Final answer:
The hypothalamus synthesizes the antidiuretic hormone (ADH) and oxytocin, which are then released from the posterior pituitary. Other hormones like growth hormone and adrenocorticotropic hormone (ACTH) are produced by the anterior pituitary under the influence of the hypothalamus.
Explanation:
The hormones synthesized in the cell bodies of neurosecretory cells found in the hypothalamus are the antidiuretic hormone (ADH), also known as vasopressin, and oxytocin. They are transported to and released from the posterior pituitary gland into the circulatory system. These hormones are manufactured in the hypothalamus but stored and secreted by the posterior pituitary.
Other hormones, such as growth hormone (GH), adrenocorticotropic hormone (ACTH), and thyroid-stimulating hormone (TSH), are produced in the anterior pituitary gland as a result of signaling from the hypothalamus but are not directly synthesized in the hypothalamus itself.
Which of the following would likely reduce the threats posed by exotic species to native species?I. Increasing inspections of goods coming into a country.II. Mandating that bilge water from vessels be emptied in ports instead of the open ocean.III. Enforcing legislation that restricts imported materials such as untreated wooden packing crates.a. I onlyb. II onlyc. III onlyd. I and III onlye. I, II, and III
Answer:
A. I only
Explanation:
Exotic animal species are really found in most countries and given that people these animals, they are very valuable. Species like lions, tigers, parrots, cheaters and even pythons are loved for exotic nature.
For this reason, they are caught, killed, shipped and sold in various countries or regions like dubia, Saudi Arabia etc. Its effects on the population of these species are disastrous.
If the inspection of goods coming into a country is intense and frequent, it will mitigate the shipping and sales of the species.
All three measures, I, II, and III, are strategies that reduce the threats from exotic species to native species by focusing on prevention and management at ports of entry and in goods transport.
Explanation:The threats posed by exotic species to native species can be significantly reduced by implementing a combination of strategies that focus on prevention and management. Measures such as increasing inspections of goods entering a country can help detect potential invasive species before they enter new environments. Additionally, practices like mandating the disposal of bilge water from vessels in ports instead of the open ocean can prevent the introduction of marine organisms that may become invasive. Enforcement of regulations that restrict imported materials, such as untreated wooden packing crates, can also limit the likelihood of invasive species hitchhiking into a country. Therefore, all three listed measures, I, II, and III, collaboratively contribute to reducing the risks associated with exotic species.
Which of the following statements is FALSE? Which of the following statements is FALSE? a.Vitamin A supplements can sometimes cure nyctalopia because vitamin A can be converted into retinal. b.Nyctalopia affects vision in the fovea centralis, resulting in impaired vision. c.Retinitis pigmentosa is a disorder in which the discs released from rods are not properly phagocytized. d.All of the listed responses are false.
Answer:
Correct option is (B). Nyctalopia affects vision in the fovea centralis, resulting in impaired vision.
Explanation:
Nyctalopia which is also known as night blindness, in this condition it's difficult to see in relatively low light. It can cause by two types one is from birth, and another is injury or vitamin A deficiency which is also called as malnutrition.
It is caused by the loss of normal rod function in retina, and loss their ability to response in the light. The outer part of retina is made up of more rods compare to cones, loss of peripheral area repeatedly results in night blindness.
Increasing the volume of air that reaches the alveoli and takes part in gas exchange will cause blood pH to:
Answer:
Increase
Explanation:
As CO2 enters the blood, most of it is converted to the carbonic acid in a reaction catalyzed by carbonic anhydrase. The carbonic acid dissociates into hydrogen ions and bicarbonate ions. As the H+ concentration increases, the blood pH decreases. Thus, the increased partial pressure of CO2 produces a more acidic environment. Increasing the volume of air that reaches the alveoli and takes part in gaseous exchange will increase the rate of removal of CO2 from the blood. The reduced CO2 levels in the blood would increase the blood pH.
In the presence of oxygen, the three-carbon compound pyruvate can be catabolized in the citric acid cycle. First, however, the pyruvate 1) loses a carbon, which is given off as a molecule of CO2, 2) is oxidized to form a two-carbon compound called acetate, and 3) is bonded to coenzyme A.
These three steps result in the formation of
A) acetyl CoA, O2, and ATP.
B) acetyl CoA, FADH2, and CO2.
C) acetyl CoA, FAD, H2, and CO2.
D) acetyl CoA, NADH, H+, and CO2.
E) acetyl CoA, NAD+, ATP, and CO2.
Answer:
D. acetyl CoA, NADH, H+, and CO2.
Explanation:
Pyruvate formed by the glycolytic breakdown of glucose enters Kreb's cycle in the form of acetyl CoA. Conversion of pyruvate into acetyl CoA occurs in the mitochondrial matrix and the reaction catalyzed by the pyruvate dehydrogenase complex (PDH). It is an oxidative decarboxylation of pyruvate.
The PDH complex is composed of multiple copies of three enzymes. The enzyme complex catalyzes an irreversible oxidation process in which the carboxyl group of pyruvate is removed as a molecule of CO2 and the two remaining carbons become the acetyl group of acetyl-CoA. Here, NAD+ serves as the electron acceptor and is converted into NADH.
The conversion of pyruvate into acetyl CoA, in the presence of oxygen, produces acetyl CoA, NADH, H+, and CO2. The correct answer from the provided options is D) acetyl CoA, NADH, H+, and CO2.
Explanation:When pyruvate is metabolized in the presence of oxygen, it undergoes a process that converts it into acetyl CoA. This process involves three key steps: 1) the removal of one carbon from pyruvate, which is released as a molecule of CO2,2) the oxidation of pyruvate to form a two-carbon compound called acetate, and 3) the coupling of acetate to coenzyme A (CoA) to form acetyl CoA. Concurrently, the electrons released during oxidation are accepted by NAD+, forming NADH and H+ (a proton). Therefore, the end products of these three steps are acetyl CoA, NADH, H+, and CO2. Given the options provided, the correct answer is D) acetyl CoA, NADH, H+, and CO2.
Brodt and Zimbardo found that shy women who were bombarded with loud noise and told that it would leave them _____ were subsequently _____ when interacting with a handsome male. a) with a pounding heart; no longer so shy b) unaffected; no longer so shy c) with a pounding heart; even more shy
Brodt and Zimbardo found that shy women who were bombarded with loud noise and told that it would leave them with a pounding heart were subsequently no longer so shy when interacting with a handsome male.
a) with a pounding heart; no longer so shy
Explanation:
Shy is an emotion expressing nervousness, being reserved and timidity when communicating or being with some people. Shyness is generally observed in the person who has low self-confidence and inferiority complex.
Brodt and Zimbardo found that when a woman is continuously allowed to face loud noise, initially it may lead to pounding heart and subsequently they get used to it and they will be no longer shy. These scientists also found that when woman is interacting with the handsome male they will never feel shy.
Your skin is waterproof. What type of cell-cell junction is most likely involved in creating a water-tight barrier between the outside and inside of your body?
Answer: tight junction
Explanation:
Tight junctions are the multiprotein complexes. The function of these complexes is to prevent the leakage of the transported water and solutes. These junctions seals the pathway between two cells. These junctions form an impermeable barrier against the fluid. The tight junctions hold the cells together and are protective in nature. The tight junction are present on the epidermal cells of the skin it keeps the skin waterproof.
A leukocyte is responsible for: bringing oxygen to the other body cells fighting disease by phagocytosis or antibody production causing muscle contraction conducting nervous impulses throughout the body
Final answer:
A leukocyte, or white blood cell, is vital in the immune system, responsible for defending the body against disease through phagocytosis or antibody production.
Explanation:
A leukocyte, commonly known as a white blood cell (or WBC), is an integral component of the immune system responsible for protecting the body against illness. Leukocytes engage in various defense mechanisms, including phagocytosis and antibody production.
Neutrophils and macrophages are types of leukocytes that actively engulf and digest pathogens, a process known as phagocytosis. Other leukocytes, such as lymphocytes, primarily function in the immune response by making antibodies tailored to foreign antigens.
Additionally, leukocytes are involved in inflammation, an immune response that helps to isolate and heal the affected area.
Which of the following correctly predicts what would happen to a body cell if its processes were interrupted during mitosis?
A. Cells would begin dividing uncontrollably. .
B.Chromosomes would not separate into two nuclei. .
C. Chromatids would not be fully developed. .
D.The cell would not be able to grow any further. . .
Answer: The cell would not be able to grow any further.
Hope this helps. :)
A scientist claimed that hemophilia is caused by a functional deficiency in Factor VIII. The evidence in the passage that would best support this claim is that Factor VIII is:
A.a soluble blood protein.
B.produced by a gene on the X chromosome.
C.able to relieve hemophilia symptoms.
D.encoded by a gene that contains introns.
Answer:
C. able to relieve hemophilia symptoms.
Explanation:
Hemophilia is a genetic disorder. It is an X-chromosome linked recessive disorder. It is caused by deficiency of functional blood clotting factor VIII. The Functional factor VIII al deficiency may be inherited or arise from spontaneous mutation.
The symptoms of hemophilia can be reduced partially by functional Factor VIII. This will help to counter functional deficiencies in factor VIII in the haemophilic individuals.
Flower color in snapdragons is due to a gene with incomplete dominance: CRCR plants have red flowers, CRCW have pink flowers, and CWCW plants have white flowers. Which cross is expected to yield progeny with flower colors in a ratio of 1 red:1 pink?
The question is incomplete. The complete question is:
Question: Flower color in snapdragons is due to a gene with incomplete dominance: CRCR plants have red flowers, CRCW have pink flowers, and CWCW plants have white flowers. Which cross is expected to yield progeny with flower colors in a ratio of 1 red:1 pink?
A. CRCR × CRCW
B. CRCR × CWCW
C. CRCW × CRCW
D. CRCW × CWCW
E. CWCW × CWCW
Answer:
A. CRCR × CRCW
Explanation:
According to the given information, the flower color gene in snapdragon exhibits incomplete dominance. When a snapdragon plant with red flowers is crossed with a snapdragon plant with pink flowers, it obtains progeny in following phenotype ratio= 1 Red (CRCR): 1 Pink (CRCW).
Here, the genotype of the parent with the red flowers is CRCR and that of the parent plant with pink flowers is CRCW. The parent plant with pink flowers produces two types of gametes carrying CR or CW alleles. Random fusion of gametes of the two parent plants obtains the progeny in 1 red: 1 pink ratio.
A cross between a homozygous red snapdragon (CRCR) and a heterozygous pink snapdragon (CRCW) will yield progeny in a ratio of 1 red:1 pink.
Explanation:In genetics, when dealing with incomplete dominance, a cross between two heterozygotes (CRCW x CRCW) will result in an offspring phenotypic ratio of 1:2:1 for red:pink:white. However, the question is asking for a 1:1 ratio for red:pink with no white. This can be achieved by crossing a homozygous red parent (CRCR) with a heterozygous pink parent (CRCW).
The Punnett square for this cross would look something like this:
CRCR x CRCR = CRCR (Red)CRCR x CRCW = CRCR (Red)CRCW x CRCW = CRCW (Pink)CRCW x CRCR = CRCW (Pink)As a result, half of the offspring would be CRCR (red) and half would be CRCW (pink), resulting in a 1:1 phenotypic ratio for red:pink flowers, with no white flowers.
Learn more about Incomplete Dominance here:https://brainly.com/question/14053639
#SPJ11
What are the most common cells that line the surface of the alveoli and are therefore associated with the exchange of gases within the lungs?
Answer: The epithelial cells
The endothelial cells .
The epithelial cells are pulmonary while the endothelial are vascular
These cells exist as tight-two celled structure for gas exchange in the lungs
They are moistened , thin layered , and use diffuse gradient of oxygen and carbon dioxide to move gases across their wall.s
They are well lined with blood capillaries for rapid absorption of gases into the blood stream,
A certain organelle is part of the endomembrane system of a cell and looks like flattened sacs of membranes. It is often referred to as the "post office" of the cell because it sorts, modifies, and repackages proteins and lipids. It then ships the products in vesicles to other parts of the cell or to the plasma membrane, where they may exit the cell. However, this organelle does not participate in the synthesis of proteins and lipids. Identify this organelle.
Answer:
Golgi apparatus
Explanation:
The endomembrane system includes the nuclear envelope, the endoplasmic reticulum, the Golgi apparatus, lysosomes, several types of vacuoles, and the plasma membrane.
The Golgi apparatus consists of flattened membranous sacs called cisternae. They are stacked upon each other. The membrane of each cisterna in a stack maintains the unique internal space from the cytosol. Proteins and lipids formed on the ER are packed in many transport vesicles and are delivered to the Golgi apparatus.
The Golgi apparatus serves as a site for modification, and packaging of proteins and lipids. Modification of proteins in the Golgi apparatus results in the formation of several types of modified biomolecules such as glycoproteins. It serves as the site for the packaging of secreted proteins and sorting of other proteins to vacuoles and other organelles via transport vesicles. The transport vesicles carrying various biomolecules are formed in the trans face of the Golgi apparatus. These vesicles pinch off from the Golgi membrane and transport their contents to a specific destination.
The organelle in question is the Golgi apparatus, which sorts, modifies, and repackages proteins and lipids, then sends them to other parts of the cell or outside the cell.
Explanation:The organelle you're referring to is known as the Golgi apparatus. Often likened to the 'post office' of a cell, the Golgi apparatus is responsible for packing, sorting, and modifying proteins and lipids once they've been synthesized in the cell. These substances are then transported via vesicles to other parts of the cell for use, or to the plasma membrane to be excreted from the cell. However, as you mentioned, the Golgi apparatus doesn't participate in the actual synthesis of these proteins and lipids.
Learn more about Golgi apparatus here:https://brainly.com/question/36373765
#SPJ6
The rupture of the mature (Graafian) ovarian follicle during ovulation is stimulated by a surge in the secretion of _______
Answer:
Lutenising hormone (LH)
Explanation:
Follicle stimulating hormones (FSH) are released by pituitary gland as the follicle develops. As the follicle matures, the level of oestrogen increase thereby suppressing the release of FSH. A hormone named inhibin also suppresses the production of FSH. The rise in level of Oestrogen triggers the release of Lutenising hormone which is responsible for ovulation. LH causes the follicle to rupture and thus lutenise it to form corpus luteum.
The rupture of the mature ovarian follicle during ovulation is stimulated by a surge of luteinizing hormone (LH). Post-ovulation, the luteal phase begins, producing progesterone from the newly formed corpus luteum, which also inhibits the secretion of FSH and LH to prevent further follicle development.
Explanation:The rupture of the mature (Graafian) ovarian follicle during ovulation is stimulated by a surge in the secretion of luteinizing hormone (LH). Ovulation typically occurs around day 14 of a 28-day menstrual cycle and is crucial for human reproduction. During the follicular phase of the cycle, a rising estrogen level initially suppresses LH secretion from the pituitary gland. However, as estrogen reaches a threshold, this effect is reversed, and a significant LH surge is triggered, which in return matures the egg and facilitates the weakening of the follicle wall. This culminates in the release of the secondary oocyte from the follicle.
Once ovulation has happened, the ovarian cycle moves into the luteal phase, in which the remaining cells within the ruptured follicle transform into the corpus luteum. The corpus luteum is an important endocrine structure that produces large amounts of progesterone, essential for the maintenance of pregnancy and the preparation of the uterus to accept a fertilized egg. This progesterone surge also invokes a negative feedback mechanism that inhibits further secretion of FSH and LH, thereby preventing the development of new dominant follicles during this phase.
In what type of circulation does the blood flow between the heart and lungs?
Answer:
Pulmonary circulation
Explanation:
The pulmonary circulation is the type of circulatory system that involves the flow of deoxygenated blood from the right ventricle of the heart to the pulmonary trunk, which transports the deoxygenated blood through the right and left pulmonary arteries to the capillary beds and arterioles of the lungs. An exchange occurs in the lungs as oxygen is absorbed from the alveoli, while carbon dioxide is released. The oxygenated blood is then returned to the left atrium and ventricle of the heart.
Only a small amount of the energy stored in food is available to the next organism in a food chain because:
Answer:
because 90% of energy is lost in the environment as heat.
Explanation:
According to the 10% rule, only 10% of energy is transferred from one trophic level to the next trophic level. It means that if the producers have 100% percent energy than only 10% of energy will be passed from producers to primary consumers.
So only a small amount of energy is transferred to the next trophic level because most of the energy is lost as heat during the oxidation of food. Therefore a very small amount of energy is transferred to the highest trophic level.
As less energy is available to support the organisms present on higher trophic level so their number is lower than the number of organisms present at lower trophic levels.
The correct option is D i.e. most of the energy is used for life processes.
In a food chain, most energy is used for life processes or lost as heat, limiting the amount of energy available to the next organism. This explains why food chains rarely exceed four or five trophic levels.
In a food chain, most of the energy is used for life processes or lost as heat. This is due to the second law of thermodynamics, which states that energy is lost as it is transferred from one trophic level to the next. For example, in the Silver Springs ecosystem study by Howard T. Odum, primary producers generated 20,819 kcal/m²/yr, but this energy reduced significantly as it moved up the chain: primary consumers generated 3368 kcal/m²/yr, secondary consumers 383 kcal/m²/yr, and tertiary consumers only 21 kcal/m²/yr. This energy loss limits the number of trophic levels in a food chain, usually to four or five levels.The complete question is
Only a small amount of the energy stored in food is available to the next organism in a food chain because
A.There are more producers than consumer in a food chain
B.There are fewer top consumers than producers in a food chain
C.Primary and secondary consumers compete for food
D.Most of the energy is used for life processes
The best indication that dreaming serves a necessary biological function is provided by the fact that________.
Answer:
most organisms, especially mammals experience what is known as REM rebound.
Explanation:
An increasing frequency of rapid eye movement [ REM sleep] that occurs after period of sleep deprivation is regarded as REM rebound.
The REM sleep is described to be important for normal brain development especially in the infants, because ,it stimulates part or region of the brain used in learning. This is why, infants are believed to spend more time in REM sleep than the adults.
Note that, REM means Rapid Eye Movement.
Scientists determined that a species of a reptile dinosaur cohort had 20% survivorship during the first two years of life, but then the survivorship of those individuals that survived to age 2 had a 70% survivorship to middle age. Survivorship declined later in life. Which of the following best illustrates the shape of the survivorship curve for this species?
Answer:
C. downward curve
Explanation:
In this case, graph C explains the shape of the survivorship curve for this species.
Answer: C
Explanation:
A graph for this species would have a curve that drops off before age 2, is concave until middle age, and then drops again, paralleling that of a Type I survivorship curve.
Organisms that have cells lacking internal membrane-bound structures are called
Answer:
Explanation:
Prokaryotic cells are surrounded by a plasma membrane, but they have no internal membrane-bound organelles within their cytoplasm. The absence of a nucleus and other membrane-bound organelles differentiates prokaryotic from another class of organisms called Eukaryotas.
Answer:
Eukaryotas
Explanation:
Tim will need to take several hormone replacements because he no longer has a functioning pituitary gland. Which hormones should the doctor prescribe to time?
The doctor prescribe to time is Pituitary hormone replacement therapy.
What is Pituitary gland?When the pituitary gland produces one or more of its hormones insufficiently or at levels below normal, the disease is known as hypopituitarism.
Typically, these hormones encourage the production of other endocrine glands' hormones. For instance, the thyroid gland does not function properly if the pituitary gland does not produce the thyroid-stimulating hormone (TSH).
All endocrine glands are produced by the pituitary gland, which is situated near the base of the brain. In pituitary hormone replacement therapy, the patient receives hormones to replace those that the pituitary gland is unable to make.
Therefore, The doctor prescribe to time is Pituitary hormone replacement therapy.
To learn more about Pituitary gland, refer to the link:
https://brainly.com/question/12499901
#SPJ5
which of the following statements is correct?
Answer:
The correct answer is option c: all cells have the same genes, but different genes are active in different cells.
Explanation:
Hello!
Let's solve this!
The genes are contained in the DNA. These contain all our genetic information. Depending on the function they are going to fulfill, they express themselves or not.
All our cells have the same genes and are activated in different ways.
We conclude that the correct answer is option c: all cells have the same genes, but different genes are active in different cells.
The type of memory that is associated with the conscious recollection of previous experiences is referred to as ________ memory.
Answer:
Answer is explicit memory.
Explanation:
Explicit memory is one of the two types of long-term memory. The other type in implicit memory.
The explicit memory occur when you decide consciously to recollect or remember past or previous experience.
The Implicit is non-conscious recollection of previous experiences.
Explicit memory is the type of memory associated with the conscious recollection of previous experiences, such as episodic and semantic memories, distinguishing it from implicit memory that does not require conscious effort.
The type of memory that is associated with the conscious recollection of previous experiences is referred to as explicit memory. This type of memory includes memories that are intentionally recollected and typically consists of factual information such as previous experiences and concepts. There are two main types of explicit memory: episodic and semantic. Episodic memory refers to firsthand experiences we have had, like recollections of our high school graduation or a memorable dinner. On the other hand, semantic memory involves our knowledge of facts and concepts about the world, such as the understanding that the absolute value of -90 is greater than the absolute value of 9.
It is important to distinguish explicit memory from implicit memory. Whereas explicit memory requires conscious effort to recall previous experiences, implicit memory does not involve such conscious recollection and pertains to the retention of skills and habits. Patients with neurological damage that affects explicit memory, for instance, may still display implicit memory when demonstrating learned actions without a conscious memory of the learning experience.
In the scientific name, Pan paniscus, Pan represents the name of the ____ while paniscus represents the name of the ____.
Answer:
genus, specie
Explanation:
The binomial nomenclature is a naming system used by scientists to identify organisms, it's composed by two words, the first refer's to the individual's genus, a small group of closely related organisms, and the second word is the specific name or epithet used to diffetentiate species in the same genus.
I hope you find this information useful and interesting! Good luck!
A scientist testing the effects of a chemical on apple yield sprays an orchard with the chemical. A second orchard does not receive the chemical. In the fall, the number of apples harvested from each forest is counted.
Which of the following is the independent variable in the experiment?
1.the amount of water that each orchard receives
2. the species of trees in the orchard
3.the number of apples that are produced by each tree
4.the size of each of the orchards
Answer:
None of the given options
Explanation:
An independent variable is the one whose quantity or specification is varied during an experiment in order to test the impact of the variation of independent variable on the dependent variable. From the description provided it is clear that the yield of apple is the dependent variable while the chemical is the independent variable. The application of chemical is varied on the two sets of apple gardens.
Hence, among the given options none is correct
When sea otters are present in a kelp forest community, there are more than 12 species in the community. If sea otters are removed, there are 5–7 species that remain in the community. These data suggest that sea otters are:
Answer:
A keystone species
Explanation:
Keystone species are the species that play an important role in maintaining the structure of the ecological community they live in and they do so by affecting the numbers and types of other organisms that are found in the same ecological community. A keystone species may not necessarily occupy the largest biomass or be the greatest in terms of productivity in the given community but the removal of keystone species has a huge impact on the survival of other species and hence, the term keystone is used. In the given example, the sea otters are also playing the role of keystone species in a kelp forest community as in their presence there are more than 12 species however once these species are removed, the number reduces down to 5-7.Which of the following types of receptors are located in the mouth?
A. chemoreceptors only chemoreceptors, thermoreceptors, and nociceptors
B. only chemoreceptors, mechanoreceptors, thermoreceptors, and nociceptors
C. thermoreceptors, mechanoreceptors, and nociceptors only
Final answer:
The mouth contains chemoreceptors, mechanoreceptors, thermoreceptors, and nociceptors. These receptors are essential for the comprehensive perception of taste, texture, temperature, and potential pain from food consumption. The correct answer is B, which includes all four types of receptors.
Explanation:
The types of receptors located in the mouth include chemoreceptors, which are responsible for the sense of taste, as well as sensing chemical stimuli like odor; thermoreceptors, which detect temperature changes; mechanoreceptors, which can sense mechanical pressure and touch; and nociceptors, which are responsible for the sensation of pain. These receptors work together to provide us with a comprehensive sense of our food's taste, texture, and temperature and can signal if a food is harmful or too hot, potentially causing pain. Therefore, the correct answer to the question is B: only chemoreceptors, mechanoreceptors, thermoreceptors, and nociceptors.
Chemoreceptors are mainly found in taste buds on the tongue and are essential for detecting the five primary tastes: sweet, sour, bitter, salty, and umami. Thermoreceptors are part of the protein family that allows us to sense temperature changes, including the warmth or coolness of foods. Mechanoreceptors respond to physical stimuli like pressure and vibration, crucial for detecting the texture and consistency of food. Nociceptors alert us to potential damage, such as the pain experienced from consuming something too hot or too spicy, which can cause chemical irritation.
True or false Teratogens tend to affect the developing fetal brain during the second and third trimesters.
Answer:
True
Explanation:
You are a conservation biologist, studying genetic variation in three populations of an endangered species of ladybug beetle. Population 1 has 20 beetles, two of which have brown spots, a recessive trait; the other nine beetles have red spots. Population 2 has 150 beetles and 15 of them have brown spots, while 135 have red spots. Population 3 has 50 beetles, and five of them have brown spots. In which population is the frequency of the allele for brown spots the highest?
Answer:
Let's add the options to complete the question
a. Population 1
b. Population 2
c. Population 3
d. The frequency for allele for Brown spot is the same in all three populations
e. It is not possible to answer this question from the given data
The RIGHT ANSWER IS e
e. It is not possible to answer this question from the given data
Explanation:
It is not possible to answer this question from the given data because some variables or information are missing
In comparing three populations of ladybug beetles, the frequency of the allele for the recessive brown spots trait (calculated as the square root of the phenotype frequency) is the same across all populations (0.3162). Therefore, the frequency of the brown spot allele is equally high in all three populations.
We need to apply the principles of population genetics and use the Hardy-Weinberg formula. Population 1 has 20 beetles with a frequency of brown-spotted beetles of 2/20. Population 2 has 150 beetles with a brown spot frequency of 15/150. Population 3 has 50 beetles with a brown spot frequency of 5/50.
In each case, the frequency of the recessive allele (r) representing brown spots can be calculated as the square root of the frequency of the recessive phenotype, since all brown beetles are homozygous recessive (rr).
Population 1:
Frequency of rr = 2/20 or 0.1.
Frequency of r allele = √0.1 = 0.3162.
Population 2:
Frequency of rr = 15/150 or 0.1.
Frequency of r allele = √0.1 = 0.3162.
Population 3:
Frequency of rr = 5/50 or 0.1.
Frequency of r allele = √0.1 = 0.3162.
Interestingly, in all three populations, the frequency of the allele for brown spots is the same (0.3162). So, the answer is that all three populations have the same highest frequency of the recessive allele for brown spots.
In a human population of 100 people at a blood locus there are two alleles M and N. The observed genotype frequencies at this locus are f(MM) = 0.26, f(MN) = 0.35 and f(NN) = 0.39 What is the frequency of the N allele in this population ? Do not assume HW equilibrium.
Answer:
0.565
Explanation:
allele frequency for N = 0.39 + (0.5 x 0.35)
= 0.565
The relatively long half-life of lipid-soluble hormones (steroid hormones) compared to water- soluble hormones is due in part to the way that these hormones are passed into the filtrate from the glomerular capillaries. From the list below select the best explanation for why lipid-soluble (steroid) hormones have a relatively long half-life. A) Steroid hormones travel in the plasma on large transport proteins that cannot pass through the filtration membrane. B) The large size of the steroid hormones prevents them from passing through the filtration membrane. C) Steroid hormones are absorbed by target cells before they can reach the kidneys D) The relatively small size of steroid hormones allows them to easily pass back into the peritubular capillaries if released into the filtrate
Answer:
A) Steroid hormones travel in the plasma on large transport proteins that cannot pass through the filtration membrane
Which of the following is true? ANSWER Unselected Most autonomic disorders reflect deficient control of glands. Unselected Most autonomic disorders reflect deficient control of cardiac muscle. Unselected Most autonomic disorders reflect exaggerated or deficient controls of smooth
Answer:
The correct answer is - most autonomic disorders reflect exaggerated or deficient controls of smooth muscle activity.
Explanation:
The most autonomic disorder is the effects of the nervous signals by increasing or decreasing the activity of the smooth muscles of the body. The autonomic disorder affects the smooth muscles by releasing the calcium in the smooth muscle cells that affect the exaggeration or deficient of the controls of the smooth muscles.
Thus, the correct answer is option - last statement.