A population of pocket mice is hit with a viral epidemic, and most of the mice in the population die. No mice have resistance to this new virus, so there is no resistance to the epidemic. What mechanism of microevolution is acting on the population

Raising your hand in class involves shoulder flexion, enabled by the glenohumeral synovial joint movement.

When you raise your hand to answer a question in class, the primary movement occurring is shoulder flexion.

This movement is facilitated by the glenohumeral synovial joint, which is a ball-and-socket joint that connects the head of the humerus (upper arm bone) to the glenoid cavity of the scapula (shoulder blade).

The glenohumeral joint provides a wide range of motion, allowing you to move your arm in various directions.

In addition to shoulder flexion, other synovial joint movements like elbow and wrist extension may also be involved in raising your hand.

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In the kidney the specialized transport proteins that allow for very rapid fluid movement into and out of the cell are known as aquaporins.

Aquaporins are a family of integral membrane proteins that serve as channels for the rapid transport of water and other small solutes across the cell membrane. They are found in various organisms, including bacteria, plants, and animals, and play a crucial role in maintaining the balance of water and solute concentrations within and outside the cell. By facilitating the movement of water molecules through the cell membrane, aquaporins help regulate processes such as osmoregulation, cell volume regulation, and the release of certain hormones. Aquaporins are highly selective and only allow specific molecules, such as water and glycerol, to pass through while preventing the passage of ions and larger solutes.

This selectivity ensures that the transport of water and solutes occurs efficiently and rapidly, contributing to the proper functioning of cells and tissues. The presence and activity of aquaporins can be modulated by various factors, including pH, temperature, and the presence of certain molecules, allowing cells to adapt to changing environmental conditions and maintain homeostasis. In summary, aquaporins are specialized transport proteins that enable the rapid and efficient movement of water and small solutes into and out of cells, playing a vital role in maintaining cellular and organismal function.

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The result of the experiment that found no naloxone binding in mammalian intestinal muscle tissue suggests that opiate receptors in these tissues may be different from those found in the brain.

The lack of binding suggests that the receptor site may not be present or that it is present but does not recognize naloxone as a ligand. It is possible that the opiate receptors in the brain are unique to that organ and are not present in other parts of the body. Alternatively, it is possible that the opiate receptors in the intestines are different subtypes that are not responsive to naloxone.

Overall, this result suggests that opiate receptors may be distributed differently throughout the body and that their functions may vary depending on the location. Further research may be necessary to determine the exact nature of the opiate receptors in mammalian intestinal muscle tissue and their potential therapeutic applications. So therefore the result of the experiment that found no naloxone binding in mammalian intestinal muscle tissue suggests that opiate receptors in these tissues may be different from those found in the brain.

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You would anticipate to find a lot of species that are shared among several habitats in a region with high alpha diversity but low beta diversity. In other words, despite the large number of species present, the species composition across various ecosystems within that region would be very similar.

In a region where alpha diversity is high but beta diversity is low, you would expect to find a high number of species within each individual habitat or ecosystem, but with little variation in species composition between those habitats or ecosystems. This could indicate that the environmental conditions within the region are relatively uniform and can support a diverse array of species, but those species are not specialized to particular microhabitats or ecological niches. For example, a tropical rainforest with many different species of trees, birds, and insects, but where the same species of trees, birds, and insects are found throughout the forest. Overall, this scenario suggests a region with high biodiversity overall but with a lack of differentiation between individual habitats or ecosystems.

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The energy for the motor protein dynein comes from ATP (adenosine triphosphate) hydrolysis, a process in which ATP is broken down into ADP (adenosine diphosphate) and a phosphate group, releasing energy.

Dynein is a member of the ATPase family of motor proteins that can convert the chemical energy stored in ATP into mechanical work. This energy is used by dynein to move along the microtubule track, a network of protein filaments that form a part of the cytoskeleton of the cell, and to transport organelles, such as mitochondria or lysosomes, to different locations within the cell. The process of dynein-mediated transport is complex and regulated, involving a variety of accessory proteins and mechanisms that control the direction, speed, and specificity of the movement. Dynein moves towards the minus end of the microtubule, while another motor protein, kinesin, moves towards the plus end.

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Taxol is an anticancer drug that prevents cell division by targeting the microtubules, which are protein structures that play a crucial role in cell division.

During cell division, microtubules help to separate the chromosomes and distribute them evenly to each daughter cell. Taxol binds to the microtubules and stabilizes them, which prevents them from breaking down and causes the cell division process to halt. This results in the inhibition of cancer cell growth and proliferation.

Taxol works by binding to a specific site on the microtubules known as the beta-tubulin subunit. By stabilizing the microtubules, Taxol prevents the formation of the mitotic spindle, which is required for the proper segregation of chromosomes during cell division. This results in the arrest of the cell cycle and ultimately leads to the death of the cancer cells.

Furthermore, Taxol also induces apoptosis, or programmed cell death, in cancer cells. This is achieved by activating specific enzymes and pathways that lead to the fragmentation and degradation of cancer cells.

In summary, Taxol is an effective anticancer drug that prevents cell division by stabilizing microtubules and inhibiting the formation of the mitotic spindle. Its ability to induce apoptosis further enhances its therapeutic potential in the treatment of cancer.

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The change in volume during one respiratory cycle is: ΔV = 508 mL

Let V(t) be the total volume of air in the lungs at time t, measured in milliliters (mL).

The reserve and residual volumes of air that remain in the lungs occupy about 2015 mL, which is the volume of air in the lungs at the end of a respiratory cycle. Therefore, we can model the total volume of air in the lungs as a function of time using a sinusoidal function with a horizontal shift of 4 seconds and an amplitude of 1007.5 mL (half the difference between the maximum and minimum volumes):

V(t) = 1007.5 sin(π/2 * (t-4)) + 2015

Note that we use a horizontal shift of 4 seconds since a single respiratory cycle for an average human takes about 4 seconds. The sinusoidal function models the change in volume during a single respiratory cycle, and the constant term accounts for the residual volume of air that remains in the lungs at the end of a cycle.

This model assumes that the volume of air in the lungs varies sinusoidally over time with a constant amplitude and frequency. In reality, there may be variations in the amplitude and frequency due to factors such as breathing rate, lung capacity, and physical activity.

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Heat exchange between animals and their environment occurs through a variety of pathways, including conduction, convection, radiation, and evaporation.

Conduction is the transfer of heat between two objects in contact with each other, while convection is the transfer of heat between an object and its surrounding medium, such as air or water. Radiation is the transfer of heat through electromagnetic waves, and evaporation is the conversion of liquid to vapor.

All of these pathways can be regulated by the surface area of the animal, which determines how much heat can be exchanged. Animals will use a variety of adaptive strategies to minimize heat loss, such as increasing surface area or using countercurrent heat exchangers.

Countercurrent heat exchangers are specialized structures that allow for the efficient exchange of heat between two fluids, such as between the blood and the environment. These exchangers work by creating a thermal gradient, which reduces heat loss by allowing blood to be cooled or warmed at the same rate it flows through the exchanger.

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A neuron that primarily functions to connect other neurons is called an interneuron, also known as an association neuron.

Interneurons are found in between sensory neurons and motor neurons in the central nervous system, where they receive information from sensory neurons and transmit it to motor neurons.

Interneurons are responsible for integrating and processing information received from multiple sources, allowing for complex functions such as decision-making and movement coordination. They play a crucial role in various behaviors, such as learning, memory, and emotion regulation.

There are several types of interneurons, each with unique characteristics and functions. For example, some interneurons release inhibitory neurotransmitters, which decrease the likelihood of neighboring neurons firing. Others release excitatory neurotransmitters, which increase the likelihood of neighboring neurons firing.

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It is logical to hypothesise that the HIV-1 PIC is transported to the nuclear envelope through the microtubule network and enters the nucleoplasm through the nuclear pore in light of investigations with HIV and other viruses reproducing in the nucleus.

The HIV protein envelope (Env) attaches to the main cellular receptor CD4 and subsequently to a cellular coreceptor in order to infect cells. The infection is started when the viral and host cell membranes fuse as a result of this successive binding.

The HIV double-stranded DNA intermediate is inserted into the chromosomal DNA of a host cell by the HIV enzyme integrase. Today, HIV is a provirus. These authors contend that the primary method by which HIV-1 transmits and infects cells is endocytosis of viral particles.

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A common body shape that streamlines an organism in the marine environment is a flattened body that reduces drag and resistance as it moves through the water.

This body shape helps the organism to move efficiently and quickly, especially in fast-moving currents. By flattening their bodies, these organisms can reduce their surface area exposed to the water, which in turn reduces the amount of drag they experience as they move through the water. This streamlined shape also helps to increase stability, making it easier for these animals to maneuver and stay in place on the ocean floor. Some examples of organisms with flattened, streamlined bodies include rays, skates, and flounder. These animals have adapted to their environment by developing a shape that allows them to move effectively while minimizing energy expenditure.

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A student grabs a handout from the teacher and gets a painful paper cut. This sensation is a result of the activation of nociceptors, which are special sensory receptors found throughout the body.

These receptors are specifically designed to detect potential tissue-damaging stimuli, such as intense heat and pressure, and send signals to the brain so the body can respond appropriately. In this case, the paper cut has damaged the skin tissue and activated the nociceptors, leading to a painful sensation.

This sensation is further amplified by the neurochemical release of substance P, which is a neuropeptide that is released from the axon terminals of nociceptors and makes the pain sensation worse. As a result, the student is able to recognize the sensation of pain coming from the paper cut and take action to address it.

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"Asians are more commonly affected by lactose intolerance. Because certain populations are more commonly affected, lactose intolerance must have a genetic predisposition."

Lactose intolerance and Asians are more commonly affected by lactose intolerance. Because certain populations are more commonly affected, lactose intolerance must have a genetic predisposition. Additionally, intolerance towards lactose is a common problem in Asia due to the lack of a long history of dairy farming in many parts of the continent.

This has led to the evolution of the human body to adapt to a diet that does not include dairy products, resulting in lactose intolerance in many Asians.

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The receptors in the skin for light touch and the receptors in the nose for smell are both specialized sensory cells that are designed to respond to specific stimuli. In the case of touch receptors, they are activated by pressure or movement on the skin, while smell receptors are activated by airborne molecules that enter the nose. Both types of receptors are essential for our ability to perceive and interact with the world around us. Additionally, both types of receptors are connected to the nervous system and send signals to the brain, where they are processed and interpreted as touch or smell sensations.
Hi! The receptors in the skin for light touch and the receptors in the nose for smell have in common that they are both specialized sensory cells designed to detect specific stimuli. In the case of light touch, the skin receptors are called mechanoreceptors, which respond to mechanical pressure. In the case of smell, the receptors in the nose are called olfactory receptors, which detect chemical molecules in the air. Both types of receptors convert the detected stimuli into electrical signals, which are then transmitted to the brain for processing and interpretation.

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Natural selection is the process in which organisms that are better adapted to their environment tend to survive and reproduce more successfully than organisms that are less adapted.

The bean simulation demonstrates the role of natural selection and populations both predator and prey by showing how the prey population will increase when the predators are scarce and decrease when the predators are abundant.

The predator population also increases when the prey is abundant and decreases when the prey is scarce. This reflects natural selection in the wild, where only the best adapted organisms survive and reproduce.

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According to the given information DNA polymerase III reads the parent strand in a 3' to 5' direction, synthesizing the new strand in a 5' to 3' direction.

DNA polymerase III is a multi-subunit enzyme complex that is involved in DNA replication in prokaryotes such as bacteria. It is the main polymerase responsible for synthesizing the leading and lagging strands of the DNA molecule during replication.The DNA polymerase III holoenzyme is composed of several subunits, including the core enzyme (composed of α, ε, and θ subunits), the β sliding clamp, and several accessory proteins. The core enzyme has polymerase activity and is responsible for the synthesis of new DNA strands. The β sliding clamp helps to hold the DNA polymerase in place on the DNA template strand during replication.

DNA polymerase III works by adding nucleotides to the 3' end of a growing DNA strand. It can only add nucleotides in the 5' to 3' direction, which means that it synthesizes the new DNA strand in the opposite direction to the direction of the template strand.Overall, DNA polymerase III is a crucial enzyme in DNA replication, and its activity is essential for maintaining the accuracy and fidelity of the DNA replication process.

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When nutrients pass through the blood vessels in the small intestine and are distributed to cells throughout the body, this is referred to as absorption.

The small intestine is the primary site of nutrient absorption in the body. The lining of the small intestine is covered in small finger-like projections called villi, which greatly increase the surface area for nutrient absorption.

As food is broken down by enzymes, nutrients such as carbohydrates, proteins, fats, vitamins, and minerals are released and absorbed into the bloodstream through the walls of the small intestine.

Once in the bloodstream, nutrients are transported to the liver for processing and distribution throughout the body. The liver plays a vital role in regulating nutrient levels and ensuring that the body's cells receive a steady supply of the nutrients they need for growth, repair, and metabolism.

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The substances foreign to the host that can stimulate an immune response are known as antigens. Antigens are molecules or particles that the immune system recognizes as non-self and triggers an immune response to eliminate them.

These antigens can come from viruses, bacteria, fungi, parasites, or even from transplanted tissues and organs. When antigens enter the body, they interact with specialized cells of the immune system, called antigen-presenting cells, which then present them to other immune cells, such as T cells and B cells. These cells then produce specific molecules, such as antibodies and cytokines, that target and destroy the antigens. MHC proteins also play a critical role in presenting antigens to immune cells.
In contrast, Cytokines are signaling molecules that regulate immune responses, MHC proteins present antigens to T cells, and Antibodies are proteins produced by B cells to recognize and neutralize antigens.

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Phylogenetic evidence supports the conclusion that crocodiles are more closely related to birds than lizards based on molecular and morphological studies.

Molecular studies analyze genetic sequences, such as mitochondrial and nuclear DNA, to determine evolutionary relationships. These studies have shown that crocodiles and birds share more genetic similarities than crocodiles and lizards do, indicating a closer common ancestor between crocodiles and birds. Morphological studies focus on anatomical features, and the examination of fossils has provided evidence of a shared evolutionary history between crocodiles and birds.

For example, both groups have a semi-erect stance, a specialized respiratory system (uni-directional airflow), and a unique four-chambered heart. These features are not found in lizards, which further supports the idea that crocodiles are more closely related to birds. In summary, phylogenetic evidence from molecular and morphological studies demonstrates that crocodiles and birds share a closer common ancestor than crocodiles and lizards, confirming their closer relationship. These findings have led to the establishment of the Archosauria group, which includes crocodiles, birds, and their extinct relatives, highlighting their shared evolutionary lineage.

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In the given scenario, the German cockroach has the genotype bu bu cv cv, with bulging eyes (bu) and curved wings (cv) being recessive traits.

The genes are in repulsion, meaning the dominant and recessive alleles are on opposite homologous chromosomes. Due to genetic linkage, the alleles will be inherited together more frequently than expected by chance.
In this case, the most common gametes produced by this cockroach will contain the linked genes bu and cv. Since both traits are recessive, the alleles are less likely to be separated during recombination. Therefore, the most common gametes from this cockroach will have the combination of bulging eyes (bu) and curved wings (cv).

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The correct term for a cleft of the secondary palate that does not extend to the incisive foramen is "submucous cleft palate." This is a less severe form of cleft palate, where the muscles and bones in the roof of the mouth are not fully developed, but the skin covering the palate appears intact.

It is usually diagnosed by a combination of physical examination and speech evaluation, as children with this condition may experience speech difficulties or nasal-sounding speech. Treatment typically involves speech therapy and may require surgical intervention to correct any underlying muscle or bone abnormalities. Early detection and treatment can greatly improve outcomes for children with submucous cleft palate.
The correct term for a cleft of the secondary palate that does not extend to the incisive foramen is an "incomplete cleft palate." An incomplete cleft palate occurs when there is a split in the secondary palate, but it does not reach the incisive foramen, resulting in a less severe condition compared to a complete cleft palate. This type of cleft can affect an individual's speech and swallowing but is typically easier to manage and treat compared to a complete cleft palate.

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The "tentacles" on carnivorous Drosera plants and the THC-rich glands on Cannabis are both examples of glandular trichomes.

Trichomes are hair-like structures that are found on the surface of many plant species. Glandular trichomes are specialized trichomes that secrete various substances such as oils, resins, and digestive enzymes. In carnivorous Drosera plants, the glandular trichomes secrete a sticky substance that traps and digests insects. In Cannabis plants, the glandular trichomes produce cannabinoids such as THC and CBD, which are responsible for the plant's psychoactive effects. The size, shape, and distribution of glandular trichomes can vary widely between plant species and can be influenced by environmental factors such as light and temperature.

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The form of enzyme regulation described is called "proteolytic activation."

Proteolytic activation is a common mechanism for regulating enzymes, particularly digestive enzymes. In this mechanism, an enzyme is produced in an inactive form (called a zymogen or proenzyme) and must undergo a specific cleavage event to become active. In the case of chymotrypsin, it is produced in an inactive form in the pancreas and only becomes active in the intestines after being cleaved by trypsin. This ensures that the enzyme is not active in the pancreas where it could potentially harm the pancreas itself or other tissues. This mechanism of enzyme regulation is important for maintaining proper digestion and preventing damage to the body.

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The part of a membrane protein that is embedded within the interior of the lipid bilayer is most likely to be:

The transmembrane domain.

Membrane proteins can be classified into different categories based on their location in the lipid bilayer. The transmembrane proteins are embedded within the lipid bilayer, with some part of the protein protruding outside the cell and some part inside. The transmembrane domain is the part of the protein that spans the lipid bilayer and interacts with the hydrophobic tails of the lipids. This domain can consist of one or multiple alpha-helices or beta-sheets that form a stable structure to maintain the protein's position in the membrane. Therefore, the transmembrane domain is the most likely part of a membrane protein to be embedded within the interior of the lipid bilayer.

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Mutations in the DNA that codes for hemoglobin can result in abnormal hemoglobin, which may cause sickled red blood cells to carry less oxygen than normal red blood cells.

Hemoglobin is the protein responsible for carrying oxygen in red blood cells. The shape of normal hemoglobin allows it to easily bind and release oxygen as needed. However, mutations in the DNA that codes for hemoglobin can lead to the production of abnormal hemoglobin, such as in sickle cell anemia.

In sickle cell anemia, a single nucleotide change in the DNA sequence of the β-globin gene leads to the production of an abnormal hemoglobin molecule that tends to clump together and distort the shape of red blood cells. These distorted red blood cells are less able to carry oxygen and are more likely to get stuck in small blood vessels, leading to a variety of health problems.

Overall, mutations in the DNA that codes for hemoglobin can have serious consequences on the ability of red blood cells to carry oxygen.

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The process of bones increasing in thickness is known as appositional growth.

Appositional growth refers to the process by which bones increase in diameter or thickness throughout life. It involves the deposition of new bone tissue on the outer surface of existing bone tissue. This process is carried out by specialized bone cells called osteoblasts, which lay down new bone matrix on the surface of the bone. It occurs in response to mechanical stress and is essential for maintaining bone strength and integrity. It also helps to maintain proper bone proportions and prevent bone fractures. Epiphyseal plate closure, on the other hand, is related to the process of bones increasing in length.

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The blood supply to the large intestine is primarily provided by the superior and inferior mesenteric arteries, which are branches of the abdominal aorta.

The superior mesenteric artery gives rise to the right and middle colic arteries, while the left colic artery is a branch of the inferior mesenteric artery.

These arteries are important because they supply oxygenated blood to the colon, allowing it to function properly.

The right colic artery arises from the superior mesenteric artery and supplies the ascending colon.

The middle colic artery also arises from the superior mesenteric artery but supplies the transverse colon.

On the other hand, the left colic artery arises from the inferior mesenteric artery and supplies the descending colon.

It is important to note that the blood supply to the large intestine can be compromised in certain conditions, such as mesenteric ischemia, which is a serious condition that occurs when there is reduced blood flow to the intestine.

This can lead to tissue damage, inflammation, and even death of the intestinal tissue. Therefore, understanding the anatomy and function of these arteries is crucial in the diagnosis and treatment of various gastrointestinal disorders.

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The benefits of fats to the body are numerous, including limitless energy storage, cushioning for internal organ protection, and insulation to assist regulate body temperature. The transfer of fat-soluble vitamins (A, D, E, and K) is also aided by fats.

Fats. part of the body In times of starvation as well as during endurance exercise, fats provide energy. They are a crucial part of cell membranes and provide insulation and stress absorption for bones and organs. People require calcium to develop and maintain healthy bones and teeth.

Additionally, it is crucial for other bodily processes like blood circulation and muscle control. Calcium must be absorbed from the foods we eat since it cannot be produced by the body.

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During interphase of the cell cycle, the cell undergoes a period of growth and DNA replication. The DNA in the nucleus is in a condensed form called chromatin, and it replicates to form two identical copies of each chromosome, known as sister chromatids. These sister chromatids are held together by a protein structure called the centromere.

The nuclear membrane also remains intact during interphase, allowing for proper cell functioning and protection of the genetic material. Additionally, the cell prepares for division by replicating organelles and cytoplasmic components, ensuring that each new cell will have the necessary machinery to function properly.

Overall, interphase is a crucial period in the cell cycle as it allows the cell to prepare for division by replicating genetic material and ensuring proper functioning of organelles. By the end of interphase, the cell is ready to enter the next stage of the cell cycle, known as mitosis or meiosis.

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When a metabolically stressed epithelial cell expresses the protein MIC-A on its surface and interacts with a natural killer (NK) cell, the outcome of this interaction can be the killing of the stressed cell by the NK cell.

MIC-A is a protein that is normally only found on the surface of cells that have been infected with a virus or have undergone a transformation, but can also be expressed on cells that are metabolically stressed or damaged.

NK cells are a type of white blood cell that plays a critical role in the innate immune response.

They are able to recognize and kill cells that have become abnormal, such as cells infected with a virus or that have undergone malignant transformation.

When an NK cell encounters a cell that has expressed MIC-A, it recognizes this as a signal of cellular stress or damage and can trigger the release of cytotoxic granules that contain perforin and granzyme.

These granules enter the stressed cell and induce apoptosis, or programmed cell death, leading to the elimination of the damaged or infected cell.

Overall, the interaction between a metabolically stressed epithelial cell expressing MIC-A and an NK cell can result in the elimination of the stressed cell, helping to prevent the spread of infection or the development of cancer.

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