The forms of active transport that should be in common is by using the ATP.
The plasma membrane should be selected also capable for controlling the movement of the substance via the passive transport where it does not use the energy and the active transport means when it needs the chemical energy in the form of ATP.
The interior of the cells should be highly concentrated glucose that shows an high energy storage molecule.
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Answer:
-Using ATP
Explanation:
Cells use various mechanisms to move substances across their plasma membranes. Plasma membranes are selectively-permeable and capable of controlling all movement of substances through:
Active transport involves the movement of substances out of cells against their gradients. For instance, glucose is transported across the membrane with specialized carrier proteins embedded within the membrane, and active transport; the cell's interior is highly concentrated- glucose is a high energy storage molecule required by many metabolic processes and required in high amounts.
B. argon and carbon dioxide
C. carbon dioxide and water vapor
D. water vapor and ozone
OPTION C.
The variable gases in the atmosphere that most impact the greenhouse effect are carbon dioxide and water vapor. These gases absorb and emit infrared radiation, contributing significantly to global warming.
The atmosphere's variable gases that most influence the greenhouse effect are carbon dioxide and water vapor. These two gases have the property to absorb and emit infrared radiation, which is fundamental to the greenhouse effect. Larger amounts of these gases have the potential to elevate global temperatures, causing a phenomenon known as global warming. Other gases like nitrogen or oxygen are less effective in this respect because their molecular structure does not allow them to absorb long-wave radiation efficiently.
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The skin performs many functions including protection, regulation of body temperature and sensation of surroundings. However, it does not produce blood cells, which is a function performed by the bone marrow.
The skin, also known as the integumentary system, performs a number of essential functions that help maintain our health and wellbeing. These include protecting our bodies from external hazards, regulating body temperature, and allowing us to sense our surroundings. However, one function your skin does not perform is the production of blood cells. This is the role of the bone marrow, a soft tissue inside your bones. Thus, production of blood cells is not a function of the skin.
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Answer:
It is involved in the process of conjugation-exchange of genetic material between two bacteria
Explanation:
Conjugation is one of the ways by which bacteria exchange their genetic material (horizontal gene transfer). Two bacterial cells must physically connect in order to perform the conjugation. The linking occurs through a pilus.
Pilus is an appendage on the surface of bacteria cell and it is also called fimbria. Pilus is filamentous, tubular and composed of oligomeric proteins-pilin.
Donor cell contain pilus that will attach to the recipient bacterial cell and induce the transfer.
ADP converts to ATP during the last phase of cellular respiration known as oxidative phosphorylation. This transformation happens in the mitochondria, where energy is stored and later transformed into usable energy.
ADP (Adenosine Diphosphate) can be converted to ATP (Adenosine Triphosphate) during the process known as cellular respiration. This specific transition takes place in the last stage of cellular respiration, more specifically, during the phase known as oxidative phosphorylation, which occurs in the mitochondria of the cell.
Here, the energy from electrons transferred along the electron transport chain is used to pump protons across the mitochondrial membrane, creating a gradient. This gradient is then used to drive ATP synthesis when ADP combines with a phosphate group turning ADP into ATP, thus converting stored energy into usable energy.
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