because the lysosome cannot release its contents unless nearby cells allow it.
Shape of substrate, shape of the enzyme, Competitive, noncompetitive and allosteric inhibitors.
DNA from the nucleus is transcribed into mRNA. mRNA travels to the ribosomal subunit and is translated into amino acids forming a polypeptide chain. The chain travels through the ER and exits via transport vesicle. The transport vesicle enters the golgi and a new vesicle exits with the hydrolase. The vesicle fuses with the lysosome and is ready to digest!
Sometimes they just don't digest so they come out...no biggy
Enzyme will catalyse when the substrate come close enough to interact with enzyme's active site (proximity and orientation). The rate of enzymatic reactions is influenced by the condition such as temperature or pH that favors the chemical environment, and when a co-factor is already bound (not for all enzymes).
all of your gene come from geniration and start with your longevity digest
It comes from two greek words meaning breakdown body.
uh i am trying to find a synonym for lysosome too. the best i could come up with is:stomach/ digestive systemI'm sorry that that's all i came up with but i hope this helps!
They come together at the active site
Shape of substrate, shape of the enzyme, Competitive, noncompetitive and allosteric inhibitors.
The liver and the pancreas
The binding of an enzyme and a substrate forms an enzyme-substrate complex. It lowers the activation energy of a chemical reaction
DNA from the nucleus is transcribed into mRNA. mRNA travels to the ribosomal subunit and is translated into amino acids forming a polypeptide chain. The chain travels through the ER and exits via transport vesicle. The transport vesicle enters the golgi and a new vesicle exits with the hydrolase. The vesicle fuses with the lysosome and is ready to digest!
come inside = ¡Pase por favor!
In eukaryotic cells, everything is compartmentalized - most reactions take place contained within an organelle. This is true for enzymes. The hydrolytic enzymes that could damage the membranes are not free-floating; they are contained in lysosomes. Even when they're active, they are not released or "come out" of the vesicle. Whatever needs hydrolyzing comes in instead. For example, food vacuoles will fuse with the lysosome, and the nutrients will come into contact with the enzymes within the contained space.
no they can't can you digest metal? no so they can't ether. it will just come out the other end looking the same as it did when it was eaten
otherwise they would come out the same as they were when you ate them.
The same as anything else you digest