Enzyme substrate complex
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- Опубліковано 5 гру 2012
- This enzymology video is about the enzyme substrate complex.
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This video explains three important mechanisms by which an enzyme catalyses reactions.
In biochemistry, a substrate is a molecule upon which an enzyme acts. Enzymes catalyze chemical reactions involving the substrate(s). In the case of a single substrate, the substrate bonds with the enzyme active site, and an enzyme-substrate complex is formed. The substrate is transformed into one or more products, which are then released from the active site. The active site is now free to accept another substrate molecule. In the case of more than one substrate, these may bind in a particular order to the active site, before reacting together to produce products. A substrate is called 'chromogenic', if it gives rise to a colored product when acted on by an enzyme.
For example, curd formation (rennet coagulation) is a reaction that occurs upon adding the enzyme rennin to milk. In this reaction, the substrate is a milk protein (e.g., casein) and the enzyme is rennin. The products are two polypeptides that have been formed by the cleavage of the larger peptide substrate. Another example is the chemical decomposition of hydrogen peroxide carried out by the enzyme catalase. As enzymes are catalysts, they are not changed by the reactions they carry out. The substrate(s), however, is/are converted to product(s). Here, hydrogen peroxide is converted to water and oxygen gas.
E + S ⇌ ES → EP ⇌ E + P
where E = enzyme, S = substrate(s), P = product(s). While the first (binding) and third (unbinding) steps are, in general, reversible, the middle step may be irreversible (as in the rennin and catalase reactions just mentioned) or reversible (e.g., many reactions in the glycolysis metabolic pathway).
By increasing the substrate concentration, the rate of reaction will increase due to the likelihood that the number of enzyme-substrate complexes will increase; this occurs until the enzyme concentration becomes the limiting factor.
It is important to note that the substrates that a given amino acid in vitro may not necessarily reflect the physiological, endogenous substrates of the enzyme in vivo. That is to say that enzymes do not necessarily perform all the reactions in the body that may be possible in the laboratory. For example, while fatty acid amide hydrolase (FAAH) can hydrolyze the endocannabinoids 2-arachidonoylglycerol (2-AG) and anandamide at comparable rates in vitro, genetic or pharmacological disruption of FAAH elevates anandamide but not 2-AG, suggesting that 2-AG is not an endogenous, in vivo substrate for FAAH.[1] In another example, the N-acyl taurines (NATs) are observed to increase dramatically in FAAH-disrupted animals, but are actually poor in vitro FAAH substrates.[2] Source of the article published in description is Wikipedia. I am sharing their material. © by original content developers of Wikipedia.
Link- en.wikipedia.org/wiki/Main_Page
It is pretty good.
Please upload rennin and rennet related video..
It actually helped me
Really reall helpful thankyou
I also want rennin related videos
Why are u so confused.. ? I literally Don’t understand anything frm ur videos 🙁🤷🏻♀️
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