Publishing
House, 1972.
2. Haven, Mary C., etal., ―Laboratory Instrumentation ―. IVth Edition, John Wiley, 1995.
BT17304 CELL BIOLOGY L T P C
3 0 0 3
OBJECTIVES:
To understand the structure and functions of cells and their organisation into tissues
To acquire knowledge in the area of transport of ions and the mechanism of transmission of nerve
impulses
To analyse the various modes of communication between cells
To study the types of cell division and its role in carcinogenesis
To understand the techniques applied in cell research
UNIT I CELL STRUCTURE AND FUNCTION OF THE ORGANELLES 9
Prokaryotic, Eukaryotic cells, Sub-cellular organelles and functions. Principles of membrane organization
membrane proteins, cytoskeletal proteins. Extra cellular matrix, cell junctions.
UNIT II TRANSPORT ACROSS BIOLOGICAL MEMBRANES 9
Active, passive transport (simple diffusion, facilitated diffusion, glucose transport, anion exchanger), ATP
+
+
++
powered pumps – Na /K pumps, Ca pumps – significance, structure and mechanism of transport, secondary
active transport, uniport, symport, antiport, exocytosis and endocytosis. Resting potential, action potential,
conduction of nerve impulses, neurotransmitters. Ligand gated (acetyl choline) / voltage gated ion channels
+
+
++
(Na , K , Ca ).
UNIT III SIGNAL TRANSDUCTION 9
Cytosolic, nuclear and membrane bound receptors, examples of receptors, autocrine, paracrine and endocrine
++
models of action, role of second messengers in cell signalling (cyclic AMP, cyclic GMP, IP 3, DAG, Ca ,
pathways), Ras/MAPK pathway, steroid hormone and thyroxine signalling.
UNIT IV CELL DIVISION, APOPTOSIS AND CANCER 9
Mitosis, Meiosis, Cell cycle and its regulation, molecules controlling cell cycle – cyclins CDKs, CDKIs,
check points, cell survival and apoptosis pathways in relation to cancer.
Curriculum and Syllabus | B.Tech. Biotechnology | R2017 Page 34
