the control of gene expression is more complex in multicellular eukaryotes than in prokaryotes because

When mating the white feathered trait is dominate while the red feathered is resesive so both parents would have to have red feathers for there offspring to have red feathers.

Dominant refers to the transmission of qualities that are normally carried vertically from parent to kid, where both the parent and the child are impacted by the trait or disorder linked to that gene. The most prevalent form is autosomal dominant, in which the affected person carries both the pathogenic and benign alleles of the linked gene, which is located on one of the 22 non-sex chromosomes. One harmful allele is enough to provide the characteristic in this inheritance pattern. The 50% likelihood of passing on the trait to kids is caused by an affected person having just one of two copies of the pathogenic gene.

Recessive, as it relates to genetics, describes the connection between an observed trait and the two inherited forms of a gene associated with that trait. Each gene has two alleles that an individual receives from each parent. When a trait is recessive, both of the (recessive) alleles of the gene that causes it must be present for the trait to manifest. When there is only one copy of an allele, it does not create any traits at all. In contrast, a dominant trait can only be expressed if one of the two alleles is present.

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The CFTR protein is a single polypeptide of 1,480 amino acids. The approximate minimum length of its mRNA is 4,500 nucleotides. Cystic fibrosis transmembrane conductance regulator (CFTR) protein is a cell membrane protein.

It is a chloride ion channel and a key component of sweat and mucus. It also controls ion transport in various organs. Cystic fibrosis (CF) is caused by a mutated CFTR gene. CF is an inherited disease that affects approximately 30,000 people in the United States alone.How many nucleotides does the CFTR gene contain?The CFTR gene is located on the long arm of chromosome 7 (7q31.2). The gene consists of 27 exons, which span 250 kb. The coding region of CFTR gene is 4,338 nucleotides long. It is a single polypeptide of 1,480 amino acids in length. As a result, the approximate minimum length of its mRNA is 4,500 nucleotides.

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The type of muscle that is voluntary, meaning that you can control it is called skeletal muscle.

A skeletal muscle is a muscle that is connected to the skeleton and is used for voluntary movement. This type of muscle is the most abundant type of muscle in the human body. They are also called striated muscles because of their striped appearance under the microscope.

Skeletal muscles work in tandem with the skeleton to help move the body. They are responsible for the movement of bones, facial expressions, and eye movement, as well as posture maintenance, breathing, and blood circulation. They are also responsible for movement, such as running, jumping, and throwing.

The muscular system is one of the body's most complex systems. The muscle system is made up of three different types of muscle: cardiac, smooth, and skeletal. Each type of muscle has its own unique features and characteristics.

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A receptor that binds to one of these signaling molecules would be found in the plasma membrane of a cell.

The receptor molecule is the membrane-bound protein that binds to signaling molecules. The receptor is usually a transmembrane protein that spans the lipid bilayer of the plasma membrane.

Signalling molecules, also known as ligands, are molecules that bind to specific receptors on the surface of a target cell, resulting in a biochemical reaction in the cell.

In this way, signaling molecules play a vital role in cell communication and the regulation of physiological processes.

The binding of a signaling molecule to a receptor on the surface of a target cell causes a biochemical reaction within the cell. This reaction could be to trigger the release of a second messenger, activate or deactivate an enzyme, or cause a structural change in the receptor.

Signaling molecules are synthesized by one cell and then released into the extracellular fluid, where they bind to specific receptors on the surface of target cells, initiating a signaling cascade.

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One example of failed environmental policy is the Kyoto Protocol, an international agreement signed in 1997 with the aim of reducing greenhouse gas emissions to mitigate global warming.

STEP 2: Kyoto Protocol failed to achieve its intended objectives for several reasons. Firstly, agreement did not include the United States, which at the time was world's largest emitter of greenhouse gases, and China, which is now world's largest emitter.

Secondly, some countries that signed agreement failed to comply with emission reduction targets they had agreed to. For instance, Canada withdrew from agreement in 2012 after failing to meet its targets.

Thirdly, even among the countries that adhered to agreement, there was lack of ambition to set more aggressive targets to achieve deeper cuts in greenhouse gas emissions.

Finally, Kyoto Protocol was criticized for not addressing the root cause of climate change, which is the reliance on fossil fuels and the lack of investment in renewable energy sources.

STEP 3: To address the failures of the Kyoto Protocol and to make it more successful, several changes could be implemented. Firstly,  inclusion of all major emitters, such as the United States and China, would be crucial for the effectiveness of any international climate agreement.

Secondly, stronger incentives and penalties could be implemented to encourage countries to adhere to their agreed-upon emission reduction targets.

Thirdly, there needs to be a greater focus on the underlying causes of climate change, such as reducing reliance on fossil fuels and increasing investment in renewable energy sources.

Finally, there needs to be more emphasis on public education and outreach to raise awareness about the importance of reducing emissions .

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In the bisecting angle technique, a size 2 receptor is used.

What is the bisecting technique?

Bisecting angle technique (BAT) is a method of taking dental radiographs in which a film holder is positioned intraorally, with a film positioned against the lingual or palatal surface of the teeth and parallel to the long axis of the teeth, and an x-ray beam is directed perpendicular to the film holder and the film.

For bisecting angle technique, a size 2 receptor is used, and the film holder is positioned so that the image receptor is placed between the tooth and the end of the beam. This approach is used when the tooth is unable to accommodate an image receptor owing to its position or size, or when the receptor's placement is uncomfortable for the patient.

In this case, the receptor is bent to create the right angle necessary to obtain an image of the area of interest. The bisecting angle technique, on the other hand, necessitates a more precise exposure technique than other methods. When the X-ray tube is not directed properly, errors in the image's geometry and detail are common.

The bisecting angle technique's primary disadvantage is that it generates a distorted image of the tooth, necessitating additional image adjustment before analysis.

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The test cross progeny inherited one allele from the father, and one of eight possible combinations of alleles from the mother.

What is a test cross?

A test cross is an experiment in genetics in which an organism that has an unknown genotype is bred with a recessive homozygous organism.

The progeny of a test cross discloses the unknown genotype of the original organism.

The purpose of the test cross is to confirm the genotype of the unknown parent.

This experiment can aid in determining whether a particular organism displaying a particular phenotype is homozygous dominant or heterozygous.

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As per the given DNA sequence shown below comes from part of the TP53 gene, the nucleotide at position 25 from G to C mutation results in missense. Option B is correct .

A missense mutation is when a single nucleotide change in the DNA sequence results in a codon that codes for a different amino acid, potentially altering the protein function.

A missense mutation is a kind of point mutation that leads to the substitution of a different amino acid residue instead of the original amino acid residue in the resulting protein. It occurs when the DNA sequence of a gene is altered in such a manner that a nucleotide is changed, resulting in the production of a protein that has a different amino acid at a specific position. This mutation results in the production of an altered protein. Thus, a missense mutation is a type of point mutation that alters a single nucleotide within a DNA sequence, resulting in a change to a different amino acid in the protein sequence

Therefore, the given mutation that changes the nucleotide at position 25 from G to C results in missense mutation. In this case, the boxed nucleotide changes from C to A, resulting in a different codon that codes for a different amino acid. Therefore, the correct answer is B. Missense.

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The DNA sequence shown below comes from part of the TP53 gene. It encodes the last amino acids of the p53 protein, which is normally 393 amino acids long. The underlined codon indicates the correct reading frame of this gene. The lower strand of the gene is used as the template during the transcription of mRNA from this gene....TTCAAGACAGAAGGGCCTGACTCAGACTGACATTCTCC-3'...AAGTTCTGTCTTCCCGGACTGAGTCTGACTGTAAGAGG-5'A mutation that changes the nucleotide at position 25 from G to C results in which of the following: Consider a mutation that changes the boxed nucleotide from C to

A. What kind of mutation is this?

B. Missense AUEACAADS

C. Nonsense

D. Frameshift

E. Non-coding AUGT Met AG

The cytoplasm of a skeletal muscle fiber is known as sarcoplasm.

The cytoplasm of a muscle cell is called sarcoplasm. Comparable to the cytoplasm of other cells, it has extremely high concentrations of mitochondria, myoglobin, a red protein required for binding oxygen molecules that permeate into muscle fibers, and glycogen (a polymer of glucose).

The name sarcolemma comes from the Greek words sarco (from sarx), which means "flesh," and lemma (from lemma), which means "sheath," and refers to the membrane that surrounds a skeletal muscle fiber or a cardiomyocyte. It is sometimes referred to as the myolemma. It is made up of a lipid bilayer and a thin layer of glycocalyx, a polysaccharide substance, that touches the basement membrane.

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According to the punctuated equilibria model,

the option "given enough time, most existing species will branch gradually into new species" is: false,

the option"most new species accumulate their unique features relatively rapidly as they come into existence, then change little for the rest of their duration as a species" is: true,

the option "most evolution occurs in sympatric populations" is: false,

and the option"speciation is usually due to a single mutation" is: false.

Punctuated equilibria is a model proposed by Stephen Jay Gould and Niles Eldredge in 1972 as an alternative to the traditional view of evolution as a gradual process. According to this model, evolution is composed of two distinct parts - long periods of stasis, or equilibrium, and short periods of rapid change.

During the long periods of equilibrium, little evolutionary change is observed and the species remains relatively unchanged. However, during short periods of rapid change, new species may accumulate their unique features rapidly, forming the basis for future speciation. This process is driven by a combination of different mutations and selection pressures.

In conclusion, the punctuated equilibria model proposes that evolution occurs in rapid bursts rather than slowly over time, with new species accumulating their unique features rapidly as they come into existence. Speciation is usually due to a combination of different mutations and selection pressures, not a single mutation, and most evolution does not occur in sympatric populations.

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The pan genome of a microbial species is constantly changing due to three main reasons: bottleneck events, horizontal gene transfer, and substitutions. A bottleneck event occurs when a population of the species is reduced to a small number of individuals, meaning only the genes of those individuals are preserved. As the population grows back, some of the original genetic diversity is lost.

Horizontal gene transfer (HGT) occurs when genes are transferred between two unrelated individuals, allowing new genetic information to enter the population. This can happen through several mechanisms such as transduction, conjugation, or transformation.
Substitutions are when a single base is replaced by another, changing the genetic code of the organism. This can cause mutations that can be beneficial, harmful, or have no effect at all.
In conclusion, the pan genome of a microbial species is constantly changing due to bottleneck events, horizontal gene transfer, and substitutions, which lead to mutations that can have various effects on the species.

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Photosynthesis is the process of producing organic compounds, such as glucose, using sunlight, carbon dioxide, and water as raw materials. Sunlight is the source of energy that powers this process.

The energy is captured by the pigments present in the chloroplasts of green plants, such as chlorophyll, and is used to drive the reactions that lead to glucose synthesis. In photosynthesis, carbon dioxide is reduced to glucose by the addition of hydrogen ions, which are provided by water. The energy for this process is supplied by light, which is absorbed by the pigments in the chloroplasts. The energy is used to split water molecules into oxygen and hydrogen ions. The oxygen is released into the atmosphere, while the hydrogen ions are used to reduce carbon dioxide to glucose.

Thus, sunlight is essential for the synthesis of glucose from carbon dioxide by providing the energy that is necessary for the process. Without sunlight, the reaction cannot occur, and glucose cannot be synthesized. Therefore, photosynthesis is a vital process for plants and other photosynthetic organisms, as it provides them with the energy and nutrients they need to survive.

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In a frog's life cycle, the adaptations which help the frog get food are long tongues, bulging eyes, large eardrums, and webbed feet. Gills; cutaneous, pulmonary, and buccal respiration are the breathing adaptations in frogs.

A frog's long, sticky tongue helps catch insects and other prey. A frog's bulging eyes enable it to locate the prey from a distance, and its large eardrums facilitate hearing even underwater.

When frogs are in the water, they use their webbed feet to quickly swim through the water to catch prey or to escape from predators.

Frogs breathe through their skin in the egg stage as they lack gills in this stage of their life cycle. They absorb oxygen through their skin while in the tadpole stage.

When the tadpoles grow, they develop gills that enable them to extract oxygen from the water in which they live. When they reach the adult frog stage, they breathe through their lungs and can absorb oxygen through their skin and mouth's lining.

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Correct order- Lysis of donor cells. The receptor on the recipient cell is tied by the donor cell. There is the degradation of one donor cell DNA strand. transformed DNA forms pairs with the recipient cell's homologous region. then fuses with the recipient cell once more.

For an allogenic transplant, stem cells are obtained from a donor. The patient receives the stem cells from the donor after receiving chemotherapy or radiation therapy. Another name for this is an ALLO transplant. During an ALLO transplant, a lot of people have a "graft-versus-cancer cell effect."

The recipient patient receives healthy stem cells from a healthy donor, which are then replaced by the healthy stem cells in the recipient patient's blood and immune systems. Patients whose bone marrow (stem cell factory) has failed as a result of an illness, chemotherapy, or radiation treatment benefit from stem cell transplants.

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If the dispersive model of DNA replication had been correct, Meselson and Stahl would have observed that DNA extracted from bacterial cells following a second round of DNA replication in 14N would have been a mixture of both heavy and light DNA fragments.

The DNA replication model proposed by Meselson and Stahl is the semiconservative replication model. According to the model, the two strands of a DNA molecule are separated by DNA helicase and serve as templates for the synthesis of new complementary strands by DNA polymerase enzymes during DNA replication.

The new strands created during DNA replication are always made up of one old and one new strand. This type of replication is referred to as semiconservative replication. The dispersive model, which was proposed prior to Meselson and Stahl's experiment, proposed that the replication process split the original DNA molecule into smaller fragments, and the new strands that are synthesized are a mix of old and new strands from these fragments. So, according to the dispersive model, a mixture of heavy and light DNA fragments would have been observed after the second round of replication in 14N.

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Bone remodeling is important for all of the following reasons except sodium ion regulation in the body. So, the last option is correct.

Over the course of a person's lifetime, bone remodelling involves a constant cycle of bone creation and bone resorption. It is necessary to preserve bone health and function as well as to control bone growth, adapt to physical stress, and preserve bone structure. Osteoclasts, specialist cells, destroy outdated or damaged bone tissue while osteoblasts, another type of cell, lay down new bone tissue during bone remodelling. This procedure aids in repairing damage, removing extra bone tissue, and preserving healthy bone composition and strength.

While bone remodeling is essential for preserving the body's electrolyte balance by releasing calcium and phosphate ions into the blood, it is not directly responsible for controlling sodium ion levels.

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B) start signal.The AUG codon is the most common start codon in the genetic code and marks the beginning of the protein-coding sequence in mRNA

During translation, the ribosome recognizes the AUG codon and initiates protein synthesis by recruiting the appropriate aminoacyl-tRNA that carries the amino acid methionine.

In addition to its role as a start codon, the AUG codon can also function as a signal for the internal initiation of translation in some mRNA molecules, as well as a signal for the co-translational targeting of proteins to specific subcellular compartments.

It is important to note that while the AUG codon typically codes for methionine, it can also be used to code for other amino acids in rare cases. Additionally, other start codons such as GUG and UUG have been observed in some organisms, although they are less common than AUG.

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The drug that was named purposefully to indicate which part of the body is being treated is "Dermatop"

Dermatop is a steroid. The name "Dermatop" contains the root word "dermato-", which refers to the skin. Dermatop is a topical corticosteroid used to treat various skin conditions.

It works by minimizing inflammation, redness, and itching caused by skin problems like eczema, dermatitis, allergies, rashes, and psoriasis. This medication is only used on the skin.

Corticosteroids, such as Dermatop, are topical (for the skin) medicines that are used for the treatment of skin inflammation, itching, and other issues.

Thus the answer is option C. Dermatop.

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Translation refers to protein growth, which occurs in the cytoplasm through the interaction between mRNA, rRNA, and tRNA. 1) Amino acids: stop - Glu - stop - Ile. 2) Amino acids: Ile - Lys - Cys - Pro. 3) Amino acids: Leu - Leu - Gly - Ile.

The translation is the stage of protein synthesis in which mRNA, rRNA, and tRNA interact to grow the molecule.

The ribosome is in charge of reading mRNA from its 5' extreme to 3' extreme. Meanwhile, tRNA associates with the ribosome to build the polypeptidic chain. Molecule growing occurs according to the mRNA codon sequence.

A codon is a short sequence of three nucleotides that store the genetic information for the aminoacids' assembly.

Each tRNA has two important sites. One of them couples with the codon of the mRNA molecule, named anticodon. The other site couples with an amino acid.

When the new amino acid binds to the growing peptidic chain, the tRNA molecule leaves the ribosome, leaving a space for the next tRNA.

• The start codon AUG is the most common sequence used by eukaryotic cells and is placed near the 5' extreme of the molecule.

• The stop codons are UAA, UAG, and UGA.

1)

mRNA 1: UGA GAA UGA AUU

amino acids: stop - Glu - stop - Ile

2)

mRNA 2: AUU AAA UGC CCA

amino acids: Ile - Lys - Cys - Pro

3)

mRNA 3: CUA CUG GGU AUA​

amino acids: Leu - Leu - Gly - Ile

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Their dense vegetation, algal activity, and soils can regulate processes such as decomposition which generate greenhouse gases (GHG).

Greenhouse gases are a group of gases that trap heat in the Earth's atmosphere, causing the planet to warm up. In biology, these gases play a significant role in climate change, which affects ecosystems and the organisms that inhabit them. The most common greenhouse gases include carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O).

In the natural environment, greenhouse gases are necessary to maintain a stable climate and support life. However, human activities such as burning fossil fuels, deforestation, and agriculture have led to a significant increase in the concentration of these gases in the atmosphere, leading to global warming and climate change.

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Antibodies tag pathogens for destruction by other cells. They produce granzymes that puncture bacterial cell membranes, lyse infected cells with perforins, and can also directly destroy pathogens.

What are antibodies? Antibodies are a protein produced by a type of white blood cell called a B cell that helps in the recognition of and responses to invading antigens (foreign substances). Antibodies are also referred to as immunoglobulins.

Antibodies are capable of targeting specific pathogens in the body, such as viruses, bacteria, and fungi, as well as recognizing and tagging them for destruction by other cells. Antibodies can identify and attach to pathogens, allowing other cells in the immune system to identify and destroy them. Some antibodies bind to and inhibit the ability of the pathogen to infect cells, while others tag the pathogen for destruction by other cells (e.g., macrophages) that can engulf and digest the pathogen.

Antibodies assist in the recognition of antigens on the surface of cells or in bodily fluids by the immune system. They are made up of four polypeptide chains that are linked together by disulfide bonds, and they have two identical ends that are antigen-specific. Antibodies protect the host by neutralizing pathogens in a variety of ways, including complement activation, opsonization, and activation of the adaptive immune response.

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There is exponential bacterial growth. It was calculated that there were 5. 5 X 10^4 cells present at 7:00 AM.  As a result, the bacteria's generation period is roughly 29.3 minutes.

Here: N = [tex]N_{0}[/tex] x 2^(t/g)

Here:

[tex]N_{0}[/tex] = initial number of cells

N = final no's of cells

t = time elapsed

g = generation time

We can use the information given to solve for g.

At 7:00 AM, [tex]N_{0}[/tex] = 5.5 x 10^4 cells

At 11:00 AM, N = 8.7 x 10^7 cells

The time elapsed is 4 hours, or 240 minutes.

Substituting these values into the formula, we get:

8.7 x 10^7 = 5.5 x 10^4 x 2^(240/g)

Dividing both sides by 5.5 x 10^4, we get:

1582.7 = 2^(240/g)

Taking the logarithm of both sides (base 2), we get:

log (base 2) (1582.7) = 240/g

Solving for g, we get:

g = 240 / log2(1582.7)

Calculating g, we discover that it is roughly 29.3 minutes. As a result, the bacteria's generation period is roughly 29.3 minutes.

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An excitatory postsynaptic potential (EPSP) is an event in which an excitatory neurotransmitter depolarizes the postsynaptic membrane, bringing the membrane potential closer to the threshold potential. This is achieved by the release of the excitatory neurotransmitter into the synaptic cleft, which binds to receptors on the postsynaptic membrane. This causes an influx of positive ions into the neuron, causing a shift in the membrane potential.

In particular, depolarization occurs when positive ions such as sodium, calcium, and potassium move into the neuron. This influx of positive ions raises the membrane potential, bringing it closer to the threshold potential. This depolarization can cause a brief excitatory postsynaptic potential, and if enough depolarization occurs, an action potential can be initiated.

On the other hand, hyperpolarization occurs when negative ions such as chloride move into the neuron. This influx of negative ions causes a decrease in the membrane potential, making it less likely that an action potential will be initiated.

Overall, an excitatory postsynaptic potential occurs when an excitatory neurotransmitter depolarizes the postsynaptic membrane, bringing the membrane potential closer to the threshold potential. This depolarization allows for the potential for action potentials to be initiated, whereas hyperpolarization does not.

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This mutation will prevent the CAP from binding to the promoter in the lac operon, which will inhibit transcription of the operon. Without the binding of CAP, the RNA polymerase enzyme will not be able to bind to the promoter, thus halting the process of transcription.

The effect of the mutation is prevention of the catabolite activator protein (CAP) from binding to the promoter region in the lac operon and thus transcription will be reduced.

A transcription factor is a protein that regulates gene expression by binding to the promoter of the DNA strand and enhancing or suppressing transcription, and CAP is a transcription factor in the lac operon that assists RNA polymerase in binding to the promoter region, activating the transcription of lactose-metabolizing enzymes.

CAP requires cAMP (cyclic adenosine monophosphate) to function properly, however when glucose levels are high, cAMP levels are low, and CAP is unable to bind to the promoter. As a result, the transcription of the lac operon is repressed, allowing the cell to conserve energy by avoiding the synthesis of enzymes that are not required. As a result, if the mutation prevents CAP from binding to the promoter, the RNA polymerase will be unable to bind, causing the transcription of the operon to be reduced or absent.

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Organisms obtain and use the matter and energy they need to live and grow by food, nutrients, or sunlight in order to carry out cellular processes.

Energy is a necessity for all living things to live. During the act of breathing, they get their energy. Breathing and oxygen-fueled food breakdown within cells are both components of respiration, which releases energy.

Energy is needed for an organism to survive in order to support its essential life processes. Depending on the best survival tactics, organisms must make specific decisions. It begins with the transmission of genetic information through reproduction from one generation to the next.

The molecular mechanisms linked to survival that contribute to the maintenance of life follow next. Nutrition is a crucial component of living since it provides the energy the body needs. Last but not least, a vital component of survival is the efficient operation of the senses and reactions, as well as the development of a lifestyle in a habitat.

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Option E. The The two main classes of molecules that function as hormones are steroid hormones and hormones that are derived from

The two main classes of molecules that function as hormones are steroid hormones and hormones that are derived from amino acids.

Steroid hormones are derived from cholesterol, while hormones derived from amino acids include peptides, proteins, and amines.

Long-chain fatty acids and carbohydrates are not typically involved in hormone signaling.

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