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Biomolecules, Dyes and Spectral Techniques
Course Objectives:
This course will enable the students to –
- Endow the students with the knowledge of the structure-function relationship and importance of biomolecules in perpetuation of living systems.
- Briefs them about the utility of synthetic dyes and spectral techniques.
Course Outcomes (COs):
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Course |
Learning outcomes (at course level) |
Learning and teaching strategies |
Assessment Strategies |
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Paper Code |
Paper Title |
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CHY 502 |
Biomolecules, Dyes and Spectral Techniques (Theory)
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The students will be able to – CO86: summarize the functions of amino acids & proteins and identify the influence of the three-dimensional shape and subunits of a protein on its function CO87: identify the chemical elements and functions of carbohydrates and differentiate between simple and complex structures of the same CO88: describe the preparations, properties and applications of synthetic dyes in commercial capacity CO89: predict the λmax for different organic compounds using Woodward-Feiser rules CO90: employ the theoretical knowledge & selection rules of IR in spectral analysis of simple compounds |
Interactive Lectures Discussions Tutorials Quiz Problem solving
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Continuous Assessment(Written test) Quiz Closed-book and open-book tests Assignment Group Activity Semester End Exam |
Amino acids: classification, structure and stereochemistry, acid base behaviour, isoelectric point, electrophoresis, preparation and reactions of α-amino acids.
Proteins: Peptide linkages, structure and classification of primary, secondary and tertiary proteins and denaturation.
Nucleic acids: Introduction, protein synthesis, functions.
Self Study: Structure of nucleic acids, ribonucleosides and ribonucleotides, double helical structure of DNA.
Classification and nomenclature, monosaccharides, mechanism of osazone formation, interconversion of glucose and fructose, chain lengthening and chain shortening of aldoses, configuration of monosaccharides, erythro and threodiastereomers, conversion of glucose into mannose. formation of glycosides, ethers and esters, determination of ring size of monosaccharides, cyclic structure of D-(+)-glucose , mechanism of mutarotation.
Colour and constitution (electronic concept), classification of dyes, chemistry and synthesis of methyl orange, congo red, malachite green, crystal violet, phenolphthalein, fluorescein, alizarin and indigo.
Electromagnetic radiation, quantization of energy, regions of electromagnetic spectrum,Lambert – Beer law, molar absorptivity, different electronic transitions and symmetry rules, effect of solvent on transitions, effect of conjugation, concept of chromophores and auxochromes, bathochromic, hypsochromic, hyperchromic and hypochromic shift. Woodward Fieser rules and its applications on enes, dienes, α,β-unsaturated carbonyls and extended conjugations.
Molecular vibrations, Hooke’s law, different regions of IR spectrum (finger print and functional group region), selection rules, characteristic intensity and position of IR bands of various functional groups (alkanes, alkenes, alkyl halides, alcohols, ethers, carbonyl compounds, primary and secondary amines, carboxylic acids and its derivatives); effect of solvent and hydrogen bonding.
- Organic Chemistry, Vol 2; Sixth Edition; I.L. Finar; Pearson Education, New Delhi, 2002.
- Spectroscopy of Organic Compounds; Sixth Edition; P.S. Kalsi; New Age International (P) Ltd Publishers, New Delhi, 2016.
