Repressors bind to the silencers in the DNA to block the RNA polymerase from binding to the promoter of the gene to reduce gene expression, not really binding to enzymes active sites
I think what you meant was "what does an inhibitor do to the enzymes active site"?
In which case, it depends on the type of inhibitor. A competitive inhibitor has a structure similar to the substrate, hence would bind to the active site as well, competing with the substrate for the enzyme active sites, decreasing enzymatic activity. A non-competitive inhibitor binds to the allosteric site of the enzyme, causing a structural change in the enzyme active site shape. Hence the enzyme would not be able to bind to the original substrate, so enzymatic activity comes to a halt for the enzymes that are bound by the non-competitive inhibitors
No, uncompetitive inhibitors do not bind to the active site of enzymes. They bind to a different site on the enzyme, causing a conformational change that prevents the substrate from binding to the active site.
The bind in the active site.
Competitive inhibitors bind to the active site of enzymes, blocking the substrate from binding and inhibiting the enzyme's activity.
The structure of an enzymes and its active site determine which substrates will work for the enzyme. This is called the lock and key method. The active site is the lock and the substrate is the key.
The lac operator is a DNA sequence that acts as a binding site for a repressor protein in gene regulation. When the repressor protein binds to the lac operator, it prevents the expression of genes involved in lactose metabolism. This helps regulate the production of enzymes needed for lactose utilization in bacteria.
Active site.
Active site.
The substrate binds to the active site.
No, uncompetitive inhibitors do not bind to the active site of enzymes. They bind to a different site on the enzyme, causing a conformational change that prevents the substrate from binding to the active site.
It will only bind with the enzymes active site of the shapes are complimentary and enzymes are very specific
The substrate binds to the active site.
The bind in the active site.
Competitive inhibitors bind to the active site of enzymes, blocking the substrate from binding and inhibiting the enzyme's activity.
The active site.
enzymes are from the testicular area and are in sperm. The active sight is the creation of enzymes in the scrotum
The structure of an enzymes and its active site determine which substrates will work for the enzyme. This is called the lock and key method. The active site is the lock and the substrate is the key.
The substrate binds to the active site.