When the sympathetic nervous system is triggered, glycogen is broken down to glucose to provide more energy. This statement is True.
The sympathetic nervous system (SNS) is one of the three divisions of the autonomic nervous system, the others being the parasympathetic nervous system and the enteric nervous system. The enteric nervous system is sometimes considered a component of the autonomic nervous system and other times as a separate system.
The autonomic nervous system regulates the unconscious actions of the body. The primary function of the sympathetic nervous system is to stimulate the body's fight or flight response. It is, however, constantly active at a fundamental level in order to maintain homeostasis. To the extent that they actually exist.
Many homeostatic mechanisms in living organisms are up- and down-regulated by the sympathetic nervous system. SYNS fibers innervate tissues in almost every organ system, regulating functions as diverse as pupil diameter, gut motility, and urinary system output and function.
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What are the 4 parts of naturalization test?
Answer: The English test has three components: reading, writing, and speaking.
Explanation:
Is burning is exothermic or endothermic?
Burning is an exothermic reaction, as it involves the release of energy in the form of heat.
Energy is involved in all chemical processes. Energy is released when reactants break bonds, and energy is released when products form new bonds. Endothermic reactions create less energy when new bonds form in the products than it takes to break bonds in the reactants.
Exothermic reactions are the polar opposite. Breaking bonds in the reactants needs less energy than the energy generated when new bonds form in the product in an exothermic reaction.
Exothermic reactions characterize all combustion processes. A material burns as it interacts with oxygen during a combustion event. When things burn, they usually emit energy in the form of heat and light.
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What is the relationship between amino acids and nucleotides?
A codon is a nucleotide triplet that codes for an amino acid so that every trio of nucleotides codes for one amino acid is the relationship between amino acids and nucleotides.
The code is degenerate because there are only 20 amino acids and 64 combinations of four nucleotides taken three at a time (more than one codon per amino acid, in most cases). The structural constituents of proteins are known as amino acids. On the other hand, nucleotides are the constituent parts of DNA and RNA, two types of nucleic acids. As a result, this is the primary distinction between amino acids and nucleotides.
By following a set of instructions known as the genetic code, mRNA converts the nucleotide sequence of a gene into the amino acid sequence of a protein.
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the enzyme acetylcholinesterase, located in the synaptic cleft and on the postsynaptic membrane, breaks ach down into acetate and choline, thereby stopping the stimulation of a postsynaptic cell. t or f
True
What is enzyme ?
Proteins called enzymes serve as biological catalysts by quickening chemical processes. Substrates are the compounds that enzymes may interact with.
True, the enzyme acetylcholinesterase, located in the synaptic cleft and on the postsynaptic membrane, breaks ach down into acetate and choline, thereby stopping the stimulation of a postsynaptic cell
Acetylcholine is necessary for the body's signalling of cells and the passage of information.
The transmission between nerve cells is blocked when acetylcholine is degraded.
Inhibitors are present, which maintains the usual amount of acetylcholine in the body, preventing its breakdown and maintaining nerve cell transmission.
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the epinephrine signaling pathway plays a role in regulating glucose homeostasis in muscle cells. the signaling pathway is activated by the binding of epinephrine to the beta-2 adrenergic receptor. a simplified model of the epinephrine signaling pathway is represented in figure 1.
Epinephrine signaling pathway involves enzymes activating other enzymes. It is a series of steps in which a hormone binds to the epinephrine receptor present on the surface of the cell.
Adrenaline is also known as epinephrine which is used as emergency medical hormone in case of severe allergic situations. Epinephrine binds both alpha and beta adrenergic receptors to cause vasoconstriction and vasodilation. It triggers a signal transduction cascade involving production of the second messenger molecule cyclic AMP (cAMP). The role of adenylyl cyclase in the epinephrine signaling pathway is that it accelerates the production of a second messenger. The intracellular concentration of glycogen will increase due to the irreversible binding of GDP to the G protein.
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The epinephrine signaling pathway plays a role in regulating glucose homeostasis in muscle cells. The signaling pathway is activated by the binding of epinephrine to the beta-2 adrenergic receptor. A simplified model of the epinephrine signaling pathway is represented in Figure 1. Based on Figure 1, which of the following statements best describes the epinephrine signaling pathway?
Cardiorespiratory exercise, also known as ___________exercise uses oxygen, typically involves using large muscle groups during continuous activities, and promotes cardiovascular health.
Cardiorespiratory exercise, also known as aerobic exercise uses oxygen, typically involves using large muscle groups during continuous activities, and promotes cardiovascular health.
The Benefits of Cardiorespiratory Exercise (Aerobic Exercise)Cardiorespiratory exercise, also known as aerobic exercise, is an essential part of any healthy lifestyle. Aerobic exercise uses oxygen to fuel the body’s energy needs, and typically involves using large muscle groups during continuous activities.
Regular aerobic exercise helps to promote cardiovascular health, improve endurance, and reduce the risk of certain diseases. It can also help to:
Improve mood Reduce stressIncrease overall energy levelsSome examples of aerobic exercise include running, swimming, biking, and jumping rope. Implementing regular, moderate-intensity aerobic exercise into your routine is an excellent way to boost your physical and mental health.
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Is fire burning potential or kinetic energy?
Fire burning involves the release of kinetic energy which is stored in the form of potential energy.
Potential energy is any sort of stored energy, whereas kinetic energy may be found in movement. Kinetic energy may be seen on numerous sizes, from atoms vibrating to generate heat to long wavelength radio waves.
When considering energy, it is critical to consider the law of conservation of energy. According to this physics law, energy cannot be generated or destroyed, but can only change form.
When wood is burned, stored potential energy (in the form of chemical energy) in the log is released as a result of heating by other excited atoms. This chemical process is known as combustion, and it necessitates the presence of oxygen. The potential chemical energy of combustion is converted into kinetic energy in the form of heat.
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you have two true-breeding rose bushes, one with red flowers and one with white flowers. a cross between these two roses yields a bush with pink flowers. the pink flower color is an example of
A trait has a polygenic inheritance pattern when the expression of that trait is influenced by two or more pairs of alleles. Polygenic inheritance is a type of non-Mendelian pattern of heredity, meaning it deviates from the Mendelian Laws.
Hemoglobin, a component of red blood cells that carries oxygen to every cell in the body, is a set of illnesses called sickle cell disease. Hemoglobin S, an abnormal hemoglobin molecule found in those with this illness, can cause red blood cells to assume a sickle or crescent shape. (Blending) Heterozygous individuals have the trait of incomplete dominance. The color of one's hair serves as an illustration. (Observe both qualities) Codominance is the production of both homozygous traits in heterozygous people.
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explain how dna extraction, pcr, and restriction enzymes were used to get the samples we used for the this gel electrophoresis lab.
Gel electrophoresis is typically used to view (make visible) the outcomes of a PCR process. Using a technique called gel electrophoresis, DNA fragments are separated based on size as they are drawn through a gel matrix by an electric current.
The sample is first heated to cause the DNA to denature, or separate into two pieces of single-stranded DNA, in order to amplify a section of DNA using PCR. Then, using the original strands as templates, an enzyme known as "Taq polymerase" creates two new strands of DNA.
Restriction Gel & Enzyme Digest DNA can be selectively broken into fragments by restriction enzymes and then separated on an agarose gel according to fragment size, as seen by electrophoresis. Since DNA has a negative charge, an electric current.
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the half-life of the biomolecule pyruvic acid in the presence of an enzyme that converts it to alanine was found to be 221 s. how long will it take for the concentration of pyruvic acid to fall to 1/64 of its initial value in this first- order reaction?
The nitrogen produced when muscles break down amino acids for energy is transaminated to pyruvate to create alanine. The alanine transaminase (ALT) enzyme does this by converting L-glutamate and pyruvate into -ketoglutarate and L-alanine.
Pyruvic acid is transformed into acetyl coenzyme A, which enters the Krebs cycle, an energy-producing mechanism, if oxygen is present. Lactic acid is produced when pyruvic acid is depleted of oxygen. The body also uses this substance to create alanine. Lactate dehydrogenase is an enzyme that cells employ to convert the pyruvic acid that glucose produces into lactic acid and energy. Pyruvate and branched chain amino acids like valine, leucine, and isoleucine can be used to make alanine. Pyruvate is reductively aminated in two steps to yield alanine. Glutamate dehydrogenase converts -ketoglutarate, ammonia, and NADH into glutamate, NAD+, and water in the first step.
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Rats colonize an archipelago in the Pacific Ocean where no rats previously existed. The rats can have white fur, gray fur, or black fur. Predict what type of selection is likely to occur when each of the following phenotypes have the greatest fitness.
- grey fur
- dark fur
- dark fur in fields and light fur in forests
- light fur
- dark fur on one island, light fur on another
Undergoing a bottleneck can greatly reduce the genetic variation in a population.
In genetics, a phenotype is the set of observable traits or characteristics of an organism. The term includes the morphology or physical form and structure of an organism, its developmental processes, its biochemical and physiological properties, its behavior, and its products of behavior.
Phenotypes include size, wing length, and coat color. Phenotype also includes observable traits that can be measured in the laboratory. B. Hormone levels or blood cells.
Genotype is the DNA sequence unique to that person. More specifically, the term refers to the two alleles that an individual inherits for a particular gene. A phenotype is the detectable expression of that genotype i.e the patient's clinical symptoms.
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The subdivisions of the autonomic nervous system are the division and sympathetic division.
a. true
b. false
The assertion made is accurate. The body's automatic processes are controlled by the autonomic nerve system. It is divided into two parts: the sympathetic division and the parasympathetic division. The fight-or-flight response is controlled by the sympathetic nervous system.
Which of the following statements concerning the autonomic nervous system is accurate?
The answer to the question about the autonomic nervous system is C. The sympathetic division's ganglia are located far from the visceral effectors and close to the spinal cord.
What is the sympathetic nervous system's division?
Introduction. Along with the parasympathetic nervous system (PNS), the sympathetic nervous system (SNS) is one of the two divisions of the autonomic nervous system (ANS). These two systems primarily function involuntarily in opposition to one another to control numerous bodily processes and parts.
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When venous return is increased, stretch receptors in the atria of the heart are activated. This results in
increased glomerular filtration.
decreased urine production.
increased thirst.
increased ADH secretion.
decreased ADH secretion.
This results in inhibition of ADH secretion.
Human vasopressin, also known as antidiuretic hormone, arginine vasopressin, or argipressin, is a hormone that is synthesized from the AVP gene as a peptide prohormone in hypothalamic neurons and then converted to AVP. A hormone that constricts blood vessels and aids the kidneys in controlling the amount of water and salt in the body. This regulates blood pressure and the amount of urine produced.
By acting on the kidneys and blood vessels, anti-diuretic hormone helps to control blood pressure. Its primary function is to conserve your body's fluid volume by reducing the amount of water passed out in the urine.
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which type of reproduction involves two parents and results in offspring that are not genetically identical to either parent?
Sexual reproduction involves two parents and produces offspring who are not genetically identical to either parent.
Two parents contribute genetic information to produce unique offspring in sexual reproduction. Because sexual and asexual reproduction have advantages and disadvantages, some organisms do both.
Single-celled protists were the first eukaryotes to engage in sex about 2 billion years ago, more than 1.3 billion years before the development of the first animals with neurons capable of assessing pleasure. These bacteria (and their modern counterparts) exchanged genetic information through processes such as conjugation, transformation, and transduction, all of which are classified as parasexual. A bacterium could not possibly experience pleasure.
Under stressful conditions, organisms that reproduce alike sexually and asexually tend to switch to sex. Mathematical models have revealed that it is significantly easier for sex to evolve if more fit individuals reproduce asexually and less fit individual people reproduce sexually. Recombination does not break apart well-adapted genotypes in this way, but poorly adjusted genotypes could be recombined to produce new combinations throughout offspring.
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choose the combination of factors that would lead to the greatest oxygen unloading from hemoglobin.
The combination of a low pH, high temperature, high carbon dioxide concentration, and low oxygen concentration will lead to the greatest oxygen unloading from hemoglobin.
The greatest oxygen unloading from hemoglobin:Low pHHigh temperatureHigh carbon dioxide concentrationLow oxygen concentrationAll four of these factors work together to increase the affinity of hemoglobin for oxygen, resulting in the greatest oxygen unloading from hemoglobin.
A low pH will create a lower charge on the hemoglobin molecule, reducing its affinity for oxygen. A high temperature will increase the kinetic energy of the molecule, allowing it to move more freely, increasing its affinity for oxygen. A high carbon dioxide concentration will also increase the affinity of hemoglobin for oxygen, as carbon dioxide binds to hemoglobin much more tightly than oxygen. A low oxygen concentration will reduce the amount of oxygen available to bind to the hemoglobin molecule, further increasing the affinity of hemoglobin for oxygen.When all of these factors are combined, the result is an increased affinity of hemoglobin for oxygen, leading to the greatest oxygen unloading from hemoglobin.
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during lumbosacral extension . a. l5 flexes as the sacral base extends b. both l5 and the sacral base extend c. l5 flexes as the sacral apex extends d. l5 extends as the sacral base flexes
During lumbosacral extension, the l5 extends as the sacral base flexes. Hence, the answer is (d). The anterior rami of spinal nerves L4 to L5 and S1 to S4 make up the lumbosacral plexus.
The lumbar and sacral spinal nerve roots, which separate to produce the nerves feeding the lower leg, give rise to the lumbosacral plexus, a network of nerve fibers. There are 31 pairs of spinal nerves in the human body, and each pair is connected to a specific section of the vertebral column. These 31 pairs include the body's cervical (C1-C8), thoracic (T1-T12), lumbar (L1-L5), sacral (S1-S5), and coccygeal areas. The brachial and lumbosacral plexuses, from which the nerves of the upper and lower limbs, respectively, emerge, are formed when the appropriate spinal nerves in the cervical and lumbar regions meet.
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Brown tree snakes caused 10 out of the 11 native bird species in guam to go extinct. Identify what this example would be a loss of.
An example of loss from the extinction of native birds in Guam is due to brown tree snakes, there are no more organisms to help pollinate plants. Birds are important for pollination to disperse seeds around Guam's forests.
The brown tree snake is responsible for the extinction of nine out of 12 of Guam's forest bird population. The brown tree snake, Boiga irregularis is arboreal, meaning it spends most of its life in trees or on the ground.
The invasive brown snake tree population has caused enormous ecological damage to Guam. Since 2010, these invasions have killed nine of the island's twelve forest bird populations.
Birds are usually a small part of forest life but are important for pollination, seed dispersal in forests, and control of herbivorous insects. Guam, an island 30 miles long and 5 to 15 miles wide about 3,800 miles west of Hawaii, lost most of its native birds after the brown tree snake was accidentally introduced from the Admiralty Islands after World War II.
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given that about 25% of the mammalian genome is associated with genes, including introns and regulatory sequence, what would be the approximate average length of dna per gene if the genome contained 20,000 genes?
About 40000 base pairs of DNA per gene if the genome contained 20,000 genes.
A gene is the fundamental physical and purposeful unit of heredity. Some genes act as instructions to make molecules referred to as proteins. but, many genes do now not code for proteins.
Our genes incorporate instructions that inform your cells to make molecules referred to as proteins. Proteins perform various features on our body to keep us healthy. Every gene includes commands that determine your functions, together with eye color, hair shade, and height.
Few genes act as commands to make molecules referred to as proteins. In human beings, genes vary in length from a few hundred DNA bases to extra than 2 million bases.
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The subdivisions of the autonomic nervous system are the ______ division and ______ division.
The subdivisions of the autonomic nervous system are the parasympathetic division and sympathetic division.
In general, autonomic nervous system which is also known as visceral efferent nervous system. They helps to supply motor impulses to cardiac muscle and to glandular epithelium. Which is further subdivided into sympathetic and parasympathetic divisions.
Hence, two major divisions of the autonomic nervous system are classified as sympathetic division and the parasympathetic division. Also, sympathetic nervous system helps to control body's reaction to fight or flight , on the other hand parasympathetic nervous system helps to control your body's response during times of rest.
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the exchange of corresponding segments of non-sister chromatids between a pair of homologous chromosomes during meiosis i.
The exchange of corresponding segments of non-sister chromatids between a pair of homologous chromosomes during meiosis I is called crossing over.
In the field of biology, crossing over can be described as the process by which the non-sister chromatids of the homologous chromosomes exchange information or a segment of DNA with each other. It is due to this crossing over, that diversity is brought in individuals of a population.
The process of crossing over occurs during meiosis I and is the major factor for the biodiversity in organisms that reproduce by sexual methods. Crossing over occurs only during meiosis and not during mitosis.
The question will correctly be written as:
The exchange of corresponding segments of non-sister chromatids between a pair of homologous chromosomes during meiosis I is called?
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Why is it important to monitor environmental parameters when making policy decisions?
to manage and minimize the impact an organization's activities have on an environment.
The main objective of environmental monitoring is to manage and minimize the impact an organization’s activities have on an environment, either to ensure compliance with laws and regulations or to mitigate risks of harmful effects on the natural environment and protect the health of human beings.
As human population, industrial activities, and energy consumption continues to grow, the continued development of advanced, automated monitoring applications and devices is crucial for enhancing the accuracy of environmental monitoring reports and the cost-effectiveness of the environmental monitoring process.
Monitoring programs are published outlines within an organization that detail precisely which elements are being monitored, overall objectives, specific strategies, proposed sampling methods, projects within each strategy, and time frames.
Environmental monitoring products and environmental monitoring software, such as Environmental Data Management Systems (EDMS), facilitate the implementation and monitoring of environmental monitoring and assessment programs, which includes a central data management hub, automated environmental monitoring alerts, compliance checking, validation, quality control, and generation of reports on dataset comparisons.
Environmental Monitoring Types
The three main types of environmental monitoring are soil, atmosphere, and water. Techniques for scanning and monitoring the environment include filtration, sedimentation, electrostatic sampling, impinger, absorption, condensation, spot sampling and pool sampling.
Data collected using these methods of environmental monitoring are fed into a DBMS where they are categorized, analyzed and visualized to provide actionable insights that drive informed decision making.
Atmospheric monitoring: Environmental data collected from several different environmental networks and agencies using specialized observational tools such as sensor networks and geographic information system (GIS) models, combined with emission, meteorological and topographical data. It is integrated into an atmospheric dispersion model that jointly detects and predicts. Concentration of air pollutants.
Soil Monitoring: Using collected samples (individual samples) and composite samples (multiple samples) to monitor soils and determine baseline and Detect and detect threats such as loss, salinity and slope. unstable.
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which of those three components do we have control over what are the three components of daily energy expenditure
Basal metabolic rate, physical activity, and thermic effect on food are the three factors that make up daily energy expenditure.
The energy required to maintain essential bodily processes is known as the basal metabolic rate.
Muscle movement requires energy, which comes from physical exertion. The energy required to metabolize food is known as the thermic effect on food.
The component that we can influence is physical activity (30–50%). Energy use from physical activity, such as shivering and fidgeting, as well as intentional physical exercise are all included in this component. As a component of physical activity, deliberate exercise (both acute and chronic) has been demonstrated to affect resting energy expenditure (basal metabolic rate and thermic effect on food).
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the dietary manipulation that is related most significantly to longevity in animal studies is
Caloric restriction is the dietary modification that has been shown to have the strongest association with longevity in animal studies (CR).
The only experimental, non-genetic paradigm that has been shown to lengthen lifespan is caloric restriction (CR). It has a wide range of applications and slows aging, extending life in most species. The use of CR in humans is of great curiosity, and studies on animals may provide information on its effects. Pick a diet reduced in cholesterol, saturated fat, and fat. Pick a diet that includes lots of grains, fruits, and vegetables. Sugars should only be used sparingly. Utilize sodium and salt sparingly. The diet places a strong emphasis on consuming things like whole grains, legumes, and veggies.
Contrary to some other diets, the Mediterranean diet only restricts a small number of items. Red meat, added sugar, and processed carbohydrates are foods to stay away from when following the Mediterranean diet. Consume a range of foods. Maintain or achieve your ideal weight by balancing the foods you eat with physical exercise. Pick a diet that includes lots of grain products, particularly whole grains, as well as vegetables and fruit. Make a decision to eat a diet reduced in fat, saturated fat, cholesterol, and trans fat.
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Correct Question:
The dietary manipulation that is related most significantly to longevity in animal studies is called as __________________.
a student is staring directly at a bird outside the classroom window. the image of the bird will be detected by which lobe of the brain?
A student is fixedly looking out the window of the classroom at a bird. The fovea centralis, a tiny pit at the very center of the macula lobe that is bordered with densely packed,
The macula lobe lutea, a tiny, flat patch situated precisely in the middle of the posterior region of the retina, contains the fovea centralis. The heavily saturated with cone photoreceptors since it is responsible for bird high-acuity vision. The foveae of the retinae are responsible for the superior visual acuity that humans possess. We refer to a person's eyesight clarity as visual acuity. Your retina's fovea is therefore receiving the visual picture of the bird you are currently seeing.
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explain the process of osmosis and how hypertonic, hypotonic, and isotonic solutions would affect a cell.
In a hypertonic solution, the cell will constrict and lose water.
How does osmosis work in both hypertonic and hypotonic liquids?
Because the solution has a lower water content than the cytoplasm of the cell when a cell is in a hypertonic solution, water leaves the cell until both solutions are isotonic.
Cells submerged in a hypotonic solution will take in water through their membranes until the external solution and the cytosol are isotonic.
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what is the reaction rate for enzyme catalase which speeds up h2o2>h2o+o2 (the temp is 30 but what is reaction rate)
Answer:
catalyses
Explanation: an enzyme that brings about (catalyzes) the reaction by which hydrogen peroxide is decomposed to water and oxygen.
The similarities in function of hummingbird wings and the wings of a butterfly reflect?
The illness was contracted, The ultimate source of all new alleles is revealed by the functional similarities between the wings of a hummingbird and a butterfly.
Discribe Hummingbird and butterfly wings?
Hummingbird and butterfly wings both have a similar structure and ability to fly. They are comparable structures as a result. Both the hummingbird (an avian) and the butterfly (an insect) have wings that enable them to fly while looking for food, refuge, or a mate. similarities between the hummingbird and butterfly wings' functions. not homology, but analogy The similarities between the hummingbird and butterfly wings' functions serve as an analogy and homology. In spite of having differing purposes, the forelimbs of birds, bats, and pterosaurs are homologous, sharing an ancestral condition.
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if you made a change in the dna of a promoter sequence that inactivates the promoter, what would happen at the rna level?
The RNA polymerase will not be able to recognize and bind the DNA, so no RNA would be made.
Deoxyribonucleic acid is a polymer of polynucleotide chains that coil spherically each one-of-a-kind to form a double helix. The polymer includes genetic instructions for the development, functioning, boom, and replica of all seemed organisms and lots of viruses.
In all dwelling things, DNA is vital for an inheritance, coding for proteins, and offering instructions for life and its tactics. Human cells commonly consist of 23 pairs of chromosomes, for a complete forty-six chromosomes in every cell.
Most DNA is positioned within the cell nucleus. Mitochondria are structures within cells that convert the power from meals right into a shape that can be used by cells.
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are these things below living or non-living?
Answer:
fallen bark non
mushroom living
Obsidian non
corals living
kangaroo living
lotus living
fossil fuels non
Nancy is in her early 60s and nervous about growing old because she doesn’t want to be limited in her daily functioning or lose her memory or judgement. how might you reassure nancy about her fears?
We might reassure nancy about her fears as Mental decline is not inevitable; while 10% will foster dementia in the course of their life, not exactly 50% of individuals above age 84 will have it.
A group of symptoms that severely affect your ability to remember, think, and interact with others is known as dementia. There is no particular sickness that causes dementia; However, dementia can be caused by a number of diseases. A common symptom of dementia is memory loss, but it can be brought on by a number of different things.
A disorder known as dementia is characterized by a collection of symptoms that typically arise in response to damage or disease to the brain. The signs and symptoms include progressive impairments in memory, thinking, and behavior that make it hard for a person to function and do things every day.
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