NIPER JEE Syllabus 2020. Check Out the Information of Syllabus here.
by Adhira | Last updated: Dec 12, 2019

NIPER JEE Syllabus 2020. Check Out the Information of Syllabus here.
NIPER JEE 2023
NIPER JEE 2023 2023NIPER JEE Syllabus @niperahm.ac.in
The NIPER will be issued the syllabus on the official site. The curriculum will be including the topics appearing in the Joint Entrance Exam(JEE), which have been given to provide them better prepared for the NIPER JEE 2020. We provided the main Subjects and the Topics Covered by the NIPER JEE 2020 on this page.
NIPER JEE Subjects 2020
NIPER Aspiring Candidates can check the Subjects and the topics for NIPER JEE 2020 mentions below.
- Natural Products
- Stereochemistry
- Pharmaceutical analysis
- Biotechnology and biochemistry
- Gene expression
- Cloning
- Chemistry
- Aptitude
- Pharmacology
- Phytochemistry.
Natural Products:
- Secondary metabolites
- Phytochemistry
- Methods of extraction, isolation, and characterization of natural products
- Biosynthetic pathways
- Important therapeutic classes
- Primary metabolites
- Marine natural products
- Plant growth regulators
- Spectroscopy
- Dietary antioxidants
Stereochemistry:
Pharmacology and toxicology |
Evaluation of formulation, principles, and methods of release control in oral formulations |
Bioavailability, bioequivalence studies |
Compartmental modeling |
Packaging |
Dosage forms |
Additives of formulation, types, examples, advantages, disadvantages, drug excipient interaction, incompatibility, various types of incompatibilities |
(TDDS) |
Fischer, sawhorse and newman projection formulas |
Standardization of natural products |
Various adrenergic, cholinergic and other receptors |
Pharmaceutics and formulation (Pharmaceutical Technology) |
Pharmacokinetics |
Pharmacodynamics |
Pharmacological effect, desired, undesired, toxic, adverse effects |
Bioavailability, bioequivalence, various factors of ADME |
Drug metabolism |
Drug interactions, agonist, antagonist, protein binding, drug distribution, distribution volume, excretion pathways |
Pharmacological screening |
Mechanism of drug action |
Drug-receptor interaction |
Detailed study of CNS pharmacology Transdermal drug delivery systems |
Diseases |
Chemotherapy and pathophysiology |
Bioassay methods |
Drug delivery systems (DDS) |
Carriers in DDS |
Biological sources of important classes of natural products |
Parenteral |
Drug targeting |
Complexation |
Solubilisation |
Dosage form development- stages, implications of dosage form |
Viscosity measurements |
- |
Pharmaceutical analysis:
Stability testing of pharmaceuticals, various stability tests, kinetic studies, shelf-life determination, thermal stability, formulation stability |
Various analytical techniques |
Tests: physical and chemical tests, limit tests, microbiological tests, biological tests, disintegration and dissolution tests. |
Solubility |
Transdermal drug delivery systems (TDDS): principles, absorption enhancers, evaluation of TDDS. |
Carriers in DDS: polymers and their classification, types, carbohydrates, surfactants, proteins, lipids, prodrugs etc. |
Drug delivery systems (DDS): NDDS models, osmotic pumps, various release patterns |
Osmolality, osmolality, osmotic pressure, conductivity, Preservatives, Media for bioassay. |
Spectroscopic methods |
Electrophoresis |
UV-Visible |
NMR |
XRD |
IR |
Fluorimetry |
HPLC |
IR |
GC |
LCMS |
Mass |
NMR Peaks |
Particle sizing |
Chromatography- detailed QA and QC: GLP, TQM, ISO system |
Preformulation, cyclodextrin inclusion compounds |
Crystallinity, polymorphism, solvates and hydrates, crystal habits, porosity, surface area flow properties. /Dosage forms, Stages of dosage form development |
Biotechnology and biochemistry:
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Pharmaceutical technology
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Classification of enzymes and their functions mechanism of action of
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Genetic Engineering
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Blotting techniques(Western, southern)
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Gel electrophoresis
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Gene cloning
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Immunoassays, protein
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RNA synthesis
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DNA synthesis
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rDNA technology
Gene expression:
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Mutation
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Replication
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Transcription, translation
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Recombination, bacteriophages
Cloning:
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Fermentation
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Methods, isolation of nucleic acids, enzymes in cloning
Chemistry:
Basic organic chemistry and biochemistry Stereochemistry |
Osazone test |
Mutarotation |
Medicinal chemistry and Bulk Drugs |
Keto-enol tautomerism |
IUPAC nomenclature |
Introduction to thermal methods of analysis |
Introduction to Redox reactions |
Imine-enamine |
Hybridization |
Amino acids proteins |
Type of stereoisomer |
Basic methods of synthesis of various organic compounds |
Named reactions |
Various Heterocycles, Heterocycle synthesis, reactions |
Tautomerism |
Spectroscopy |
Resolution methods |
Reaction kinetics, first second third and pseudo-first-order reactions, radiolabeling for determination of mechanism. |
Racemic mixture |
R and S nomenclature |
Reactions like Cannizarro’s reaction |
Pericyclic reactions |
Ester hydrolysis |
Huckel’s rule reaction mechanisms- |
E and Z isomerism |
Common condensation reactions like Aldol, Claisen Perkin, Dickmann, Darzen |
Chromatography |
Carbohydrates classification |
Aromaticity |
Aptitude:
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Simple Mathematics
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logical reasoning and data analysis,
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questions based on English language
Pharmacology:
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Bioavailability, bioequivalence, various factors of ADME
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Bioassay methods, various requirements. Brief knowledge of the statistical tests.
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Chemotherapy and pathophysiology- knowledge of antibiotics, their mode of action and the microorganisms responsible for various common diseases.
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Diseases: a study of the pharmacology of the diseases and drugs used with the mode of action especially of diabetes, malaria, leishmaniasis, TB, hypertension, myocardial ischemia, inflammation, and immunomodulation.
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Study of the basis of threshold areas of work in NIPER in the pharmacology dept. Mentioned in brochure.
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Detailed study of CNS pharmacology especially opioid receptors
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Pharmacokinetics, pharmacodynamics, pharmacological effect, desired, undesired, toxic, adverse effects.
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Drug metabolism: various pathways and other details.
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Drug interactions, agonist, antagonist, Mechanism of drug action, drug-receptor interaction.
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Various adrenergic, cholinergic and other receptors
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Partial agonist, protein binding, drug distribution, distribution volume, excretion pathways etc.
Phytochemistry:
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Methods of extraction, isolation, and characterization of natural products.
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Various separation techniques used for the isolation of natural products.
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Biosynthetic pathways.
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Primary metabolites, their examples
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Secondary metabolites, various classes of secondary metabolites (Alkaloids, glycosides, tannins, lignans, saponins, lipids, flavonoids, coumarins, etc.).
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Important therapeutic classes: anti-diabetics, hepato-protectives, immunomodulators, nutraceuticals, natural products for gynecological disorders, anti-cancer, anti-viral (mainly anti-HIV), adaptogens etc.
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Dietary antioxidants, Marine natural products, plant growth regulators.
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Fischer projection formulas.
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Biological sources of important classes of natural products. (Selected ones only)
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Standardization of natural products, analytical pharmacognosy.
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Difference between natural products and pharmacognosy
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Some knowledge about types and preparation of ayurvedic formulations like asava, arista etc.