The role of the protein cytochrome p450 in the human body is It breaks down unfamiliar chemicals.
option D
Which is the role of protein cytochrome p450 ?
The protein cytochrome P450 plays a crucial role in breaking down and eliminating many different types of foreign substances, including drugs, toxins, and environmental pollutants, from the human body. It is primarily involved in the process of drug metabolism and is found in many different tissues and organs, particularly the liver.
Cytochrome P450 enzymes help to convert these foreign substances into more water-soluble forms that can be easily excreted from the body, thus protecting the body from potentially harmful effects.
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Answer: it breaks down unfamiliar chemicals.
Explanation: i took the test !
Anaerobic glucose breakdown (glycolysis) produces fragments of glucose molecules that accumulate in the tissues and blood, which is called:
Answer:
lactic acid or lactate
Explanation:
which body habitus will the kidney lie at the highest level
Option C: hypersthenic is the body status for which the kidney will lie at the highest level.
The common variations in the shapes of the human body that then determines the position of the internal visecral organs is termed as body habitus. If the kidney is to lie at the highest level, it would be determined by hypersthenic body habitus.
Sthenic, asthenic, hyposthenic, and hypersthenic are the four kinds of body habitus. While sthenic determines the average level, hypersthenic is the one that determines the highest level of the body position of the viscera in the body. Hypersthenic body habitus is also known as endomorphic.
Body habitus determimes the thickness of the body wall and hence gives an idea of the external factors required for radiographic dose.
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Complete question is:
For which body habitus will the kidneys lie at the highest level?
a. sthenic
b. asthenic
c. hypersthenic
d. hyposthenic
emts are dispatched for a patient in cardiac arrest when they arrive they find that the patient is pulseless
When paramedics arrive on the scene of a patient in cardiac arrest, they will immediately begin to assess the patient's condition and take appropriate action.
The first step is to confirm that the patient is pulseless, meaning that there is no detectable pulse or cardiac activity. This can be done by feeling for a pulse on the carotid artery in the neck, or by using a monitor or defibrillator to measure electrical activity in the heart. If the patient is confirmed to be pulseless, the paramedics will then begin cardiopulmonary resuscitation (CPR). The goal of CPR is to circulate oxygen-rich blood to the brain and other vital organs. To do this, the paramedics will use chest compressions to artificially pump the heart and breathing into the patient's lungs. This is done in cycles of 30 compressions to two breaths, and can be done with either manual or mechanical compressions.
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When a sperm uses chemical signals to navigate the swim towards the egg, it is positive response. This is a form of:
A. homeostasis
B. regulation
C. growth
D. development
E. response
When a sperm basically uses certain chemical signals in order to navigate its swim towards the egg and this is a form of a response.
The correct option is E.
Fertilization is a process which involves the fusion of the two gametes, which are the egg as well as the sperm in order to produce a zygote which eventually gives rise to an organism. The egg cell in most of the species is non motile and the sperms or the male gamete are usually motile and reach to the egg so that fertilization can take place.
Sperm cells, bacteria as well as other microorganisms use the varying concentrations of chemicals which are present in their environment, which are the concentration gradients, in order to approach or even avoid something and this process called chemotaxis. Egg cells release certain attractant chemical, which basically lures the sperm.
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True or False? In order to create the possibility of generating trisomy, nondisjunction must occur during meiosis II?
It is FALSE that nondisjunction must occur during meiosis II, in order to create the possibility of generating trisomy.
When chromosomes don't correctly separate during cell division, a condition known as nondisjunction occurs, which causes an uneven distribution of chromosomes across daughter cells. The development of gametes with an additional or missing chromosome, which might cause trisomy or monosomy, respectively, in the progeny, is possible if nondisjunction takes place during meiosis I. Nondisjunction must take place during either meiosis I or meiosis II in order to give rise to the chance of producing trisomy.
Nondisjunction during meiosis II can lead to the development of gametes with two copies of the same chromosome, which, if fertilized, can result in trisomy in the progeny.
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Challenges for survival of the first land plants includeI. sources of water.II. sperm transfer.III. desiccation.IV. animal predation.A) I onlyB) II onlyC) II, III and IV onlyD) I, II and III only
In the nervous system, each neuron communicates with A. many other neurons in an organized network. B. one or two other neurons. C. all of the other neurons in the nervous system. D. a random subset of the other neurons in the nervous system
In the nervous system, each neuron communicates with many other neurons in an organized network.
What is the neurons ?Neurons are the basic building blocks of the nervous system. They are specialized cells that transmit information throughout the body by electrical and chemical signals. Neurons have unique properties that allow them to receive, process, and send information. Each neuron consists of a cell body, dendrites, an axon, and synapses. The cell body contains the nucleus and other organelles, which are necessary for the neuron's survival. Dendrites are extensions of the cell body that are responsible for receiving signals from other neurons. The axon is a long, thin projection that carries signals away from the cell body.
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Fat soluble compounds that are stored in the fat tissues of organisms, at ever increasing concentration as it moves up the food chain are serious threat because of________________________________________________________
Biomagnification is the process by which the concentration of certain fat-soluble compounds (such as persistent organic pollutants or heavy metals) increases as they move up the food chain.
What is Saturated Fat?
It is called "saturated" because its carbon atoms are "saturated" with hydrogen atoms, meaning that each carbon atom in the fat molecule is connected to the maximum number of hydrogen atoms possible. This gives saturated fats a characteristic solid texture and high melting point.
Saturated fats are commonly found in animal products, such as meat, butter, cheese, and cream, as well as some plant-based oils, such as coconut oil and palm oil. They are also found in many processed foods, such as baked goods, fried foods, and snack foods.
This occurs because predators at higher trophic levels consume many prey items that contain these compounds, leading to their accumulation in the predator's tissues.
As a result, the higher up an organism is in the food chain, the greater the concentration of these compounds in its tissues. This can be a serious threat because these compounds can have harmful effects on the health of organisms at high concentrations. For example, they can disrupt hormones, damage the nervous system, and impair reproductive function. Additionally, humans can be exposed to these compounds by consuming contaminated fish and other animals, leading to potential health risks.
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In the 1940s, proteins were thought to be the more likely molecules to house genetic information. What was the primary reason that DNA was not originally believed to be the genetic material?
(a) DNA has a high density of negative charges.
(b) Nucleotides were known to be a source of chemical energy for the cell.
(c) Both protein and nucleic acids were found to be components of chromosomes.
(d) DNA was found to contain only four different chemical building blocks.
The primary reason that DNA was not originally believed to be the genetic Material in the 1940s was option (d) - DNA was found to contain only four Different chemical building blocks.
At the time, scientists believed that genetic material must be very Complex, and since proteins have a much greater variety of building Blocks (amino acids), they were considered more likely to be the genetic Material.
It was not until later, when the structure of DNA was elucidated and its Role In genetic information storage and transfer was fully understood, That DNA Was recognized as the primary genetic material.
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what is the evidence of motility that is visible in sim medium in the presence of a bacterium with flagella?
Due to the SIM medium's semisolid nature (low agar content), motility detection is achievable. The test organism is motile, as evidenced by growth extending from the main flagella stab inoculation line.
A single stab is used to inject the SIM vaccine into the tube's bottom. If an organism is mobile, the growth will extend from the stab site and discolor the entire tube. If they are motile, you won't be able to see a clear line in the semi-solid agar.
Instead, you'll only be able to detect cloudiness surrounding the stab line. This is because they can move through the agar like swimming through jello. 18 hours or until growth is seen should be spent incubating at 37°C. A dispersed cloud indicates a successful motility test.
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in long bone formation, from what embryonic structure does the articular hyaline cartilage on the end of an adult long bone arise?
The articular hyaline cartilage on the end of an adult long bone arises from the mesoderm germ layer during embryonic development.
The mesoderm germ layer forms the limb buds, which later develop into the long bones of the body, during embryonic development. Hyaline cartilage, which acts as a template for bone production, covers the developing bones as they grow.
By a process known as endochondral ossification, the hyaline cartilage is gradually replaced by bone tissue as the bones expand. The articular hyaline cartilage at the ends of the bones, on the other hand, is still there and provides a smooth surface for joint motion.
Overall, the production of long bones is a complicated process that involves several stages of cartilage and bone development. There are numerous structures that form from the mesoderm germ layer during embryonic development, one of which is the articular hyaline cartilage on the end of an adult long bone.
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what are the green disks in the chloroplasts called
Thylakoids, or piles of discs, are found inside chloroplasts. They serve to capture the energy from sunshine and are likened to piles of coins inside the walls of the chloroplast.
Chloroplasts, which are those strange green spheres, contain chlorophyll. Chlorophyll is a substance that gives plants their distinctive green color and aids in photosynthesis, which enables plants to produce their own sustenance. Grana, which are typically composed of layers of spheres formed by chloroplast thylakoids, (singular: granum). Intergranal/stromal thylakoids, which link granum layers as one functional compartment, connect grana. Some organisms, including plants and cyanobacteria, have a green organelle called a chloroplast in their cells.
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in which structure do pain impulses ascend the spinal cord?
The term "anterior spinal thalamic tract" refers to the area of the spinal cord where the majority of their axons cross and ascend (AST).
All spinal cord levels include Substantia gelatinosa. It transmits information about pain, temperature, and mechanical (light touch) sensations and is situated in the dorsal cap-like region of the head of the dorsal horn (intersegmental column cells). The CNS is involved in the transmission of pain at many levels.
They include the brainstem's midbrain, medulla oblongata, and pons, the supraspinal region of the spinal cord, and the cortical areas (cerebral cortex). Most significantly, activation in these brain areas is linked to the consistent activation of the insula and anterior cingulate cortex when nociceptors are stimulated by painful stimuli.
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Correct Question:
In what type of structure do pain impulses ascend the spinal cord?
What is one of the ways to identify an organism belonging to the domain Eukarya?
The correct answer is option d. "possess membrane bound organelles AND uses the same type of genetic material as a member of the Domain Archaea".
One characteristic that defines an eukaryotic organism is that it posses membrane bound organelles. This differs from bacterias and archaeas, which have their organelles embedded into the cytoplasm. On the other hand, one thing that is common for all living organisms is that their genetic material is comprised of DNA.
Therefore, an organism belonging to the Domain Eukarya possess membrane bound organelles AND uses the same type of genetic material as a member of the Domain Archaea.
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Full Question: An organism belonging to the Domain Eukarya…. (Choose the most complete answer.)
a. lacks a nucleus AND uses the same type of genetic material as a member of the Domain Archaea
b. lacks a nucleus
c. possess membrane bound organelles and that's pretty much it!
d. possess membrane bound organelles AND uses the same type of genetic material as a member of the Domain Archaea
e. uses the same type of genetic material as a member of the Domain Archaea; none of the other options are a better fit.
Which description applies to epigenetic gene regulation?A-mRNA modifications such as additions of a 5\' cap and 3\' poly-A tail and removal of intronsB-protein modifications such as addition of a functional group, or structural changes such as foldingC-a gene cluster controlled by a single promoter that transcribes to a single mRNA strandD-processing of exons in mRNA that results in a single gene coding for multiple proteinsE-heritable changes in gene expression that occur without altering the DNA sequence
Epigenetic gene regulation occurs heritable changes in gene expression that occur without altering the DNA sequence. Therefore, option E is correct.
What is epigenetic gene regulation?The field of epigenetics investigates how cells regulate gene function without altering the DNA sequence. Epigenetic alterations to DNA control whether or not genes are activated.
These alterations are connected to DNA and do not alter the order in which the DNA building blocks are arranged. The epigenome, which is all of the modifications that control how genes are expressed inside a cell's entire set of DNA, is referred to as the genome.
Thus, epigenetic gene regulation occurs through heritable changes in gene expression that occur without altering the DNA sequence. Therefore, option E is correct.
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what occurs in arteries that results in the disease called atherosclerosis?
Answer:
Atherosclerosis is a specific type of arteriosclerosis.
Atherosclerosis is the buildup of fats, cholesterol and other substances in and on the artery walls. This buildup is called plaque. The plaque can cause arteries to narrow, blocking blood flow. The plaque can also burst, leading to a blood clot.
Although atherosclerosis is often considered a heart problem, it can affect arteries anywhere in the body. Atherosclerosis can be treated. Healthy lifestyle habits can help prevent atherosclerosis.
Explanation:
What is​ (are) the first​ organ(s) perfused by blood leaving the​ heart? A. Liver B. Coronary arteries. C. Lungs D. Heart. Heart.
Option D. Heart is (are) the first organ(s) perfused by blood leaving the heart.
In most animals, the heart is a muscular organ. This organ circulates blood through the circulatory system's blood arteries. Pumped blood transports oxygen and nutrients to the body while transporting metabolic waste like carbon dioxide to the lungs. The term "smartphone" refers to the use of a smartphone to communicate with a computer, rather than a physical device.
The heart is divided into four chambers in humans, other mammals, and birds: upper left and right atria and bottom left and right ventricles.
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Full Question: What is (are) the first organ(s) perfused by blood leaving the heart?
A. Liver
B. Coronary arteries
C. Lungs
D. Heart
the same level of a neurochemical substance acting as a neurotransmitter having different effects depebds oibn what
The same level of a neurochemical substance, acting as a neurotransmitter, can have different effects depending on the receptor it binds to.
The same neurotransmitter can have varied effects on different receptors because of their varying sensitivity to it.
For instance, the neurotransmitter serotonin, which is located in the brain, controls mood. It binds to a variety of receptors, and the impact can either be amplified or inhibited depending on whatever receptor it binds to.
Serotonin can cause feelings of relaxation when it connects to the 5-HT1A receptor, but it can also cause feelings of anxiety when it binds to the 5-HT2A receptor.
A neurotransmitter's duration of binding to a receptor may also have an impact on the outcome. It can have distinct effects if it binds to a receptor for a longer amount of time than if it binds for a shorter period of time.
Consequently, depending on which receptor it attaches to and how long it binds to that receptor, the same quantity of a neurochemical substance functioning as a neurotransmitter can have various effects.
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Part A
What are the similarities and differences between the two fish varieties?
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Yet, a number of species in this family differ significantly from one another despite these commonalities. Fin fish, including salmon, have scales, gills, and reproduce via laying eggs.
These fish, known as chondrichthyes, have cartilage. Dogfish and whale shark, as examples. Osteichthyes: These fish have jaws and are made of bone. Example: Salmon and lungfish. Fish are divided into two main categories by scientists: fish with jaws (Gnathastomata) and fish without jaws (Agnatha). The shape of fish's heads, the location of their mouths, the type and location of their fins, and their average adult size are some traits that set them apart. When combined with other characteristics, colour markings like vertical stripes and fin spots may also be used to assist distinguish fish.
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Despite these similarities, a few species in this family differ greatly from one another. Salmon and other finfish have gills, scales, and reproduce by laying eggs.
These fish have cartilage and are referred to as Chondrichthyes. Examples include dogfish and whale shark. Osteichthyes: These fish have bone-covered jaws. Salmon and lungfish, for instance. Scientists categorize fish into two primary groups: fish without jaws (Gnathastomata) and fish with jaws (Agnatha). Some characteristics that distinguish fish include their typical adult size, the type and position of their fins, the form of their heads, and the location of their mouths. Vertical stripes and fin spots are examples of color markings that can help recognize fish when paired with other traits.
The two countries' relationship had been difficult and they were currently facing a serious security issue.
Due to the fact that both countries had nuclear warheads and wanted to ensure that their own strengths and capabilities could surpass those of the other, a security challenge arose.
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Can someone make a cladogram for the organism "Giant Mantaray" please
Answer:
See Attachment for a cladogram for the organism "Giant Mantaray"
Explanation:
Here is some additional information that may be helpful in constructing a cladogram for the giant manta ray:
The subclass Elasmobranchii is part of the class Chondrichthyes, which also includes the subclass Holocephali (chimaeras).Chondrichthyes is part of the superclass Gnathostomata, which includes all jawed vertebrates.Gnathostomata is part of the subphylum Vertebrata, which includes all vertebrates.Vertebrata is part of the phylum Chordata, which includes all animals with a notochord at some point in their life cycle.which is the most important force in venous flow? multiple choice question.
A. cardiac suction
B. the pressure generated by the heart
C. the skeletal muscle pump
D. the thoracic (respiratory) pump
E. the one way flow due to valves
Option A is Correct. The greatest significant force in venous flow is cardiac or heart suction. Conclusion. There is ventricular suction to aid ventricular filling.
In this scenario, during each forceful contraction, the elastic potential energy stored in the myocardium is released during diastole, resulting in a negative pressure that draws blood into the ventricles. Suction in the LV was caused by the concurrent emergence of contraction in the basal region and relaxation or extension in the apical part during the post-ejection transitional period.
The venous return to the heart is controlled by the atrial chambers, which are powerful suction devices. This is the primary physiological force that propels venous blood through the venous tree. Each time the atria expand during a diastole, a suction force is intermittently applied.
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What is the most frequent portal of entry for pathogens?
The most frequent portal of entry for pathogens is through the mucous membranes, which line the body's internal cavities and are found in the respiratory, gastrointestinal, and urogenital tracts.
Mucous membranes are moist, and warm, and provide an excellent environment for pathogens to thrive. Respiratory infections, such as the flu, often enter the body through the nose or mouth and can cause illness by infecting the respiratory tract.
Gastrointestinal infections, such as norovirus, often enter through the mouth and can cause vomiting, diarrhea, and other digestive symptoms. Sexually transmitted infections, such as chlamydia, often enter through the urogenital tract.
Other portals of entry for pathogens include breaks in the skin, such as cuts or abrasions, and direct contact with infected bodily fluids, such as blood or saliva. Additionally, some pathogens can be transmitted through the air, such as through respiratory droplets produced when an infected person coughs or sneezes.
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What are seedless vascular plants give examples?
Seedless vascular plants have vascular tissue but do not generate flowers or seeds. Seedless vascular plants, such as ferns and horsetails, propagate through haploid, unicellular spores rather than seeds.
Club mosses, horsetails, ferns, and whisk ferns are examples of modern seedless vascular plants. A shrub that does not reproduce. Ferns, horsetails, and all bryophytes have no seeds. Club mosses are the most primitive seedless vascular plants, followed by whisk ferns, which shed leaves and roots due to reductive evolution, and horsetails and ferns.
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Which of the following types of RNA molecule delivers amino acids to the ribosomes?
a. messenger RNA
b. transfer RNA
c. ribosomal RNA
The appropriate amino acids are then transported into the ribosome by transfer RNA (tRNA) for inclusion in the new protein.
What roles do tRNA, rRNA, and mRNA play?The three types of RNA each have distinct structures and distinct functions. tRNA transports the amino acids to the ribosomes, which must be added to the polypeptide chain, and rRNA forms ribosomes alongside proteins during protein synthesis.
Is mRNA transferred to the ribosome?The translational reading frame must be precisely maintained while the mRNA and tRNAs are moving quickly through the ribosome during protein synthesis. Large- and small-scale conformational rearrangements in the ribosome, primarily in its ribosomal RNA, are coupled to this intricate dynamic process.
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Did the data support Ashley’s hypothesis? Use evidence to explain why or why not. If you feel the data were inconclusive, explain why.
A hypothesis is a theory put forth to account for an observation or phenomenon. It is tested to confirm it. The hypothesis is deemed validated and true if the data shows that it is true.
What does a scientific hypothesis mean?
A hypotheses is a proposition that can be verified by empirical study. Before you begin your research or data collection, you must create your hypotheses if you wish to investigate a relationship among two or more variables. A daily apple diet reduces the number of doctor appointments.
A logical hypothesis is what?
Without supporting data, a logical hypothesis hypothesises a relationship between the variables. Instead of being supported by data, claims are instead founded on reasoning or deduction. The atmosphere of Earth would be difficult for an alien born on Venus. Carnivorous dinosaurs were those with pointed, sharp teeth.
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If a mutation in p53 gene is detected at the g1 checkpoint what mechanism is present that may prevent a cell from becoming cancerous?
If a mutation in p53 gene is detected at the g1 checkpoint, the mechanism which is present that may prevent a cell from becoming cancerous is as cell destruction mechanism.
What is Mutation?This is referred to as an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA.
Cells in which p53 is deleted or mutated lose the G1 checkpoint and no longer arrest at the G1/S transition. However, the self-destruction mechanism ensures that damaged DNA is not passed on to daughter cells and is important in preventing cancer.
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Did viruses create the nucleus of a cell?
Viral eukaryogenesis is the hypothesis that the cell nucleus of eukaryotic life forms evolved from a large DNA virus.
The concept that the cell nucleus of eukaryotic life forms developed from a big DNA virus in endosymbiosis within a methanogenic archaeon or bacterium is known as viral eukaryogenesis. By collecting genes from the host genome and eventually usurping its role, the virus transformed into the eukaryotic nucleus.
The theory was first stated by Philip Bell in 2001 and gained popularity with the finding of huge, complex DNA viruses capable of protein production .
For numerous reasons, viral eukaryogenesis has been contentious. For example, it is frequently stated that the evidence for viral nucleus origins can also be used to suggest the nuclear origins of some viruses. Second, this idea has exacerbated the situation.
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what are face muscles
Facial muscles are striated muscles that link the skin of the face to the bone of the skull .
Muscles that are involved in the facial expression which are generally classified into three main functional categories that is orbital, nasal and oral. They are striated muscles which broadly originate from the surface of the skull and insert onto facial skin.
Also , the Facial muscles are also a group of striated skeletal muscles that are supplied by the facial nerve or cranial nerve VII which works for controlling the facial expression. These muscles are also popularly known as the mimetic muscles.
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what is the biggest shark in the world that is extinct
The largest extinct shark in history was the Carcharocles megalodon. The earliest megalodon fossils, identified as Otodus megalodon (sometimes called Carcharodon shark or megalodon), date to 20 million years ago.
The gigantic shark ruled the waters for the following 13 million years before going extinct only 3.6 million years ago. There are persistent internet reports that megalodons still exist and are swimming in the waters today.
Yet, that is false. Megalodons no longer exist. About 3.5 million years ago, they perished. Although whale sharks are the biggest sharks living, megalodons are bigger. As sharks lack bones in contrast to other fish, no megalodon shark "skeleton" has ever been discovered. The reduction in their habitat caused by global cooling led to the demise of megalodons.
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why do we use taq polymerase in pcr instead of human dna polymerase
Taq polymerase is a thermostable DNA polymerase that is commonly used in PCR (polymerase chain reaction) because of its unique properties that make it well-suited for the high-temperature cycling required for PCR.
Thermostability: Taq polymerase is derived from a bacterium that lives in high-temperature environments, such as hot springs, and therefore has the ability to withstand high temperatures (up to 95°C) that are required in the PCR process. This makes it ideal for the repeated cycles of heating and cooling that are required for PCR.
Processivity: Taq polymerase has high processivity, meaning that it can add many nucleotides to the growing DNA strand without dissociating from the template DNA. This is important in PCR, where multiple copies of a DNA sequence are desired and high efficiency is necessary.
Specificity: Taq polymerase has a relatively low error rate compared to other DNA polymerases, which makes it ideal for applications where accuracy is important, such as sequencing and cloning.
Availability: Taq polymerase is widely available and can be obtained from commercial sources, making it a cost-effective option for routine PCR applications.
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