Answer:
Fungi are not used to produce fabrics like cotton and linen.
Explanation:
Fungi are extremily important for the ecosystem because they are one of the principal organic matter decomposers. But they are also very important for human uses, such as:
Yeast is important in the fermentation process involved in the production of beer, wine, and bread. Fermentation occurs in the absence of oxygen and allows the first step of cellular respiration, glycolysis, to continue. Some fungi are used to produce sauces as an important proteinic source Some other fungi are ingested directly as food, such as the pine tree fungi or the champignon mushroom. In medicine, fungi are important to produce antibiotics such as peniciline.Answer:
To produce fabrics like cotton and linen
The basis for the excitation of excitable cells is an electrical charge on the plasma membrane. True or False
Answer:True
Explanation:
The reversal of charges in the membrane of cells e.g neuron cells results in electrical transmission.
Sodium diffuses in with the positive charges to replace the negatively charged internal environment of the neuron axon, to produce Action potential,provided that the deoplarisation produced by the reversal of charges is upto the threshold level.
Answer:
True
Explanation:
The basis for the excitation of excitable cells is an electrical charge on the plasma membrane. The activity of the nervous system is reflected in a variety of electrical and chemical signals that arise in the receptor organs, the nerve cells and the effector organs, including the muscles and secretory glands. What literally happens is that the electrical charge difference (voltage) called the membrane potential, which occurs across the plasma membranes of all cells are generated by the passive diffusion of ions such as Na+, K+, Ca2+ and Cl− through highly selective molecular pores in the cell surface membrane called ion channels. As we all know that Ion channels play a role in membrane excitation as central as the role of enzymes in metabolism.
The opening and closing of specific channels shape the membrane potential changes and give rise to characteristic electrical messages.
Consider the way that muscle is stimulated to move and the way that the heart is stimulated to move. Based on the positions of the electrodes, what might some challenges be to measuring ECG signals during exercise?
Challenges in measuring ECG signals during exercise include motion artifacts caused by body movement and skin impedance due to perspiration. Also, the placement and number of electrodes used in a standard ECG reading can impact the accuracy of the results.
Explanation:Several factors present challenges in acquiring accurate ECG readings during exercise. One primary issue stems from the locations of the electrodes used to capture the electrical signals produced by the heart's contractions. As the body is in motion, movement artifacts can affect the quality of the readings, introducing noise that can make interpretation of the results more difficult.
Another potential challenge is the increased likelihood of experiencing skin impedance, or resistance to the electrical current readings when the body is generating more sweat. This issue may interfere with the quality of signal transmission between the skin and the electrode and increase the likelihood of inaccuracies in the ECG readings.
Additionally, the placement of the electrodes may also create difficulties in acquiring accurate ECG readings. Standard ECGs use 3, 5, or 12 leads placed on the chest. The voltage between the right arm and the left leg is often graphed, and the coordination of this potential with arterial blood pressure serves as a functioning monitor. Moreover, continuous ambulatory electrocardiographs utilize a portable Holter monitor that continuously tracks the heart's electrical activity for an extended period.
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Martin Luther King Jr. went to jail many times for acts of civil disobedience, such as ignoring court orders prohibiting marches and boycotts. Some people, even those who agreed with him, criticized him for disobeying the law. Today, however, most people view these actions as a form of?
Answer:
The correct answer is - positive deviance.
Explanation:
This action of the people is clearly the form of positive deviance. Positive deviance is the action of a certain group or individual in every community whose abnormal or uncommon strategist and behaviors help them to identify the most probable than their peers.
In this scenario, the supporters of Martin Luther King Jr. criticized him for his disobeying the law that is considered as positive deviance.
Thus, the correct answer is - positive deviance.
In today's perspective, Martin Luther King Jr.'s acts of civil disobedience can be viewed as a form of protest against unjust laws and policies.
Explanation:In today's perspective, Martin Luther King Jr.'s acts of civil disobedience, such as ignoring court orders prohibiting marches and boycotts, are widely viewed as a form of protest against unjust laws and policies. These actions were part of the larger civil rights movement aimed at achieving equality and ending racial discrimination. King and other civil rights leaders believed that standing up against unjust laws was necessary to bring attention to and ultimately change these unfair practices.
Understanding how alcohol is absorbed and metabolized by the body can provide helpful insights into the potential effects of alcohol.
Please choose the correct statements about alcohol absorption and metabolism.
Select all that apply.
__Alcohol inhibits the release of antidiuretic hormone, which can lead to dehydration.
__Most alcohol is metabolized in the small intestine.
__Alcohol can improve an individual’s sleep.
__Food in the stomach slows the absorption of alcohol.
__Women have about 20 to 30% more alcohol dehydrogenase in their stomachs than men.
Alcohol do decrease the release of Antidiuretic hormone. Its absorption is also slowed down by amount of food in stomach.
Option A and D.
Explanation:Alcohol is very much related with decreasing effect on pituitary gland to release the Anti Diuretic Hormone or ADH which is actually responsible for the reabsorption of water through kidneys. So consumption of alcohol may make a person dehydrated.
Its mainly metabolized in liver by the enzyme alcohol dehydrogenase into aldehydes and then into acids which are further metabolized into several products.
Alcohol has a negative effect on REM sleep which is actually the main part of sleep cycle.
Alcohol dehydrogenase is an enzyme which metabolize the alcohol in liver. In females, the amount of alcohol dehydrogenase is less than what is found in males. So they often have alcohol toxicity much faster than males.
The correct statements about alcohol absorption and metabolism are:
1. __Alcohol inhibits the release of antidiuretic hormone, which can lead to dehydration.__
2. __Food in the stomach slows the absorption of alcohol.__
1.)This is true. Alcohol consumption can inhibit the release of antidiuretic hormone (ADH), also known as vasopressin, from the posterior pituitary gland. ADH normally acts on the kidneys to reabsorb water, but when its release is inhibited, the kidneys excrete more water than usual, leading to increased urination and potentially dehydration.
2.)This is true. The presence of food in the stomach, especially high-protein foods, can slow down the rate at which alcohol is absorbed into the bloodstream. This is because the pyloric sphincter, which controls the passage of food from the stomach to the small intestine, remains closed for a longer period of time when food is present, delaying the emptying of the stomach contents into the small intestine where most absorption occurs.
If the hydrostatic pressure of blood flowing through the glomerular capillaries and forcing fluid through the leaky endothelium was 60mmHg, the pressure caused by the lack of proteins in the fluid inside Bowman's capsule was 32 mmHg, and the pressure caused by the inability of the capsule to expand in volume was 18mm Hg, what would the net filtration pressure (in mmHg) be?
Answer:
The net filtration pressure is 10 mmHg.
Explanation:
for calculating net filtration we will plus the pressure inside boman's capsule with pressure caused by inability of capsule expansion and then subtract them from total pressure in leaky epithelium.
net filtration pressure= total blood pressure in leaky epithelium - total blood pressure in capsule
as we know that total blood pressure in capsule is 32 + 18 = 50 mmHg
therefore
net filtration pressure= 60 - 50
net filtration pressure= 10 mmHg
How does latitude affect radiation?
Answer:
When the sun's rays strike Earth's surface near the equator, the incoming solar radiation is more direct (nearly perpendicular or closer to a 90˚ angle). ... At higher latitudes, the angle of solar radiation is smaller, causing energy to be spread over a larger area of the surface and cooler temperatures.
Explanation:
Answer:
At higher latitudes, the angle of solar radiation is smaller
Explanation:
Which option best represents the ideal characteristics of drugs for use in low- and middle-income countries?
a. Easy to transport and store, injectable, heat sensitive, single dose
b. Bulky, oral administration, heat sensitive, multiple doses
c. Easy to transport and store, oral administration, heat stable, single dose
d. Easy to transport and store, oral administration, heat sensitive, single dose
Answer:A
Explanation: The answer is A
Because it Increases the security and accuracy of stored and dispensed medication.
Which of the following is false?A. If a genetic disease reduces fertility and the allele that causes the disease offers no other advantage, the allele will likely eventually disappear, due to natural selection.B. Natural selection does not favor individuals who are homozygous for the sickle-cell allele, because these individuals typically die before they are old enough to reproduce.C. Individuals who are heterozygous HbA/HbS are protected from malaria, and this is why sickle-cell disease persists in wetter, mosquito-ridden regions in Africa.D. In regions where malaria does not occur, individuals who are heterozygous HbA/HbS have a fitness advantage over those who are homozygous for the normal hemoglobin allele (HbA).
Answer:
D
Explanation:
A. If a genetic disease reduces fertility and the allele that causes the disease offers no other advantage, the allele will likely eventually disappear, due to natural selection.
This is true. If the disease reduces fertility, the likelihood of the affected individual passing it on to children is decreased. If there is no fitness advantage, it will slowly be reduced in the population by chance, because natural selection is not acting positively upon it
B. Natural selection does not favor individuals who are homozygous for the sickle-cell allele, because these individuals typically die before they are old enough to reproduce.
This is true, individuals carrying two copies of the sickle cell allele might be more resistant to malaria, but they also have a range of health problems that often cause early mortality or severely reduced quality of life, cancelling out the beneficial features of this allele.
C. Individuals who are heterozygous HbA/HbS are protected from malaria, and this is why sickle-cell disease persists in wetter, mosquito-ridden regions in Africa.
This is true. Malaria persists in certain regions of Africa because the conditions are favourable for the mosquito that carries the disease. The heterozygous HbA/HbS genotype is prevalent in African population because it protects individuals from malaria, giving them a fitness advantage. Therefore, the natural selection acts positively upon the sickle cell allele in these areas, and over time, it becomes more prevalent
D. In regions where malaria does not occur, individuals who are heterozygous HbA/HbS have a fitness advantage over those who are homozygous for the normal hemoglobin allele (HbA).
This is false. Without the selection pressure of malaria, there is no advantage of having a copy of the sickle cell allele over the normal allele.
In regions where malaria does not occur, individuals who are heterozygous
HbA/HbS have a fitness advantage over those who are hom ozygous for the
normal hemoglobin allele (HbA) is False.
The individuals who have heterozygous HbA/HbS only have an advantage in the aspect of malaria as it makes them less susceptible to the disease.
This is the only advantage it offers and it doesn't offer any special advantage
such as more fitness or increase in fertility.
Individuals with sickle cell die early thereby preventing natural selection as
they are mostly unable to reproduce before death.
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What causes the mucus plug to break?
Answer:
The correct answer will be- widening of the cervical canal to prepare itself for delivery of the child.
Explanation:
The mucus plug is the collection of the thick and acidic substance called mucus produced by the cervix during pregnancy period. The mucus seals the cervical canal acting as a barrier to microorganism and unwanted infections to protect the uterus carrying a child.
The mucus plug breaks down when the cervical canal prepares itself for the delivery of the child. Thus, mucous breakdown acts as a precursor for the delivery of the child.
Thus, widening of the cervical canal to prepare itself for delivery of the child is the correct answer.
The mucus plug can break and be expelled approximately 1-2 days prior to the onset of true labor. This is known as the 'bloody show' and is a natural sign that labor is approaching.
Explanation:The mucus plug, which accumulates in the cervical canal during pregnancy, can break and be expelled prior to the onset of true labor. This typically happens approximately 1-2 days before labor begins. The breaking of the mucus plug is often accompanied by a small amount of blood and is known as the 'bloody show.' The loosening and expulsion of the mucus plug is a natural sign that labor is approaching.
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What are the correct outputs, during the citric acid cycle, from one molecule of glucose?
Answer:
no clue
Explanation:
____________and ____________are chromosomal mutations that may activate cellular oncogenes by moving them to new regulatory sequences where they become over-expressed.(a) Duplications; deletions(b) Inversions; translocations(c) Duplications; inversions(d) Deletions; translocations(e) Aneuploidy; deletions
Answer:
(d) Deletions; translocations
Explanation:
Deletion mutations: It is the removal of a number of nucleotides from a DNA sequence. Deletions that result in frameshifts, that is, disrupt the 3-nucleotide reading frame can cause changes in regulatory sequences inducing over-expression of certain genes.
Translocation mutations: Are caused the the rearrangement of genes in chromosomes that are usually in close proximity. Encountering new enhancers and/or promoters can cause oncogene activation.
In the "Little Albert" study, the fear-producing stimulus used as an unconditioned stimulus was the:_________a. White rat b. Fear of the rat c. Loud noise d. Fear of the noise
Answer:
c. Loud noise
Explanation:
Final answer:
The fear-producing stimulus in the 'Little Albert' study was the loud noise (option c), which was used as the unconditioned stimulus to elicit a natural fear response in the subject.
Explanation:
In the Little Albert study, the fear-producing stimulus used as an unconditioned stimulus (UCS) was the loud noise. Initially, Little Albert was not afraid of a white rat, introduced to him as a neutral stimulus. However, when researchers paired the sight of the white rat with the loud sound of an iron rod being clanged, Albert began to cry. This loud noise functioned as the UCS because it elicited a fear response naturally, without any prior conditioning. After several pairings of the white rat (which became the conditioned stimulus, or CS) with the loud noise (the UCS), Albert began to show fear of the rat by itself. Thus, the UCS in the Little Albert experiment was the loud noise, option c.
Which of the following behaviors is not an inherited behavior?
Answer:
Humans eating with utensils is not an inherited behavior.
Explanation: We aren't born knowing how to eat with utensils. This is a skill that we have to be taught, therefore it is a learned behavior.
Inherited behaviors are instinctual and passed down from parents to offspring through genes, while non-inherited behaviors are learned or acquired through experience. Learning to ride a bike, as well as acquiring language, playing an instrument, and solving puzzles are examples of non-inherited behaviors.
Explanation:Inherited behaviors are those that are passed down from parents to offspring through genes. They are instinctual and do not need to be learned. Non-inherited behaviors, on the other hand, are learned or acquired through experience.
One behavior that is not inherited is learning to ride a bike. Riding a bike is a skill that needs to be learned through practice and instruction, rather than being programmed into our genes.
Other examples of non-inherited behaviors include language acquisition, playing an instrument, and solving puzzles. These behaviors are acquired through learning and practice.
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People with full blown sickle-cell disease will experience harmful effects such as, red blood cells break down, clump, and clog blood vessels. Broken cells can accumulate in the spleen. This can lead to many symptoms such as physical weakness, heart failure, pain, and brain damage. Having so many symptoms can be explained by __________.
a. the polygenic nature of sickle-cell disease
b. side effects of the drugs used to treat sickle-cell disease
c. a bacterial infection interacting with the sickle-cell allele
d. the sickle-cell allele can impact many different body systems
Answer :a. the polygenic nature of sickle-cell disease
Explanation:
SS is a genetic disorder in which more than two genes control a single character. Contrary to single gene to a trait. It exhibit an abnormal clinical heterogeneous traits for Mendel inheritance with multiple factors exerting influence on an individual disease outcome. Therefore multiple complications arises with symptoms
Answer:d. the sickle-cell allele can impact many different body systems
Explanation:sickle cell anaemia is the shortage of red blood cells.red bloods cells functions to carry oxygen through out the body aided by the haemoglobin.when however a person has sickle cell anaemia,his red blood cells become abnormal.they are no longer flexible and round ,they become stiff and sickle-shaped.when this changes in the red blood cell occurs,it is no longer flexible to pass through the blood vessels,causing the blockage of the vessels and the red blood cells break apart easily ,causing its shortage in the body.as body organs need oxygen to survive, people with sickle cell anaemia tends to have organ failures,pain crises , infections etc.
Darwin was curious about the distribution of living things which is the study of
A. Evolution
B. Variation
C. Hybridization
D.Biogeography
What is hepcidin?
(A) A substance produced in the spleen that stores iron
(B) An intestinal mucosa protein that assists in iron turnover
(C) A factor in meats that enhances iron absorption
(D) A substance in legumes that interferes with iron absorption
(E) A liver-derived hormone that helps regulate iron absorption and transport
Answer:
The answer is E
Explanation:
A liver-derived hormone that helps regulate iron absorption and transport.
In the real world, many organisms don't "fit" clearly into either the r-strategist or K-strategist category for Select one:
a. population reproductive strategies.
b. human growth factors.
c. population growth curves.
d. intrinsic reproduction.
Answer:
a. population reproductive strategies.
Explanation:
Strategies K and r are closely related to reproductive strategy, habitat selection and the ability to disperse.
The organisms that reproduce by strategy r are small organisms that reach maturity in a short time, have short life periods, have numerous offspring (many of which fail to reach adulthood), devote little or no energy to breeding of the youngest of the species, they do not have mechanisms to limit their reproduction to the carrying capacity of their habitat, and tend to be opportunistic invading new areas and adapting to them easily. In this group are most insects, plants that reproduce by spores, turtles, toads and rabbits. The population of these species considered strategic r depends largely on how quickly they reproduce, and not on the carrying capacity of the habitat.
K strategists, on the other hand, are larger, mature very slowly, tend to live for a longer period of time, their offspring are more resistant to diseases, have few young, dedicate time and energy to raising children , they have mechanisms to limit their reproduction and adjust it to the carrying capacity of their habitat, and they remain in a particular habitat without invading those of other species.
A cricket has a diploid genome of 1.2 billion base pairs. Assume that there are about 200,000 individuals in the population and that the mutation rate is one per 100 million base pairs. About how many new mutations will occur in each generation of the population of crickets?
A. 1.2B. 12C. 200,000D. 1 millionE. 2.4 mllion
The number of new mutations per generation in the entire population of crickets will be about 2.4 million, calculated by multiplying the total number of individuals, the mutation rate, and the total number of base pairs in a diploid genome.
Explanation:The number of new mutations in a population per generation can be calculated by multiplying the mutation rate per base pair, the total number of base pairs in the diploid genome, and the total number of individuals in the population.
In this case, if the mutation rate is one per 100 million base pairs, and the cricket's diploid genome contains 1.2 billion base pairs, then the number of mutations per individual per generation will be 1.2 billion (base pairs) divided by 100 million (base pairs), which gives a result of 12 mutations per individual per generation.
If there are about 200,000 individual crickets in the population, then the total number of new mutations per generation in the entire population will be 12 (mutations per individual) multiplied by 200,000 (individuals), which yields a total of about 2.4 million mutations. So answer E, 2.4 million, is correct.
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When the antibiotic valinomycin is added to actively respiring mitochondria, several things happen: the yield of ATP decreases, the rate of O2 consumption increases, heat is released, and the pH gradient across the inner mitochondrial membrane increases. Explain these observations by listing the causal order of events that occur beginning with the addition of valinomycin to the respiring mitochondria and ending with the release of heat. Note: some events listed do not occur and should not be placed Valinomycin added The rate of ATP synthesis decreases The rate of electron transfer and oxygen consumption increases The pH gradient across the The valinomycin-K complex moves K ion out of the mitochondrial matrix. The electrical potential across the The rate of ATP hydrolysis increases The electrical potential across the mitochondrial membrane decreases. Valinomycin binds K" ion. The valinomycin-K' complex moves into the mitochondrial matrix. The pH t across the Heat released
Valinomycin binds to K+ ions, disrupting the potassium gradient and causing a decrease in ATP production. Increased efforts to maintain energy result in enhanced electron transport and oxygen consumption, along with heat generation.
When valinomycin is added to actively respiring mitochondria, it complexes with potassium ions (K+) and facilitates their transfer across the mitochondrial membrane. This disrupts the osmotic pressure and affects the proton gradient. This sequence of events begins with valinomycin binding to K+ ions on the surface of the mitochondria and forming the K+-valinomycin complex. The complex becomes highly soluble in the nonpolar interior of the membrane, allowing it to cross the membrane. Once inside, K+ is released, and the valinomycin is free to return and bind to another K+ ion, continually disrupting the normal potassium gradient. This action increases the permeability of the membrane to K+, leading to the dissipation of the electrical potential across the membrane. This reduction in electrical potential affects the proton gradient, which in turn impairs the ATP synthase activity, leading to a decrease in ATP production. Without the efficient generation of ATP, the rate of electron transport and oxygen consumption increases as the mitochondria try to maintain energy production, while the dysfunctional gradient causes the proton pumps to work harder. The extra work results in the generation of heat. Meanwhile, the pH gradient across the inner mitochondrial membrane increases due to the altered balance between proton influx and efflux.
In Drosophila, an autosomal gene determines the shape of the hair, with B giving straight and b giving bent hairs. On another autosome, there is a gene of which a dominant allele I inhibits hair formation so that the fly is hairless (i has no known phenotypic effect). a. If a straight-haired fly from a pure line is crossed with a fly from a pure-breeding hairless line known to be an inhibited bent genotype, what will the genotypes and phenotypes of the
F1
and the
F2
be? b. What cross would give the ratio 4 hairless : 3 straight : 1 bent?
Answer:
a. F1 genotype : IiBb F1 phenotype : Hairless
F2 genotype and phenotype :
I_B_ (hairless), iiB_ (straight), iibb (bent)
b. IiBb X iiBb
Explanation:
a. Fly 1 : pure breeding straight haired : iiBB
Fly 2 : pure breeding hairless with bent genotype : IIbb
Fly 1 X Fly 2 : iiBB X IIbb = IiBb (F1)
All the offspring will be hairless since there is one dominant I allele which will inhibit hair production regardless of the type of allele of other gene.
Two F1 flies will be crossed to obtain F2 flies. IiBb X IiBb :
I_B_ : hairless = 9
I_bb : hairless = 3
iiB_ : straight hair = 3
iibb : bent hair = 1
Hairless : straight : bent will be in 12 : 3 : 1 ratio.
b. The offspring of this cross :
hairless : I_ _ _
straight : iiB_
bent : iibb
There is a bent offspring which has both the recessive alleles of both the genes. Hence it must have obtained the two alleles from the two parents. So their genotype is _i_b and _i_b.
Half of the offspring are hairless as given by the ratio. This is only possible if the cross is between Ii and ii fly:
I i
i Ii ii
i Ii ii
So the genotype is Ii_b and ii_b.
The remaining hairy flies are in 3:1 ratio of straight to bent. This is only possible if the cross is between Bb and Bb fly:
B b
B BB Bb
b Bb bb
So the final genotype of the flies is IiBb and iiBb.
Under which of the following conditions is a on most likely no evolve abimodaldistribution? o selection favors muniple distinct trait vaues, and similar individuals tend to mate with each other O Traits are strongly corelated and a low carrying capacity keeps the population size small O Environmental conditions change rapidly, and alow muation rate limits the establishment of new variants Selection is weak, and individuals produce large numbers of omspring each generation. the lab, which of the following factors made it more Check al apply: Selectivity in choosing mates The avaiability of smaller seeds Geogaphic barriers separating subpopul Long term weather pattems submit questions D e B a S Web and Windows
Answer:
The correct answer is "selection favors multiple distinct trait values, and similar individuals tend to mate with each other".
Explanation:
A population with a bimodal distribution are groups of organisms with two major traits or "modes", with practically equal amounts of individuals with these two modes. This type of distributions indicate that the population is not homogenous and that more than one trait is favored in the given circumstances. A bimodal distribution is most likely to evolve when selection favors multiple distinct trait values, and similar individuals tend to mate with each other. In this case natural selection favors more than one value, and due to the individuals with one value tend to mate to each other, only two major traits are favored in the population.
Final answer:
Disruptive selection and nonrandom mating are the conditions most likely to result in a bimodal distribution of traits within a population. These conditions can lead to distinct, adapted phenotypes and facilitate speciation.
Explanation:
A bimodal distribution in a population's traits is most likely to evolve when two conditions are met: selection favors multiple distinct trait values, and there is nonrandom mating, where similar individuals preferentially mate with each other. This scenario describes disruptive selection. Disruptive selection can lead to the formation of two distinct phenotypes within a population, each adapted to different environmental niches or conditions. Gene flow and random mating are factors that can prevent disruptive selection from leading to divergent populations; thus, when geographical barriers or mate selectivity are present, they facilitate the establishment of a bimodal distribution.
Place the following events in activation of a B cell by a microbe in the order in which they would occur.
Several rounds of division occur, producing many B cells that all express the same B cell receptor.
A B cell differentiates from a lymphocyte stem cell, and the mature B cell expresses a specific type of B cell receptor on its cell membrane.
The B cell's BCR (B cell receptor) binds to a foreign antigen with high specificity and high affinity.
Second messenger signaling is activated in the B cell.
Gene expression is altered in the B cell, and the B cell begins to divide.
Answer:
The proper order is as follows-
1) A B cell differentiates from a lymphocyte stem cell, and the mature B cell expresses a specific type of B cell receptor on its cell membrane.
2) Gene expression is altered in the B cell, and the B cell begins to divide.
3) Several rounds of division occur, producing many B cells that all express the same B cell receptor.
4) The B cell's BCR (B cell receptor) binds to a foreign antigen with high specificity and high affinity.
5) Second messenger signaling is activated in the B cell.
The activation process of a B cell by a microbe includes differentiation from a lymphocyte stem cell, antigen binding by the B cell receptor, activation of signaling pathways, alteration of gene expression, and rounds of division producing B cells with identical receptors.
Explanation:The activation of a B cell by a microbe involves a series of steps which must occur in a specific order for effective immune response. Listing these steps in the correct sequence provides a clear understanding of B cell activation:
A B cell differentiates from a lymphocyte stem cell, and the mature B cell expresses a specific type of B cell receptor on its cell membrane.The B cell's BCR (B cell receptor) binds to a foreign antigen with high specificity and high affinity.Second messenger signaling is activated in the B cell.Gene expression is altered in the B cell, and the B cell begins to divide.Several rounds of division occur, producing many B cells that all express the same B cell receptor.These steps are critical for the body's adaptive immune system to mount a specific response against the antigen presented by the microbe. The ultimate goal of these steps is the production of plasma cells and memory B cells that can produce antibodies specific to the antigen and protect the host from future infections by the same pathogen.
When a sudden change in the environment, such as a flood or fire, reduces the size of a population, the survivors' collective gene pool will be only a limited representation of what was present before the disaster. This phenomenon is called: a. The bottleneck effect. b. Founder effect. c. Hardy-Weinberg effect. d. Culling effect. e. Genetic load.
Answer: option A - bottleneck effect
Explanation:
Whenever sudden change caused by human or natural disasters occurs in the environment leading to the reduction of organisms or biodiversity present to a lower size, such condition is referred to as BOTTLENECK EFFECT.
In German cockroaches, the curved wing allele (cv) is recessive to the normal allele wing (cv ). Bill, who is raising cockroaches in his dorm room, finds that the frequency of the allele for curved wings in his cockroach population is 0.6. In the apartment of his friend Joe, the frequency of the allele for curved wings is 0.2. One day Joe visits Bill in his dorm room and several cockroaches jump out of Joes' hair and join the population in Bill's room. Bill estimates that 10% of the cockroaches in his dorm room now consist of individual roaches that jumped out of Joe's hair. What will be the frequency of roaches with curved wings among cockroaches in Bill's room?
The new frequency of curved-wing allele in Bill's cockroach population after incorporating cockroaches from Joe's population would be 0.56, assuming no other changes or selective pressures.
Explanation:To determine the frequency of the curved wing allele after Joe's roaches joined the population in Bill's room, we must first determine the combined frequency of the curved wing allele from both populations. Considering that the allele frequency in Joe's roaches was 0.2 and it made up 10% of the new combined population, and Bill's roaches had a frequency of 0.6 and composed 90% of the population, we can calculate a new overall frequency as follows: (0.6 * 0.9) + (0.2 * 0.1) = 0.54 + 0.02 = 0.56.
So, assuming no other changes or selective pressures, this would be the new frequency of the curved wing allele in Bill's roach population after Joe's roaches joined.
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Final answer:
The new frequency of the curved wing allele in Bill's cockroach population after incorporating roaches from Joe's population is 0.56.
Explanation:
To calculate the new frequency of the curved wing allele (cv) in Bill’s cockroach population after the introduction of cockroaches from Joe’s population, we need to account for the change due to the roaches from Joe’s hair.
Initially, Bill’s population had a frequency of 0.6 for the curved wing allele. Joe’s had a frequency of 0.2. After 10% of Bill's population is replaced by Joe's cockroaches, the new frequency (pnew) of the curved wing allele in Bill’s population can be calculated as:
pnew = (0.9 × Bill’s original frequency) + (0.1 × Joe’s frequency)
pnew = (0.9 × 0.6) + (0.1 × 0.2)
pnew = 0.54 + 0.02
pnew = 0.56
Therefore, the new frequency of cockroaches with curved wings among cockroaches in Bill's room will be 0.56.
A federally covered investment adviser (IA) instructs its investment adviser representatives (IARs) to add the initials "RIA" (registered investment adviser) after their names on their business cards.
The SEC prohibits the use of "RIA" because it may suggest that an IAR has obtained a certain level of competence.
Answer:
The correct answer is option [C] "This is prohibited by the SEC because the use of "RIA" implies that the IAR is competent".
Explanation:
The missing options of this question are:
[A] This is permitted because the IAR is registered.
[B] This is permitted because the SEC lacks authority to object to the content of business cards.
[C] This is prohibited by the SEC because the use of "RIA" implies that the IAR is competent
[D] This is prohibited by the SEC because "RIA" may be confused with "IAR."
The correct answer is option [C] "This is prohibited by the SEC because the use of "RIA" implies that the IAR is competent".
The federally covered investment adviser (IA) must not instruct its investment adviser representatives (IARs) to add the initials "RIA" (registered investment adviser) after their names on their business cards. An IAR cannot use the initials RIA, according to Rule 206(4)-1 under the Investment Advisers Act of 1940. Using the initials implies that the IAR is competent and this action is misleading for the clients and prospective clients.
Write a paragraph of 3-5 sentences describing 1) whether the statement is correct or incorrect and 2) the reasoning for your answer. Your answer should demonstrate your understanding of the physiological concepts underlying the statement and be written professionally. An imbalance wherein osteoblast activity significantly exceeds osteoclast activity would lead to the development of osteoporosis over time.
Answer:
Incorrect
Explanation:
In the bone modelling process, osteoblasts a responsible for bone formation and osteoclasts are responsible for bone resorption. In the young adult during growth, the formation of bone exceeds the resorption of bone to maintain bone mass. Therefore,
As we get older, bone formation decreases due to reduction in osteoblastic activity and numbers and bone resorption increases as a result of sex hormone deprivation, this will result in decreased bone mass (osteoporosis). Therefore, osteoclastic activity would have to exceed osteoblastic activity in order or osteoporosis to develop
Evolutionary geneticists carefully genotype a population of saber-toothed tigers and find the following genotypes:
250 tigers are A1/A1, 500 tigers are A1/ A2, and 250 tigers are A2/A2.
Tragically, an asteroid lands in the middle of the population, killing 50% of each genotype.
A) What will the genotype frequencies be in the next generation?
Answer:
Explanation:
since 50% of each genotype was tragically destroyed, the new population will be as follows;
A1A1 = 125, A1A2 = 250, A2A2 = 125
The new genetic frequencies are as follows;
A1A1 = 125/500 = 0.25
A1A2 = 250/500 = 0.50
A2A2 = 125/500 = 0.25
The largest fenestrae are seen in __________ capillaries, while the smallest fenestrae are seen in __________ capillaries.
Answer:
Sinusoidal and fenestrated .
Explanation:
Capillaries may be defined as the small blood vessels and carries the blood between the venules and the areterioles. These are the smallest blood vessels present in the body.
Sinusodial capillaries are also known by the name of the discontinuous capillaries. These capillaries has large fenestrae and mainly found in liver and bone marrow. Fenestrated capillaries consist of pores in their endothelial cells and has small fenestrae.
Thus, the answer is sinusoidal and fenestrated .
In Maize, spotted kernels are made up of pigmented and colorless cells, the colorless cells in a spotted kernel can result from [choose ALL that apply, note that incorrect selections will deduct points]:
O The absence of Ac in the genome and the absence of Ds in the C gene in the colorless cells.
O The absence of Ac in the genome and the presence of Ds in the C gene in the colorless cells.
O The presence of Ac in the genome and the absence of Ds in the C gene in the colorless cells.
O The presence of Ac in the genome and the presence of Ds in the C gene in the colorless cells.
O The presence of Ac in the C gene in the colorless cells.
O The absence of Ac and Ds in the genome and a wildtype C gene.
Answer: the correct statements are;
-The presence of Ac in the genome and the presence of Ds in the C gene in the colorless cells.
-The presence of Ac in the C gene in the colorless cells.
Explanation: Ds moved from a site near the centromere into the C gene located close to the telomeric ends
In its new location, Ds prevents the expression of C (pigment) gene
The inactivation of C gene explains colorless parts of the kernel .
Which step of cross-bridge cycling is considered the power stroke?
a. when the myosin cross-bridge forms
b. when ATP binds to the myosin head and releases it from the thin filament
c. when the phosphate is released and the myosin cross-bridge moves to the right in the animation
d. when ATP is hydrolyzed and the myosin head moves to the left in the animation
Answer:
c. when the phosphate is released and the myosin cross-bridge moves to the right in the animation.
Explanation:
Power stroke refers to the step whereby ADP and phosphate are released from the myosin, allowing the mysoin head to bend.