The primary structural element of the cell membrane is composed of cholesterol and phospholipids.
Lipids are any organic molecules that are soluble in fat or oil but not in water. They include lipids, waxes, oils, hormones, and some cell membrane components and act as chemical messengers and energy storage molecules.
Lipids perform three major biological functions in the body: they are necessary signaling molecules, fundamental components of cell membranes, and facilities for energy storage. The three main types of lipids are sterols, phospholipids, and triacylglycerols (often referred to as triglycerides). Lipids are frequently referred to as fats or oils. In contrast to fats, which are compounds that are solid at room temperature, oils are substances that are liquid at this temperature.
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what is the layer that is located deep to the dermis and is not part of the skin?
The subcutaneous tissue, also known as the hypodermis or subcutis, is the skin's deepest layer. Although it isn't a true component of the skin, it aids in holding the skin to the bones and muscles.
Subcutaneous tissue, also known as the hypodermis or subcutis, is the layer of skin that is the thickest. Despite the fact that it isn't technically a component of the skin, it aids in holding the skin to the bones and muscles. The skin's nerves and blood supply are also provided by subcutaneous tissue. Fat, connective tissue, and elastin, an elastic protein that aids tissues in regaining their original shape after stretching, make up the majority of the hypodermis. The body is well insulated by the large levels of fat, which helps keep a person from overheating. The fat layer protects by cushioning the bones and muscles.
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the gingko trees in forest lawn their leaves over a 24 hour period during autumn. days on these information all the ginkgo trees will use their leaves over the course of lone day. these statement are an example of
These statements are an example of a factual description of the behavior of ginkgo trees in Forest Lawn during autumn.
Specifically, it describes the phenomenon of ginkgo trees shedding their leaves over a 24-hour period and suggests that all the trees in the forest will go through this process in a single day. It is possible that this information may be based on observations or data collected by researchers or naturalists who have studied the behavior of ginkgo trees in this particular forest.
Ginkgo trees are a type of tree that is native to China and is also commonly found in other parts of the world. They are characterized by their unique fan-shaped leaves and are considered to be a living fossil, as they are one of the oldest tree species in the world.
Ginkgo trees are also known for their hardy nature and resistance to pests and diseases, making them a popular choice for landscaping and ornamental use in many parts of the world. In addition, ginkgo trees have also been used in traditional medicine for centuries and are believed to have various health benefits.
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Which process allows these molecules to cross the membrane
ENDOCYTOSIS AND EXOCYTOSIS.
Explanation:
Hope it helps you~Mass spectrometry:
X-ray diffraction:
Both techniques:
protein may be denatured
small amounts of protein are sufficient
can detect a covalent modification to a protein
requires a large amount of protein
analysis requires information about the protein-coding gene or genes protein sample must be pure
protein must be conformationally stable
Protein denatures in both techniques, and analysis calls for knowledge of the genes encoding proteins. More samples are required for mass spectrometry than for X-ray diffraction.
Which is the primary purpose of a gene?Hereditary material is passed down through generations via genes. They regulate the body's morphology and biochemistry. Variations result from the shuffle of genes during human reproduction.
Where are genes found?The roughly 37 trillion cells that make up our body have genes in every single one amongst them. To further understand what a gene is, let's take a closer look at one of the cells. Every cell in an organisms has a basement, and each nucleus houses chromatin, which are DNA-based polymers that house genes.
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What is an error that can occur during separation meiosis?
An error that can occur during separation of meiosis is Nondisjunction, it is a failure of chromosomes to split, resulting in daughter cells with an aberrant number of chromosomes.
Humans are prone to meiotic nondisjunction mistakes, which result in aneuploidy, a condition in which the total number of chromosomes in a cell is not an exact multiple of the haploid number. Aneuploidy normally includes a single chromosome, but in rare cases, more than one.
Aneuploidy affects around 0.6% of newborns and roughly 70% of spontaneous abortions. In spontaneous abortions, trisomy for all chromosomes has been reported, demonstrating that nondisjunction for each chromosome does occur.
Nondisjunction can occur during meiosis I or meiosis II. If nondisjunction occurs in meiosis I, all four meiotic products are chromosomally defective. Two of the four meiotic products will have two copies of the chromosome implicated in the nondisjunction event, and two of the four meiotic products will have no copies of that chromosome.
Furthermore, in germ cells containing two copies of the chromosome, the copies will not be identical, while being homologous. In nondisjunction errors in meiosis I, homologous chromosomes do not split, while sister chromatids do in meiosis II.
As a result, each germ cell containing an additional chromosome will have both a maternally and a paternally derived chromosome. Without recombination, one chromosome would be totally maternal and the other fully paternal.
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Can I have help please
1) Emphysema is a chronic lung disease that affects the air sacs (alveoli) in the lungs.
2) Chronic obstructive pulmonary disease
3) Smoking is the leading cause of COPD and is responsible for 80-90% of all cases of the disease.
4) Nicotine is a stimulant
5) Nicotine causes the CNS to be alerted.
6) Carbon monoxide is obtained form incomplete combustion
7) CO can combine with hemoglobin and cause poisoning
What is emphysema?In emphysema, the walls of the air sacs in the lungs are damaged, causing them to lose their elasticity and ability to expand and contract properly. This leads to the formation of larger air spaces in the lungs and a reduction in the total surface area available for gas exchange.
As a result, the lungs become less effective at exchanging oxygen and carbon dioxide, leading to difficulty breathing, shortness of breath, and other symptoms.
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what is a pollen grain? it is the microsporangium of a seed plant surrounded by a tough coat of sporopollenin.
The pollen grain is a seed plant's microsporangium that is protected by a hard sporopollenin coat.
Seed plants produce pollen, which is a collection of microspores that typically takes the form of fine dust. Seed plants produce pollen, which is a collection of microspores that typically takes the form of fine dust. A variety of pressures cause each pollen grain, a small body with a specific shape and structure, to be moved from the male structures of seed-bearing plants to the female structures, where fertilization takes place (such as wind, water, insects, etc.). The anthers of flowering plant stamens create pollen in angiosperms. Pollen is composed of a reproductive cell and one or more vegetative cells.
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if a scientist viewed a cell while it was said to be at resting membrane potential, which best describes what the scientist would observe?
A neuron's quiescent membrane potential is approximately -70 mV (mV is millivolts); therefore, the interior of the neuron is 70 mV negative of the exterior.
At stillness, the potassium ions inside the neuron are more numerous than the sodium ions outside. The voltage differential between the two sides of the membrane is referred to as the resting membrane potential when the neuron is at rest and not producing any action potentials on its membrane. The quiescent membrane potential for the majority of neuron cells is about -70 millivolts. The resting membrane potential, also known as the resting potential, is a voltage across the membrane of a dormant (non-signaling) cell. Across the membrane, ion concentration gradients control the resting potential.
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please help...i am literally crying of frustration that i dont understand...
Pyruvic acid forms lactic acid in the absence of oxygen in skeletal muscles, it is called anaerobic respiration.
What is anaerobic respiration?Anaerobic respiration is a type of respiration that does not require oxygen or takes place in a lack of oxygen. It gives short-term energy and produces only 2 ATP (adenosine triphosphate).
Without the use of oxygen, glucose is broken down during anaerobic cellular respiration. The chemical process gives the cell glucose energy. Lactic acid, which can cause excruciating muscle cramps, is created during fermentation instead of carbon dioxide and water. It occurs in skeletal muscles.
Pyruvate oxidizes NADH to produce lactic acid, which regenerates NAD+ so that glycolysis can continue to swiftly produce additional ATP.
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What are the main differences between domain bacteria and archaea?
Archaea and Bacteria are two types of microorganisms classified as prokaryotes. Archaea were previously classified as bacteria, but this is no longer the case because it has been shown that they have distinct biochemistry and evolutionary histories.
Archaea are single-celled organisms with particular features that distinguish them from the other two kingdoms of life, namely Eukaryota and Bacteria.
They utilise a variety of energy sources and exhibit a wide range of chemical reactions in metabolism. They are classified into nutritional classes based on their reactions and carbon and energy sources.
Bacteria are single-celled organisms that live in a variety of settings. The nucleoid of bacterial DNA is a twisted thread-like substance. They even have a cellular structure that performs a variety of cyclic tasks ranging from energy transfer to protein transport.
Bacterial cells are made up of two parts: an inner cell membrane and an exterior cell wall. Some bacteria, such as mycoplasmas, do not have a cell wall.
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The human gut is home to about how many microorganisms?
Answer: Between 30 trillion and 400 trillion microorganisms
Explanation:
Viruses are not able to reproduce on their own. describe the process of viral reproduction during the lytic cycle.
a. True
b. False
True (option A), viruses are not able to reproduce on their own.
The lytic cycle is one of the two major pathways for viral reproduction. During the lytic cycle, a virus infects a host cell and takes over the cell's machinery to produce multiple copies of itself.
What is virus?A virus is a microscopic infectious agent that replicates inside living cells of organisms such as plants, animals, and bacteria. It is a submicroscopic particle that contains genetic material (either DNA or RNA) and a protein coat called a capsid. Some viruses also have an outer envelope made up of lipids.
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N the circles, show the alleles in the gametes of the parent generation. Show how the alleles recombine in the F1 plants
The term "parenting generation" describes the first generation of parents to cross over. It essentially refers to traits or genes that are passed on from parents to their offspring.
Based on the genotypes of the parents, the genotype of the offspring may be predicted (F1 generation). Mendel's study of inheritance, or the passing on of genetic traits from one generation to the next, began with the P generation. The parental generation is the first generation in which two persons are mated in order to foretell or investigate the genotypes of their offspring. The so-called first filial generation would consist of their likely offspring (or F1 generation).
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(a) the double-strand breaks occur along the dna backbone. describe the process by which the breaks occur.
Physical connections made during crossing over are necessary for the proper detachment of homologous chromosomes in meiosis.
DNA double-strand breaks (DSBs) can occur as a result of endogenous processes like DNA replication and repair as well as exogenous agents like radiation and specific chemicals. Cells purposefully create additional DNA double-strand breaks (DSBs) throughout meiosis in order to start homologous recombination, which accurately segregates chromosomes by exchanging genetic material between homologous chromosomes. A single-strand break can be repaired by using the unharmed strand as a template. Homologous recombination is a frequent form of repair for double-strand breaks. Two identical Genetic molecules exchange genetic material in this instance. Chemicals can be employed to undo the harm.
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the iliacus is the muscle that can be found superficial to the iliac fossa.truefalse
True. The iliacus muscle is a hip flexor muscle that is located in the anterior compartment of the thigh. It originates from the iliac fossa, a depression in the pelvis, and inserts onto the lesser trochanter of the femur.
The iliacus muscle works in concert with the psoas muscle to flex the hip joint and is important for movements such as walking, running, and climbing stairs. The iliacus muscle is indeed located superficial to the iliac fossa. The iliac fossa is a shallow depression in the pelvic bone that is found on the lateral aspect of the hip bone. The iliacus muscle originates from the iliac fossa and runs from there to the lesser trochanter of the femur. Because of its location, the iliacus muscle is easily accessible through a surgical approach to the hip joint and is often used as a donor muscle for transplantation procedures in the lower extremity.
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which of these factors is associated with sustainable farming
intensive farming
drip irrigation
overly irrigated soil
pesticide resistance
Drip irrigation is associated with sustainable farming. Therefore, option B is correct.
What is sustainable farming?Sustainable farming methods aim to preserve and enhance soil fertility while also protecting the environment and increasing the Earth's natural resource base. Sustainable agriculture has several objectives, including Increasing profitable agricultural income.
Intensive farming, overly irrigated soil, and pesticide resistance are not associated with sustainable farming, while drip irrigation is associated with it. Therefore, option B is correct.
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Which cell in the brain filters blood plasma to produce cerebrospinal fluid?
Choroid plexus cells are ependymal cells that have been modified to surround the capillary loops that produce cerebrospinal fluid (CSF).
The choroid plexus is a complex network of capillaries lined with specialized cells that perform a variety of functions. One of its main functions is the production of cerebrospinal fluid (CSF) via the ependymal cells that line the ventricles.
Choroid plexus epithelial cells secrete cerebrospinal fluid (CSF) by a process involving the transfer of Na(+), Cl(-), and HCO(3)(-) from the blood to the ventricles. This creates an osmotic gradient that promotes H(2)O secretion. A network of blood vessels and cells within the ventricles (fluid-filled spaces). Blood vessels are lined with a thin layer of cells that form the cerebrospinal fluid.
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select the statement that correctly describes the roles of histone and nonhistone proteins found in chromatin?
DNA is wound around histone proteins in order to regulate gene expression. Each nucleosome is made up of eight histone proteins called histone octamers that are shaped like spools and wrap around DNA.
Chromatin each cell's nucleus is crammed full of tightly packed DNA. As seen in the video, DNA binds to histone proteins to form nucleosomes, which are little loops of DNA.
DNA forms nucleosomes, often known as the "beads on a string configuration," by wrapping around histone proteins (euchromatin). A 30-nanometer fiber made of nucleosome arrays in their smallest configuration is wrapped in multiple histones (heterochromatin).
One of the primary causes of histone protein methylation, demethylation, and acylation, which start the transcriptional process, is epigenetic changes. All of the aforementioned modifications result in a shift in the proportion of lysine to arginine residues, which is the primary factor affecting chromatin structure as needed.
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The Complete question is
select the statement that correctly describes the roles of histone and nonhistone proteins found in chromatin?
A. combination of amino acid modifications in the histone tails.
B. coding sequences in the messenger RNAs for histone proteins.
C. combination of histone proteins found within the nucleosome.
D. proportion of arginine and lysine amino acids in the histone proteins.
if a plant species self-pollinates frequently what would you expect to happen to the frequency of the deleterious recessive a allele in the population over evolutionary time?
If a plant species self-pollinates frequently, the frequency of the deleterious recessive allele in the population over evolutionary time should decrease.
Frequent self-pollination can result in inbreeding depression brought on by the manifestation of deleterious recessive mutations or lower species health brought on by the breeding of closely related individuals. This is why many flowers that might self-pollinate have a built-in mechanism to prevent it, or at the very least make it a secondary option. Thus, the frequency decreases.
Self-pollination is a kind of pollination in which pollens from the anther arrives at the stigma of the another or same flower on the same plant body. When the anthers arrive at the stigma of the same flower, it is called autogamy. Or when they arrive at a different flower of the same plant, then it is called geitonogamy.
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This diagram orders biological systems from least complex (at the beginning) to most complex (at the end):
Population → Community → Ecosystem → Biome
Which systems include abiotic factors?
A.
Ecosystem and biome only
B.
Community and ecosystem only
C.
Population and community only
D.
Community, ecosystem, and biome only
Answer: A. Ecosystem and biome only
Explanation: Abiotic factors refer to non-living components of an ecosystem. These factors include things like temperature, sunlight, water, soil composition, and air quality.
An ecosystem is a community of living organisms interacting with their abiotic environment, which means it consists of both biotic (living) and abiotic (non-living) factors.
A biome, on the other hand, is a large geographical area characterized by a specific set of abiotic factors, such as climate and soil type. It includes multiple ecosystems within it.
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what gas has the fastest average molecular motion at a given temperature?
At a given temperature, all gases have the same average kinetic energy, which means they have the same average speed.
However, the molecular weight of the gas affects its speed for a given kinetic energy, and lighter molecules move faster on average than heavier ones.
At a given temperature, all gases have the same average kinetic energy, but lighter gases have faster average molecular motion because they have less mass to move around. This is described by the Kinetic Theory of Gases.
Therefore, at a given temperature, the gas with the fastest average molecular motion is the gas with the lowest molecular weight, which is hydrogen (H2). Hydrogen gas has the lowest molecular weight of any gas, so its molecules move the fastest on average at a given temperature. On the other hand, heavier gases like carbon dioxide (CO2) and sulfur hexafluoride (SF6) have slower average molecular motion because they have higher molecular mass.
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Consider the diagram of reproduction of yeast cells. Yeast can reproduce both asexually and sexually. During sexual reproduction, alpha or a cells produce ‘a-factor’, which signals the presence of an a cell to neighbouring α cells and the a cells also respond to α factor. Each cell grows a projection towards the opposite cell and this response of haploid cells to the mating factors of the opposite mating type allows for conjugation between a and α cells, but not between cells of the same mating type. What is the advantage to this type of reproduction?
Sexual reproduction boosts genetic diversity while asexual reproduction allows for an increase in the number of clonal individuals, hence option D is correct.
How do yeasts reproduce?The benefit of an asexual-sexual style of reproduction, such as that which takes place in yeast cells, stems from the fact that
Our findings corroborate the idea that the benefit of sexuality resided in the eradication of harmful mutations because sex boosts mean fitness in an environment to which the populations were well suited, but not in an environment to which new adaptation occurred.
Therefore, producing large numbers of cells in a short period of time.
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The given question is incomplete, so the most probable complete question is,
Consider the diagram of reproduction of yeast cells. Yeast can reproduce both asexually and sexually. During sexual reproduction, alpha or a cells produce ‘a-factor’, which signals the presence of an a cell to neighbouring α cells and the a cells also respond to α factor. Each cell grows a projection towards the opposite cell and this response of haploid cells to the mating factors of the opposite mating type allows for conjugation between a and α cells, but not between cells of the same mating type. What is the advantage of this type of reproduction?
A) Survival of the fittest.
B) The production of diploid cells.
C) Genetic variation in the gene pool.
D) Producing large numbers of cells in a short period of time.
Which phrase best describes a biogeochemical cycle?
Answer:
A cycle that continuously cycles chemical elements and water that are needed by organisms through an ecosystem.
you make 180 liters of filtrate per day but create only 1.8 liters of urine. what happens the water in the filtrate to account for the concentration of solutes in the urine?
The water in the filtrate is absorbed by the nephron tubules in the kidneys. The tubules have different sections that allow them to reabsorb different solutes and water from the filtrate, depending on the needs of the body.
In this case, the tubules are reabsorbing a large proportion of the water, while also selectively allowing certain solutes to pass into the urine. This process of selective reabsorption not only creates the concentration of solutes in the urine but also creates the osmotic pressure required for the urinary bladder to concentrate and store the urine until it is ready to be eliminated from the body. As the water is reabsorbed, it becomes a part of the body's fluid balance and is redistributed throughout the body in the form of blood.
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what stage of action potential is when the polarity of the cell switches from negative to positive?
Hyperpolarization is when the membrane potential becomes more negative at a particular spot on the neuron's membrane, while depolarization is when the membrane potential becomes less negative (more positive).
A cell's membrane potential changes during hyperpolarization to become more negatively charged. It is a depolarization's opposite. By requiring more stimuli to raise the membrane potential to the action potential threshold, it prevents action potentials.
K+ (a cation) efflux through K+ channels or Cl- (an anion) influx through Cl- channels are frequent causes of hyperpolarization. The suppression of Na+ or Ca2+ currents, on the other hand, will likewise cause a hyperpolarization if a cell has those currents at rest. The hyperpolarization state is produced by this voltage-gated ion channel response. Immediately after an action potential is generated in neurons, the cell goes into a hyperpolarized state.
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the specialized lymphatic capillaries located in the villi of the small intestines are the
a. Chyle.
b. Lacteals.
c. Lymphatic Trunks.
d. Collecting Vessels.
Lacteals. Dietary lipids that are too big to be absorbed by intestinal capillaries are received by a particular variety of lymphatic capillary known as a lacteal. In the small intestine are lacteals.
Lacteals are present inside the small intestine. The small intestinal mucosa is made up of numerous projections called vili, which resemble fingers. Each villus has columnar epithelium lining it. Below the epithelium layer is a lymphatic channel known as the lacteal, which connects to the lymphatic system. They facilitate fatty acid absorption.
The three compartments of the large intestine are the caecum, colon, rectum. When it is present, the absorption of water, minerals, and medications is improved.
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How does our nervous system allow us to experience the difference between a slap in a tap on the back?
Stronger stimuli (the slap) cause more neurons to fire and more neurons to fire more frequently than weaker stimuli (the tap).
Your nervous system is divided into two parts: the central nervous system (the brain and spinal cord) and the peripheral nervous system (the sensory and motor nerves). The names help to visualize it: the brain and spinal cord serve as hubs, while sensory and motor nerves extend out to provide access to all areas of the body. Simply put, sensory nerves transmit information about our surroundings to the brain via the spinal cord. The brain relays information to the motor nerves, which assist us in performing actions. It's like having a massive inbox and outbox for everything.
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n a population with two alleles b and b, the allele frequency of b is 0.7. if this population is in hardy-weinberg equilibrium. what is the frequency of heterozygotes, homozygous dominant, and homozygous recessives? g
The frequency of heterozygotes is 0.42, the frequency of homozygous dominant is 0.49, and the frequency of homozygous recessive is 0.09 in this population.
Using the Hardy-Weinberg equation: p^2 + 2pq + q^2 = 1, where p is the frequency of the dominant allele (b) and q is the frequency of the recessive allele (b).
Given that the frequency of the b allele is 0.7, then the frequency of the B allele (p) would be:
p = 0.7
q = 0.3
So, using the Hardy-Weinberg equation:
Frequency of heterozygotes (Bb):
2pq = 2(0.7)(0.3) = 0.42
Frequency of homozygous dominant (BB):
p^2 = (0.7)^2 = 0.49
Frequency of homozygous recessive (bb):
q^2 = (0.3)^2 = 0.09
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how can the data from your graph be used to determine the osmolarity of the potato tuber tissue? what is this value?
If distilled water and a solution of sucrose are separated by a membrane that seems to be impermeable to sucrose in the osmolarity of potato tuber tissue, water will pass from of the distilled water it through membrane into to the sucrose solution.
Explain the process of Osmolarity of Plant Cells?Water diffuses through such a semi-permeable membrane during osmosis, which occurs when water moves from an area with low levels of solutes to one with high solute concentration.
When referring to two solutions separated by either a selectively permeable membrane, the phrases hypertonic, isotonic solution, and hypotonic are all employed. Plant scientists frequently need to figure out the ideal water content for a plant's typical physiological functions. They understand that the ratio of water to osmotically active chemicals in cells needs to be kept within an acceptable range for basic tasks to occur. All critical processes slow down when water content in plant cells is lowered. You will calculate the osmolarity in potato tuber cells in the ensuing tests. YouThus, if distilled water and a solution of sucrose are separated by a membrane that seems to be impermeable to sucrose in the osmolarity of potato tuber tissue, water will pass from of the distilled water it through membrane into to the sucrose solution.
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When a cell needs to make a protein, special parts within the nucleus read the DNA and use that information to produce messages in the form of ___________
When a cell needs to make a protein, special parts within the nucleus read the DNA and use that information to produce messages in the form of messenger RNA (mRNA). The mRNA molecule carries the genetic code from the DNA to the ribosomes, which are the cellular structures responsible for protein synthesis. The ribosomes use the information contained in the mRNA to build the protein molecule.
