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BlakeCells can respond to contact with other cells through a process called cell-cell communication. This communication can involve direct contact between cell surface molecules or the release of signaling molecules that can bind to receptors on neighboring cells. These interactions can trigger a variety of responses, such as changes in gene expression, cell growth, differentiation, or cell death.
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Muscle cells gland cells and specialized cells that respond to neural stimuli are called?
Muscle cells are called myocytes, gland cells are called secretory cells, and specialized cells that respond to neural stimuli are called neurons.
How do plants respond to touch and what mechanisms do they use to detect and react to physical contact?
Plants respond to touch through a process called thigmotropism, where they change their growth pattern in response to physical contact. They use specialized cells called mechanoreceptors to detect touch, which then trigger a series of biochemical signals that lead to changes in growth and movement.
Normal cells stop growing when they come into contact with other cells?
Yes, normal cells exhibit a characteristic known as contact inhibition, where they cease to grow and replicate when they come into contact with neighboring cells. This helps maintain tissue structure and prevent overcrowding or uncontrolled cell division, which is a key feature of cancer cells.
What happens when two incompatible blood cells mix and come into contact with each other?
When two incompatible blood cells mix and come into contact with each other, a reaction called agglutination occurs. This can lead to clumping of the blood cells, which can block blood vessels and cause serious health complications.
What best describes contact inhibition?
Contact inhibition is a phenomenon where cells stop dividing when they come into contact with other cells. This process helps regulate cell growth and prevents overcrowding of cells, which can lead to uncontrolled growth and potential tumor formation. Contact inhibition plays a crucial role in maintaining tissue structure and homeostasis in multicellular organisms.
