What is the primary reason the signaling molecule is not received by every cell nucleus? Option 1: Cell nuclei have varying sizes. Option 2: The signaling molecule is too large. Option 3: Not all cells have receptors for the molecule. Option 4: The molecule is rapidly degraded.

Answers

Answer 1

Answer:

3. Not all cells have receptors for the molecule.

The main reason a signaling molecule is not receive by every cell nucleus is that not all cells have receptors for that particular molecule. Cells have specific receptors on their surface to recognize and respond to their corresponding signaling molecule. Cells that lack the specific receptors for a given signaling molecule will not respond to it, regardless of the size of the cell nuclei or other factors such as the stability of the molecule itself.

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Which is the basic characteristic of all living cells

Answers

Growth and development
Homeostatis
Movement
Reproduction
and Energy
Hope this helped

Growth and Development
Homeostasis

What is the purpose of DNA polymerase?

Answers

The main function of DNA polymerase is to make it from nucleotides, the building blocks of DNA. There are several forms of DNA polymerase that play a role DNA replication and they usually work in pairs to copy one molecule of double-stranded DNA into two new double stranded DNA molecules.

Which of the following family of chemicals kills cells or stunts proteins, which can interfere with how a plant grows?fungicide
herbicide
insecticide
rodenticide

Answers

A herbicide will interfere with plant growth.

Answer: The correct answer is herbicide

Explanation: This answer has been confirmed correct.

Herbicides are designed to interfere with plant growth to stop the spread of undesirable plants or weeds.

Which organelle can be compared to a security guard who decides whom may enter a building and whom may not

Answers

The correct answer here is "cell membrane". Generally it makes sure that nothing enters or leaves the cell, except by its highly guarded "gates", such as ion channels, that let some particles through - but they're very picky about whom to let in!

Answer:

D):Cell membrane

John wants to cook some macaroni and cheese, so he put a pot of water on to boil. However, John notices that it is taking a long time for his water to boil. In order for water to change from a liquid to a gas it must take on a large amounts of heat. Why?

Answers

Answer:

Answer is D. Water has high specific heat.

1 calorie/gram °C or 4.186 joule/gram °C is the specific heat of water, which is high as compared to any other common substance. The high specific heat of water due hydrogen bonds present between water molecules. In order to increase temperature of water, this bond needs to be broken down. To break many hydrogen bonds, a larger amount of energy is required. when all the bonds are broken water is changed from liquid to gas( water vapor).

Explanation:

Your welcome

Which statement describes how water is pulled up through the xylem to the leaves of the plant? As water exits the leaf, hydrogen bonding between water molecules pulls more water up from below. A As water exits the leaf, signals are sent to the roots to pump more water up to the leaves through the xylem by adhesion. B Evaporation from the leaf decreases the hydrogen bonds that form between the water molecules in the xylem, which helps the water molecules to be pulled up the xylem. C Evaporation of water from the leaf increases the hydrogen bonds that form between water molecules in the air, providing the energy for transport.

Answers

Final answer:

The movement of water in plants from the roots to the leaves is driven by transpiration, which creates a tension pulling water upwards. This process, as well as the water's cohesion and adhesion, and differences in water potential, is explained by the cohesion-tension theory.

Explanation:

The movement of water in plants, specifically from the roots to the leaves, is primarily driven by a process known as transpiration. Transpiration is the evaporation of water from the plant's leaf surfaces. This occurs at the leaf-atmosphere interface, creating a negative pressure or tension which effectively pulls up water from the roots, through the xylem vessels.

Adherence of water to the xylem cell walls, known as adhesion, and the attraction between water molecules themselves, known as cohesion, also play significant roles in this process. These factors permit the water to be held in the stem and leaf when transpiration stops at night as the stomata shut. Overall, this process of water movement is described by the cohesion-tension theory of sap ascent.

Water potential, at the same time, affects this process as it decreases from the roots to the top of the plant, meaning, there's a high water potential in the soil and roots and a low potential in the leaves, driving water upwards through the plant.

Learn more about Transpiration here:

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