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Significance of Molecular interaction

Molecular interaction encompasses a range of competitive forces at the molecular level that influence the binding and activity of ligands with proteins, affecting drug efficacy and biological processes. It includes various types of interactions, such as hydrogen bonding and ion-dipole interactions, critical in drug design, stability, and behavior in mixtures. These interactions are vital for understanding how bioactive compounds relate to enzymes, the properties of solutions, and the behavior of molecules during processes like molecular docking and formulation.

Synonyms: Intermolecular interaction, Intermolecular forces

The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.

The concept of Molecular interaction in scientific sources

Science Books

Molecular interaction describes how Roxithromycin interacts with a polymer during formulation, influencing the drug's release characteristics and stability, thereby impacting its effectiveness and shelf life.

Significance in Scientific journals, articles, etc.:

From: World Journal of Pharmaceutical Research

(1) The various ways in which molecules interact with one another, essential for understanding the characteristics of mixtures.[1] (2) The interactions that occur between the test compounds and the receptor protein during docking studies.[2] (3) The interactions that occur at the molecular level within the crosslinked biocomposite influencing its properties.[3] (4) The various types of bonds and attractions (e.g., hydrogen, hydrophobic) between synthesized ligands and target proteins examined in docking studies.[4] (5) Interactions at the molecular level, including those between proteins and ligands, important for understanding biochemical processes and developing therapeutic strategies.[5]

From: Journal of Indian Society of Periodontology

(1) Intercellular interactions at the molecular level that mediate the communication and function of immune and bone cells.[6] (2) Physical and biochemical interactions between organisms within biofilms that affect their behavior and function.[7]

From: Journal of Ayurveda and Holistic Medicine

(1) The interactions that were evaluated between the PARK 2 protein and bioactive compounds to understand their binding and potential therapeutic effects.[8]

From: Journal of Ayurveda and Integrative Medicine

(1) The specific biochemical interactions predicted between identified bioactive compounds and enzymes related to diabetes, analyzed through molecular docking.[9]

This section includes scientific research in the field of healthcare, often involving traditional medicine systems such as Ayurveda, Unani, Siddha and Holistic health. It includes papers from scientific journals classified as either original, clinical or experimental research, review articles or case reports.

Plural form: Molecular interactions.