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- Lipolysis - Wikipedia
While lipolysis is triglyceride hydrolysis (the process by which triglycerides are broken down), esterification is the process by which triglycerides are formed
- Lipolysis: The Biological Process of Fat Breakdown
Lipolysis is a fundamental process involving the breakdown of lipids, or fats It specifically targets triglycerides, the primary form of fat storage in adipose (fat) tissue and other cells
- Lipolysis - Definition, Mechanism and Process | Biology Dictionary
Lipolysis is the process by which fats are broken down in our bodies through enzymes and water, or hydrolysis Lipolysis occurs in our adipose tissue stores, which are the fatty tissues that cushion and line our bodies and organs
- Lipolysis - an overview | ScienceDirect Topics
Lipolysis is defined as the metabolic pathway through which one triglyceride (TAG) molecule is hydrolyzed into three free fatty acids and one glycerol by lipases, taking place in the cytoplasm and regulated by various hormones
- Biochemistry, Lipolysis - PubMed
Lipolysis is the metabolic process through which triacylglycerols (TAGs) break down via hydrolysis into their constituent molecules: glycerol and free fatty acids (FFAs)
- Understanding Lipolysis: How our Bodies Burn Fat – SciFitLife
Lipolysis refers to the biochemical pathway where stored triglycerides, or fat cells, are broken down into free fatty acids and glycerol These byproducts can subsequently enter into various metabolic processes to provide energy, particularly during periods of exertion or caloric deficit
- Understanding Lipolysis and Its Role in Fat Reduction
Lipolysis is the biochemical pathway that our bodies deploy to break down triglycerides, the main form in which fat is stored This breakdown occurs primarily in adipose tissue, where these triglycerides yield free fatty acids and glycerol that can be utilized as fuel
- Lipolysis: cellular mechanisms for lipid mobilization from fat stores
In this review, we focus on the mechanisms that facilitate intracellular fatty-acid mobilization, drawing on canonical and noncanonical enzymatic pathways We summarize how intracellular
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