One possible idea for designing a donor template DNA sequence to cause the removal of a specific DNA sequence is to incorporate a deletion mutation in the template DNA sequence.
The deletion mutation would result in the loss of one or more nucleotides from the sequence, thereby causing a frameshift that disrupts the reading frame of the gene and prevents the transcription of the targeted sequence. The donor template could be designed to include homologous arms flanking the mutation site, which would allow the template to recombine with the target DNA sequence and replace the original sequence with the mutated sequence.
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functions of the liver include: group of answer choices production of hydrochloric acid (hcl) activation of vitamin d digestion of fats/lipids production of bile processing of drugs and hormones
The liver is one of the most important organs in our body and performs numerous vital functions. One of the primary functions of the liver is the production of bile, which is essential for the digestion and absorption of fats and lipids. The options is correct B) activation of vitamin d digestion of fats/lipids
The liver also plays a crucial role in processing drugs and hormones, breaking them down into smaller components that can be eliminated from the body. Additionally, the liver is responsible for the activation of vitamin D, which is crucial for maintaining healthy bones and teeth.
The liver is a complex organ that works tirelessly to maintain the body's overall health and wellbeing. It is essential to ensure that the liver is functioning properly by maintaining a healthy diet and lifestyle. Alcohol and drug abuse, poor nutrition, and certain medications can all cause damage to the liver and affect its ability to perform its functions properly. It is important to consult with a healthcare professional if you suspect that your liver may be experiencing any problems, as early intervention is key to preventing further damage and maintaining good liver health.
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look up the entry for erbb2 and go to the refseqgene version. at the genbank page, click the graphics hyperlink. how many exons does this gene have
The gene has 32 Exons.
Check the Genomic regions, transcripts, and products or NCBI Reference Sequences (RefSeq) sections of the Gene record to find the gene's coding sequence: The GenBank record in the Nucleotide database can be seen by clicking the GenBank link.
A third party cannot change a GenBank sequence record since it belongs to the original submitter. RefSeq sequences, which are produced from INSDC sequences but do not themselves belong to the INSDC, offer non-redundant curated data that reflects our current understanding of known genes.
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a goal of the human genome project was to multiple choice question. discover the cure to many genetic diseases. discover the location of genes linked to certain functions and developmental outcomes. refute the beliefs of many that genes influence behavior. figure out how to clone humans and animals in an ethical manner.
A goal of the human genome project wasto discover the location of genes linked to certain functions and developmental outcomes.
The Human Genome Project aimed to identify the DNA sequence of every gene in the human genome, with one of its main goals being to discover the location of genes associated with various functions and developmental outcomes.
This would help researchers understand the genetic basis of diseases and conditions, leading to advancements in diagnosis, treatment, and prevention.
The primary goal of the Human Genome Project was not to cure genetic diseases, refute beliefs about genes influencing behavior, or clone humans and animals ethically, but to uncover the location of genes linked to specific functions and developmental outcomes in order to enhance our understanding of the human genome.
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which of the following virulence factors among a-d is correctly matched with its definition or characterization? a. invasins: prevents opsonization of pathogen b. phase variation: allows pathogen to switch between different forms of an extracellular antigen (e.g., flagellum) c. protein a: a microbial factor that allows for attachment, typically a surface protein or surface glycoprotein d. prevention of lysosome:phagosome fusion: mechanism employed by an extracellular pathogen e. all are correctly matched
Protein a: a microbial factor that allows for attachment, typically a surface protein or surface glycoprotein.
Option A - invasins, are virulence factors that help bacteria invade host cells, but they do not prevent opsonization.
Option B - phase variation refers to the ability of some pathogens to switch between different forms of surface antigens, not necessarily extracellular antigens like flagella.
Option D - prevention of lysosome:phagosome fusion is a mechanism used by some bacteria to avoid being killed by lysosomal enzymes within host cells.
Therefore, the only option correctly matched with its definition or characterization is option C - protein a, which is a virulence factor that allows bacteria to attach to host cells using surface proteins or glycoproteins.
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What is the monarch butterfly’s favored host plant?.
The favored host plant of the monarch butterfly is the milkweed.
Monarch butterflies lay their eggs on milkweed plants, and their caterpillars exclusively feed on milkweed leaves. Milkweed contains toxic compounds called cardenolides, which the caterpillars store in their bodies, making them toxic to predators.
Summary: Monarch butterflies prefer milkweed plants as their host plant, providing food and protection for their caterpillars.
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_________ are special features or body parts that living things use to help them survive in a biome.
Answer:
Adaptations.
Explanation:
Adaptations are special features or body parts that living things use to help them survive in a biome.
genetic drift multiple choice has no effect on the genetic variation in a population. makes a population more genetically similar to other populations. increases genetic variation in a population. causes extinction in a population. reduces genetic variation in a population.
Genetic drift is a phenomenon that occurs in small populations where random events can have a significant impact on the genetic makeup of the population which reduces the overall genetic diversity of the population.
It can either reduce or increase genetic variation in a population, depending on the direction of the random events. The correct answer to the multiple-choice question is that genetic drift reduces genetic variation in a population. This is because, in small populations, random events such as genetic mutations or environmental factors can have a greater impact on the gene pool. Over time, this can lead to the loss of certain genetic traits, which reduces the overall genetic diversity of the population. Therefore, genetic drift is an important factor to consider when studying the genetic makeup of populations, especially those that are small and isolated. Answering in more than 100 words, genetic drift is an important concept in population genetics, and its effects on genetic variation can have significant implications for the long-term survival of a population.
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assume a population has a gene with 2 alleles. all the conditions of hardy weinberg equilibrium (hwe) are met for this gene in this population. the frequencies of the 2 alleles are p and q. which of the following is a prediction that follows from the conditions/assumptions of the hardy weinberg equilibrium model?
The frequency of the heterozygotes will be 2pq for as long as HWE is maintained in the population, with respect to this gene. (option 2)
This is a prediction that follows from the conditions/assumptions of the Hardy-Weinberg Equilibrium model. In other words, the frequency of heterozygotes (Aa) in a population can be calculated using the equation 2pq, where p and q are the frequencies of the two alleles (A and a) in the population.
This assumes that the population is in HWE, meaning that there is no evolution occurring due to factors such as mutation, gene flow, natural selection, or genetic drift. The HWE model provides a baseline for understanding how allele and genotype frequencies are expected to behave in a population over time.
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Complete Question:
Assume a population has a gene with 2 alleles. All the conditions of Hardy Weinberg equilibrium (HWE) are met for this gene in this population. The frequencies of the 2 alleles are p and q. Which of the following is a prediction that follows from the conditions/assumptions of the Hardy Weinberg Equilibrium model? Pick the one best answer.
The frequency of the heterozygote is either p2 or q 2, depending on which allele is being considered. This is only true if HWE is maintained with respect to this gene. The frequency of the heterozygotes will be 2pq for as long as HWE is maintained in the population, with respect to this gene. p+q = 1, for as long as HWE is maintained in the population, with respect to this gene. The allele frequencies will remain as p2 and q2 for as long as HWE is maintained in the population, with respect to this gene. The frequencies of the genotypes add up to 1.0, for as long as HWE is maintained in the population, with respect to this gene.on the basis of the scientific method, which of the following would be considered conclusive evidence that we are being visited by aliens?
Extraterrestrial life, often known as alien life, is life that can exist outside of the Earth and that did not develop there.
1.Although efforts are in progress, no conclusive evidence of extraterrestrial life has yet been found.
2.From primitive forms like prokaryotes to sophisticated creatures, this life could give rise to civilizations that are considerably more developed than our own.
3. The Drake equation makes assumptions regarding the possibility of intelligent life existing elsewhere in the cosmos.
4. Since ancient times, people have conjectured that there may be inhabited "worlds" beyond the planet Earth.
The concept of a "plurality of worlds," put forth by older thinkers like Democritus, was debated by a number of early Christian writers; Augustine alludes to Epicurus' concept of infinite realms "throughout."
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Consider a gene, G that codes for a protein used in almost every cell in the body, for a given species. Which of the following are accurate about a population that is in Hardy Weinberg Equilibrium, with respect to gene G? Choose 2 accurate answers. Gene flow is not affecting allele or genotype frequencies of gene G. Inbreeding is not causing a change in the genotype frequencies of gene G. Somatic mutations cannot be happening, because somatic mutations change allele frequencies of gene G This species must reproduce asexually, because sexual reproduction changes allele frequencies of gene G.
The two accurate answers are: gene flow is not affecting allele or genotype frequencies of gene G, and inbreeding is not causing a change in the genotype frequencies of gene G.
Hardy-Weinberg Equilibrium (HWE) is a theoretical model that describes a non-evolving population with a set of assumptions, including random mating, no gene flow, no mutation, no selection, and a large population size.
In such a population, allele and genotype frequencies remain constant over time, and the frequencies of alleles and genotypes can be predicted mathematically.
Therefore, if a population is in HWE with respect to gene G, gene flow is not affecting its allele or genotype frequencies, and inbreeding is not causing any changes in its genotype frequencies.
However, somatic mutations can occur in the cells of an individual and can affect the frequency of alleles within that individual but do not affect the gene pool of the population. The HWE model assumes sexual reproduction, so it is not applicable to asexual populations.
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2. What is an indication for the presence of protein? Explain the biochemical basis of how Biuret test works.
The presence of protein can be indicated by performing a Biuret test. Biuret reagent is a mixture of copper sulfate and sodium hydroxide, which reacts with proteins to form a violet color.
This test works by the peptide bonds in proteins reacting with copper ions in the reagent, forming a complex that absorbs light at a specific wavelength in the visible spectrum, resulting in the violet color. This reaction occurs due to the coordination of the copper ions with the nitrogen atoms in the peptide bonds of proteins.
The Biuret test is a commonly used and reliable method for detecting the presence of protein in various substances such as food, blood, and urine, due to its sensitivity and specificity.
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What did we observe in finches that indicates that natural selection changes the population, not the individuals?
In finches, we observed that the beak size and shape changed over time in response to environmental conditions, such as the availability of different types of food.
This change occurred through natural selection acting on the population, not on individual birds.
Those birds with beaks that were better suited to the available food sources were more likely to survive and reproduce, passing on their advantageous traits to their offspring.
Furthermore, the changes in beak size and shape were not due to genetic mutations, but rather were the result of natural variation within the population.
Natural selection acted on this variation, favoring those individuals with traits that were better suited to the environment.
This observation supports the idea that natural selection operates on populations, not on individuals.
The changes in the population occur over time through the accumulation of advantageous traits in response to environmental pressures.
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Griffith performed experiments, which demonstrated.
Griffith performed experiments that demonstrated the process of bacterial transformation. In these experiments, Griffith used two strains of Streptococcus pneumoniae bacteria: the virulent (disease-causing) S strain and the non-virulent (harmless) R strain.
The key steps of Griffith's experiments are:
Griffith injected mice with live S strain bacteria, which resulted in the mice developing pneumonia and dying.
Griffith injected mice with live R strain bacteria, and the mice remained healthy and survived.
Griffith then heat-killed the S strain bacteria, destroying their ability to cause disease, and injected the dead bacteria into the mice. The mice survived, showing that the heat-killed S strain was no longer harmful.
Finally, Griffith mixed heat-killed S strain bacteria with live R strain bacteria and injected this mixture into the mice. Surprisingly, the mice developed pneumonia and died.
Griffith's experiments demonstrated that some genetic material from the heat-killed S strain bacteria was transferred to the live R strain bacteria, transforming the R strain into virulent bacteria. This process, known as transformation, is an important concept in the field of genetics and was a significant step towards understanding DNA as the genetic material.
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What is the mechanism of action of Staphylococcus aureus protein A?
Answer:
binds the Fc region of antibody (Ab), thereby preventing normal phagocytosis
Explanation:
aureus (SA) or SpA that is freely secreted binds the Fc region of antibody (Ab), thereby preventing normal phagocytosis (right panel). Alternatively, SpA binds the Fab regions of the B-cell receptor (lower left panel), which induces B-cell death and prevents the production of antibody specific for S.
if niwako is running a study about how biology and aggression are correlated, she will most likely find that people who have show higher levels of aggression.
If niwako is running a study about how biology and aggression are correlated, she will most likely find that people who have lower levels of serotonin show higher levels of aggression.
It is thought that struggle for important or rare resources led to the evolution of aggressive behavior, which is an intrinsic, highly conserved behavior that is essential for survival. In many animals, losing a battle causes a social status change that may have long-term repercussions.
Aggressive behaviour has been linked to specific brain regions and neural connections. The central nervous system's executive function is carried out by the prefrontal cortex. Aggression that is aggressive is correlated with decreased prefrontal brain activity (medial and orbitofrontal areas).
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20 POINTS!! PLEASE HELP!!!!!
This is on the Khan Academy NGSS Biology course, and I'm stuck!
Which model best characterizes the genetic information in cells during fertilization and mitosis? Choose 1 answer:
The model that best characterizes the genetic information in cells during fertilization and mitosis is model A.
The correct option is A.
What happens in fertilization and mitosis?Two gametes joining together is referred to as fertilization.
During fertilization, the gametes containing a haploid number of chromosomes fuse to form a diploid zygote.
The division of duplicated chromosomes into two new nuclei occurs during the cell cycle stage of mitosis. A genetically identical cell is produced during cell division through mitosis, and the number of chromosomes is preserved.
Therefore, the chromosome number is doubled in fertilization but remains the same in mitosis.
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Answer:
Option A
Explanation:
Got it right on Khan Academy
How does mitosis impact the ability of a population to evolve?.
Mitosis is a critical process for the evolution of a population. It is the process by which parent cells divide into two daughter cells, each of which contains a full copy of the parent cell's genetic material.
This is important for a population to evolve because it allows for the possibility of genetic variation within the population. As mitosis occurs, the daughter cells can contain slight differences in their genetic code, which can lead to new traits and adaptations.
This genetic variation is essential for natural selection to occur, and thus for the population to evolve. Without mitosis, a population would remain unchanged over time and would not be able to adapt to its environment.
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which niche in a community would have the most number of organisms? the fewest?
Explanation:
Communities with the lowest species richness lie near the poles, which get less solar energy and are colder, drier, and less amenable to life. This pattern is illustrated below for mammalian species richness (species richness calculated only for mammal species, not for all species).
during prokaryotic transcription, what does the formation of an rna hairpin loop signal or cause to happen?
During prokaryotic transcription, the formation of an RNA hairpin loop signals the end of transcription in prokaryotes.
During prokaryotic transcription, the RNA polymerase enzyme transcribes the DNA template strand into RNA. Once the RNA polymerase reaches the end of the gene, a sequence of nucleotides signals the termination of transcription. This sequence forms an RNA hairpin loop, also known as a stem-loop structure, which is formed by complementary base pairing within the RNA molecule itself.
The looped structure causes the RNA polymerase to pause, dissociate from the RNA, and release the newly synthesized RNA molecule. The formation of the RNA hairpin loop helps to ensure that the entire gene is transcribed accurately and efficiently. Additionally, the loop structure protects the newly synthesized RNA molecule from degradation by exonucleases. This process is important for gene regulation, as it ensures that only the necessary RNA transcripts are produced by the cell.
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which choice is not an example of an ecosystem? responses prairie prairie digestive system digestive system tide pool tide pool carbon dioxide
The choice that is not an example of an ecosystem is the "digestive system".
An ecosystem refers to a community of living organisms and their interactions with each other and the environment they live in. It includes both biotic (living) and abiotic (non-living) factors, such as air, water, soil, sunlight, and nutrients.
The prairie and tide pool are examples of ecosystems, as they are both home to a variety of living organisms and are influenced by the physical and chemical conditions of their environment. Carbon dioxide is a gas that is essential for photosynthesis and is a component of the Earth's atmosphere, but it is not an ecosystem. The digestive system is a collection of organs and tissues that work together to break down food and absorb nutrients, and it is not an ecosystem.
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The two examples that are not ecosystems are digestive system and carbon dioxide.
An ecosystem refers to a community of living organisms in conjunction with the nonliving components of their environment, interacting as a system. Prairie and tide pool are examples of ecosystems, as they consist of various living organisms such as plants, animals, and microorganisms, as well as the abiotic factors like water, air, and soil. On the other hand, digestive system and carbon dioxide are not ecosystems but components of living organisms and the atmosphere, respectively. The digestive system is a part of the human or animal body that helps in breaking down the food for nutrition, and carbon dioxide is a gas that is a byproduct of respiration and part of the atmosphere. Therefore, prairie and tide pool are examples of ecosystems, whereas digestive system and carbon dioxide are not.
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which of the following is a density-dependent population limit? select one: a. drought b. forest fire c. pollutants d. disease
Disease is a density-dependent population limit. A density-dependent population limit is a factor that affects a population based on its size or density.
In the case of disease, the spread and impact of the disease are often influenced by the size and density of the population.
A larger population provides more opportunities for the disease to spread, and a denser population can make it easier for the disease to move from one individual to another.
In contrast, options a, b, and c are density-independent factors that can affect a population regardless of its size or density. In conclusion, disease is an example of a density-dependent population limit.
Among the provided options, disease is the density-dependent population limit, as its impact is more significant when the population density is higher.
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Diploid structures in moss life cycle Click on all of the boxes that label structures that are diploid in the moss life cycle
In the moss life cycle, the diploid structures are labeled as sporophytes and sporangium.
Mosses have a life cycle that alternates between two generations: the haploid gametophyte generation and the diploid sporophyte generation. The gametophyte generation produces haploid gametes, which fuse during fertilization to form a diploid zygote.
The zygote develops into a diploid sporophyte, which is dependent on the gametophyte for nutrition. The sporophyte consists of a foot, seta, and capsule. The capsule contains sporangium, which is a diploid structure that produces spores through meiosis. When the capsule bursts, the spores are released and germinate to form a new gametophyte generation.
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The complete question is:
What are the diploid structures in moss life cycle?
during prolonged exercise in the heat, there is a(n) blank in the body. multiple choice question. increase in muscle ph levels increase in the rate of muscle glycogen degradation decrease in blood volume and lithium levels decrease in muscle lactate levels
During prolonged exercise in the heat, there is a decrease in blood volume and lithium levels.
Here, correct option is C.
This decrease in blood volume is a result of the body's response to heat stress, as the body attempts to maintain a stable core temperature by shunting blood away from the skin to the core. This decreases the overall volume of the blood in circulation. Additionally, lithium levels decrease as sodium and potassium, which help to regulate fluid balance, are lost through sweat.
The decrease in lithium levels can lead to decreased muscle function, fatigue, and even cramping. These changes can have a significant impact on performance during prolonged exercise in the heat, as the body's ability to perform optimally is hindered by the lack of electrolytes in circulation.
Therefore, correct option is C.
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during prolonged exercise in the heat, there is a(n)__ in the body. multiple choice question.
A. increase in muscle ph levels
B. increase in the rate of muscle glycogen
C. decrease in blood volume and lithium
D. levels decrease in muscle lactate levels
explain about Growth and Physiology of Prokaryotic Cells
Prokaryotic cell growth refers to the increase in cell size and number through the process of binary fission. In this process, the single-celled prokaryotes duplicate their DNA, segregate the copies, and divide into two new cells. Prokaryotic growth is essential for the survival and reproduction of these organisms, which include bacteria and archaea.
Physiology, in the context of prokaryotes, is the study of their various life processes, including metabolism, cellular organization, and response to environmental factors. Prokaryotic cells lack membrane-bound organelles, and their genetic material is not enclosed within a nucleus. Their cellular processes are carried out in the cytoplasm and on the plasma membrane.
Prokaryotic growth and physiology are closely related, as the physiological processes drive the growth and reproduction of these organisms. Factors such as nutrient availability, temperature, and pH can influence prokaryotic growth rates. The unique structure and organization of prokaryotic cells allow them to adapt quickly to changing environmental conditions, ensuring their continued survival and reproduction. Understanding the growth and physiology of prokaryotic cells is crucial for both biotechnology applications and managing harmful bacteria in medical and environmental contexts.
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Draw a population of 10 giraffes following strong (i.e., highly effective) diversifying selection. Try to avoid being ambiguous in your drawings.
To draw a population of 10 giraffes following strong diversifying selection, we need to first understand what this type of selection means. Diversifying selection is a type of natural selection where different traits are favored in different environments.
This means that in a population, individuals with different traits will be selected for survival and reproduction based on their ability to adapt to their environment. Strong diversifying selection means that the selection pressure is high, leading to a greater diversity of traits in the population.
In our case, we can assume that the environment the giraffes live in has varying types of vegetation, some of which are more difficult to reach than others. This creates a situation where giraffes with longer necks will be better able to reach high leaves, while giraffes with shorter necks will be better at feeding on lower vegetation. As a result, we can draw a population of 10 giraffes with varying neck lengths, ranging from very short to very long.
To avoid ambiguity, we can use different colors or patterns to differentiate the giraffes with different neck lengths. For example, we can draw two giraffes with very short necks, three giraffes with medium-length necks, and five giraffes with very long necks. This would represent a population that has undergone strong diversifying selection, with individuals adapting to their environment by evolving different neck lengths.
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Where do you expect to find neurotransmitter receptors?.
Neurotransmitter receptors are typically found on the surface of neurons or other cells within the nervous system. These receptors are responsible for receiving and transmitting signals between neurons and other cells.
The specific location of these receptors can vary depending on the type of neurotransmitter involved and the function of the receptor. For example, receptors for the neurotransmitter dopamine are found in various regions of the brain, including the prefrontal cortex, striatum, and limbic system, which are all involved in different aspects of motivation, emotion, and reward processing. Serotonin receptors are found throughout the brain and are involved in a wide range of functions, including mood regulation, sleep, and appetite. Other neurotransmitters, such as acetylcholine, glutamate, and GABA, also have their own distinct receptors that are located in specific areas of the brain and body. Overall, the location of neurotransmitter receptors is crucial for understanding the role of these signaling molecules in the nervous system and for developing new treatments for neurological and psychiatric disorders.
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Autoregulation of the rate at which fluid passes from the glomerulus into the nephron tubule is through.
Changing the blood flow to the kidney allows for autoregulation of the speed at which fluid moves from the glomerulus into the nephron tubule.
Diffusion is the mechanism through which plasma devoid of protein travels from the glomerulus to the tubular nephron. Filtrate. The nephron is a structure that filters blood into a fluid called filtrate, much of which is then reabsorbed into the body.
Resorption is a carefully regulated process that is modified to keep blood volume, pressure, plasma osmolarity, and pH in a stable state. Renal ultrafiltration is the method through which glomerular filtration takes place. The driving force that pushes is the hydrostatic pressure in the glomerulus, which is the pressure put on by the blood artery itself.
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How do plants take advantage of adhesion and cohesion to transport water.
Plants take advantage of adhesion and cohesion properties to transport water through a process called transpiration.
Adhesion is the attraction between water molecules and the walls of plant cells, while cohesion refers to the attraction between water molecules themselves.
In the roots, water is absorbed through root hair cells due to osmosis, and it adheres to the walls of the xylem vessels. Cohesion causes the water molecules to form a continuous column. As water evaporates from the leaves' stomata, it creates a negative pressure or tension in the leaf cells, pulling the water column upward. This process is known as the cohesion-tension theory.
Adhesion helps water cling to the walls of the xylem, preventing it from collapsing due to the negative pressure generated by transpiration. Cohesion allows the water column to stay intact as it travels through the plant, ensuring efficient water transport from the roots to the leaves. These properties work together to help plants meet their water needs and maintain proper hydration for growth and photosynthesis.
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Individuals in a species have genetic variation that can be passed on to their offspring.
Use evidence and examples from the lesson and scientific reasoning to support this claim. (Either with the Peppered Moth OR our Who Wants to Live a Million
Years game)
POSSIBLE POINTS: 3
Answer:
Don't know if this is the answer you'd want but hopefully it helps
Explanation:
Genetic variations that alter gene activity or protein function can introduce different traits in an organism. If a trait is advantageous and helps the individual survive and reproduce, the genetic variation is more likely to be passed to the next generation (a process known as natural selection).
what would be the most likely effect on the transcription of the trp structural genes for the mutation scenarios provided? mutation that prevents ribosome binding to a mrna 5' utr
The mutation that prevents ribosome binding to a mRNA 5' UTR would likely have a negative effect on the transcription of the trp structural genes.
This is because the ribosome is an essential component of translation, which is the process by which genetic information encoded in mRNA is translated into proteins. Without the ribosome, the mRNA cannot be translated into proteins, and thus the trp structural genes cannot be transcribed.
Furthermore, the 5' UTR is important for ribosome binding and subsequent translation, so without this region of the mRNA, the ribosome cannot bind, and transcription of the trp structural genes will not occur. Therefore, this mutation would likely have a detrimental effect on the transcription of the trp structural genes.
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