The corepressor-repressor binding to the operator stops the repressible enzyme synthesis. The rate of production of repressible enzyme can be stopped or inhibited if a substance is in high concentration.
any agent or factor capable of initiating a nerve impulse
In my understanding there are three types of feedback inhibition:SIMPLE: Enzyme inhibited by single end product.CUMULATIVE: More than one end product inhibits the same enzyme. That means that each product exerts partial inhibition and inhibition is cumulative.CONCERTED: More than one end product must bind the same enzyme simultaneously for any inhibition.I !
The patellar reflex is inhibited
Victims should be classifiedas Immediate if they are convulsing
Nerve agents are acetylcholinesterase inhibitors. Acetylcholinesterase is an enzyme that breaks down acetylcholine at nerve synapses. The antidote to counteract the nerve agent is an anticholinergic drug, such as atropine.
inhibit
Nerve
Alpha-5-reductase is the enzyme that is inhibited in the treatment of BPH. This enzyme is responsible for changing testosterone into dihydrotestosterone (which is stronger).
Nerve agents are compounds that have the capacity to inactivate the enzyme acetylcholinesterase (AChE)
Inhibited. Competitive, noncompetitive, allosterically and so on.
Inhibiting an enzyme responsible for constructing the cell wall.
The corepressor-repressor binding to the operator stops the repressible enzyme synthesis. The rate of production of repressible enzyme can be stopped or inhibited if a substance is in high concentration.
When a enzyme is inhibited (many proteins are enzymes), it just means that the enzyme will be reduced in its ability to catalyze a reaction. There are a few types of Inhibition like Competitive Inhibition, Noncompetitive Inhibition, and Irreversible Inhibition.
The nerve agents (commonly called nerve gases, but several are more like motor oil than gas).
Nerve agents are class of phosphorus containing organic chemicals that disrupt the mechanism by which nerves transfer messages to organs. The disruption is caused by blocking acetyl-interscholastic, an enzyme that normally destroys tetracycline, a neurotransmitter.
It depends on the type of nerve agent.