Vishwanath Agrahari Understanding stereochemistry isn’t just about passing an exam. It’s about understanding how drugs interact with the body. Some molecules are like “chemical illusions,” and today we’re talking about a classic one: the Meso Compounds. What is a Meso Compound? By definition, a meso compound is a molecule that contains tetrahedral stereocenters (usually two or more … Read more
In the world of chemistry, molecules can be like twins. Sometimes they are perfect mirror images (Enantiomers), and sometimes they are related but not quite identical—kind of like siblings who share some features but don’t look exactly alike. That second group is where Diastereoisomers live. What are Diastereoisomers? Diastereoisomers (or diastereomers) are a type of … Read more
Symmetry is the balanced arrangement of atoms in a molecule. In Pharmaceutical Chemistry, a molecule’s elements of symmetry tells us if a drug is optically active or not. The binding of drug molecules to the target receptor in the body depends on symmetry of molecule. Thus, symmetry of any molecule affects optical activity and pharmacological … Read more
Stereochemistry can feel like learning three different “languages” to describe the same object. There are different stereochemistry nomenclature system for organic compounds. One language describes how it behaves in light, one describes its family history, and the last describes its exact physical shape. Here is a simplified, comprehensive breakdown of these systems. The “Light” System: … Read more
The D/L system (also known as the Fischer-Rosanoff convention) is one of the oldest method used to designate the configuration of optical isomers. While the modern R/S system is more comprehensive for general chemistry, the D/L system remains the standard for describing amino acids and sugars. The D/L system is the “biological language.” It tells … Read more
It is the standard nomenclature used to describe the absolute configuration of a chiral center (usually a carbon atom) in a molecule. To talk about diastereoisomers, we must understand the RS System of nomenclature. It is also known as the Cahn-Ingold-Prelog or CIP priority rules. Unlike D/L or (+)/(-) systems, which are based on relative … Read more
Introduction In the world of chemistry, chirality is all about “handedness.” Certain molecules have a specific spatial arrangement that makes them unique from their mirror reflection. The pharmacological profile of a drug is dictated not only by its chemical formula but also by its three-dimensional spatial orientation. In pharmaceutical chemistry, molecules are classified into chiral … Read more
In Pharmaceutical Chemistry, Enantiomerism is vital because the human body is a chiral environment composed of chiral building blocks like L-amino acids and D-sugars. Consequently, the body treats mirror-image drug molecules very differently. Definition Enantiomerism is a type of optical isomerism where molecules lack an internal plane of symmetry. It is vital concept because most … Read more
Optical activity is the ability of a substance to rotate the plane of Plane Polarized Light (PPL). This occurs in molecules that contain a chiral center (a carbon atom bonded to four different groups). This phenomenon is a cornerstone of stereochemistry and is vital in pharmaceutical analysis for identifying drugs and checking their purity. The … Read more
Stereochemistry is the ‘chemistry of space’. It deals with the spatial arrangements of atoms and groups in a molecule. Stereoisomerism is crucial to understand because the spatial arrangement of atoms can completely change a drug’s effect: one isomer might cure a disease, while its “mirror image” could be toxic. It is essential to know about stereoisomerism … Read more