Answer:
Polymerase chain reaction (PCR) is a common laboratory technique used to make many copies (millions or billions!) of a particular region of DNA. This DNA region can be anything the experimenter is interested in. For example, it might be a gene whose function a researcher wants to understand, or a genetic marker used by forensic scientists to match crime scene DNA with suspects.
Explanation:
i hope this answers your question
Polymerase Chain Reaction (PCR) can be analogized to a high-speed copy machine. It systematically heats and cools DNA to create strands that are then duplicated by the enzyme Taq polymerase. It's essentially ‘copying’ a specific DNA sequence again and again.
Explanation:The Polymerase Chain Reaction (PCR) can be compared to a replication machine that quickly duplicates a specific section of DNA. Its three-step cycle (denaturation, annealing, and DNA synthesis) mimics copying a selected text, highlighting it (to mark where copying starts and ends), and then pressing a 'copy' button that replicates the highlighted text each time it is pressed. The result is multiple copies of that specific portion.
At the beginning, the DNA molecule is heated to high temperatures to denature or separate the two strands, like tearing a book into two halves so that the text (information) can be accessed. Next, the temperature is lowered which allows the primers (short pieces of DNA that matches the start and end point of the region to be copied) to attach to each DNA strand, like using highlighters to mark the beginning and end of the text in the book that needs to be copied. Lastly, the Taq polymerase, isolated from the Thermus aquaticus bacteria (akin to a high-temperature resistant copy machine), synthesises new strands of DNA from the original strands, duplicating the 'highlighted text' over and over.
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The purpose of _______ is making more cells to repair wounds and replace dead cells, for asexual reproduction of single-celled eukaryotes, and for growth during development.
Answer:
Mitotic cell cycle
Explanation:
Mitosis is the process by which one cell becomes two daughter cells after division. These daughter cells are identical to their parent cell.
So through mitosis, many cells can be produced from single cells therefore all eukaryotic organisms use mitosis to grow in size and to replace the old cells, dead cells, and damaged cells. So mitosis process is important in growth and development of eukaryotes.
Some asexual eukaryotic organisms use the process of mitosis to reproduce and grow for example hydra and yeast reproduce by mitosis and produce genetically same offsprings. So the correct answer is mitotic cell division.
Mark is studying jellyfish in a small body of water. Mollusks are a primary food source for jellyfish, and a large number of mollusks have recently been harvested from the area. How will this impact the carrying capacity for the jellyfish?
Answer:
Carrying capacity for the jellyfish would reduce
Explanation:
Carrying capacity of a biological population in an ecosystem is the maximum number of population size the environment or habitat can conveniently cater for given the available resources such as, food, water supply, space etc.
The survival of the jelly fish largely in the small body of water would be largely dependent on how much food that is available.
The large number of mollusks harvested would reduce the available food in the small body of water, hence, reducing the carrying capacity for jellyfish.
The cerebral cortex is the part of the brain that is responsible for satiety
Answer:
False
Explanation:
Basically, hypothalamus is the part of the brain that in responsible for controlling hunger and appetite. The hunger hormone stimulate intake of food and appetite.
Ventromedial Nuclei in the hypothalamus causes feeling of satiety at the brain level. It is responsible for controlling the regulation of eating by giving “stop eating” signals. While the signals for “starting eating” is given by lateral hypothalamus
Hence, the given statement is false
8. An older adult with restless legs syndrome (RLS) has sought advice from the nurse in an effort to ease the problem. Which of the following statements should the nurse include in the plan?A) "There are new, over-the-counter medications that can probably resolve your RLS."B) "RLS can be a sign of a much more serious health problem, so I'd encourage you to visit your primary care provider."C) "I see that your iron level is low, let's add foods high in iron to your diet."D) "Even though it's certainly unpleasant, RLS is a normal part of the aging process."
Answer:
C, you can try to add the iron in your diet first and see if it helps any at all, then see your primary care physician
"I see that your iron level is low, let's add foods high in iron to your diet."
These can give the patient a hope and he will not give up trying.He will also eat food that will be helpful to him only.What is RLS?RLS is Restless legs syndrome which is a condition that causes an uncontrollable urge to move the legs because of an uncomfortable sensation. It happens in the evening or nighttime hours when sitting or lying down. Moving eases the unpleasant feeling temporarily.To know more about RLS here
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On Long Island, New York, a population of wall lizards that originated from a group in Italy is present. Several had been imported to be sold as pets many decades ago, and some escaped and started a new population in this suburban area. What concept applies to this situation?
Answer:
Two terms might apply for this situation: "jump dispersion" and "human-assisted invasions".
Explanation:
Dispersion: It refers to the change in an organism's range or distribution area. Different ecological and biogeographical processes might be involved in organisms' dispersion. The term "jump dispersion" refers to a few individuals in a short time that can cross a barrier and occupy a new area. In this situation, the establishment is not always for sure. For this to happen, they must reproduce and start a new population of a certain size that can survive to the new conditions. Biologic Invasions: It refers to new species that establish in a new area far or out of their original distribution range. Once established, these species might be considered exotic or invasive, according to their reproductive rate, population growth, and interaction with native species. Biologic invasions are natural processes, that occur in small groups of individuals that can expand to other ecosystems, and the appearing or despairing of barriers promotes their expansion. But these biologic invasions have accelerated by human beings, referring to this as "human-assisted invasions". These are the cases in which men transport species from one place to the other for different uses or purposes.It is very common for these species to scape and start new populations in the new area, where they have less environmental pressure -fewer predators, more resources, better nitches- than in their origin area, which favors their establishment.
The exposed situation in the example is a case of "human-assisted invasions". It might also be considered as jump dispersion (because a few individuals of the species crossed a barrier and established in a new area) but assisted by humans.
The subsections of a myofibril that perform muscle contraction are called
Answer:
Sarcomere
Explanation:
The sarcomere is the smallest contractile unit of muscle. It extends from one Z disc to the next and therefore, is the region between two consecutive Z discs. It contains an A band flanked by half an I band at each end. Contraction of a muscle fiber occurs as the sarcomeres within the myofibrils shorten. During the shortening of the sarcomere, the thin actin filaments slide past the thick myosin filaments and approach one another. The resultant shortening of the I band and complete disappearance of H zone cause contraction of muscle fiber.
What is the significance of the evolution of hox gene clusters during vertebrate evolution?
Answer:
Explanation:
The hox gene provides a huge amount of important information about evolution. Hox genes duplication made increased morphological complexity possible triggering the formation of neural crest cells and allowed them to disperse throughout the body, forming a variety of structures. They help lay out the basic body forms of many animals including humans, flies and worms.
Hox gene clusters have played a pivotal role in vertebrate evolution by dictating the body plan of organisms. The multiplication of these gene clusters in vertebrates allowed for the development of complex body types, influencing major evolutionary steps such as the emergence of quadrupeds and the amniotic egg.
Explanation:The evolution of Hox gene clusters has played a significant role during vertebrate evolution. Hox genes encode protein transcription factors and serve as 'master control genes,' influencing the development and placement of structures in an organism. They help dictate the body plan including the number and placement of appendages and head-tail directionality.
In vertebrates, there are multiple Hox gene clusters that have an influence on their complex body plans. Remarkably, the arrangement of these genes reflects the anterior-posterior axis of the animal's body. This arrangement has been maintained from the point of a common ancestor, explaining the similar embryonic development observed across different species.
Changes in Hox genes and their clusters facilitate evolutionary variations. It is suggested that the quadruplication of the basic chordate genome, including Hox gene loci, was an important factor driving vertebrate evolution. The increased number of Hox genes in vertebrates allowed for more complex body types to evolve, leading to major innovations including the emergence of quadrupeds and the amniotic egg.
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In prokaryotes, termination of transcription can include which of the following?
a. The formation of a hairpin structure.
b. An enzyme with 5'–3' exonuclease activity.
c. The transcription of a U‑rich region.
d. An enzyme with helicase activity.
In prokaryotes, termination of transcription can include the formation of a hairpin structure.
Answer: Option A
Explanation:
During replication the whole genome is being copied while in transcription just a selected portion is transcribed. To a gene to be expressed in its offspring the DNA sequence is copied to the RNA. Sometimes the transcription is terminated because of some terminator DNA.
At once it causes repeated pairing which forms a hairpin like structure. As repetition forms a string of TT this is not tolerated by so the RNA gets separated from the following DNA. This is formed by Rho independent mechanism.
Which of the following would not be classified as an arthropod? Please choose the correct answer from the following choices, and then select the submit answer button. giant clam centipede deer tick jumping spider spider crab
Answer:
The correct answer is giant clam.
Explanation:
Clams are not arthropods, they're actually mollusks, specifically bivalves. All of the other options classify as arthropods, even the crabs, that also are arthropods. Also, the spiders are arthropods, although they're not hexapods. Therefore, clams are the only individuals that don't belong to the arthropods.
Please use the following information to answer the questions below.
The Arizona bark scorpion is the most venomous scorpion in North America, and its bite will cause extensive pain to a human that lasts up to three days.
However, the southern grasshopper mouse is essentially immune to the sting of this scorpion and actually eats the scorpions as prey.
Researchers have recently elucidated the neuronal reason for why the southern grasshopper mouse does not feel pain from bark scorpion venom.
The southern grasshopper mouse essentially does not feel pain when stung by the bark scorpion.
What type of neuron is most likely affected in this scenario?
a) sensory neuron
b) glial cells interneuron
c) motor neuron
Answer:
The correct answer is option a) "sensory neuron".
Explanation:
Sensory neurons are a type of specialized nerve cells which main function is the conversion of external stimuli into internal electrical impulses that the body uses to react to the external stimuli. We feel pain as result of a particular sensory neuron called nociceptor. Therefore, if southern grasshopper mouse essentially does not feel pain when stung by the bark scorpion it is most likely the sensory neurons of the mouse are affected in this scenario.
Final answer:
The southern grasshopper mouse is likely immune to the Arizona bark scorpion's sting due to adaptations in its a) sensory neurons, which prevent the pain signal from affecting the mouse.
Explanation:
The type of neuron most likely affected in the scenario where the southern grasshopper mouse does not feel pain from the sting of the Arizona bark scorpion is the sensory neuron. Sensory neurons are responsible for processing pain, pressure, and temperature signals from the environment and conveying this information to the central nervous system. The southern grasshopper mouse's immunity to the venom's pain-inducing effects suggests a unique adaptation or modification in its sensory neurons, enabling it to neutralize or bypass the pain signal normally triggered by the scorpion's sting. This adaptation allows the mouse to prey on the scorpion without the deterrent of pain, showcasing an intriguing example of evolutionary biology.
Back on planet Palomar, you discover a new animal that you would like to classify. You find that the animal has three embryonic tissue layers, it has a body cavity that is not entirely line with mesoderm, and its mouth forms first during embryonic development. Which terms best describe this new animal?
a.Triploblastic, pseudocoelomate, protostome
b. Diploplastic, coelomate, protostome
c. Diploblastic, pseudocoelomate, deuterostome
d. Triploblastic, coelomate, protostome
Answer:
a:Triploblastic, pseudocoelomate, protostome
Explanation:
When it comes to embryonic tissue layer in animals, some have two while some have three. Those with two layers are diploblastic while those with three layers are said to be triploblastic.
Body cavity evolution also vary in animals according to their development levels. Some animals lack body cavity totally and are referred to as acoelomates, some have a mesoderm-like fluid filled cavity and are referred to as pseudocoelomates while others have true body cavity with peritoneum and are referred to as coelomates.
During embryonic development, the mouth is formed first in some animals and they are referred to as protostomes while those in which the anus are formed first are referred to as deuterostomes.
Hence, the best terms that describe the animal in question are triploblastic, pseudocoelomate, protostome.
The correct option is A.
Damage to which regions of the brain would be the most life-threatening? Explain your answer.
Answer:
Brain stem
Explanation:
Brain stem is a stem-like structure. It is a part of the base of the brain which is joined to the spinal cord.
Brain stem includes midbrain, pons, and medulla oblongata It controls essential functions of the body which are important for the life.
The important functions of the human body controlled by brainstem are breathing, swallowing, heart rate, blood pressure, consciousness.
Therefore, damage of the brain stem would be the most life-threatening.
Answer:
Brain stem.
Explanation:
Brain stem may be defined as the base of the brain that are directly connected to the spinal cord. Pons, medulla oblongata and midbrain is included in the brain stem.
The damage or any injury in the brain stem can be life threatening because the message flow between the brain and body part is controlled by the brain stem. The basic body functions like heart rate, blood pressure, movement and breathing is controlled by the brain stem.
Thus, the correct answer is brain stem.
A Sub-Saharan African widowed immigrant woman lives with her deceased husband's brother and his family, which includes the brother-in-law's children and the widow's adult children. Each family member speaks fluent English. Surgery was recommended for the client. What is the best plan to obtain consent for surgery for this client?A. Obtain an interpreter to explain the procedure to the clientB. encourage the client to make her own decision regarding surgeryC. ask the family members to provide a clarification of the surgeon's explanation to the clientD. tell the surgeon that the brother-in-law will decide after explanation of the proposed surgery is provided to him and the widow
Answer:
The correct option is D. Tell the surgeon that the brother-in-law will decide after explanation of the proposed surgery is provided to him and the widow
Explanation:
In the Sub- Saharan region, the customary law allows the inheritance of wife and the culture of having more than one wife is also practised in this region. According to the law, the widow will become the inherited wife of her deceased husband's brother.
In those regions, the woman are suppressed and the regions are male dominant regions. The women have to obey men's command. Hence, it will more likely be that the brother- in- law will make the decision.
Docetaxel is a drug that is used in the treatment of cancer. It interferes with cell division by inhibiting microtubule depolymerization. Specifically what would be the greatest impact of this drug on mitosis?
Answer: Inhibition of Mitosis
Explanation: docetaxel, inhibit the microtubule structures within the cell. Microtubules are part of the cell's apparatus for dividing and replicating itself. Inhibition of these structures ultimately results in cell death.
Neurons are classified functionally according to the direction the action potential travels relative to the ____________ . Afferent neurons are the neurons of the sensory nervous system. They are responsible for conducting ____________ input from both somatic sensory and visceral sensory receptors.
Answer:
CNS, sensory.
Explanation:
Neurons is the structural and functional unit of the nervous system. The nervous system is divided into two main parts - central nervous system and peripheral nervous system.
The central nervous system constitute the brain and spinal cord. The CNS contains both the afferent and efferent neurons depending on the direction of their signal transmission. Afferent or sensory neurons are responsible for the conduction of sensory input from the sensory receptors.
Thus, the answer is CNS, sensory.
Neurons are functionally classified based on the direction of action potential travel in relation to the CNS, with afferent neurons carrying sensory input towards the CNS, and efferent neurons transmitting signals away to effector muscles and glands.
Neurons are classified functionally according to the direction the action potential travels relative to the central nervous system (CNS). Afferent neurons are the neurons of the sensory nervous system. They are responsible for conducting sensory input from both somatic sensory and visceral sensory receptors.
Functionally, neurons can be classified into three main categories: afferent neurons (or sensory neurons), which carry information towards the CNS; efferent neurons (or motor neurons), which carry information away from the CNS to muscles and glands; and interneurons, which are primarily found within the CNS and facilitate communication between sensory and motor neurons.
Afferent neurons are essential for processing sensory information, allowing the body to respond to both external and internal stimuli. A helpful mnemonic to remember this distinction is that efferent neurons let signals 'exit' the CNS towards the effectors, whereas afferent neurons allow signals to 'arrive' at the CNS from the sensory receptors.
Oxygen consumption can be used as a measure of metabolic rate because oxygen is
Oxygen consumption can be used as a measure of metabolic rate because it is necessary for cellular respiration, the process by which organisms produce energy. By measuring the amount of oxygen consumed, we can estimate an organism's metabolic rate. This is especially important in biology and can be applied to different organisms.
Explanation:Oxygen consumption can be used as a measure of metabolic rate in organisms. This is because oxygen is necessary for the process of cellular respiration, which is how organisms produce energy. By measuring the amount of oxygen consumed, we can estimate how much energy an organism is using and thus determine its metabolic rate. For example, a person who is exercising will have a higher metabolic rate and therefore consume more oxygen compared to someone who is resting.
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Oxygen consumption is a measure of metabolic rate because it's involved in cellular respiration, where energy is produced from oxygen and nutrients.
Oxygen consumption is a reliable indicator of metabolic rate due to its central role in cellular respiration. During this vital process, organic molecules, such as glucose, are oxidized in cells to generate energy in the form of ATP. Oxygen is a critical component of these chemical reactions, serving as the final electron acceptor in the electron transport chain, allowing the production of ATP. As metabolic activity increases, the demand for oxygen rises to support higher energy production. Thus, measuring the rate of oxygen consumption provides valuable insights into the metabolic intensity of an organism, its energy requirements, and overall health. It's a widely used tool in physiology and biology to assess metabolic rates in various species and study their adaptations.
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Achondroplasia is a common cause of dwarfism in humans. All individuals with achondroplasia are thought to be heterozygous at the locus that controls this trait. When two individuals with achondroplasia have children, the offspring occur in a ratio of 2 achondroplasia:1 wild type. What is the most likely explanation for these observations
The question is incomplete. The complete question is:
Achondroplasia is a common cause of dwarfism in humans. All individuals with achondroplasia are thought to be heterozygous at the locus that controls this trait. When two individuals with achondroplasia have children, the offspring occur in a ratio of 2 achondroplasia:1 wild type. What is the most likely explanation for these observations
A. The allele that causes achondroplasia is a late-onset lethal allele.
B. The allele that causes achondroplasia is a recessive lethal allele.
C. The allele that causes achondroplasia is a dominant lethal allele.
D. Achondroplasia is incompletely dominant to the normal condition.
E. Achondroplasia is codominant to the normal condition.
Answer:
B. The allele that causes achondroplasia is a recessive lethal allele.
Explanation:
According to the given information, achondroplasia is a genetic disorder and the individuals with the disorder are heterozygous. The individuals with homozygous recessive genotype do not survive as the allele for the disorder is lethal in the homozygous condition. Let's assume that the allele "a" causes achondroplasia while the allele "A" imparts normal height to the individuals. Two heterozygous parents each with genotype "Aa" would produce a progeny in the following ratio=
Aa x Aa= 1 AA (normal height): 2 Aa (achondroplasia): 1 aa (do not survive).
Final answer:
The ratio of 2 achondroplasia:1 wild type offspring in children of parents with achondroplasia is explained by the autosomal dominant inheritance of achondroplasia, where the homozygous dominant condition is lethal.
Explanation:
The observation that offspring of two individuals with achondroplasia occur in a ratio of 2 achondroplasia:1 wild type can be explained by the genetics of autosomal dominant disorders. Achondroplasia is caused by a dominant mutation in the FGFR3 gene. Individuals with this condition are typically heterozygous, possessing one mutated gene (A) and one normal gene (a). The key to understanding the offspring ratio is recognizing that the homozygous dominant condition (AA) is lethal, either in embryonic development or shortly after birth. Therefore, when two heterozygous individuals (Aa) mate, the possible genetic combinations are AA (which is lethal and results in embryonic loss), Aa (achondroplasia), and aa (wild type), leading to the observed ratio among surviving offspring.
Which regulatory sequences are bound by activator proteins and associated coactivator proteins to form a protein "bridge" that bends the DNA and links the complete initiation complex at the promoter to the activator-coactivator complex, ultimately causing an increase in transcription?
Answer:
The answer is the Enhancer
Explanation:
Because Enhancer sequences bind specific proteins that interact with the proteins bound at gene promoters, and together promoters and enhancers drive transcription of certain genes.
Final answer:
The regulatory sequences bound by activator proteins and associated coactivator proteins to form a protein "bridge" that bends the DNA and links the complete initiation complex at the promoter to the activator-coactivator complex are called enhancer sequences.
Explanation:
The regulatory sequences bound by activator proteins and associated coactivator proteins to form a protein "bridge" that bends the DNA and links the complete initiation complex at the promoter to the activator-coactivator complex are called enhancer sequences. Enhancer sequences are binding sites for transcription factors. When activator proteins bind to the enhancer sequences, they change shape and are able to interact with proteins at the promoter site. DNA bending proteins help to bend the DNA and bring the enhancer and promoter regions together, ultimately causing an increase in transcription.
Ruth and Debbie are identical twins who were raised by the same family. Vince and Frankie are identical twins who were separated at birth and raised by different families. According to research on the heritability of personality traits, Ruth's and Debbie's personalities are statistically
A) more likely to be similar to one another than are Vince's and Frankie's personalities
B) likely to be as similar and dissimilar to one another as are Vince's and Frankie's personalities
C) more likely to be dissimilar to one another than are Vince's and Frankie's personalities
D) less likely to match on the personality dimensions of agreeableness and extraversion than are Vince and Frankie but not on other personality dimensions
E) less likely to match on the personality dimensions of openness and neuroticism than are Vince and Frankie but not on other personality dimensions
Answer:
B) likely to be as similar and dissimilar to one another as are Vince's and Frankie's personalities
Explanation:
The heritability of a trait indicates in what proportion the genes are giving rise to the differences between individuals. It indicates what percentage of the variation in the aspects of two individuals (in this case of personality) is due to genetic causes.
A high percentage of heritability indicates that in the variation of the trait the genes have prominence while a low percentage of heritability indicates that the environment is mainly involved.
The heritability of personality traits are around 40% to 50%. This indicates that the variation between the personality of two individuals is 40 to 50% attributed to genetic factors. The non-shared environmental factors would be 30% and those shared around 20% or less.
40-50% of heritability is not telling us that there is a 50% chance of inheriting the personality or that we will share 50% of our personality with our parents, but that it indicates that when a person has a certain personality and another on the contrary (so to speak), most of that change is due to genetic issues and the minority due to environmental issues shared and not shared.
Final answer:
Identical twins have more similar personalities than fraternal twins due to their strong genetic similarity, supported by research such as the Minnesota Study of Twins Reared Apart.
Explanation:
Identical twins, even when raised apart, tend to have very similar personalities due to their strong genetic similarity. This is supported by research such as the Minnesota Study of Twins Reared Apart, which highlighted the influence of genetics on personality traits. Fraternal twins, with lesser genetic similarity, show less personality resemblance even when raised together.
Imagine a very large population of moths that is isolated from gene that you are studying flow. A single gene controls wing color) Half of the moths have white-spotted wings (genotype WW or Ww) and hàlf of the moths have plain brown wings (ww)./There are no new mutations, individuals mate randomly,/and there is no natural selection on wing color. How will p, the frequency of the dominant allele, phange over time? A. p will increase; the dominant allele will eventually take over and become most common in the population. B. p will neither increase nor decrease; it will remain more or less constant under the conditions described C. p will decrease because of genetic drift. D. p will increase initially, then decrease until the W allele vanishes from the population. E. p will fluctuate rapidly and randomly because of genetic drift.
Answer:
B. p will neither increase nor decrease; it will remain more or less constant under the conditions described
Explanation:
When a population is in Hardy-Weinberg equilibrium, it is not evolving and allele frequencies are not going to change across generations. Conditions for a population to be in Hardy-Weinberg equilibrium are :
Infinite population sizeRandom matingNo selectionNo mutationNo gene flowSince the moth population in question shows above mentioned characteristics, it is in Hardy-Weinberg equilibrium. Frequency of none of the alleles are going to change.
Hence, p will neither increase nor decrease; it will remain more or less constant under the conditions described.
Which of the following choices lists the organs of the bird digestive system in the correct order, from first to last contact with food material? Which of the following choices lists the organs of the bird digestive system in the correct order, from first to last contact with food material? esophagus, crop, gizzard, stomach, intestine, anus esophagus, stomach, gizzard, crop, intestine, anus esophagus, crop, stomach, gizzard, intestine, anus esophagus, gizzard, crop, stomach, intestine, anus
Answer:
Esophagus, crop, stomach, gizzard, intestine, anus.
Explanation:
The digestive system of the bird has undergone various modification to adapt the aerial mode of life. The bird do not perform eating as shown by the humans and shows active foraging in the morning.
Esophagus is reduced and connected to the crop. The crop is like a muscular pouch. The food then passes to the stomach and further digestion occur. The partially digested food moves to the gizzard. The gizzard contain four muscular band. Final digestion and absorption occur in the small intestine. The waste material is excreted out through anus.
Thus, the correct answer is option (3).
Answer:
Esophagus, crop, stomach, gizzard, intestine, anus.
Explanation:
Why do you think that the change in one nucleotide can cause tay-sachs disease to be fatal
Answer: The protein is completely disrupted and it can not perform its function
Explanation:
Tay-Sachs disease is a rare degenerative disease and autosomic recessive. It affects the brain and central nervous system. It occurs when the body lacks hexosaminidase A, which is a protein that helps break down a group of chemicals found in nerve tissue, called gangliosides. Without this protein, gangliosides build up in cells, often in neurons in the brain.
Tay Sachs disease is caused by a mutation of one nucleotide for a protein that disrupts the activity of an enzyme in the brain. Proteins are synthesized according to the DNA sequence. Every three bases (called a codon), one of the many amino acids that will form the protein is synthesized. When one of these bases is mutated, it is very possible that a different amino acid is synthesized instead. Sometimes that doesn't happen because the genetic code is degenerated and different codons can give rise to the same amino acid. But in this mutation, the protein is completely disrupted and it can not perform its function. Then, the brain is affected as it was explained and results fatal.
In pneumothorax and complete atelectasis involving the right lung:
a. interpleural pressure would increase toward atmospheric and transpulmonary pressure would become zero
b. intrapulmonary pressure and transpulmonary pressure would be negative
c. perfusion of the right lung would increase
d. transpulmonary pressure would increase
The drug dideoxycytidine, used to treat certain viral infections, is a nucleotide made with 2′,3′-dideoxyribose. This sugar lacks –OH groups at both the 2′ and the 3′ positions. This drug stops the growth of a DNA chain when added to DNA because:__________
This drug stops the growth of a DNA chain when added to DNA because DNA polymerase requires a 3′ end -OH group.
Explanation:Molecular Formula: [tex]C_9H_{13}N_3O_3[/tex]
In a dideoxynucleoside compound the 3'-hydroxyl group attached to sugar molecules are replaced by a hydrogen. This upgrade prevents the formation of "5' to 3' phosphodiester linkages", required for the elongation of DNA chains, which results in terminating viral DNA growth.
This drug inhibits HIV replication at small level, acting as a terminator of viral DNA. The toxic side effect is "axonal degeneration" resulting in "peripheral neuropathy".
Compared to the normal situation, in which actin monomers carry ATP, what do you predict would happen if actin monomers that bind a nonhydrolyzable form of ATP were incorporated into actin filaments?
A. Actin filaments would grow longer.
B. Actin filaments would grow shorter because depolymerization would be enhanced.
C. Actin filaments would grow shorter because new monomers could not be added to the filaments.
D. No change, as addition of monomers binding nonhydrolyzable ATP would not affect actin filament length.
Answer:
The correct answer is A. Actin filaments would grow longer.
Explanation:
If the monomers added bind nonhydrolyzable ATP, then, the interactions between each monomer will be more stable causing the filament to grow longer as it's really stable without the hydrolyzation of ATP.
How can you change the power of a single-lens microscope
Answer:
By reducing the focal length
Explanation:
The power of a lens is inversely proportional to its focal length.
Mathematically, this relation can be written as
[tex]P = \frac{1}{f}[/tex]
Where, "P" represents power and "f" represents focal length. As per this relationship, the power will increase with the decrease of focal length.
Power is basically the measurement of refractive power of a lens. The refractive strength of a lens increases with the decrease in focal length.
Describe the physiological events occurring in the heart muscle represented by each ECG component (the P wave, QRS complex, and T wave). Why does the QRS complex have the largest amplitude?
Explanation:
The P wave represents the atrial depolarization (sum of the right and left atriums) and the atrial contraction. In normal circumstances, the P wave is smooth and rounded (<2.5 mm) and no more than 0.12 seconds in duration. It's the first positive deflection (you can see this in the image I added)QRS complex can include the Q wave, R wave, and S wave, but there are exceptions. It represents the electrical impulse through the ventricles causing the ventricular depolarization. Its amplitude is the largest because ventricles are the chambers with the largest mass in the heart and it has a duration of 0.06-0.10 seconds in adults.The T wave is the positive deflection that follows the QRS complex, it represents the ventricular repolarization. It is slightly asymmetric (peak closer to its end). Normally this wave follows the QRS complex's direction, if this doesn't happen, it's reflecting a cardiac pathology.Final answer:
The P wave represents atrial depolarization and contraction. The QRS complex represents ventricular depolarization and contraction with the largest amplitude. The T wave represents ventricular repolarization and relaxation.
Explanation:
The physiological events occurring in the heart muscle represented by each ECG component are as follows:
P wave: Represents the depolarization of the atria, which leads to atrial contraction.
QRS complex: Represents the depolarization of the ventricles, which leads to ventricular contraction. The QRS complex has the largest amplitude because the ventricular cardiac muscle is larger and requires a stronger electrical signal.
T wave: Represents the repolarization of the ventricles, which marks the beginning of ventricular relaxation.
1
Which one of the following are not hallmarks used to identify genes in an unknown eukaryotic sequence?
A) operator sequences
B) regulatory sequences (promoters, enhancers, and silencers)
C) 5' and 3' intron splice sites
D) ORFs (open reading frames)
Answer:
The correct answer is A) operator sequences
Explanation:
An operator sequence is a sequence that regulates the transcription of genes present in an operon. These operons are mainly found in prokaryotes. An operon consists of closely bound structural gene which have its own operator, and promotor and these genes are transcribed together.
An operator sequence overlaps the promoter sequence. Regulatory proteins binds to these operator sequence and prevents the binding of RNA polymerase on the promoter thereby inhibits the transcription initiation of operon in prokaryotes.
So as operator sequence is mainly found in prokaryotes so they are not hallmarks used to identify genes in an unknown eukaryotic sequence.
The nervous system:
works with the endocrine system to maintain homeostasis.
communicates with the body via action potentials (nerve impulses).
is responsible for perceptions and behaviors.
initiates voluntary movements.
all of these are correct.
Answer:
All of these are correct.
Explanation:
Nervous system is the complex network of the nerves that carries the information in the body. Nervous system mainly consists of large numbers of millions of neurons.
The nervous system perform different functions in the body. The communication of the nervous system occurs by the transmission of nerve impulse. The voluntary and involuntary actions of the body are controlled by the nervous system. The behavior and perception of the organism is controlled by nervous system. The endocrine system also depend on the nervous system and maintains the homeostasis of the body.
Thus, the correct answer is option (5).
"Rigor mortis" is a muscle stiffening that sets in a few hours after death. It is due to muscles being in a contracted state. It dissipates after several days as muscle proteins degenerate and cells break down. Rigor mortis is one sign that coroners take into account when estimating a time of death. At a cellular level, what is the mechanism behind rigor mortis?
Answer:
Explanation:
noooooooooooooo idea