PRACTICAL

Paper Code: 
BOT 325
Credits: 
8
Contact Hours: 
60.00
Max. Marks: 
100.00
Objective: 

Course Objective:

This course will enable the students to –

  1. To demonstrate procedural knowledge that creates different types of professionals in the field of Botany like in research and development, teaching government and public services. 

     Course

Course Outcome

Learning and teaching strategies

Assessment Strategies

Paper Code

Paper Title

BOT325

 

Practical

On completion of this course, the students will be able to;

CO80: To execute and implement procedures leading to field study of a floristic rich area to observe and collect the plants from their natural habitats.

CO81: To analyse and remember the gross anatomical details of cells, tissues and various other organs of plants.

CO82: To distinguish plants based on their taxonomic and evolutionary variation in xylem and phloem.

CO83:  To explain and interpret the details of the components of shoot, root, and floral development.

CO84:  To demonstrate and execute the preparation of permanent slides like anther, male gametophyte, different types of ovules for a better insight.

CO85: To implement the procedure of preparation of a plant specimen from members of locally available dicotyledonous and monocotyledonous families to distinguish among them.

CO86: To understand the methods used for describing various specimens with preparation of keys up to generic level of locally available plants.

CO87: To demonstrate formulating of different media for tissue culture, isolation of protoplast and organogenesis.

 

Substantial laboratory-based practical component and experiments

Technology-enabled learning

Field-based learning

Project-based learning

 

Practical assignments and laboratory reports

Observation of practical skills

Individual and group project reports

 

Viva voce interviews are majorly adopted assessment methods

 

 

 

 

BOT 321: Plant Systematics
·Field visit to identify various life forms & species constituting the local flora.
·Study of representative / available members of the families mentioned in the syllabus.
·Collection and drying of specimen to prepare herbaria.
·To study problems in numerical taxonomy.
· To retrieve literature using GIS

 

BOT 322: Developmental and Reproductive Biology of Angiosperms

·L-S root and shoot tip to study cytohistological zonation.

·Anatomy of primary and secondary growth in monocot and dicot root & stem.

·Study of growth rings in wood. Microscopic study of wood in T.S, T.L.S and R.L.S.

·Anatomy of monocot and dicot leaf.

·Study of various types of stomata in leaf epidermal peels.

·Study of different pollination mechanism in flowers.

·Test of self-incompatibility using field pollinations.

·Emasculation and bagging technique to prevent self-fertilization.

·Structure of anther and pollen grains with special reference to microsporangium wall features.

·Pollen viability using in vitro pollen germination.

·Structure of different types of ovules and embryo sacs.

·Study of endosperm and embryo.

·To study germination of seeds, both dormant and non-dormant

·To study polyembryony in orange seeds.

 

 

BOT 323: Techniques of Modern Research

·Demonstration of simple and compound microscope

·Demonstration of methods of histology of tissue- dehydration, sectioning, mounting

·Demonstration of following immunotechniques- ELISA, RIA, Ouchterlony.

·Demonstration of SDS-PAGE, HPLC

·Demonstration of following Microbiological techniques- Sterilization, Pure culture techniques, Haemocytometer, Staining Techniques.

·Demonstration of gel electrophoresis.

 

BOT 324: Plant Biotechnology and Bioinformatics

  • Media preparation, sterilization and inoculation of given material.
  • Growth characteristics of E.coli using plating and turbidimetric methods.
  • Isolation of plasmid from E.coli by alkaline lyses method and its quantization spectrophotometrically.
  • Restriction digestion of the plasmid and estimation of the size of various DNA fragments.
  • Cloning of a DNA fragment in plasmid vector, transformation of the given bacterial population and selection recombinants.
  • Organogenesis and somatic embryogenesis using appropriate explants and preparation of artificial seeds.
  • Isolation of protoplast from various plant tissues and testing their viability.
  • Effect of physical and chemical factors protoplast yield.
  • Demonstration of protoplast fusion employing PEG.
  • Demonstration of DNA sequencing using Sanger’s dideoxy method.
  • Demonstration of micro techniques for plant cultures.
  • Co-cultivation of the plant material with Agrobacterium and study GUS activity histochemically.

 

Essential Readings: 

 

  • Bendre. 2018. A Text Book of Practical Botany. Rastogi Publications, Meerut.
  • Pandey, BP. 2012. Botany Vol. III. Vikas Publishing House
  • Sharma, K. Manual of Microbiology: Tools and Techniques. 2007. Ane Books.
  • Henry, RJ. 1997. Practical Application of Plant Molecular Biology. Chapman & Hall, London
  • Philips, GC. 2004. Plant Cell, Tissue and Organ Culture: Fundamental Methods. Narosa Publishing House.

 

Academic Year: