Pacinian corpuscles are rapidly-adapting, deep receptors that respond to deep pressure and high-frequency vibration.
What is the function of corpuscles?Meissner corpuscles consist of a cutaneous nerve ending responsible for transmitting the sensations of fine, discriminative touch and vibration. Meissner corpuscles are most sensitive to low-frequency vibrations between 10 to 50 Hertz and can respond to skin indentations of less than 10 micrometers.
What color are corpuscles?It is to the aggregation of the red corpuscles that the blood owes its red hue, although when examined by transmitted light their color appears to be only a faint reddish yellow. The corpuscles vary slightly in size even in the same drop of blood, but the average diameter is about 7.5μ, and the thickness about 2μ.
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Compared to skeletal muscle, cardiac muscle ________.
Contrasted with skeletal muscle, cardiovascular muscle has hole intersections that permit it to go about as a utilitarian syncytium.
Cardiovascular muscle, like skeletal muscle, is comprised of sarcomeres that take into consideration contractility. Be that as it may, not at all like skeletal muscle, cardiovascular muscle is under compulsory control. The cardiovascular muscle is answerable for the contractility of the heart and, in this manner, the siphoning activity. Be that as it may, cardiovascular muscle filaments are more limited than skeletal muscle strands and for the most part contain just a single core, which is situated in the focal district of the cell.
One significant distinction is in the length of the activity possibilities. In a run-of-the-mill nerve, the activity potential length is around 1 ms. In skeletal muscle cells, the activity potential length is roughly 2-5 ms. Interestingly, the length of cardiovascular activity possibilities goes from 200 to 400 ms.
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In a DNA strand, the nucleotides are linked together by
A. glycosidic bonds
B. phosphodiester bonds
C. peptide bonds
D. hydrogen bonds
The nucleotides that make up DNA and RNA are joined together into a chain with chemical interactions seen between sucrose foundation from one genotype and the hydroxyl group of the neighboring nucleotide.
Are phosphodiester bonds used to connect nucleotides?After monomers are introduced into DNA, a phosphodiester bond forms between neighboring nucleotides, which is a covalent binding between a nucleotide's 5' phosphate group and its 3'-OH group (see below). This creates a "backbone" of phosphate-sugar-phosphate-sugar-phosphate for each strand of DNA.
What holds two nucleotides together?The phosphodiester bond is the connection between two nucleotides that follow one another within the same DNA strand. Produced better results in DNA plus ribose in RN form the phosphodiester bond, which connects that 3' carbonyl group of one sugar molecule to the 5' carbon chain of another.
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moss invades and establishes itself on bare rock, accumulating the beginnings of soil. after several years, enough soil has become established that grasses begin to grow where there was once bare rock. without the moss building up soil, the grasses would have had no chance. the mosses changed the environment enough to permit grasses to grow in a process called
The process by which the mosses change the environment enough to permit the growth of grasses is called succession or ecological succession.
Ecological succession refers to the gradual change in species composition and structure of an ecosystem over time. In the case of moss invading bare rock and establishing itself, the mosses accumulate the beginnings of soil and create a new environment that supports the growth of new species, such as grasses.
As the ecosystem continues to change and mature, other species may establish themselves, leading to a shift in the dominant species and a continuation of the process of succession.
Succession is a natural process that occurs in ecosystems and can be influenced by many factors, including climate, geology, and biotic interactions. The ultimate goal of succession is to reach a stable and mature ecosystem, known as the climax community, which is characterized by a stable and diverse mixture of species that are well-adapted to the local environment.
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True or False? Cartilage has a flexible matrix that can accommodate mitosis of chondrocytes – this makes it an excellent scaffolding tissue upon which to build bone.
Is it true because cartilage is a type of connective tissue that has a flexible matrix made up of collagen and proteoglycans.
The matrix provides the tissue with its shape and mechanical properties. Within the matrix, there are chondrocytes, which are the cells responsible for producing and maintaining the matrix.
Cartilage has the ability to accommodate mitosis of chondrocytes, which means that the cells can divide and multiply within the matrix. This property makes cartilage an excellent scaffolding tissue upon which to build bone. During bone development, the cartilage matrix serves as a template for the deposition of bone tissue. As the bone tissue is deposited, the cartilage matrix is gradually replaced, leaving behind a structure that is strong and durable.
In summary, the flexible matrix and ability to accommodate mitosis of chondrocytes make cartilage an excellent scaffolding tissue upon which to build bone.
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what are the three different type of phalanx bones that make up your foot?
Long bones in the foot distal to the metatarsals are called phalanges. Each toe has three phalanges, referred to as the proximal, middle, and distal phalanges.
In addition to being significantly shorter individually than the metatarsals, the phalanges on the foot are also much shorter collectively than those on the hand. The metatarsophalangeal joints are formed by the bases of the proximal phalanges articulating with the heads of the corresponding metatarsal bones.
The proximal interphalangeal joints are formed by the heads of the proximal phalanges articulating with the bases of the middle phalanges. The articulations between the bases of the distal phalanges and the heads of the middle phalanges define the distal interphalangeal joints.
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during which division is the chromosome number reduced
Genetic variety is greatly increased as a result of the sorting of alleles during sexual reproduction. because genetic diversity is the main benefit sexual reproduction has over asexual reproduction.
What are a few examples of benefits?His strategy has the benefit of being more affordable than other possibilities. He was lacking the benefits of a higher education. Most sports benefit from having fast players. The company's location is its sole competitive advantage.
carries a meaning of advantage?have in American English as an advantage. to be in a better or more advantageous position; to have the upper hand. He enjoys an advantage over his competitors because of his independent fortune. See the complete dictionary for a benefit.
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What element is NOT an essential nutrient for a microbe?a.nitrogenb.carbonc.irond.hydrogene.phosphorus
Hydrogen is not considered an essential nutrient for microbes. Option D is correct.
Microbes require various elements and compounds to carry out their metabolic processes and sustain life. Carbon, nitrogen, phosphorus, and iron are all essential nutrients for most microbes. Carbon is needed for building the organic molecules that make up the cells, nitrogen and phosphorus are important components of nucleic acids and proteins, and iron is involved in various enzymatic reactions.
While hydrogen is a component of many biomolecules, it is not typically considered an essential nutrient for microbes because it is abundant in most environments and readily available to microorganisms. Microbes can obtain hydrogen through various metabolic pathways, such as fermentation, respiration, and photosynthesis.
Overall, while different microbes have different nutrient requirements depending on their metabolic capabilities, carbon, nitrogen, phosphorus, and iron are generally considered essential nutrients for most microbial growth and metabolism.
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Which of the following metabolic pathways is common to both aerobic and anaerobic processes of sugar breakdown? t of Select one: A. the citric acid cycle lestion o B. the electron transport chain O C. glycolysis o D. conversion of pyruvic acid to lactic acid
Glycolysis is metabolic pathways is common to both aerobic and anaerobic processes of sugar breakdown
Both anaerobic and aerobic conditions can result in glycolysis. Pyruvate enters the citric acid cycle under aerobic conditions and proceeds through oxidative phosphorylation, which results in the net synthesis of 32 ATP molecules.
Without the aid of an external electron acceptor like oxygen, glucose is broken down to pyruvic acid through a process called glycolysis. It happens within the cytoplasm of the cell, making it a part of both aerobic and anaerobic organisms.
Because glucose is the only source of energy and glycolysis is an oxygen-free process, it occurs during both aerobic and anaerobic respiration. Hence, this process, which is similar to both aerobic and anaerobic respiration, is unaffected by the presence or absence of oxygen.
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what base pairs with the codon on the mrna molecule?
The aminoacyl-tRNA anticodon base pair up with the codon present on the mRNA molecule.
During the process of translation, the large subunit of the ribosome contains three sites basically at which the tRNA molecules is able to bind. The A (which is amino acid) site is the location where the aminoacyl-tRNA anticodon base are able to pair up with the mRNA codon, and this happens to ensure that the correct amino acid is being added to the polypeptide chain which is growing.
The P (which is the polypeptide) site is basically the location where the amino acid gets transferred from the tRNA onto the growing polypeptide chain. Finally, the E site or the exit site is where the empty tRNA is present before it gets released back into the cytoplasm.
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Where are photosystem 1 and 2 located?
PS I and PS II are photosystems located in the thylakoid membranes of chloroplasts. Photosystems are in charge of the photochemical phase or light reaction of photosynthesis.
PS II is found in the inner grana thylakoids. PS I is found on the surface of grana thylakoids and stroma thylakoids. Photosystem I (PSI) is a multisubunit protein complex found in the thylakoid membranes of green plants and algae, where it commences one of the earliest steps in the conversion of solar energy via light-driven electron transport.
Photosystem II (or water-plastoquinone oxidoreductase) is the first protein complex in oxygenic photosynthesis's light-dependent processes. It is found in plants, algae, and cyanobacteria's thylakoid membrane.
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The _____ serves to separate the internal environment of a cell from its external environment allowing the cell to maintain homeostasis.
Cell membrane. The cell membrane acts as a barrier that separates the internal environment of a cell from its external environment, allowing the cell to maintain homeostasis. It also helps to regulate the movement of substances in and out of the cell.
What is homeostasis?Homeostasis is the process of maintaining a stable internal environment within an organism, such as the human body. It is a state of equilibrium, or balance, that is maintained when physiological conditions such as temperature, water content and pH remain constant despite fluctuations in the external environment. The autonomic nervous system and endocrine system work together to maintain homeostasis by regulating essential processes, such as respiration, digestion and metabolism. Homeostasis is essential for survival because it ensures the body has the resources it needs to perform its functions and respond to external stimuli.
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the primary mirror of telescope a has a diameter of 20 cm, and telescope b has a diameter of 100 cm. how do the light gathering powers of these two telescopes compare?
The capacity of telescope B to gather light is 25 times that of telescope A. An 8-inch telescope can identify over 2000 times quite so many planets (10 million opposed to 5000) than the human eye since there are far more dim stars than dazzling ones.
Formulae. Magnifying power equals (object focal length) / (p(diameter of objective)2/4) (eyepiece focal length). It's very important to remember that when a telescope's size is doubled, it really collects four times as much light instead of two since the optical surface area increases as the squared of the aperture. Thus, an 8-inch telescope can gather four times as much light as a 4-inch telescope. 1600 times more light can be collected by an 8-inch telescope than by the human eye. An 8-inch telescope can identify over 2000 times quite so many planets (10 million opposed to 5000) than the human eye since there are far more dim stars than dazzling ones.
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sort the examples into proper mechanisms of reproductive isolation.
1.) the inability of red and purple
sea urchins to mate due to
gametic incompatibility
2.)a sterile zonkey formed from
the mating of a donkey and
a zebra
3.)different mating calls for two
different grasshopper species
4.)the death of a zygote after
few weeks of formation
What process changes an organism by introducing novel DNAinto the organism?
Transgenesis, sometimes known as genetic engineering, is the process of introducing novel DNA into an organism through natural processes.
What is the procedure for introducing intriguing unique DNA into an organism?Genetic engineering, also referred to as genetic alteration, is a process that uses technologies created in laboratories to change an organism's DNA. This could involve adding new DNA, deleting a segment of DNA, or changing a single base pair (A-T or C-G).
What is the term for altering an organism's DNA?Genome editing, commonly referred to as gene editing, is a group of scientific methods that allow the DNA of an organism to be changed. These methods allow for the precise addition, deletion, or change of genetic material.
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which type of selection increases overall genetic variation in a population?
Answer: disruptive selection!
Explanation:
Why are eukaryotic cells able to make their metabolism more complex than prokaryotic cells?.
Eukaryotes are able to use food sources more effectively than their prokaryotic rivals because to mitochondria, also known as the juggernauts of the cell.
Why do eukaryotic cells differ from prokaryotic ones in complexity?Compared to prokaryotic cells, eukaryotic cells are significantly more complex. They contain an amazing variety of cellular compartments that are crucial to the regulation of gene expression, metabolism, and energy balance.
What is the reason why the eukaryotic cell cycle is more complicated than the prokaryotic one ?Prokaryotic cells are simpler than eukaryotic cells, making cell division simpler for prokaryotes than in eukaryotes. There is only one circular chromosome in prokaryotic cells, no nucleus, and a limited number of additional organelles. In contrast, eukaryotic cells have several chromosomes housed within a nucleus along with numerous additional organelles.
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Which of the following forces contribute to the stability of a DNA double helix?
A. hydrophobic interactions of bases in the same strand.
B. hydrogen bonding between bases in opposite strands.
C. hydrophobic interactions of bases in the same strand and hydrogen bonding between bases in opposite strands.
D. ionic interactions between the positively charged component of one base and the negatively charged component of the neighboring base.
E. hydrophobic interactions of bases in the same strand, hydrogen bonding between bases in opposite strands, and ionic interactions between the positively charged component of one base and the negatively charged component of the neighboring base.
Options A. hydrophobic interactions of bases in the same strand and B. hydrogen bonding between bases in opposite strands contribute to the stability of a DNA double helix.
How stabilized the molecular structure of the DNA double helix?The molecular structure of the DNA double helix is stabilized by hydrogen bonding between thymine and adenine or between guanine and cytosine in opposite strands.
Therefore, with this data, we can see that the molecular structure of the DNA double helix depends on hydrogen bonding between bases of opposite strands and also hydrophobic interactions.
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All of the following organs play a role in the digestion of lipids EXCEPT the ________.A. large intestine
B. saturated fat
C. triglycerides
D. all are correct
All of the following organs play a role in the digestion of lipids EXCEPT the _large intestine_______. The correct option is A
What is digestion of lipids ?
The digestion of lipids refers to the breakdown of complex fats and oils into smaller molecules that can be absorbed and utilized by the body. The digestion of lipids begins in the mouth with the action of lingual lipase, but most of the lipid digestion takes place in the small intestine.
The large intestine (colon) is primarily responsible for the absorption of water and electrolytes from undigested food material. It does not play a significant role in the digestion of lipids.
Therefore, the correct option is A
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endocrine and exocrine glands are classified as epithelium because they usually develop from epithelial membranes. (True or False)
Since they emerge from epithelial membranes, endocrine and exocrine glands are categorized as epithelium. True.
The cell shape of epithelial tissue can be used to classify it. Glands are arranged groups of secretory cells. All exocrine glands (as well as the majority of endocrine glands) are made up of epithelial tissue. Glands are arranged groups of secretory cells.
All exocrine glands (as well as the majority of endocrine glands) are made up of epithelial tissue. Endocrine glands originate through invagination from an epithelial sheet and have ducts that link them to the free surface of the epithelial sheet at first. They will lose their ducts during embryonic development and hence are known as ductless glands (No ducts).
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enzymes are typically what type of biomolecule/macromolecule?
Enzymes are typically a type of protein biomolecule or macromolecule.
What is biomolecule?A biomolecule is any molecule that is produced by living organisms and is essential to their biological processes. Biomolecules can be large or small, and they include a wide variety of different types of molecules, such as carbohydrates, lipids, nucleic acids, and proteins. Carbohydrates are molecules that are made up of simple sugar units and are important sources of energy for the body. Lipids are fatty molecules that are used for energy storage, cell membrane structure, and hormone signaling. Nucleic acids are the genetic material of cells and include DNA and RNA. Proteins are complex molecules made up of long chains of amino acids that perform a wide variety of functions in the body, such as catalyzing chemical reactions, building and repairing tissues, and acting as enzymes, hormones, and antibodies.
Here,
Proteins are one of the four major classes of biomolecules, the others being carbohydrates, lipids, and nucleic acids. Proteins are made up of long chains of amino acids that are folded into complex three-dimensional structures. Enzymes are a specific type of protein that acts as a catalyst in biological reactions. They speed up chemical reactions by lowering the activation energy required for the reaction to occur, without being consumed or permanently altered in the process.
Enzymes are involved in a wide range of cellular processes, including metabolism, DNA replication, and cell signaling.
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What is it called when only one copy of this allele must be present to see this trait?
Dominant. To see this phenotype, only one copy of this allele needs to be present. Gene. a section of DNA that contains the instructions for a certain feature.
Multiple alleles at each locus are often present in a population or species of organisms, among different individuals. The number of alleles (polymorphism) present or the population's fraction of heterozygotes are two ways to measure allelic variation at a locus.
A null allele is a gene variant that lacks the gene's typical function because the expressed protein is either inactive or the gene is not expressed.
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At what temperature does water begin to turn into a gas or evaporate and not boiling?
water can begin to turn into a gas or evaporate at any temperature below its boiling point of 100 degrees Celsius or 212 degrees Fahrenheit, depending on the atmospheric pressure.
Water can begin to turn into a gas or evaporate at any temperature below its boiling point, not just at its boiling point. This process is called evaporation, and it occurs when water molecules at the surface of a liquid gain enough energy to break free from the attractive forces of the other water molecules and escape into the air as a gas or vapor.
The rate of evaporation depends on various factors such as temperature, humidity, air pressure, and the surface area of the water. As temperature increases, the rate of evaporation generally increases, as more water molecules gain enough energy to escape into the air.
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what is the basal cell carcinoma?
Basal cell carcinoma (BCC) is the most common type of skin cancer, accounting for approximately 80% of all diagnosed cases.
It typically develops in areas of skin that have been exposed to the sun, such as the face, neck, and arms, but can also occur in other parts of the body.
BCC usually appears as a small, shiny bump or a red, scaly patch on the skin that may bleed or crust over. While it is generally slow-growing and rarely spreads to other parts of the body, if left untreated, it can invade surrounding tissues and cause disfigurement.
The main cause of BCC is prolonged exposure to ultraviolet (UV) radiation from the sun or tanning beds. Other factors that may increase the risk of developing BCC include fair skin, a history of sunburns, a weakened immune system, and exposure to radiation.
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during the isovolumetric relaxation phase of the cardiac cycle, _______.
The aortic and pulmonary valves close as the ventricles are relaxed during the isovolumetric relaxation phase of the cardiac cycle.
What transpires during the cardiac cycle's isovolumetric relaxation stage?d-e isovolumetric relaxation The aortic and pulmonary valves close, creating the second heart sound, when the ventricular pressures fall below the diastolic aortic and pulmonary pressures (80 mmHg and 10 mmHg, respectively) (point d). The start of diastole is indicated by this.
When undergoing isovolumetric relaxation, are all four valves closed?Sarcoplasmic reticulum, which is in charge of quickly re-sequestering calcium after contraction, controls this relaxation considerably (see excitation-contraction coupling). Volumes do not change during this period even when ventricular pressures are decreasing since all valves are closed.
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which force contributes to the stability of a dna double helix?
Van der Waals forces, hydrogen bonding between complementary organic bases, help to sustain the structure of the DNA helix.
Exactly what is DNA?The genetic information needed for an organism to develop and function is carried by the molecule called deoxyribonucleic acid. The double helix form of DNA is made up of two connected strands that spiral around one another to resemble a twisted ladder.
What is and where is DNA?DNA, also referred to as deoxyribonucleic acid, is a sophisticated molecule that holds all of the data required to create and maintain an organism. DNA is present in every cell of a living creature. A multicellular creature's cells actually have almost all of the DNA needed for that organism.
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There is normally about 500cc of fluid in the pericardial space.False or true
False , Pericardial effusion is the accumulation of excess fluid surrounding the heart. When too much fluid accumulates,
it can put strain on the heart. This can hinder it from pumping normally. The pericardial sac contains between 15 and 50 milliliters (mL) of serous fluid in a healthy person. A pericardial effusion is defined as fluid accumulation more than 50 mL. A pericardial fluid volume of 10-50 ml maintains the heart's and pericardium's hemodynamic stability. The excess fluid is usually exudative and caused by pericardial damage or inflammation.
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of all the species that enzymes bind, they are thought to bind most tightly to _____.
It is believed that Transition states are the species to which enzymes attach most strongly.
Which is the one an enzyme binds to more firmly?In the transition stage of the reaction that the enzyme catalyzes, a substrate is intended to bind to an enzyme most tightly.The catalytic mechanism is the resultant decrease in the reaction's activation energy.
What interactions do the enzymes have when they bind?The binding of the substrate to the enzyme involves noncovalent connections such as hydrogen bonds, electrostatic attractor pressures, hydrophobic bonds, and van der Waals interactions.
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Cholera, lyme disease, scarlet fever, and pneumonia are all examples of disease caused by......a. bacteriab. virusesc. phaged. archaea
Examples of illnesses brought on by bacteria include cholera, leptospirosis, scarlet fever, as well as pneumonia.
What does Lyme do to humans?Fever, headaches, exhaustion, and an erythema helped to attract skin rash are typical symptoms. Infection may spread to joints, including heart, and the neurological system if it is not treated. Lyme disease is identified through symptoms, physical signs (such as a rash), and the potential for tick exposure.
How serious is Lyme disease?Even while Lyme disease seldom poses a life-threatening threat, delaying treatment may cause the condition to worsen. People should speak with their doctor if they get a distinctive rash or other potential symptoms.
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Why is 5´ cap and poly-A tail important?
Eukaryotic messenger RNA (mRNA) molecules have two structural components called the 5' cap and poly(A) tail that are crucial for translation initiation, RNA processing, and gene expression.
The freshly produced mRNA molecules have a modified guanine nucleotide called the "5' cap" appended to their 5' ends.
The 5' cap is essential because it aids in shielding the mRNA from exonuclease degradation, improves translation efficiency by encouraging the recruitment of ribosomes to the mRNA, and makes splicing easier by designating the beginning of the coding sequence.
Adenosine nucleotides are attached to the 3' end of mRNA molecules to form the poly(A) tail.For mRNA degradation and mRNA export,the poly(A) tail is very essential.
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What is catabolism with example?
Catabolism is the process of breaking down complex molecules into smaller ones to release energy. It is the opposite of anabolism, which is the process of building complex molecules from simpler ones.
An example of catabolism is the breakdown of glucose during cellular respiration. Glucose is a complex molecule that contains a lot of energy.
During cellular respiration, glucose is broken down into smaller molecules such as pyruvate, which releases energy in the form of ATP (adenosine triphosphate). This energy is then used by the cell to perform various functions such as muscle contraction, cell division, and protein synthesis.
Another example of catabolism is the breakdown of proteins into amino acids. Proteins are complex molecules that are made up of long chains of amino acids. During catabolism, these chains are broken down into individual amino acids, which can then be used to build new proteins or for energy.
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