Molecula Pharmacology is the branch of Pharmacology which is concerned with the study of pharmacology on a molecular basis. i.e study of pharmaceuticals and natural compounds used in the treatment of disease, and they also study disease on a molecular basis with the goal of developing pharmacologically active agents which could be used to address disease
Molecular Pharmacology was created in 1965.
The solution to pharmacology INCLUDES molecular biology. Pharmacology is a vast and complex science. In order to understand pharmacology, you have to understand how the body works (anatomy and physiology). You have to understand how substances react with the blood (hematology and biochemistry). You have to understand how enzymes work. You have to understand how pathogens work to infect and invade the system (microbiology, virology, nematology, mycology). The foundation of pharmacology is in all of the sciences, not only molecular biology.
Molecular pharmacology is the study of how drugs exert their effects at a molecular level within the body. It involves investigating interactions between drugs and their target molecules, such as receptors or enzymes, to understand the mechanisms of drug action. This information is crucial for drug development and optimizing treatment strategies.
different molecular construction
no
they will look different
No, molecular formula alone cannot show the difference between isomers. Isomers have the same molecular formula but different structural arrangements of atoms. Additional information, such as structural formula or connectivity of atoms, is needed to differentiate between isomers.
the difference is that the substances is aparent only on the atomic or molecular level.
In molecular orbital theory, the HOMO (highest occupied molecular orbital) is the highest energy level that contains electrons, while the LUMO (lowest unoccupied molecular orbital) is the lowest energy level that does not contain electrons. The difference between the HOMO and LUMO energy levels determines the reactivity and stability of a molecule.
Molecular remission refers to the absence of detectable disease at the molecular level, such as minimal residual disease in leukemia, which may still be present at the cellular level. Cellular remission, on the other hand, typically refers to the absence of disease or cancer cells in the body, as determined by tests like bone marrow biopsy.
molarity x molecular weight x volume=gram molarity= gram/molecular weight x volume abdulrazzaq
The mechanism of action in pharmacology refers to how a drug produces its effect in the body at the molecular and cellular level. It explains the specific biological interactions between the drug and its target in the body that result in a therapeutic response. Understanding the mechanism of action is crucial for predicting the drug's effects, potential side effects, and optimizing its clinical use.