has bipolar disorder. what is true about her brain glucose metabolism rates? group of answer choices

Metabolite levels in cells. Genome sequencing involves determining the order of nucleotides in a genome. So, the correct answer is option B.

This sequence can reveal details about non-coding areas that might be involved in controlling gene expression, as well as information on the position and structure of genes.

In particular, the sequence can be used to recognise non-coding genes like rRNA and others, as well as genes that code for proteins.

Identifying non-coding repetitive sequences, including transposable elements, which are known to play a role in gene regulation, is also possible using it.

The sequence can reveal details about the makeup and operation of genes, but it is unable to reveal details about the concentrations of metabolites in cells, which can only be determined experimentally.

Therefore, the answer that cannot be determined from a genome sequence is B. Metabolite levels in cells.

Complete Question:

In functional  genomics, biologists use sequence information to identify the functions of various regions of genomes. Which of the following CANNOT be obtained from a genome sequence?

A. rRNA genes

B. Metabolite levels in cells

C. Genes encoding for transcription factors

D. Noncoding repetitive repeats

E. Amino acid sequences of proteins

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Chromosome walking is used mainly to isolate a gene when the sequence of the gene is known. view available hint(s)for part b chromosome walking is used mainly to isolate a gene when the sequence of the gene is known. true

Chromosome walking is often used when researchers want to study a specific gene, but they do not have a physical map or clone of the gene. By identifying the neighboring sequences of the known gene, researchers can use these sequences to design new primers or probes to isolate and clone the target gene.

In summary, chromosome walking is an effective technique for isolating a gene when the sequence of the gene is known. It allows researchers to move along the chromosome to identify and isolate the target gene, even if there is no physical map or clone available.

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The given statement is true. The mitochondria and chloroplasts are believed to have evolved through endosymbiosis, where free-living prokaryotic organisms were engulfed by larger eukaryotic cells.

It is believed that the mitochondria evolved from an ancestral aerobic prokaryote that was engulfed by an ancestral eukaryotic cell, while the chloroplasts evolved from an ancestral photosynthetic prokaryote that was engulfed by an ancestral eukaryotic cell. Over time, these endosymbiotic relationships became mutually beneficial, leading to the development of organelles with specialized functions within eukaryotic cells. The smaller cell became a mitochondrion or chloroplast, providing the host cell with energy or carrying out photosynthesis, respectively.

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An antibody's Fc region can be bound by A) antibodies and B) macrophages. T helper cells, B cells, and CTLs do not typically bind to the Fc region of antibodies.

The Fc region of an antibody is the tail region of the antibody molecule that does not bind to antigens but can bind to other immune system components. The Fc region can bind to Fc receptors on the surface of various immune cells, including macrophages and other phagocytic cells. The binding of antibodies to Fc receptors on the surface of these cells can trigger phagocytosis and destruction of the targeted pathogen.

Additionally, antibodies can also bind to Fc regions of other antibodies through a process called antibody cross-linking. This process can lead to the formation of antibody complexes, which can be recognized and removed by phagocytic cells. T helper cells recognize antigen fragments presented by MHC molecules on the surface of antigen-presenting cells, while B cells and CTLs recognize and bind to specific antigen molecules directly.

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The entrainment of our body's circadian rhythm with environmental light-dark cycles is mediated by specialized retinal ganglion cells (option c) in the retina, which are sensitive to the blue light spectrum.

These cells send signals to the suprachiasmatic nucleus (SCN) in the brain, which acts as our body's internal clock, regulating our sleep-wake cycle and other physiological processes. The SCN then sends signals to the pineal gland, which releases the hormone melatonin, helping us to feel sleepy at night and awake during the day. While rod and cone photoreceptors in the retina also play a role in visual perception, they are not directly involved in the entrainment of our circadian rhythm.

These specialized retinal ganglion cells, known as intrinsically photosensitive retinal ganglion cells (ipRGCs), contain the photopigment melanopsin and are responsible for detecting environmental light levels. They then send this information to the suprachiasmatic nucleus (SCN) in the hypothalamus, which acts as the body's "master clock," regulating various physiological processes and our sleep-wake cycle.

Therefore, the correct answer is option c. specialized retinal ganglion cells.

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As biomass increases, the concentration of toxins increases. This is an example of biomagnification.

Toxin concentrations in the food chain can rise through a process called biomagnification. Each organism ingests an increasing amount of the toxin as it moves up the food chain, eventually increasing concentrations at higher trophic levels.

Because creatures at higher trophic levels eat many organisms at lower trophic levels, there is a bigger buildup of poisons as a result.

An illustration of biomagnification is the cake-shaped trophic pyramid above, where the concentration of DDT rises with each higher trophic level.

Higher trophic levels (like humans) are predicted to contain the most DDT, whereas the primary producer (plants) is predicted to have the lowest concentration.

Complete Question:

The  cake-shaped trophic pyramid above shows how DDT concentrations increase at higher trophic levels. The source of the contaminate is not shown in the image. Based on the image above, the primary producer (plants) is expected to contain the lowest concentration of DDT. Using the principle of biomagnification, higher trophic levels (such as humans) are expected to contain the largest amount of DDT. In short, As biomass increases, the concentration of toxins increases. This is an example of __________.

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Charlie has a break in the shaft of his thigh bone. He broke the diaphysis. The cells that participate in the process of bone deposition are osteoblasts.

These cells are responsible for synthesizing and depositing new bone tissue during bone growth and repair. When bone is injured, such as in the case of Charlie's broken thigh bone, osteoblasts migrate to the site of the injury and begin depositing new bone tissue to help heal the break. Over time, the deposited bone tissue is remodeled and strengthened by other bone cells, such as osteocytes and osteoclasts.

The human skeletal system is composed of bones, which provide support, protection, and movement to the body. Bones are living tissues that are constantly undergoing growth, repair, and remodeling. Bone deposition is a process by which new bone tissue is synthesized and deposited, while bone resorption is the process by which old or damaged bone tissue is removed.

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The gut is innervated by both the sympathetic and parasympathetic nervous systems, and each system has opposite effects on gut motility and secretion. Sympathetic stimulation reduces the intrinsic activity of the gut, causing a decrease in gut motility and secretions.

This occurs due to the release of norepinephrine from sympathetic nerve endings that bind to alpha-adrenergic receptors on smooth muscle cells in the gut. This leads to smooth muscle contraction and a decrease in gut motility.

On the other hand, parasympathetic stimulation increases the intrinsic activity of the gut, leading to an increase in gut motility and secretions. This occurs due to the release of acetylcholine from parasympathetic nerve endings that bind to muscarinic receptors on smooth muscle cells in the gut. This leads to smooth muscle relaxation and an increase in gut motility.

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Enzyme supplements designed to digest gluten are not effective in treating celiac disease because the damage caused by the patient's immune response occurs in the small intestine, not in the stomach. Gluten needs to be broken down into smaller components before it reaches the small intestine where it triggers the immune response.

Enzymes taken orally are not able to survive the acidic environment of the stomach and are therefore unable to reach the small intestine where they are needed to break down gluten. Additionally, gluten is a complex protein that is difficult to break down completely, making it challenging to design an enzyme supplement that can effectively break it down. In addition to this, the immune response in celiac disease is complex and cannot be fully addressed by simply breaking down gluten proteins. Therefore, while enzyme supplements may be helpful in some cases, they cannot be relied upon as the sole treatment for celiac disease. A strict gluten-free diet is currently the only effective treatment for this autoimmune disorder.

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The ecosystem most likely regain stability the prairie dog population would begin to prey on the rattlesnakes.Hence, the correct option is D.

In a predator-prey relationship, the populations of predators and prey are interconnected and affect each other's dynamics. If the prairie dog population starts to increase, it would result in an increase in the availability of prey for rattlesnakes, leading to increased predation pressure on rattlesnakes.

As a result, the rattlesnake population may start to decrease, as they are being preyed upon by the increasing prairie dog population. This would help restore the balance in the ecosystem and regain stability by regulating the prairie dog population growth and maintaining a healthy predator-prey relationship.

Hence, the correct option is D.

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The color coat of the cat would be black as the donor cat because the color coat does not depend on the coat color of the surrogate mother.

Surrogacy is a process in which a woman carries a pregnancy and gives birth to a child on behalf of another person or couple. This can be done using the intended mother's or a donor's eggs, fertilized with the intended father's sperm, or using a donated embryo.

Surrogacy may be used in cases where the intended mother is unable to carry a pregnancy due to medical reasons. It is also used when a same-sex male couple or a single man wishes to have a biological child.

It may also be used in cases where the intended parents have experienced multiple failed attempts at assisted reproductive technologies, such as in vitro fertilization (IVF).

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The human body's immune system is composed of both nonspecific and specific responses to pathogens.

Nonspecific responses are the body's first line of defense, which involve physical barriers such as skin and mucous membranes, as well as chemical barriers such as enzymes, antibacterial proteins, and cytokines. These create an environment hostile to potential pathogens. Specific responses are the body's second line of defense and involve the immune system recognizing and targeting specific pathogens. This involves lymphocytes, which recognize foreign molecules and then produce antibodies specific to those molecules.

When a pathogen is initially encountered, the body's nonspecific defenses are activated, and the specific response of the immune system is primed. This initial exposure allows the body to prepare for a quicker response should the same pathogen re-enter the body. This is known as immunological memory and is the basis of vaccines. When the same pathogen is encountered a second time, the immune system can recognize it more quickly, and the body can produce more antibodies and other immune molecules, resulting in a quicker response.

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Dynamic instability is a phenomenon observed in microtubules, which refers to their ability to switch between phases of growth and shrinkage.

This behavior is crucial for many cellular processes, including cell division and intracellular transport. Dynamic instability in microtubules stems from the intrinsic capacity of tubulin molecules to hydrolyze GTP (guanosine triphosphate) bound to them. During microtubule assembly, GTP is bound to tubulin subunits, which helps to stabilize the microtubule lattice.

However, as GTP hydrolyzes to GDP (guanosine diphosphate) after assembly, the microtubule destabilizes, resulting in shrinkage or depolymerization. The process of GTP hydrolysis in tubulin allows for rapid and reversible changes in microtubule structure and function, contributing to their dynamic behavior.

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Answer: The suffix that means surgical crushing is: otripsy | A medical term that means pertaining to the seminal vesicles is Vesicular.

The suffix indicating surgical crushing is '-tripsy', as in lithotripsy. The term referring to the seminal vesicles is 'seminal'.

The suffix that means surgical crushing is -tripsy. An example of a medical term using this suffix is lithotripsy, which means surgical crushing of stones (usually in the kidney or ureter).

A medical term that means pertaining to the seminal vesicles is seminal. Seminal vesicles are glands that secrete a fluid that forms part of semen, and a condition affecting these would be referenced using the term 'seminal'.

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Simple multicellular organisms are typically made up of a single cell type and are much less complex than complex multicellular organisms.

Generally, simple multicellular organisms do not possess specialized organs or a digestive system. Instead, they rely on diffusion and osmosis to take in nutrients and expel waste. They also lack a nervous system and have no way of communicating with the outside world.

In contrast, complex multicellular organisms have specialized organs and a digestive system. They also have a nervous system that allows them to sense their environment and communicate with other organisms. Complex multicellular organisms can also reproduce sexually, while simple multicellular organisms divide by mitosis. Additionally, these organisms have various types of cells that work together to form tissues and organs. This allows them to carry out more complex functions such as locomotion, communication, and reproduction.

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A blood fluke enters its primary host by penetrating the host's skin when the host is exposed to contaminated water. The fluke then migrates through the bloodstream to reach its target location, where it feeds and reproduces.

The primary host of a blood fluke is typically a human or other mammal. A blood fluke enters its primary host through the following process:

1. The blood fluke, also known as Schistosoma, starts as a free-swimming larva called a cercaria.
2. The cercaria comes into contact with the primary host's skin when the host is exposed to contaminated water.
3. Upon contact, the cercaria penetrates the host's skin by releasing enzymes that break down the skin's outer layer.
4. Once the cercaria has entered the host's body, it transforms into a different stage called a schistosomule.
5. The schistosomule migrates through the host's bloodstream and matures into an adult blood fluke.
6. The adult blood fluke will eventually reach its target location in the host's blood vessels, where it feeds on blood and reproduces.

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High-pitched gurgles head over the right lower quadrant are A. A sign of increased bowel motility.

The reason behind high-pitched gurgles:
The high-pitched gurgles heard over the right lower quadrant are likely the result of peristalsis, which is the muscular contractions that move food and waste through the digestive tract. Increased bowel motility often results in more frequent bowel movements, while decreased bowel motility can lead to constipation.

Abdominal cramping may also be a symptom of increased bowel motility, as the muscles work harder to move food and waste through the intestines. However, in this case, the gurgles alone are not necessarily indicative of abdominal cramping. These sounds indicate that there is an increase in the movement of food through the digestive tract, which is associated with peristalsis. Increased bowel motility may sometimes lead to abdominal cramping and more frequent bowel movements.

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The statement that is not true regarding critical periods is: d) Critical periods refer to times when nutritional deficiencies have little effect on the developing fetus.

This statement is false because critical periods are times during development when the developing fetus is particularly sensitive and vulnerable to the effects of environmental factors, including nutritional deficiencies.

During critical periods, the developing fetus may be at risk of developing structural or functional abnormalities or long-term health problems. Therefore, it is essential for pregnant women to ensure they receive adequate nutrition and avoid exposure to harmful substances during critical periods of fetal development.

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Full Question: Which of the following statements is not true regarding critical periods?

a) Critical periods refer to times when the embryo or fetus is susceptible to irreversible harm if the mother is malnourished or exposed to toxins.

b) Critical periods refer to times when major organs and vital systems are forming and developing rapidly.

c) Critical periods refer to periods of intense or accelerated embryonic or fetal development.

d) Critical periods refer to times when nutritional deficiencies have little effect on the developing fetus.

The pair of terms that correctly matches a cell or group of cells with its ability to differentiate into different specialized cells is "stem cell" and "pluripotency" or "multipotency."

Stem cells have the unique ability to differentiate into various specialized cell types in the body, and pluripotent stem cells can give rise to almost all cell types, while multipotent stem cells can differentiate into a limited number of cell types within a specific lineage.

Embryonic stem cells are a type of stem cell that are derived from the inner cell mass of a developing embryo and have the ability to differentiate into any cell type in the body. The term "pluripotent" is used to describe this ability to differentiate into all three germ layers of the developing embryo, which in turn give rise to all the different cell types in the body.

Other types of stem cells, such as adult stem cells, have a more limited ability to differentiate into different cell types, and are referred to as "multipotent" or "unipotent" depending on the extent of their differentiation potential.

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The endocrine system is the system of glands, each of which secretes a type of hormone directly into the bloodstream to regulate the body.

When there is a marked reduction in plasma proteins due to liver failure, this can affect the endocrine system in a number of ways. First, it can lead to an imbalance in hormone production, as diminished protein levels can reduce the production of hormones.

Additionally, the decrease in plasma proteins can impede the effectiveness of hormones, as proteins are necessary for them to be transported throughout the body. Finally, the decrease in plasma proteins can affect the metabolism of hormones, as proteins are necessary for the uptake, storage, and utilization of hormones.

Therefore, liver failure can have a detrimental effect on the endocrine system by disrupting the production, transportation, and metabolism of hormones.

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Interstitial fluid is collected by lymphatic capillaries and transported through lymphatic vessels to lymph nodes, where it is filtered and processed before being returned to the bloodstream via the thoracic duct or the right lymphatic duct.

Lymph originates as interstitial fluid, which is the fluid that surrounds cells in tissues. This fluid contains waste products, nutrients, and other substances that need to be removed from tissues. The interstitial fluid is collected by lymphatic capillaries, which are thin-walled vessels that are permeable to fluids and small particles.

These capillaries merge to form larger lymphatic vessels, which eventually drain into either the thoracic duct or the right lymphatic duct. The thoracic duct is the largest lymphatic vessel in the body and drains lymph from the left side of the body and the lower body.

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Hard wheat has a higher (d) protein content than soft wheat. The correct option is option d).


Hard wheat is characterized by its high protein content, specifically gluten, which is essential for providing structure and elasticity in baked goods like bread. This high protein content allows the dough to rise well and maintain its shape. On the other hand, soft wheat has a lower protein content, making it more suitable for delicate pastries and cakes, where a lighter texture is desired.

In summary, the main difference between hard and soft wheat lies in their protein content, with hard wheat having a higher protein content than soft wheat. This distinction makes each type suitable for different culinary applications, with hard wheat being ideal for bread-making, and soft wheat being better for pastries and cakes.

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If a patient undergoes the current gene-modifying treatment for sickle cell disease, it is likely that their future offspring will not inherit the disease-causing mutation.

This is because gene editing tries to fix the exact  inheritable  disfigurement that causes sickle cell  complaint in the case's DNA, including  origin cells that  produce eggs or sperm. As a consequence, their  kiddies will inherit the repaired gene, lowering or  barring the liability of inheriting the  complaint- causing mutation.

It's  pivotal to emphasize,  still, that gene- editing technology is still in its early phases, and there may be  unanticipated issues or restrictions in its use. The current gene- editing  remedy for sickle cell  complaint entails utilising CRISPR- Cas9 to alter the case's own hematopoietic stem cells( HSCs) to make sickle-free red bloodcells.

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In their adult form, Tunicates lack the following major characteristic of Chordates: option D- Notochord and dorsal nerve cord.

Tunicates, also known as sea squirts, are marine animals that belong to the phylum Chordata. However, while they possess several chordate characteristics during their larval stage, such as a notochord and dorsal nerve cord, they typically lose these characteristics in their adult form.

One characteristic that Tunicates do retain in their adult form is the pharyngeal gill slits, which are a hallmark feature of chordates. These slits are used for filter feeding and gas exchange in Tunicates.

Additionally, Tunicates have a pharynx, which is another characteristic of chordates. However, unlike other chordates, Tunicates lack a fully developed mouth and anus. Instead, they have an oral siphon and atrial siphon, respectively, which are used for feeding and waste expulsion.

Therefore, the correct answer is D. notochord and dorsal nerve cord.

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'ER stress' can be caused by an accumulation of misfolded proteins in the ER, which can compromise ER function. The UPR is one of the unique signalling pathways that the ER activates in response. The IRE1, PERK, and ATF6 proximal sensors work in concert to modulate the UPR.

Misfolded protein buildup and aggregation in the endoplasmic reticulum (ER) hinder normal cellular function and can be toxic, resulting in cell death. Long-term production of improperly folded proteins causes ER stress, which sets off a series of events known as the unfolded protein response (UPR). A common cellular occurrence is protein misfolding, which can be brought on by a variety of factors including genetic mutations, translational mistakes, aberrant protein modifications, heat or oxidative stress, and incomplete complex forms.

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The concept of gene flow is demonstrated when a cow is driven off from its herd, joins another herd, and reproduces. When the cow contributes to the gene pool of the new herd, genetic variation most likely increases.

The concept of gene flow is demonstrated when a cow is driven off from its herd, joins another herd, and reproduces. When the cow contributes to the gene pool of the new herd, genetic variation most likely increases. This is because gene flow introduces new genetic material from one population to another, leading to increased diversity within the gene pool.

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Any process that uses water and then returns it to Earth far from its source is known as long-distance water transfer.

Long-distance water transfer involves the diversion of water from its natural sources, such as a river, lake, or reservoir, and transporting it through a network of pipelines, canals, or tunnels to areas where it is needed for various purposes, such as agriculture, industrial use, or domestic consumption.

The main components of long-distance water transfer include collection, conveyance, distribution, and discharge. The collection involves obtaining water from the source, which may require the construction of dams or other infrastructure.

Conveyance is the process of transporting water through pipelines, canals, or tunnels, while distribution refers to the allocation of water to end users. Finally, discharge is the return of the used water to the environment, typically far from its original source.

Long-distance water transfer can provide numerous benefits, such as alleviating water scarcity, supporting economic development, and improving the quality of life for people in water-stressed regions.

However, it can also have environmental impacts, including disrupting ecosystems, altering natural water flows, and contributing to the loss of biodiversity.

In summary, a process that uses water and returns it to Earth far from its source is known as long-distance water transfer. This process involves the collection, conveyance, distribution, and discharge of water to meet the needs of various users while managing the associated environmental impacts.

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It's important to note that the impact of America's foreign policy on people in India can be complex and multifaceted, with both positive and negative consequences depending on the specific policy decisions and their implementation.

What is Work?

Work, in the context of physics and mechanics, is defined as the transfer of energy that occurs when an object is moved against a force over a distance. It is the application of force to move an object over a certain distance in the direction of the applied force.

There are several ways in which America's foreign policy can affect people in India, including:

Economic and trade policies: America's foreign policy decisions on economic and trade matters, such as tariffs, sanctions, and trade agreements, can have direct or indirect impacts on India's economy.

Immigration policies: U.S. immigration policies, including visa regulations and quotas, can affect the movement of people between India and the U.S.

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Would expect to observe some responses with your nervous system that allow you to be prepared to either fight or flee from the perceived danger of your friend jumping out and scaring you.

Hi! I'm happy to help you understand what would happen with your nervous system in this situation. When your friend jumps out and scares you, your nervous system will go through a series of reactions, primarily involving the activation of your sympathetic nervous system and the release of certain neurotransmitters and hormones.
1. Initial response: When your friend suddenly scares you, your sensory receptors detect the unexpected stimulus and send a signal to your brain through sensory neurons.
2. Activation of the sympathetic nervous system: In response to the signal, your brain activates the sympathetic nervous system, which is responsible for the "fight or flight" response. This helps prepare your body to react quickly to potential danger.
3. Release of neurotransmitters: Neurotransmitters like adrenaline (epinephrine) and norepinephrine are released into your bloodstream. These chemicals increase your heart rate, blood pressure, and breathing rate to provide more oxygen and energy to your muscles.
4. Physical reactions: You might experience increased muscle tension, faster reflexes, and heightened awareness as your body prepares to respond to the threat.
5. Deactivation of the parasympathetic nervous system: The activation of the sympathetic nervous system also suppresses the parasympathetic nervous system, which is responsible for maintaining homeostasis and promoting relaxation. This suppression further enhances your body's ability to react to the perceived threat.
Once you realize that it was just a friend scaring you and not an actual danger, your brain will then initiate the process of calming down, and the parasympathetic nervous system will be reactivated to return your body to its normal state.

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