Akademik Dersler - İçerik

Will be able to classify drugs according to their thermodynamic activities.
Lists properties of structure-nonspecific drugs.
Lists properties of structure-specific drugs.
Will be able to explain drug-receptor interactions.
Identifies chemical bonds that are important in drug-receptor interaction.
Lists stereochemical factors related to drug-receptor suitability.
Will be able to explain the relationships between chemical structures and pharmacological effects of drugs.
Explains the effects of physicochemical properties on pharmacological activity.
Explains the effects of structural properties on pharmacological activity.
Explains the quantitative structure-activity relationships.
Will be able to evaluate drug metabolism from a chemical point of view.
Lists the phase I and II reactions.
Explains the effect of stereochemical factors on metabolism.
Explains drug metabolism studies.
Will be able to explain the ways of drug design and new drug development.
Lists the ways to develop new drugs.
Explains the combinatorial chemistry.
Will be able to explain the cultivation and trade of herbal drugs.
Explains the supply and collection of herbal drug from the natural environment.
Explains the culture of medicinal plants.
Describes post-harvest operations applied to herbal drugs.
Explains packaging and storage operations in herbal drogs.
Explains the market and trade of herbal drugs.
Will be able to define the relationship between pharmacognosy and biosynthesis.
Explains the importance of biosynthesis in Pharmacognosy.
Explains primary and secondary metabolites.
Will be able to explain pharmacognosy methods in pharmacopoeias.
Lists and explains pharmacognosy methods.
Explains macroscopic and organoleptic methods applied to herbal drugs.
Describes microscopic methods applied to herbal drugs.
Discloses sampling of plant material.
Describes methods of quantification of impurities in herbal drugs.
Lists the controls applied to essential oils.
Lists the controls of pesticides and exotoxins in herbal drugs.
Applies pharmacognosic methods in pharmacopoeias.
Will be able to explain the other analysis methods used in pharmacognosy.
Explains adoration of herbal drugs.
Explains gravimetric, volumetric and physicochemical examination of herbal drugs.
Describes microchemical methods applied to herbal drugs.
Explains the biological methods applied to herbal drugs.
Explains extraction methods.
Describes distillation methods.
Applies the analysis methods used in pharmacognosy.
Will be able to classify phytochemical (active) compounds.
Explains carbohydrates and their derivatives.
Explains organic acids, esters, alcohols, tannins, phenols and polyphenols.
Explains glycosides.
Explains alkaloids.
Explains terpenes, essential oils and resins.
Explain plant-derived hormones.
Explains plant-derived vitamins.
Uses the general qualitative and quantitative determinations of phytochemical compound groups.
Explains the separation, purification and structure determination methods in natural products.
Describes and applies separation and purification methods.
Describes and applies chromatographic methods.
Explains spectroscopic methods and uses them in structure elucidation.
Will be able to explain the importance of biotechnology in terms of pharmacognosy.
Lists the biotechnological methods used in pharmacognosy.
Describes the fermentation methods used in the production of secondary metabolites.
Describes the biotransformation methods used in the production of secondary metabolites.
Describes the cell and tissue culture methods used in the production of secondary metabolites.
Classifies important macro molecules in terms of pharmacognosy.
Will be able to carry out synthesis applications of some chemical compounds with pharmaceutical importance.
Explains the steps necessary for chemical synthesis.
Synthesizes the target compound.
Will be able to perform qualitative and quantitative analysis of some chemical compounds with pharmaceutical importance.
Identifies physical and chemical properties.
Describes and applies tests for functional groups.
Determines and applies the special diagnostic reaction.
Determines and applies the titrimetric method.
Determines and applies spectrophotometric method.