Chirality is a big deal in drug design because chiral molecules can act differently in the body. Here’s why that’s important:
Stereoisomers: Chiral drugs come in two forms called enantiomers. These two forms can have very different effects.
For example, with a drug called thalidomide, one form is good for helping people sleep, while the other form can cause serious problems for babies if pregnant women take it.
Target Interactions: Chiral drug molecules work like a lock and key. They fit into specific parts of our body, called receptors. But only one form, or enantiomer, fits perfectly in these spots.
Because of this, it’s super important to think about the shape of these molecules when making new medicines. It helps make sure they are safe and work well!
Chirality is a big deal in drug design because chiral molecules can act differently in the body. Here’s why that’s important:
Stereoisomers: Chiral drugs come in two forms called enantiomers. These two forms can have very different effects.
For example, with a drug called thalidomide, one form is good for helping people sleep, while the other form can cause serious problems for babies if pregnant women take it.
Target Interactions: Chiral drug molecules work like a lock and key. They fit into specific parts of our body, called receptors. But only one form, or enantiomer, fits perfectly in these spots.
Because of this, it’s super important to think about the shape of these molecules when making new medicines. It helps make sure they are safe and work well!