A trait that is influenced on two or more genes, such as height and skin tone, is referred to as a polygenic trait .
Polygenic traits are due to the actions of more than one gene and often, their interaction with the environment. These usually result in a measurable range in phenotype, such as height, eye color or skin color. These are known as multifactoral or quantitative characteristics. Polygenic inheritance results in an additive effect of the genes on a single phenotype. Genetic variety comes from three different sources: sexual reproduction, gene flow, and mutation. Simply put, a mutation is a DNA change. Although not particularly common, mutations frequently cause harm to a population. As a result, mutations are typically rejected by evolutionary processes. Euploidy (variable numbers of complete chromosomal sets) and aneuploidy are chromosome number variations (partial chromosome sets). Diploid, haploid, auto- or allopolyploid, and polytene are some of the different types of euploids, which have different numbers on complete chromosome sets. Partial chromosomal sets are present in aneuploids .
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bones are classified by whether they are weight bearing or protective in function. true/false
Answer:
true
I hope it helps....
The property of soil which describes how well soil holds water is called
Soil porosity is the property of soil that describes how much amount of water the soil can hold, the correct option is B.
The minuscule spaces between soil particles are known as soil porosity or soil pore space. These pores are big and numerous enough in healthy soil to hold the water, oxygen, and nutrients that plants require to receive through their roots. Micro-pores, macro-pores, or bio-pores are the three main types of soil porosity.
These three groups assist us comprehend the soil's permeability and water-holding capacity by describing the size of the pores. For instance, the relatively small gaps of micropores are less impacted by gravity and may hold onto water and nutrients longer than macropores, which lose water and nutrients to gravity more quickly.
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The complete question is:
The property of soil which describes how well soil holds water is called
A. field capacity
B. Soil porosity
C. Buffering capacity
D. surface tension
if the pores in the selectively permeable membrane became larger, but still not large enough to let the sugar pass through, what would happen during osmosis in the u-shaped tube compared to what is shown in the figure?
Since the sugar cannot pass through the membrane, the concentration of sugar on either side of the membrane would remain the same, and the water would continue to move from the side with lower solute concentration to the side with higher solute concentration, until equilibrium is reached this would happen during osmosis in the u-shaped tube compared to what is shown in the figure.
If the pores in the selectively permeable membrane became larger, but still not large enough to let the sugar pass through, it is likely that the rate of osmosis would increase compared to what is shown in the figure. This is because larger pores would allow for more water molecules to pass.
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The field of conservation biology
a. tries to increase speciation events in order to increase biodiversity
O b. tries to conserve every species, everywhere
O c. developed in response to government intervention
O d. was initially viewed as too measurement-oriented, looking at details and not at the big
Oe. attempts to integrate an understanding of evolution, ecology, and extinction
The field of conservation biology attempts to integrate an understanding of evolution, ecology, and extinction. The correct option is E.
What is conservational biology?By examining how evolution, ecology, and extinction interact, conservation biology aims to comprehend and safeguard biodiversity.
This includes researching the causes of species extinction, such as habitat loss, excessive exploitation, and climate change, and creating plans to lessen their effects.
It is also not seen as being overly measurement-focused, focusing on the little print rather than the broad picture.
Actually, conservation biology frequently necessitates a multidisciplinary and integrated approach that takes into account both the biological and socioeconomic aspects that have an impact on species and ecosystems.
Thus, the correct option is E.
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please help: which of the following describes the overall function of dna and rna?
a) they provide oxygen and micronutrients to an organism
b) they make up an organisms physical structure
c) they contain instructions to build and maintain an organism
d) they provide usable energy to an organism in the form of atp
Answer:
c) they contain instructions to build and maintain an organism
Explanation:
URGENT What happens in osmoregulation when there’s too much water and not enough sodium in your body?
Answer:
If there is too much water and not enough sodium in the body, it leads to a condition known as hyponatremia. This occurs when the concentration of sodium in the blood is too low. The body needs to maintain a balance between water and sodium, as an imbalance in this concentration can cause cells to swell or shrink, leading to potentially serious consequences.
In response to hyponatremia, the body will try to maintain a proper balance by increasing the concentration of sodium in the blood. This is achieved through the release of hormones such as antidiuretic hormone (ADH) and aldosterone, which regulate the amount of water and sodium in the body. ADH increases water reabsorption in the kidneys, while aldosterone stimulates the reabsorption of sodium ions.
Explanation:
If left untreated, hyponatremia can lead to serious health problems such as seizures, coma, and even death. It is important to maintain proper hydration and electrolyte balance by consuming enough fluids and electrolytes, such as sodium and potassium, in the diet.
tell me if you kinda confuse
ALLEN
Answer:
hyponatremia
Explanation:
William harvey provided proof of what process of the human body? a. the nervous system b. digestion c. blood circulating d. the brain as the source of thought
William Harvey provided proof of blood circulation in the human body, which is in Option C, as he explains how the blood circulated throughout the body and returned to the heart.
What is the contribution of William Harvey?Harvey's research explained and demonstrated that the heart was a pump that circulated blood throughout the body and that veins and arteries were linked in a closed system, and from his studies, the circulatory system is understood.
Hence, William Harvey provided proof of blood circulation in the human body, which is in Option C, as he explains how the blood circulated throughout the body and returned to the heart.
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how does a gene that codes for the protein hemoglobin determine whether or not someone has sickle cell disease?
A mutation in the gene causes the protein to be made abnormally, producing an abnormal type of hemoglobin and can lead to sickle cell anemia.
What happens to the hemoglobin protein in sickle cell disease?
Sickle cell disease (SCD) is a genetic condition caused by mutations in both copies of a person's HBB gene. This gene encodes a component of hemoglobin, the oxygen-carrying protein of red blood cells. This mutation causes hemoglobin molecules to stick together to form crescent-shaped red blood cells.
Hemoglobin is a protein found in red blood cells that carries oxygen around the body. The gene that encodes hemoglobin determines what kind of protein is produced and whether someone has sickle cell anemia.A mutation in the gene causes the protein to be made abnormally, producing an abnormal type of hemoglobin and can lead to sickle cell anemia. People with sickle cell anemia have an abnormal type of hemoglobin called sickle hemoglobin, which can cause red blood cells to become deformed and hard.Therefore, the cells have a low oxygen-carrying capacity and tend to clump together, causing circulatory disturbances and anemia.
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How do a specie ensures its survival?
Specie ensures its survival ,variations in a species help them to adapt to the changes in the environment over a period of time extending to more than a hundred thousand years.
The more successful an individual is at obtaining food and avoiding predators (not becoming prey), the more likely it is to thrive, and have more offspring, a process known as natural selection. This “survival of the fittest” drives species surviving as a whole, the process of Evolution.Variation improves the survival rate of species as it helps the individual organisms adapt based on altering environmental conditions. Variants formed due to environmental concerns form the basis for evolution.
Therefore, they can survive better and reproduce to pass the genes to the offspring. Variation occurs during meiosis which causes gamete formation in the organism. This maintains the population and hence in every generation variation occurs in the genetic material. Natural selection is a theory that explains that organisms better adapted to their environment will have a higher likelihood of survival.
Specie ensures its survival ,variations in a species help them to adapt to the changes in the environment over a period of time extending to more than a hundred thousand years.
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Can I have help please
Answer:
Nicotine
Tar
Carbon Monoxide
T/F. Despite their adaptations to land, most species of plant are still aquatic.
Despite their adaptations to land, most species of plant are still aquatic. This statement is False.
The transition from an aquatic to a terrestrial environment occurred as a result of a variety of particular adaptations to the aforementioned barriers to land survival. In truth, modern terrestrial plants contain a variety of adaptations to life on land, but they did not evolve all at once. Furthermore, distinct adaptations are present in different plant lineages. The adaptations and features that ARE found in (almost) all land plants.
Aphotic zones can be found in marine habitats such as lakes and oceans. Aphotic zones are areas of water with little or no sunshine. It is found in bodies of water whose depths receive less than 1% of sunshine penetration.
Hence, Despite their adaptations to land, most species of plant are still aquatic. This statement is False.
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Many of the changes that accompany menopause are caused by the drop in the circulating levels of __________.
a. FSH b. GnRH c. estrogen d. LH
Many of the changes that accompany menopause are caused by the drop in the circulating levels of estrogen. Progesterone and estrogen production both decline concurrently. The majority of menopause symptoms are brought on by the significant decline in estrogen levels.
A woman's menstrual periods end permanently and her ability to become pregnant when she approaches menopause, also known as the climacteric. Menopause can begin at any age, although it frequently occurs between the ages of 45 and 55. When a woman has gone a full year without getting her period, it is commonly said that menopause has started. It could also be defined by a decrease in the hormone production of the ovaries. Women who have had surgery to remove their uterus but still have healthy ovaries are not considered to have experienced menopause. After uterus excision, menopause symptoms typically manifest earlier.
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How was heavy DNA distinguished from normal DNA by centrifugation in Meselson and Stahl experiment?
In the Meselson and Stahl experiment, heavy DNA was distinguished from normal DNA by centrifugation using a CsCl density gradient.
The Meselson and Stahl experiment involved labeling the heavy DNA with a heavy isotope of nitrogen, 15N, and the normal DNA with a lighter isotope, 14N. The DNA samples were then placed in a centrifuge tube with a CsCl solution, and subjected to centrifugation.
During centrifugation, the heavy DNA moved toward the bottom of the tube, while the normal DNA moved toward the top. This created a distinct band of heavy DNA at the bottom of the tube, and a distinct band of normal DNA at the top.
By comparing the positions of the two bands, the researchers were able to distinguish between the heavy and normal DNA and determine how DNA replication occurs in cells.
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structures containing dna only visible during mitosis and first seen in prophase
The structures containing DNA only visible during mitosis and first seen in prophase are called chromosomes.
Chromosomes are the condensed, highly coiled and visible structures that contain the genetic material (DNA) of a cell. During interphase, the normal non-dividing state of a cell, chromosomes are not visible because they are in a less condensed and more dispersed form called chromatin. However, during mitosis, the process of cell division, chromosomes become highly condensed and visible as distinct structures.
As mitosis progresses, the chromosomes move to the center of the cell and align along the equatorial plane in metaphase, then separate and move towards opposite poles of the cell in anaphase. Finally, in telophase, the chromosomes begin to uncoil and return to their chromatin form.
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Place the labels on the figure to designate the correct developmental sequence of erythrocytes.a. Hemocytoblastb. Proerythroblastc. Early erythroblastd. Late erythroblaste. Normoblastf. Reticulocyte
The stages for the erythrocyte are rubriblast, prorubriblast, lubricate, and metarubricye. At long last, the stages can likewise be named by the advancement of the normoblast stage. The correct option(G).
This gives the stages of pronormoblast, early normoblast, middle-of-the-road normoblast, late normoblast, and polychromatic cell.
Seven cell lines emerge from hemocytoblast, which by the activity of development factors form antecedents of the different platelets. From hemocytoblast, proerythroblast, myeloblast, lymphoblast, monoblast, and megakaryoblast are shaped.
Red platelets are minuscule and have the state of a level circle or donut, which is round with a space in the middle, however, it isn't empty. Red platelets don't have a core like white platelets, permitting them to change shape and move all through your body more straightforwardly.
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Q-Place the labels on the figure to designate the correct developmental sequence of erythrocytes.
A. Hemocytoblast
B. Proerythroblast
C. Early erythroblast
D. Late erythroblast
E. Normoblast
F. Reticulocyte
G. Erythrocyte
Describe the path that air takes through the respiratory system beginning at the mouth and ending at the lungs in own words
Air enters the respiratory system through the mouth and travels down the throat, passing through the pharynx and larynx before entering the trachea.
From the trachea, the air travels through two bronchi (one leading to each lung) and then through progressively smaller bronchioles. Finally, the air reaches the alveoli, which are small sacs in the lungs where gas exchange takes place. Oxygen in the air diffuses across the walls of the alveoli and into the bloodstream, while carbon dioxide in the bloodstream diffuses across the alveolar walls and into the air, which is then exhaled.
Overall, the path that air takes through the respiratory system is a complex and highly coordinated process that allows the body to obtain the oxygen it needs and remove carbon dioxide waste products.
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research using transgenic animal models of neurodegenerative diseases not only helps scientists understand the disorders, but also may lead to
Research using transgenic animal models of neurodegenerative diseases not only helps scientists understand the disorders, but also may lead to aging.
Mammal genetic engineering is an expensive, time-consuming, and labor-intensive operation. The gene that genetic engineers want to put into the host organism must first be deleted, similar to other GMOs. This can be created synthetically or taken out of a cell that carries the gene. If the targeted gene or the donor organism's genome has been extensively studied, it may already be available from a genetic library. After then, additional genetic elements are added to the gene, often a selectable marker, a promoter and terminator region, or both.
The complete question is:
Research using transgenic animal models of neurodegenerative diseases not only helps scientists understand the disorders but also may lead to ______?
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The most important primary producers in marine ecosystems are _____. euglenids dinoflagellates diatoms seaweeds
The most important primary producers in marine ecosystems are diatoms.
Marine ecosystems An estimated 20% of the Earth's photosynthetically fixed CO2 is produced each year by diatoms, one of the biggest primary producers in the ocean.They need water because they are producers, thus they can be found in bogs, lakes, rivers, oceans, and even moist moss. Since silicon dioxide is the primary ingredient in glass, their cell wall is what makes them special.They are naturally photosynthetic, so because carotenoids and chlorophyll are present, they can manufacture their own sustenance. These energy-producing photosynthetic diatoms are a major source for a wide range of consumers. Manufacturers include diatoms.They often rule over well-mixed coastal and upwelling areas, where the organic carbon they produce supports fruitful fisheries like those in the Peruvian and Benguela upwelling systems.For more information on diatoms kindly visit to
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Why does the rate of diffusion of carbon dioxide increase during exercise.
When you exercise, there are more alveoli recruited for gas exchange, therefore the surface area available for gas exchange increases, and thus the rate of diffusion of gases such as oxygen will increase.
What do you mean by diffusion?Diffusion is the net movement of anything generally from a region of higher concentration to a region of lower concentration. Diffusion is driven by a gradient in Gibbs free energy or chemical potential.
The net movement of oxygen and carbon dioxide across the alveolar-capillary membrane of mammalian lungs and the net movement of glucose down the concentration gradient are diffusion examples in biological systems.
Diffusion is important to cells because it allows them to gain the useful substances they require to obtain energy and grow, and lets them get rid of waste products. This table shows examples of substances required by cell and associated waste products.
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process by which two species evolve in response to changes in each other is called by?
Coevolution is the procedure of mutual evolution that happens when two or more species change in response to the evolution of one another.
Coevolution is most commonly understood as the interaction and influence of two organism groups on the evolvement of other organisms. At different levels of biological organization and co-evolution of the groups under study, groupings can be formed.
Ecologists and evolutionary biologists frequently argue over the various types of coevolution, including pairs coevolution, dispersion coevolution, and nucleotide sequences coevolution.
A large portion of evolvement is coevolution, including the coevolution of parasitic infections and guests, predators and prey, rivals and mutualists. Interactions coevolve as an already geographic mosaic. The traits as well as life narratives of other species are constantly changing as a result of interactions between species.
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Which group is correctly paired with its description? a) diplomonads-protists with modified mitochondria b) apicomplexans-producers with intricate life cycles c) Radiolarians - named for their porous calcium carbonate shells, called tests d) diatoms-important consumers in aquatic communities
The correct answer is (b) apicomplexans, which are organisms that develop complex life cycles.
The single-celled protists known as apicomplexans are producers, which means they create their own food through photosynthesis. They are most typically found in aquatic habitats and have a complex life cycle with numerous phases involving various types of hosts.
They are well known for spreading illnesses including malaria, toxoplasmosis, and cryptosporidiosis that affect people.
The apicomplexan cell is extensively modified and has a variety of organelles involved in movement, nutrition, and the manufacture of infectious agents, including plastids, which are not generally seen in other single-celled organisms.
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in a cross between aabbccdd and aabbccdd, what proportion of the offspring would be expected to be a b c d ? (a means aa or aa.)
The proportion of offspring with a genotype ABCD is 3/8.
The type of cross given involves the inheritance of four genes simultaneously. In such cross, we can find the proportions by multiplying each gene seperately. Thus, performing the crosses we would get:
AA × Aa: AA, AA, Aa, Aa
Bb × Bb: BB, bb, Bb, bb
Cc × cc: Cc, cc, Cc, cc
DD × dd: Dd, Dd, Dd, Dd.
Now, we are asked the probability of Aa or Aa. Now, finding the probabilities seperately:
Aa: 2/4, Bb: 1/4, Cc: 2/4, and Dd: 4/4
According to the laws of inheritance given by Mendel, we know that the genes segregate independently without the influence of others. Thus, from the above crosses, we can say that in a cross between AABbCcDD and AaBbccdd, the proportion of the offspring expected to be AaBbCcDd is 3/8.
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Complete question is:
In a cross between AABbCcDD and AaBbccdd, what proportion of the offspring would be
expected to be A_B_C_D_? (A_ means AA or Aa.)
a.) 3/16
b.) 3/256
c.) 3/32
d.) 3/4
e.) 3/8
how do histone acetylation affect how genes are expressed
Histone acetylation affects how genes are expressed by altering the structure of chromatin and allowing for greater accessibility to the DNA for transcription factors and other regulatory proteins.
Histone acetylation is the addition of an acetyl group to the lysine residues on the histone proteins. This modification alters the structure of the chromatin, causing it to become more open and accessible. As a result, transcription factors and other regulatory proteins are able to bind to the DNA and promote gene expression.
Histone acetylation can change the structure of chromatin so that it can affect gene expression. DNA is packaged into a compact structure known as chromatin, which is made up of DNA wrapped around proteins called histones. The structure of chromatin plays a crucial role in regulating gene expression, as tightly packed chromatin can prevent access to the DNA and prevent gene expression.
In contrast, the removal of acetyl groups, known as histone deacetylation, can lead to the formation of more compact chromatin and the repression of gene expression. Therefore, histone acetylation and deacetylation play an important role in the regulation of gene expression and can have a significant impact on cellular processes and overall organism function.
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if you are busy all day and do not have time to eat, the hormone that will be released by your pancreas is __________.
If you are busy all day and do not have time to eat, the hormone that will be released by your pancreas is glucagon .
In general the Exocrine function is to release enzymes through the pancreatic duct to the intestines to digest food. Important function of endocrine glands is to release hormones that helps insulin and glucagon to released directly into the blood.
Hence , the posterior lobe produces two hormones, vasopressin and oxytocin. Hormones like vasopressin and oxytocin when released inside the hypothalamus they sends messages to the pituitary gland through nerve cells. Vasopressin is also known as antidiuretic hormone (ADH).
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Systematists have used a wide variety of characters to reconstruct the phylogenies of particular groups of organisms. which one of the following types of characters can produce an estimate of phylogeny?
1. behavioral characters
2. DNA sequences
3. protein sequences
4. morphological characters
All the above characters combined can produce an estimate of phylogeny.
Phylogenetic trees represent hypotheses about the evolutionary relationships among a group of organisms. A phylogenetic tree may be built using morphological (body shape), biochemical, behavioral, or molecular features of species or other groups. In building a tree, we organize species into nested groups based on shared derived traits (traits different from those of the group's ancestor). A phylogenetic tree may be built using morphological (body shape), biochemical, behavioral, or molecular features of species or other groups. In building a tree, we organize species into nested groups based on shared derived traits (traits different from those of the group's ancestor). The methods of constructing phylogenetic trees include the distance-based methods, parsimony, maximum likelihood, and Bayesian inference methods . The data used in reconstruction of a DNA-based phylogenetic tree are obtained by comparing nucleotide sequences
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Which is the correct order of the steps in a generalized signal transduction pathway?Signal molecule binds to receptorMolecules within cell transduce signalCell responds
The correct order of the steps in a generalized signal transduction pathway is b. signal molecule binds to receptor; molecules within the cell transduce the signal; cell responds
This is a typical sequence of events in a signal transduction pathway, where an extracellular signal molecule binds to a receptor on the cell membrane, triggering a cascade of intracellular events that eventually leads to a response in the cell. The signal molecule first binds to the extracellular region of the receptor, then the signal is transmitted across the cell membrane, and the signal is then transduced to the nucleus where it can alter gene expression.
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(complete question)
Which is the correct order of the steps in a generalized signal transduction pathway?
a. signal molecule is secreted by a nearby cell; signal molecule enters the cell; signal activates receptor
b. signal molecule binds to receptor; molecules within the cell transduce the signal; cell responds
c. Signal molecule enters the nucleus; signal molecule binds to DNA; transcription of specific genes occurs
d. Signal molecule activates a target cell; target cell binds to a receptor; receptor is activated
e. Signal molecule binds to the extracellular region of the receptor; signal molecule diffuses through cell membrane; signal is transduced to the nucleus where specific genes are turned on or off.
What is the sequence of telomere?
Telomeres are composed of repeated segments of DNA composed of the sequence 5'-TTAGGG-3' (T, A, and G are thymine, adenine, and guanine bases, respectively). Some human cells have this sequence repeated up to 1,500 to 2,000 times at both ends of each chromosome.
What are telomere repeats?Telomeres consist of a 6-base repeat sequence TTAGGG. With each cell division, part of the telomere is lost. However, the number of dividing cells is limited.
What is the function of telomere sequences?Telomeres, specific DNA protein structures at the ends of each chromosome, protect the genome from nucleolytic degradation, unwanted recombination, repair, and inter-chromosomal fusion. Therefore, telomeres play an important role in maintaining information within the genome.
What are Telomeres recognized by?Telomerase is a ribonucleoprotein enzyme that contains essential RNA and protein components. This activity adds a repeat of the Tetrahymena telomeric sequence, TTGGGG, to the 3′ end of a single-stranded DNA primer composed of several G-rich strand repeats of known telomere and telomere-like sequences.
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In prokaryotic cells ATP synthase lies across the plasma membrane, while in eukaryotic cells it lies across the_____
ATP synthase spans the plasma membrane of prokaryotic cells but spans the inner mitochondrial membrane of eukaryotic cells.
ATP synthase crosses the cellular membrane, forming a pore through which protons can move from areas of high concentration to areas of low concentration, supplying energy for the synthesis of ATP. The electrochemical gradient created by the electron transport chain allows cells to store energy in ATP for later use.
In prokaryotic cells, ATP synthase is located in the plasma membrane, whereas in eukaryotic cells, it is located in the inner mitochondrial membrane. All organisms able to perform photosynthesis share the thylakoid membrane, which is located in the cytoplasm of cyanobacteria and the chloroplast of plants, respectively.
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What do nucleic acids from our food get broken down into? What can these be used for?
Answer:
the nucleus can be broken down in to nutrients through the used of digestion.
the acquisition of chemical substances by organisms for the building blocks of cellular components and processes is
The acquisition of chemical substances by organisms for the building blocks of cellular components and processes is called nutrient acquisition.
Nutrient acquisition is a fundamental process for all living organisms, as they require nutrients to carry out essential biological functions such as growth, maintenance, and reproduction. The specific nutrients required vary among organisms, but generally include elements such as carbon, nitrogen, phosphorus, sulfur, and various minerals and vitamins.
Nutrient acquisition occurs through a variety of processes, depending on the type of organism and the specific nutrient being acquired. For example, plants obtain nutrients through their roots by absorbing water and dissolved minerals from the soil, while animals obtain nutrients through ingestion of food and absorption through the digestive tract.
Regardless of the specific mechanism, nutrient acquisition is a critical process for all organisms, is essential for the overall survival and function of the organism.
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