The dopamine hypothesis of schizophrenia is a structure, accrediting indications of schizophrenia to a distressed and agitated dopaminergic indicator transduction. The growth of enriched antipsychotic medicines was directed by a hunt for dopamine blockers founded on the notion that schizophrenia is, partly, a hyperdopaminergic state. So from the choices given above, it can be concluded that, drugs that block the effects of dopamine in the brain reduce or eliminate symptoms of schizophrenia.
Final answer:
The dopamine hypothesis of schizophrenia is supported by evidence that antipsychotics, which block dopamine, alleviate symptoms, and that amphetamines, which increase dopamine, can induce psychotic symptoms. Amphetamines do not decrease dopamine levels but rather increase them.
Explanation:
The dopamine hypothesis of schizophrenia suggests that symptoms of the disease are related to the dysfunction of dopamine neurotransmission in the brain. Two of the findings that support the dopamine hypothesis are that drugs which block dopamine effects reduce symptoms of schizophrenia and that amphetamines, which increase dopamine release and block its reuptake, can induce psychosis resembling the positive symptoms of schizophrenia. Amphetamines do not decrease dopamine but rather increase its levels, which can produce symptoms similar to the positive symptoms observed in schizophrenia, not the negative ones.
Antipsychotic medications, known as dopamine antagonists, help treat schizophrenia by decreasing dopamine neurotransmission. This is accomplished by the drugs binding to dopamine receptors, but without activating them, effectively blocking the neurotransmitter's effects and reducing the symptoms of the disease. On the contrary, amphetamine-induced psychosis, which is more common when there is an increase in dopamine activity, mimics the positive symptoms of schizophrenia such as hallucinations and delusions.
What is the mechanism by which small, benign neoplasms arising from endocrine organs produce deleterious affects on the patient?
A scientist is trying to determine the relationship between clams , snails , and squids. When she generated a molecular clock he is suprised to see that clams and squid are more closely related than clams and snails which did the molecular clock data show
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Triangle CDE is translated down and to the right, forming triangle C'D'
e. Which congruency statement is correct?
a. ΔDCE ≅ ΔD'E'C'
b. ΔDCE ≅ ΔD'C'E'
c. ΔEDC ≅ ΔC'D'E'
d. ΔEDC ≅ ΔC'E'D'
Option B is correct.
b. ΔDCE ≅ ΔD'C'E'
Explanation:Triangle is a shape has three angles so when we translated it down It will become as,
CD ≅ C'D'CE ≅ C'E'DE ≅ D'E'SO, It will make three different kinds of triangles, That is why It is named as triangle and Option B is correct.
Cells perform many functions in living organisms. Which of the following processes occur in cells?
which characteristic could be observed in an organism classified in kingdom protista
Aggressive forms of breast cancer are resistant to taxol chemotherapy. in these cancers, the gene encoding a protein called stathmin is overexpressed. to investigate the mechanism of action of stathmin, investigators measured tumor volume over time in mice with aggressive cancers under three conditions: no treatment (control), taxol treatment, and taxol treatment with stathmin gene expression turned off (taxol + δstathmin). their results are shown below. use these results to hypothesize how the stathmin protein affects microtubule stability.
Further explanation
Microtubules or microtubules are tubes composed of microtubulins which are about 37 nm in diameter and have a length. more robust than actin, microtubules regulate the position of organelles in cells. Microtubules are divided into two, namely singlet microtubules and doublet microtubules. Microtubules have two ends, the negative end connected to the microtubule regulating center, and the positive end near the plasma membrane. Organelles can glide along microtubules to reach different positions in the cell, especially during cell division.
Microtubules are formed from globular proteins called tubulin, each tubulin molecule is a heterodimer consisting of two globular subunits that are tightly bound. Both have nearly the same size, one of each type joining non-covalently
to form a dimer. Dimers are the building blocks for erecting microtubules. One by one the dimers form a cylindrical wall in the shape of a helix. The microtubules lengthen by adding molecular ulcules at the edges.
In addition to being a tubulin homodimer association, microtubules also associate with other proteins, namely MAP protein (microtubule associated protein or protein associated with microtubules! during cell division (microtubular interphase).
MAP (a group of proteins that bind and stabilize microtubules). Similar to two classes of chemicals that change microtubules, MAPS can stabilize microtubules. Therefore, the expression of this variable protein among various types of dangerous human diseases and between individual patients with the same type of cancer has implications for results in chemotherapy using targeting microtubule agents.
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Class: College
Subject: Biology
Keywords : Microtubules,Dimer, Tubulin, Protein
The smell of a mouthwash that repeatedly precedes the experience of a painful dental procedure first begins to trigger a conditioned anxiety response during the process of
A 73-year-old client has been brought to the emergency department by the client's adult children due to abrupt and uncharacteristic changes in behavior, including impairments of memory and judgment. the subsequent history and diagnostic testing have resulted in a diagnosis of delirium. which teaching point about the client's diagnosis should the nurse provide to the family?
In an ecosystem, a deer consumes grass. What percentage of energy will the deer acquire from the grass?
Answer:
10% of total energy available in grass.
Explanation:
The energy transfer in an ecosystem occurs through the food chain and follows the 10% law and the second law of thermodynamics. Accordingly, during the transfer of energy from one trophic level to other, only 10% of energy is transferred and the rest 90% is lost as metabolic heat.
Hence, the grass will use 90% of its total energy content in respiration and this energy will be lost as heat to the surroundings. Only 10% of the energy of grass will be available for deer.
what is the greatest benefit the body receives from cardiorespiratory Fitness
Magine you performed a metagenomic study in which you obtained a sample of water from the huron river, isolated dna from the water sample and sequenced it using next generation sequencing on a new pacbio system, which allows to sequence fragments up to 5 kb
Which part of the cell surrounds the cell and allows molecules in and out this cell part also has holes in it and is said to be semi permeable?
List the six types of essential nutrients (20.0 points)
An organism's _______is the way its phenotype is expressed
Think about how diet and weight-loss companies advertise. How do they use bias to sell their products? How would you use skepticism to evaluate the data that these companies use in their advertisements?
Diet and weight-loss products use heavy bias in their advertisements. They generally claim that they are the fastest or the only way for effective weight loss. They also often use before-and-after photos as evidence to show how people change by using their products. Most of the time, they show only the body of the person, so it’s questionable whether the before-and-after photos are even of the same person. If they show the results of a research study, we can check who funded the study. If the diet or weight-loss company founded the study, then we can check whether an unbiased group replicated the study before accepting it as a fact. If not, we can see how well the study was designed and whether the company controlled other factors such as the diet or exercise of the participants.
if a solution is basic what is true about the hydroxide ion concentration
What is the sequence of the mrna made from the gene aaacaggtccca?
Which of the three primary germ layers generates most of the cells in the developing mammalian forelimb? which germ layer generates the neural tube?
The mesoderm generates most of the cells in the developing mammalian forelimb, while the ectoderm is responsible for forming the neural tube.
Explanation:The developing mammalian forelimb is primarily generated by the mesoderm, which is one of the three primary germ layers. The mesoderm is responsible for giving rise to the muscle cells and connective tissue in the body, including those present in the limbs. For the neural tube, its formation is credited to the ectoderm, another germ layer. The ectoderm specializes in forming the nervous system as well as the epidermis and other tissues.
Direction of embryonic development such as gastrulation and organogenesis are orchestrated by the three primary germ layers: the ectoderm, mesoderm, and endoderm. Each layer has a specific role in producing various tissues, organs, and systems necessary for building a complex organism.
What other type of cell has a cell wall?
A patient says to the nurse, "i once enjoyed going to parks and museums with my family but that is not fun anymore." how would the nurse document this complaint?
Explain why your results of the optimal ph of the lactase enzyme make sense for the human enzyme? explain the results in terms of the structure and function of proteins.
Final answer:
The optimal pH of the lactase enzyme is 6.5, which reflects its evolved functionality in the human small intestine. Protein structure is affected by pH, with ionic bonds forming optimally at this pH, allowing the enzyme to effectively hydrolyze lactose. Lactase persistence in some human populations is an evolutionary adaptation, enabling continued lactose digestion past weaning.
Explanation:
Optimal pH of Lactase and Protein Structure
The optimal pH for the human lactase enzyme is around 6.5. This pH level makes sense for the human enzyme because it has evolved to operate efficiently under the conditions found in the human small intestine, where lactase typically functions. The structure of proteins, including enzymes, is highly sensitive to changes in pH. At extremes of pH, the ionic bonds that maintain the protein's structure can be disrupted, leading to a change in the shape of the enzyme, also known as denaturation, and a loss of function.
The side chains of amino acids in the protein can gain or lose protons depending on the pH level, altering their charge. Ionic bonds between charged side chains can form or be disrupted by changes in pH. When the pH is optimal, these ionic bonds contribute to the stability of the enzyme's structure and enable it to bind to lactose efficiently, facilitating its proper function of hydrolyzing lactose into glucose and galactose.
Lactose intolerance occurs when an individual can no longer effectively produce lactase after weaning, leading to an inability to digest lactose and resulting in gastrointestinal discomfort when lactose-containing products are consumed. Interestingly, some populations have developed lactase persistence, likely as an adaptation to dairy farming, allowing them to continue digesting lactose into adulthood.
The porphyrin ring of chlorophyll contains the element ___ and the role of the ring is to
The porphyrin ring of chlorophyll contains magnesium and is essential for absorbing light and facilitating electron transfer in the process of photosynthesis.
The porphyrin ring of chlorophyll contains the element magnesium and the role of the ring is to absorb visible light and facilitate electron transfer during photosynthesis. Porphyrins are a group of organic compounds that are crucial to aerobic life, with a structure that supports a highly conjugated system allowing for light absorption.
In particular, the chlorophyll molecule, which gives plants their green color, is composed of a porphyrin ring and a long phytol tail. This molecule is at the heart of the photosynthetic process, capturing light energy and transferring it through a series of redox reactions to ultimately drive the synthesis of carbohydrates from carbon dioxide and water.
What is the name for networks of health care providers that directly provide all or most of a person's health care for a yearly fee?
Are polar bodies visible in your prepared slide of a cat ovary?
A segment of DNA has the following sequence: TTAAGGCC. Which sequence of bases would be found on the complementary strand of mRNA?
The complimentary strand of MRNA would be AAUUCCGG.
Answer:
the answer is AAUUCCGG
and don't worry I guessed and the answer right!
hope this helps
Explanation:
Briefly discuss why each of the three common forms of galactosemia involves impaired utilization of galactose. part a which metabolic process is blocked in each condition?
Osteons are the basic organizational units of
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A plant that stores water in its tissues is called a _____.
succulent
shrub
grass
weed
According to the author of passage 1, one of the reasons why dodo birds were so large is that they choose 1 answer: (choice
a.a competed with larger birds, such as the haastâs eagle. (choice
b.b had food sources that included large, terrestrial animals. (choice
c.c interbred with the larger, flightless moa. (choice
d.d had no natural predators on the island of mauritius.
The dodo birds became large allegedly due to the lack of natural predators on the island they inhabited, Mauritius. Without the need to compete for survival, these birds, like the Moa and the Galápagos tortoises, grew large in their respective favorable environments.
Explanation:
According to the context provided in the passage, the dodo bird, which inhabited the island of Mauritius in the Indian Ocean, became large likely due to the lack of natural predators. The mention of the bird being easy prey because it approached people without fear suggests that it evolved in an environment where it didn't have to avoid predators. Hence, the answer to your question is (choice d): dodo birds were so large because they had no natural predators on the island of Mauritius.
Just as the example of Darwin's observation on the population of giant tortoises in the Galápagos Archipelago, the dodo bird didn't need to compete for survival, allowing them to grow large. Similarly, other birds that evolved in a favorable environment with abundant food and less competition, such as Moa, also grew large showing that species size can be largely influenced by the absence of predators and the availability of ample resources.
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