answersLogoWhite

0

Semantic inhibition is a cognitive process where the retrieval of a specific memory or concept is hindered or suppressed due to interference from competing or overlapping information. This can result in difficulties recalling or accessing relevant information from memory.

User Avatar

AnswerBot

1y ago

What else can I help you with?

Continue Learning about Natural Sciences

Why is low concentration has high percent inhibition?

Inhibition percentage is calculated based on the difference between the control (no inhibitor) and the test (with inhibitor) activity. In a low concentration, even a small decrease in activity can lead to a high percentage inhibition compared to a high concentration where a larger decrease is needed to achieve the same percentage inhibition.


End products of biosynthetic pathways often act to block the initial step in that pathway This phenomenon is called?

feedback inhibition. Feedback inhibition is a regulatory mechanism where the end product of a biosynthetic pathway inhibits the activity of the enzyme catalyzing the initial step, thereby regulating the overall rate of the pathway.


What is inhibition?

Inhibition is a biological process that involves the suppression or decrease of a specific activity or function. It can refer to the inhibition of enzymes, neurotransmitters, or other cellular processes in the body. Inhibition plays a crucial role in maintaining balance and regulation within the body.


How do you calculate percent inhibition?

Percent inhibition can be calculated using the formula: % Inhibition = [(Control value - Sample value) / Control value] x 100. First, subtract the sample value from the control value, then divide that result by the control value, and finally multiply by 100 to express it as a percentage.


What happens when a protein is inhibited?

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.