Mitochondrial DNA is pattern of inheritance would lead a geneticist to suspect that an inherited disorder of cell metabolism is caused by a defective mitochondrial gene.
This is because mitochondria are present in the cytoplasm of the egg cell and are passed down to the offspring through the mother's egg. As a result, all the mitochondria in the body come from the mother's mitochondrial DNA. Therefore, any mutations or defects in the mitochondrial genome will be inherited in a matrilineal manner, with all affected individuals being descended from an affected female ancestor.
This pattern of inheritance is often referred to as "maternal inheritance," and it is characterized by the fact that all offspring of an affected mother have a high risk of inheriting the disorder, regardless of their sex. Conversely, the children of an affected father are not at risk of inheriting the disorder, since mitochondrial DNA is not passed down through the father's sperm.
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An invasive fish species feeds on suspended plankton and algae in water. Within its five-year lifespan a single fish produces about 5 million eggs, 100,000 of which reach adulthood. How can the introduction of the invasive fish species affect the aquatic ecosystem?
Answer: due to it's inasive nature it will widespread over the larger area and feeds on planktons and algae of that area which leads to decrease in numbers of their species
Explanation:
cloning should be banned. if we allow it to proceed, then pretty soon people will clone themselves to get replacement organs whenever they need them. this will lead to people living for hundreds of years. overpopulation will become so bad that millions will starve, and diseases will spread faster than ever. pollution will be an unstoppable problem. humans will eventually become extinct.
The student question is expressing concerns about the potential negative consequences of cloning, such as overpopulation, pollution, and eventual extinction of humans.
In order to address these concerns, we can provide a step-by-step explanation of the current state of cloning technology, as well as some ethical and regulatory considerations.
1. Cloning technology: It is important to note that the current state of cloning technology is focused primarily on therapeutic and research purposes, such as the creation of stem cells for medical treatments, rather than cloning entire human beings.
2. Ethical considerations: Cloning for the purpose of obtaining replacement organs raises numerous ethical questions, such as the commodification of human life and the potential exploitation of clones
3. Regulation: Many countries, including the United States, have regulations and guidelines in place to ensure that cloning research is conducted ethically and responsibly. These regulations help to prevent the potentially harmful outcomes mentioned in the student question.
4. Population control: Even if cloning were to become more widespread, it is unlikely to lead to a significant increase in human population. The process of cloning is complex, expensive, and not guaranteed to be successful, meaning that it would likely remain a niche solution for specific medical conditions rather than a widespread method of extending human life.
5. Environmental impact: While overpopulation can contribute to pollution, it is important to consider other factors, such as resource consumption, industrial production, and waste management, when discussing potential environmental impacts. Addressing these issues through sustainable practices and innovative technologies is crucial to ensuring a healthy environment for future generations.
In conclusion, while there are valid concerns about the potential negative consequences of cloning, it is important to consider the current state of cloning technology, ethical considerations, and existing regulations that aim to prevent such outcomes. Additionally, addressing other factors contributing to overpopulation and pollution is essential in order to ensure a sustainable future for humanity.
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7.3) which tissue has highly oriented collagenous fibers aligned in the direction of the applied tensile force?
The most appropriate tissue for this question is D. Tendon. Tendons are dense connective tissues that connect muscles to bones, and their collagen fibers are highly oriented.
Tendons are thick connective tissues made fundamentally out of collagen strands that associate muscles to bones. These strands are profoundly situated toward applied elastic power, permitting ligaments to endure the huge powers produced during muscle constriction. Tendons are fundamental for sending force from muscles to bones, empowering us to move and perform proactive tasks. The direction of collagen strands in ligaments is basic to their capability, as it considers most extreme protection from tractable powers toward muscle pull. This makes ligaments exceptionally impervious to tearing and different wounds, making them basic parts of the outer muscle framework.
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The complete question is:
From the following tissues, select the most appropriate one for the questions:
A. Blood B. Skin C. Bone D. Tendon E. Aorta
Which tissue has the highly oriented collagenous fibers aligned in the direction of the applied tensile force?
which of the following are true regarding the influenza virus? people exposed are contagious within minutes of exposure. it is transmitted through respiratory droplets that contain the virus. only type b influenza has surface antigens of hemagglutinin (ha) and neuraminidase (na). it cannot be transmitted from surfaces.
The following statements regarding the influenza virus are true: It is transmitted through respiratory droplets that contain the virus. People exposed are contagious within minutes of exposure.
The influenza virus is a highly infectious respiratory illness that spreads quickly and easily from person to person through respiratory droplets.
Only type B influenza has surface antigens of hemagglutinin (HA) and neuraminidase (NA), which are crucial in the virus's ability to infect cells and are used to identify different strains of the virus.
The influenza virus can survive on surfaces for up to 24 hours but is not primarily transmitted through surfaces.
Hence, only type B influenza has surface antigens of HA and NA, and it cannot be transmitted from surfaces.
Therefore, the correct answer are It is transmitted through respiratory droplets that contain the virus. People exposed are contagious within minutes of exposure.
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A fast-growing community along the coast of southern
California faces an increasing demand for
water. Suggest one way in which this
community could meet its water needs.
Investments in water reuse and conservation can assist the fast growing city in southern California in meeting its escalating water demand.
To do this, legislation and incentives that promote the use of low-flow plumbing, drought-tolerant plants, and water-saving appliances should be put in place. The town can also consider making an investment in wastewater treatment facilities so that recycled, purified water can be used for non-potable purposes like industrial processes.
The city might also look at adopting desalination technology to extract fresh water from the nearby ocean, but this could require a significant investment in time and resources.
By implementing these strategies, the community may be able to reduce its reliance on traditional water sources and mitigate the consequences of upcoming droughts and other water scarcity issues.
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List the five steps of a lytic viral replication cycle in order.
The lytic viral replication cycle involves five main steps: attachment, penetration, biosynthesis, maturation, and release. During the cycle, the virus attaches to the host cell, injects its genetic material, hijacks the host cell's machinery to produce viral components, assembles the new virions, and then breaks open the host cell to release the mature virions.
The five steps of a lytic viral replication cycle in order are:
1. Attachment: The virus attaches to the host cell by binding its surface proteins to the cell's receptor molecules.
2. Penetration: The virus enters the host cell, either by fusing with the cell membrane or through endocytosis.
3. Replication: The viral genome is uncoated and released into the host cell. The host cell machinery is then used to replicate the viral genetic material and synthesize viral proteins.
4. Assembly: Newly synthesized viral components are assembled into complete virus particles, called virions.
5. Release: Mature virions are released from the host cell, either by budding through the cell membrane or through cell lysis, allowing the virus to infect other cells.
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Answer:
1. Attachment
2. Penetration
3. Uncoating
4. Replication
5. Release
5. A plant with the genotype BbCc is crossed
with a plant that has the genotype BBcc. What
is the chance that the offspring will be either
BbCc or BBcc?
Answer:
[tex]\frac{1}{2}[/tex] or 50% chance
Explanation:
Parental genotypes: BbCc × BBcc
Genes: BC Bc bC bc × Bc
[Refer to the Punnett Square attached]
The total number of offspring genotypes is 4. There is one BbCc and one BBcc. So the chance is:
[tex]\frac{1}{4} + \frac{1}{4} = \frac{2}{4} = \frac{1}{2}[/tex]
In terms of percentage, it would be:
[tex]\frac{1}{2}[/tex] × 100 = 50% chance
While online last week, you saw the following advertisement:
Shop at Impressive lonics!
The ions in our jewelry will balance your energy
and improve your health. Nine out of ten people
report significant improvement in the way they
feel within one week of wearing our jewelry.
SALE ENDS SATURDAY!
Which of the following is the best thing to do after reading this
advertisement?
A. Read the company website to find out more about how the ions
work.
B. Look for a peer-reviewed article relating to ionization and overall
well-being.
C. Buy the jewelry before the sale ends.
D. Look for other companies that sell similar products, then compare
prices.
The best thing to do after reading it is to (A) Read the company website to find out more about how the ions work. This will help to understand the science behind the claims made in the advertisement and whether or not the claims are actually supported by scientific evidence. Doing research will help make a more informed decision regarding the effectiveness of the product.
in the first test, compared with r451c mice, about how many more days of training were required for wild-type mice to reach the platform in 10 seconds?
In the first test, compared with R451C mice, about 1.25 days of training were required for wild-type mice to reach the platform in 10 seconds. Option c is correct.
According to the data given in the question, the wild-type mice took 5.25 days to reach the platform in 10 seconds in the first test, while the R451C mice took only 4 days. To calculate the difference in days of training required for the wild-type mice compared to R451C mice, we can subtract the number of days it took the R451C mice from the number of days it took the wild-type mice,
5.25 days - 4 days = 1.25 days
Therefore, the correct answer is (c).
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--The complete question is, In the first test, compared with R451C mice, about how many more days of training were required for wild-type mice to reach the platform in 10 seconds?
a. 2
b. 1.5
c. 1.25
d. 2.25--
spraying with water to clear leaves off a porch is a good way to conserve water true or false
Answer: False
Explanation:
Spraying water to clear leaves off a porch is actually a waste of water. It is better to use a broom or a rake to sweep off the leaves, which will not only conserve water but also provide some physical activity.
A fast-growing community along the coast of southern California faces an increasing demand for water. Suggest one way in which this community could meet its water needs.
the vibrio cholera produces its toxin because of a gene transferred to it by a bacteriophage. this phenomenon illustrates an example of:
Answer:
The phenomenon illustrated in the given scenario is horizontal gene transfer.
The phenomenon in which vibrio cholera produces its toxin because of a gene transferred to it by a bacteriophage is known as Transduction.
Transduction is the process in which genetic material is transferred from one bacterium to another through a virus. The process of transduction allows bacteriophages to transport bacterial genes to other bacteria. The Vibrio cholera bacterium causes cholera, which is a diarrheal disease that can be deadly if left untreated. The bacterium produces its toxin due to the transfer of a gene by a bacteriophage. Transduction is the process of transferring genetic material from one bacterium to another through a virus. This is a way that bacteriophages can transport bacterial genes to other bacteria, allowing them to produce toxins or other virulence factors. Thus, the phenomenon in which Vibrio cholera produces its toxin because of a gene transferred to it by a bacteriophage is known as Transduction.
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which of the following scenarios can increase the likelihood that a certain neuron will reach threshold and have an action potential?which of the following scenarios can increase the likelihood that a certain neuron will reach threshold and have an action potential?there are equal amounts of epsp's via spatial summation as there is temporal summation.spatial summation of opening ligand-gated k ion channels and causing efflux of k ions until it reaches the threshold.there are equal and consistent amounts of epsp's as there are ipsp's in a given amount of time on a postsynaptic neuron.there is a temporal summation that causes a continuous influx of chloride anions which causes the cell to depolarize.
The scenario that can increase the likelihood that a certain neuron will reach threshold and have an action potential is "temporal summation of opening ligand-gated ion channels and causing an influx of positively charged ions until it reaches the threshold."
Temporal summation occurs when the postsynaptic neuron receives multiple EPSPs in rapid succession, which can result in the depolarization of the neuron's membrane potential. If the depolarization is strong enough to reach the neuron's threshold, an action potential can be triggered.
Opening ligand-gated ion channels, such as sodium or calcium channels, can allow positively charged ions to enter the neuron, increasing the likelihood that the neuron will reach threshold and fire an action potential.
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when these two drugs are used in combination, nephrotoxic effects are increased. multiple select question. cephalosporins aminoglycosides polyenes macrolides
The two drugs that increases nephrotoxic effects in combination are option A and B: cephalosporins and aminoglycoside.
Drug-induced nephrotoxicity is a form of renal failure that develops after being exposed either directly or indirectly to nephrotoxic prescription medications, over-the-counter goods, diagnostic tools, or complementary/alternative items. Acid-base and fluid-electrolyte abnormalities, intrarenal blockage, interstitial nephritis, nephrotic syndrome, and other mild to moderate nephrotoxic issues are all possible drug-related side effects.
Therefore, to avoid drug-induced nephrotoxicity and the development of end-stage renal disease, it is important to identify adverse drug effects as soon as possible and to have a thorough understanding of the patient's clinical history, basic renal functions, drug-related risk factors, and nephrotoxic drug combinations.
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Correct question is:
when these two drugs are used in combination, nephrotoxic effects are increased. multiple select question.
cephalosporins
aminoglycosides
polyenes
macrolides
in our many voyages to the planet mars we have been look for signs of life and one primary thing scientist are looking for are signs of water. why would signs of water be important for determining wether or not life exists now or has ever existed on mars? give me at least three examples of why.
Three examples of why would signs of water be important for determining wether or not life exists now or has ever existed on mars are water, history, orgainc molecules.
Water is essential for life as we know it: All living organisms on Earth require water to survive. Water is a key ingredient in many of the chemical reactions that take place within living cells. If there was ever life on Mars, it would have needed water to survive, grow, and reproduce. Therefore, the presence of water on Mars increases the chances of finding life.
Water can provide clues about the planet's history: Mars has a complex geological history, and the presence of water can provide important clues about its past. For example, the shape and size of river channels and the distribution of minerals in Martian soil can help scientists understand how water flowed on the planet in the past and whether conditions were favorable for life.
Water can protect and preserve organic molecules: Organic molecules, the building blocks of life, can break down quickly in harsh environments. However, water can help protect and preserve these molecules by shielding them from radiation and other destructive forces. If life ever existed on Mars, it is possible that organic molecules could be preserved in the planet's water-rich environments, providing evidence of past life.
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what bone feature is used as a passageway for a nerve
The bone feature that is used as a passageway for a nerve is called a Foramen. A foramen is a small opening or hole in a bone that allows nerves, blood vessels, and other structures to pass through. For example, the foramen magnum is a large opening in the base of the skull that allows the spinal cord to pass through.
Other examples of foramina in the human body include the following: Foramen oval: A small opening in the skull that allows nerves and blood vessels to pass through. Foramen rotundum: A small, circular opening in the skull that allows a nerve called the maxillary nerve to pass through. Foramen spinosum: A small, irregularly shaped opening in the skull that allows a nerve called the middle meningeal artery to pass through.
The shape and size of foramina can vary depending on their location in the body and the structures that need to pass through them. In some cases, foramina can become blocked or compressed, leading to nerve or blood vessel damage. Bone markings are invaluable to the identification of individual bones and bony pieces and aid in the understanding of functional and evolutionary anatomy. They are used by clinicians and surgeons, especially orthopedists, radiologists, forensic scientists, detectives, osteologists, and anatomists
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How do systems work in a multi-celled
organism and what happens if there is a
change in the system?
true or false? although less than 1 percent of body calcium is in blood and soft tissue, that small amount is vitally important in muscle contraction, nerve impulse transmission, blood clotting, and cell metabolism.
The given statement although less than 1 percent of body calcium is in blood and soft tissue, that small amount is vitally important in muscle contraction, nerve impulse transmission, blood clotting, and cell metabolism is TRUE.
Although only a small percentage of body calcium is found in the blood and soft tissue, it is still essential for vital physiological functions, such as muscle contraction, nerve impulse transmission, blood clotting, and cell metabolism. Calcium ions play a significant role in the release of neurotransmitters at the neuromuscular junction, which initiates muscle contraction.
Calcium is also crucial for the activation of several enzymes involved in cellular metabolism and blood clotting. Calcium homeostasis is tightly regulated by several hormones, including parathyroid hormone (PTH), calcitriol, and calcitonin, which work together to maintain appropriate levels of calcium in the blood.
If blood calcium levels are too low, PTH and calcitriol increase calcium absorption from the intestines and calcium reabsorption from the kidneys. If blood calcium levels are too high, calcitonin reduces calcium reabsorption from the kidneys and increases calcium deposition in bones.
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due to hunting, the population of northern elephant seals was reduced to 20 individuals at the end of the 19th century. since then, their population has rebounded to over 30,000. what is the most likely long-term effect of hunting on the elephant seal population?
A decrease in genetic variety is the most long-term impact of hunting on the elephant seal population most probable.
There is a greater chance of inbreeding and genetic drift when a community is limited to such a tiny number of people, as was the case with the northern elephant seals.
As a result, there may be a loss of genetic variation, which could make it harder for the population to adjust to environmental changes and raise the risk of genetic diseases.
Even though the northern elephant seal population has increased since the turn of the 20th century, it's conceivable that in the future, the consequences of less genetic variety will start to show.
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What did you find difficult about matching the chromosomes?
Which of these correctly shows the path sperm travels after it is produced?
seminiferous tubules → epididymis ductus deferens → ampulla → ejaculatory
duct ->urethra
ductus deferens→ epididymis → ampulla → seminiferous tubules → ejaculatory duct → urethra
epididymisseminiferous tubules → ejaculatory duct ductus deferens → ampulla → urethra
epididymis → ductus deferensseminiferous tubules → ejaculatory duct ampulla → urethra
The correct path that sperm travels after it is produced is B;
seminiferous tubules → epididymis → ductus deferens → ampulla → ejaculatory duct → urethra
How does sperm move from the body?Sperm travel from the male body through the reproductive system. The process begins in the testes, which are the two oval-shaped organs located in the scrotum. The testes produce and store sperm, and also produce hormones such as testosterone.
When a man is sexually stimulated, sperm move from the testes to the epididymis, a long, coiled tube located on the back of each testicle. The epididymis is where the sperm mature and become motile, or able to swim.
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35) neuron cell bodies in the pns are clustered together in masses called a) nerves. b) ganglia. c) the spinal cord. d) peripheral nerves. e) nuclei.
The PNS's neuron cell bodies are arranged in masses known as Ganglia. The correct answer is (B).
In the case of the central nervous system, a cluster of neurons is referred to as a nucleus; If it is found in the peripheral nervous system (PNS), it is referred to as a ganglion. The structures that sit in between the central and peripheral nervous systems are called ganglia.
In the voluntary and autonomic branches of the peripheral nervous system (PNS), a ganglion is a collection of neuronal bodies. Ganglia function as synaptic relay stations between neurons. The information travels to the ganglia, stimulates a neuron there, and then leaves.
A plexus is a complicated system of ganglia that is formed when ganglia connect. Between the body's various neurological structures, such as the peripheral and central nervous systems, the ganglia serve as relay points and intermediary connections.
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in the electron transport chain during aerobic respiration, what does oxygen do? group of answer choices it oxidizes electron carriers. it is the cofactor for atp synthase. it is the final electron acceptor. it facilitates enzyme function.
In the electron transport chain during aerobic respiration, oxygen serves as the final electron acceptor. option (3)
During aerobic respiration, oxygen serves as the final electron acceptor in the electron transport chain. In this process, the electron carriers NADH and FADH2 pass their electrons through a series of protein complexes, generating a proton gradient across the mitochondrial inner membrane.
This proton gradient is then used by ATP synthase to generate ATP, the primary energy currency of cells. Without oxygen, the electron transport chain would become backed up, and the cell would be unable to produce ATP efficiently, leading to cellular damage or death. Oxygen is therefore essential for aerobic respiration and is a critical component in maintaining the cellular energy balance.
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Full Question: In the electron transport chain during aerobic respiration, what does oxygen do? group of answer choices
it oxidizes electron carriers. it is the cofactor for atp synthase. it is the final electron acceptor. it facilitates enzyme function.trees are rare in the savanna biome because of * 5 points a) tropical storms. b) acidic topsoils. c) frequent fires. d) limited rainfall.
Answer:
c) frequent fires.
Explanation:
Savannas are characterized by a mixture of grasses and scattered trees, with a generally open canopy that allows light to penetrate and support the growth of grasses. The trees in savannas are often fire-resistant and have adaptations to survive in the frequent fires that are common in these regions. In contrast, trees that are not adapted to fires, or that require more water and nutrients than are available in the savanna environment, are less common. So, the limited presence of trees in savannas is due to a combination of factors, including frequent fires, limited rainfall, and nutrient-poor soils.
Trees are rare in the savanna biome because of limited rainfall.
Savannas are areas that are mostly made up of grasses with sparse trees. The amount of rainfall that savannas receive is the most important factor in determining the number and size of trees that grow in them. They have a dry climate and are located near the equator, which means they receive about 20-50 inches of rainfall per year. Because of this, trees have difficulty growing in savannas. This is why trees are rare in the savanna biome due to limited rainfall.
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1. Which of the following is an example of carbon being moved from the biosphere to the lithosphere?
Animals preform respiration and exhale carbon dioxide into the air.
Carbonate ions dissolved in oceans become incorporated into seashells by aquatic animals.
Organic materials fall to the ocean bottomn and become incorporated into sediment.
Fossil fuels are bumned by factories to release energy.
A
The example of carbon being moved from the biosphere to the lithosphere is "Organic materials fall to the ocean bottom and become incorporated into sediment".
What is carbon being moved from the biosphere to the lithosphere?When organic materials, such as dead organisms or their waste products, sink to the ocean floor, they can become buried in sediment. Over time, the pressure and temperature of the sediment can cause it to undergo a process called diagenesis, where it turns into rock.
This process can convert the organic material into fossil fuels, such as coal or oil, which are stored in the lithosphere. Therefore, organic materials falling to the ocean bottom and becoming incorporated into sediment is an example of carbon being moved from the biosphere (living organisms) to the lithosphere (rock layer).
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Pedigree worksheet answers
Answer:
Explanation:
my name is aisha
which of the following moves the membrane potential of the postsynaptic neuron closer to threshold?which of the following moves the membrane potential of the postsynaptic neuron closer to threshold?inhibitory postsynaptic potential (ipsp)excitatory postsynaptic potential (epsp)opening of potassium ion channelshyperpolarization
Excitatory postsynaptic potential (EPSP) moves the membrane potential of the postsynaptic neuron closer to threshold.
EPSPs are depolarizing graded potentials that happen when a neurotransmitter binds to its receptor on the postsynaptic neuron, which causes ligand-gated ion channels to open. This depolarization can move the postsynaptic neuron's membrane potential closer to the action potential threshold, increasing the likelihood that the neuron will fire.
On the other hand, inhibitory postsynaptic potentials (IPSPs) are hyperpolarizing graded potentials that happen when ion channels open, increasing the flow of negative ions into the cell or the flow of positive ions out of the cell. This causes the membrane potential of the postsynaptic neuron to become more negative and move away from threshold, which reduces the likelihood that the neuron will fire.
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examine the five words and/or phrases and determine the relationship among the majority of words/phrases. choose the one option that does not fit the pattern. group of answer choices atlantic comb jelly caulerpa taxifolia green crab spartina alterniflora water hyacinth
The one option that does not fit the pattern is spartina alterniflora. All the words/phrases listed are invasive species.
They are alien species introduced into ecosystems, causing harm to the environment, economy, or human health. In particular, the Atlantic Comb Jellyfish, Toucan, Blue Crab and Water Hyacinth are all invasive species and cause ecological problems in many parts of the world.
Spartina alterniflora, on the other hand, is a native grass species found in coastal wetlands of North America and does not fit the pattern of invasive species. Invasive species can displace native species and have significant economic and social impacts.
For example, blue crabs are known to devastate crustacean populations, while water hyacinths can disrupt aquatic ecosystems. Invasive species is critical to protecting Earth's biodiversity and ecological functions.
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which cell cycle checkpoint would a cell fail if there were a large number of errors in the replicated dna? group of answer choices g1 g2 m none of these are correct.
G2 cell cycle checkpoint would a cell fail if there were a large number of errors in the replicated dna.
The cell cycle designated spot that would probably fall flat assuming there were an enormous number of mistakes in the repeated DNA is the G2 designated spot. This designated spot is answerable for guaranteeing that DNA replication is finished and precise before the cell advances to mitosis. During the G2 designated spot, the phone checks for DNA harm or blunders that might have happened during replication, and if essential, starts fix components to address any issues. Assuming there are such a large number of mistakes in the imitated DNA, the cell may not pass this designated spot, and either go through apoptosis or postpone movement into mitosis until the blunders are fixed. This designated spot is significant for keeping up with the genomic solidness of the cell and forestalling the engendering of hereditary changes.
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small, simple invertebrates depend on diffusion for internal transport, but larger animals require a circulatory system. why is this? diffusion is inefficient in large volumes. larger animals are more complex. diffusion is efficient in large volumes.
Small, simple invertebrates depend on diffusion for internal transport, but larger animals require a circulatory system because a. diffusion is inefficient in large volumes.
Diffusion is a process by which molecules passively move from an area of high concentration to an area of low concentration. In small organisms, diffusion is sufficient for the exchange of gases and nutrients between cells and their environment. However, as organisms grow larger, the distance between cells and their environment increases, and diffusion becomes less efficient.
As a result, larger animals require a circulatory system to transport nutrients, oxygen, and waste products throughout their bodies. The circulatory system consists of a pump (heart) and a network of blood vessels that allow for the rapid and efficient transport of materials. In conclusion, the main reason why larger animals require a circulatory system is that diffusion becomes inefficient in large volumes. So therefore the correct answer is a. diffusion is inefficient in large volumes.
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