what do animal/ plant cells have exclusively each?

This plant is going to bloom These plants will bloom when the conditions are right, but they won't need to be vernalized. The correct answer is (B).

Sugarbeets, cabbage, and carrots are a few examples. Garlic is typically planted during the winter because it thrives in cold temperatures (vernalization).

One model is vernalization, the interaction by which blooming is advanced as plants sense openness to the cool temperatures of winter. An adaptive trait called a requirement for vernalization prevents flowering before winter and allows flowering in spring when conditions are favorable.

Rice never goes through vernalization. Different yields, like wheat, grain, and rye, which have spring and winter varieties, require cold treatment to set off the photoperiodic reaction of the plants.

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Genetic drift refers to the random fluctuation of allele frequencies in a population, which occurs due to chance events. This process is often referred to as the “sampling error” in genetics.

Genetic drift can have a significant impact on small populations, where random events can lead to the loss or fixation of alleles. It is an evolutionary mechanism that can lead to the loss of genetic diversity and the divergence of populations over time.

Genetic drift occurs when the frequency of certain alleles changes randomly from one generation to the next. This process can be caused by several factors, including genetic bottlenecks, founder effects, and random mutations. As a result of genetic drift, some alleles may become more common in a population, while others may become less common or even disappear.

Genetic drift is particularly important in small populations, where chance events can have a significant impact on the genetic makeup of the population. In contrast to natural selection, genetic drift does not lead to adaptations or changes in response to environmental pressures. Instead, it is a purely random process that can cause unpredictable changes in allele frequencies over time.

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Hardy-Weinberg frequencies refer to the theoretical proportions of alleles in a population that are in genetic equilibrium. This means that the frequency of alleles does not change over generations due to factors such as mutation, migration, natural selection, genetic drift, or non-random mating.

To calculate Hardy-Weinberg frequencies, you need to know the frequency of each allele in the population. This can be determined by genotyping a sample of individuals or by using information from previous studies or genetic databases. Once you have the allele frequencies, you can use the Hardy-Weinberg equation to calculate the expected genotype frequencies.

The Hardy-Weinberg equation is expressed as:
p^2 + 2pq + q^2 = 1
where p and q represent the frequencies of the two alleles (usually denoted as A and a) in the population, and p^2, 2pq, and q^2 represent the expected frequencies of the three possible genotypes (AA, Aa, and aa), respectively.

For example, if the frequency of the A allele is 0.6 and the frequency of the a allele is 0.4, you can calculate the expected genotype frequencies as follows:
AA = p^2 = (0.6)^2 = 0.36
Aa = 2pq = 2(0.6)(0.4) = 0.48
aa = q^2 = (0.4)^2 = 0.16

Therefore, in this population, the expected frequency of AA genotype is 0.36, the expected frequency of Aa genotype is 0.48, and the expected frequency of aa genotype is 0.16.

By comparing the observed genotype frequencies with the expected ones, one can determine if the population is in Hardy-Weinberg equilibrium or if some evolutionary forces are affecting the genetic makeup of the population.

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In prokaryotes, the two main DNA polymerases involved in DNA replication are DNA polymerase III (Pol III) and DNA polymerase I (Pol I).

Pol III is the primary polymerase responsible for elongating the new DNA strand during replication. It is a high-fidelity enzyme with proofreading capability, which helps to maintain the accuracy of DNA replication. Pol III works in conjunction with other proteins and enzymes to form the replisome, which is the molecular machine that carries out DNA replication.

Pol I, on the other hand, has a more diverse role in DNA metabolism. It is involved in several processes including the removal of RNA primers during replication, DNA repair, and the filling of gaps left by DNA synthesis. In addition, Pol I has low-fidelity polymerase activity, which allows it to incorporate nucleotides at sites of DNA damage, leading to mutations.

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Tropical rainforests are unique in the high levels of biodiversity they exhibit. Around 40% to 75% of all biotic species are indigenous to the rainforests. Rainforests are home to half of all the living animal and plant species on the planet. Two-thirds of all flowering plants can be found in rainforests.

The recognition of facial expressions associated with sadness has been linked to the amygdala part of the brain.

The amygdala is an almond-shaped structure in the temporal lobe of the brain that plays a key role in the processing and recognition of emotions, particularly fear and sadness. Research studies have shown that damage to the amygdala can impair a person's ability to recognize facial expressions associated with sadness, indicating the important role of this brain region in emotional processing. In addition to recognizing facial expressions, the amygdala is also involved in regulating emotional responses and memory formation.

The amygdala is a complex structure consisting of several subnuclei, each with specific functions related to emotional processing. One of the key functions of the amygdala is to detect potential threats or danger in the environment and initiate a response to help the individual deal with the situation. This response can include physiological changes such as increased heart rate and breathing, as well as behavioral responses such as fight or flight.

In addition to its role in recognizing facial expressions associated with sadness and fear, the amygdala is also involved in other aspects of emotion processing, such as the experience of pleasure and reward. Studies have shown that the amygdala plays a role in regulating the release of neurotransmitters such as dopamine, which are involved in the experience of pleasure and reward.

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In order to counteract the effects of the sympathetic nervous system, beta-blockers are employed in the treatment of hyperthyroidism.

The disorder known as hyperthyroidism causes a hyperactive metabolism by causing the thyroid gland to produce too much thyroid hormone. This can cause symptoms such as rapid heartbeat, tremors, sweating, and anxiety, which are all associated with increased activity of the sympathetic nervous system.

The sympathetic nervous system is responsible for the "fight or flight" response, which prepares the body for action in response to stress or danger.

Beta-blockers work by blocking the action of epinephrine (adrenaline) and norepinephrine, two hormones that activate the sympathetic nervous system. By doing so, beta-blockers can reduce symptoms such as rapid heartbeat and tremors, and help to counteract the effects of an overactive thyroid gland.

Therefore, C) Sympathetic is the right response.

Beta-blockers are used to counteract the effects of the sympathetic nervous system in the treatment of hyperthyroidism.

Complete Question:

Beta-blockers are used in the treatment of hyperthyroidism to counteract which of the following effects?

A Parasympathetic

B Gastrointestinal effects

C Sympathetic

D Respiratory effects

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An example of an interoreceptor is the cochlea of the ear sensing sound.

Interoreceptors are sensory receptors that are located within the body and are responsible for detecting internal stimuli such as changes in pressure, temperature, and chemical composition. The cochlea of the ear is an example of an interoreceptor because it is responsible for detecting and transmitting sound waves to the brain.

Interoreceptors are an important part of our body's sensory system as they allow us to detect and respond to changes within our internal environment. There are several different types of interoreceptors, including mechanoreceptors, thermoreceptors, and chemoreceptors, which are responsible for detecting changes in pressure, temperature, and chemical composition, respectively.

One example of an interoreceptor is the cochlea of the ear. The cochlea is a spiral-shaped organ located in the inner ear that is responsible for detecting and transmitting sound waves to the brain. It contains thousands of tiny hair cells that are stimulated by sound vibrations, which then generate electrical signals that are sent to the brain for interpretation.

Other examples of interoreceptors include free nerve endings in the fingertips, which detect changes in pressure and temperature, and olfactory receptors in the nose, which respond to different smells and chemical stimuli.

In summary, interoreceptors are sensory receptors located within the body that allow us to detect and respond to changes in our internal environment. The cochlea of the ear is an example of an interoreceptor that is responsible for detecting and transmitting sound waves to the brain.

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The correct sequence of cells in spermatogenesis is spermatogonium -> primary spermatocyte -> secondary spermatocyte. The first option is the correct option.

Spermatogonium is the germ cell that undergoes mitosis to form primary spermatocytes. Primary spermatocytes undergo meiosis I to form secondary spermatocytes, which then undergo meiosis II to form spermatids. The spermatids then differentiate into mature spermatozoa.

It is important to note that the process of spermatogenesis occurs in the seminiferous tubules of the testes, and is regulated by hormones such as follicle-stimulating hormone (FSH) and luteinizing hormone (LH) from the pituitary gland.

In summary, spermatogenesis is a complex process involving different stages of cell division and differentiation. The correct sequence of cells in spermatogenesis is spermatogonium -> primary spermatocyte -> secondary spermatocyte, which ultimately leads to the production of mature spermatozoa.

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The activity of acetylcholine in a synapse is terminated by its reuptake or degradation. To provide a step-by-step explanation:

1. Acetylcholine is a neurotransmitter that carries signals across a synapse, which is the gap between neurons.
2. When an electrical signal reaches the end of a neuron, it releases acetylcholine into the synapse.
3. Acetylcholine then binds to receptors on the next neuron, allowing the signal to continue.
4. To prevent continuous signaling, the activity of acetylcholine must be terminated.
5. This termination occurs either through reuptake, where the neurotransmitter is taken back into the original neuron, or through degradation, where enzymes break down the acetylcholine.

In the case of acetylcholine, an enzyme called acetylcholinesterase is responsible for breaking it down into its components, thus terminating its activity in the synapse.

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Drugs that target the production or signaling of interleukin-2 (IL-2) can prevent proliferation of activated T cells in transplant patients.

IL-2 is a cytokine produced by activated T cells, which plays a key role in T cell proliferation and survival. In transplant patients, activated T cells can attack the transplanted organ as if it were foreign, leading to transplant rejection. By targeting IL-2 production or signaling, drugs can reduce T cell proliferation and ultimately prevent rejection. Examples of drugs that target IL-2 include basiliximab, daclizumab, and tacrolimus.


The proliferation of activated T cells can be prevented in transplant patients using drugs that target the production or signaling of interleukin-2 (IL-2). IL-2 plays a crucial role in T cell activation and proliferation, so inhibiting its production or signaling can help reduce the risk of transplant rejection. Drugs like cyclosporine and tacrolimus, which inhibit IL-2 production, are often used in transplant patients to prevent organ rejection by suppressing the immune response involving activated T cells.

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Assemblies of molecules, cells, and groups of cells are fundamental components of both single cellular and multicellular organisms. At the molecular level, assemblies of proteins, lipids, and other biomolecules are responsible for various cellular functions, such as metabolism, energy production, and signal transduction.

At the cellular level, groups of cells can form tissues and organs, each with specialized functions. For example, muscle cells can come together to form muscle tissue, which enables movement, while groups of nerve cells form the nervous system, which enables communication and coordination.

In multicellular organisms, the organization of cells into tissues and organs is essential for maintaining the overall structure and function of the organism. For example, the heart is made up of specialized muscle cells that contract rhythmically to pump blood throughout the body, while the lungs are composed of cells that facilitate gas exchange.

Overall, the assembly of molecules, cells, and groups of cells into functional units is critical for the survival and success of both single cellular and multicellular organisms.

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Serotonin affects osteoblast differentiation, option (a) is correct.

Serotonin is a neurotransmitter that plays a critical role in various physiological processes, including bone development and remodeling. Recent studies suggest that serotonin affects bone metabolism by modulating osteoblast differentiation, function, and apoptosis. Specifically, serotonin has been shown to promote osteoblast proliferation and differentiation through the activation of the serotonin receptor 2B and downstream signaling pathways such as RhoA/ROCK and PKA/CREB.

In contrast, excessive serotonin signaling inhibits osteoblast differentiation and mineralization, leading to reduced bone formation and increased risk of osteoporosis. Therefore, regulating serotonin signaling in bone cells may offer a potential therapeutic strategy for treating bone-related disorders, option (a) is correct.

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The complete question is:

Serotonin affects ______ differentiation. (Multiple choice question)

a. Osteoblast

b. osteoclast

c. osteocyte

Answer:

chelicerae

Explanation:

that's just the scientific term for pincher claws at their mouth

have a good day :)

During a scene of emotional arousal for joy, the autonomic nervous system, specifically the sympathetic branch, plays a critical role in preparing the body for action.

The following are the major physiological changes that occur:

Together, these changes prepare the body for the physical demands of a joyful experience, such as jumping up and down, running, or hugging someone. Once the joyful experience is over, the parasympathetic nervous system takes over, reversing these changes and returning the body to a state of rest and relaxation.

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Exponential model: [tex]n(t) = n0 * 2^{(t/a)}[/tex]. An exponential model can be used to describe the growth of a population when the rate of growth is proportional to the size of the population.

In this case, the model given is  [tex]n(t) = n0 * 2^{(t/a)}[/tex]), where n0 is the initial number of bacteria in the culture, t is the time in hours, and a is a constant that represents the time it takes for the population to double.

The formula  [tex]n(t) = n0 * 2^{(t/a)}[/tex] shows that the number of bacteria in the culture grows exponentially with time. For example, if the initial number of bacteria in the culture is 100 and the time it takes for the population to double is 2 hours, then after 4 hours the number of bacteria will be n(4) = 100 * 2⁴/² = 400.

It is important to note that an exponential model assumes that there are no limiting factors, such as the availability of nutrients or space, that could slow down the growth of the population. In reality, bacterial growth is often limited by such factors, so the model may not accurately predict the growth of a bacterial population in a real-world setting.

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The type of cell division that is for the formation of gametes is meiosis.

During meiosis, a single cell divides into four cells, each with half the number of chromosomes as the original cell. This allows for the formation of haploid gametes, which can then combine during fertilization to form a diploid zygote. In main answer, meiosis is the type of cell division for the formation of gametes. Meiosis involves the division of a single cell into four cells, each with half the number of chromosomes as the original cell. This allows for the formation of haploid gametes, which can combine during fertilization to form a diploid zygote.

In summary, meiosis is essential for the formation of gametes and plays a crucial role in sexual reproduction.

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The predicted population size of lake trout in the 250-hectare lake is 2,000. The answer is D

The mark-recapture method is a common technique used to estimate the population size of animals in the wild. It is based on the assumption that the proportion of marked individuals in a second sample is proportional to the proportion of marked individuals in the entire population.

In this case, we know that 500 trout were initially marked and returned to the lake, and that 50 of the 200 trout caught in the second sample had fin clips. Using the formula N = (n1 x n2) / m, where N is the population size, n1 is the number marked in the first sample, n2 is the total number caught in the second sample, and m is the number of marked individuals in the second sample, we can estimate the population size as follows:

N = (500 x 200) / 50

N = 2,000

Therefore, the predicted population size of lake trout in the 250-hectare lake is 2,000. The answer is D.

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This evidence would refute the long-standing hypothesis that falling amyloplasts trigger gravitropism (option A).

The discovery of a plant that cannot form starch grains in its root cells but still exhibits downward root growth challenges the traditional belief that falling amyloplasts (starch-filled organelles) are responsible for gravitropism, the growth or movement response to gravity.

Other options are incorrect because:
B) Starch accumulation is not involved in the negative phototropic response of roots, which is a response to light direction rather than gravity.
C) Starch grains blocking the acid-growth response in roots is unrelated to the observed phenomenon, as the plant in question lacks starch grains but still displays downward growth.
D) Starch conversion to auxin causing downward bending in roots is refuted by the evidence, as the plant still grows downward without starch.
E) Starch and downward movement being necessary for thigmotropism is also incorrect, as thigmotropism is the growth response to touch or physical contact, not gravity.

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The full question is:

A botanist discovers a plant that lacks the ability to form starch grains in root cells, yet the roots still grow downward. This evidence would refute the long-standing hypothesis that ________.

A) falling amyloplasts trigger gravitropism

B) starch accumulation triggers the negative phototropic response of roots

C) starch grains block the acid-growth response in roots

D) starch is converted to auxin, which causes the downward bending in roots

E) starch and downward movement are necessary for thigmotropism

Aquatic animals face specific challenges in carrying out gas exchange due to properties of water.

These challenges include low oxygen content of respiratory medium, high viscosity of respiratory medium, and slow molecular movement through respiratory medium. These limitations affect the efficiency of gas exchange in aquatic environments.

One of the major challenges that aquatic animals face is the low oxygen content of the respiratory medium. Water contains only a small fraction of the amount of oxygen that air contains, which means that aquatic animals need to extract as much oxygen as possible from the water to survive.

In addition, the solubility of oxygen in water decreases as water temperature increases, which further limits the amount of oxygen available for aquatic animals.

Another challenge that aquatic animals face is the high viscosity of the respiratory medium. Water is more viscous than air, which makes it harder for animals to move through it and exchange gases.

This is particularly true for larger aquatic animals, which must expend more energy to move through the water and maintain a sufficient flow of water over their respiratory surfaces.

Finally, the slow molecular movement through the respiratory medium is another challenge that aquatic animals face. Diffusion, the process by which gases move from an area of high concentration to an area of low concentration, is much slower in water than in air.

This means that aquatic animals need to have a larger surface area for gas exchange or employ other strategies, such as actively pumping water over their respiratory surfaces, to obtain enough oxygen for respiration.

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The correct answer is B) Receptor-mediated endocytosis, as this is the most likely mechanism for the entry of STN into the cell.

STN is an antibiotic produced by the soil bacterium Streptomyces. It acts by inhibiting bacterial protein synthesis by binding to the ribosome. The structure of STN is relatively large and complex, making it difficult for it to cross the cell membrane by simple diffusion.

Receptor-mediated endocytosis is a process by which cells take up specific molecules by binding them to specific receptors on the cell surface. This process allows cells to selectively internalize molecules that are needed for cellular processes or remove molecules that are harmful or unnecessary.

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The statement that is not true of muscle fibers is that many muscle fibers are packaged into a muscle fibril.

Muscle fibers are the basic functional units of skeletal muscle. They are long and cylindrical cells that contain many nuclei. Movement is generated by muscles when actin filaments interact with myosin filaments, which cause the muscle fibers to contract. Actin and myosin filaments are arranged in parallel along the longitudinal axis on the myofibril, which is a chain of sarcomeres that make up the muscle fiber.

Therefore, the statement that many muscle fibers are packaged into a muscle fibril is not true because muscle fibers are the smallest unit of skeletal muscle and are not packaged together into fibrils.

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To achieve a ratio of 9:3:3:1 among the F2 offspring, a classic Mendelian cross involving two dihybrid heterozygotes would be necessary.

This means that each parent has two different alleles for two separate traits, and both traits are independent of each other. When these parents are crossed, the resulting F1 generation will all be heterozygous for both traits.

Then, when the F1 generation is allowed to self-cross, the resulting F2 offspring will have the ratio of 9 individuals with both dominant traits, 3 individuals with one dominant and one recessive trait, 3 individuals with the other dominant and recessive trait, and 1 individual with both recessive traits.

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Have a cell membrane: bacteria, archaea, and eukarya. All three domains of life have a cell membrane that encloses the cytoplasm and separates the inside of the cell from the outside environment.

make peptidoglycan: bacteria only. Peptidoglycan is a unique component of the bacterial cell wall, which provides structural support and protection for the cell.

have membrane-bound organelles (nucleus, lysosomes, etc.): eukarya only. Eukaryotic cells are characterized by having a membrane-bound nucleus that contains the cell's genetic material (DNA), as well as other membrane-bound organelles such as mitochondria, lysosomes, and the endoplasmic reticulum. Archaea and bacteria do not have these membrane-bound organelles.

have a cell membrane:

· bacteria, archaea and eukarya

All living organisms have a cell membrane, which is a thin layer of lipid molecules that encloses the cell and separates its internal environment from the external environment.

make peptidoglycan:

· bacteria

Peptidoglycan is a polymer that is found only in the cell walls of bacteria. It provides rigidity and structural support to the cell wall. Archaea and eukarya do not make peptidoglycan.

have membrane-bound organelles (nucleus, lysosomes, etc.):

· eukarya only

Eukaryotic cells are characterized by having a true nucleus, which houses the genetic material of the cell. They also have various other membrane-bound organelles, such as mitochondria, lysosomes, and the endoplasmic reticulum. Bacteria and archaea lack these membrane-bound organelles, and their genetic material is located in the cytoplasm of the cell.

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The daughter cells formed at the end of meiosis II are haploid, meaning they contain half the number of chromosomes as the parent cell just before prophase I, which is diploid.

The parent cell undergoes DNA replication before meiosis I, resulting in homologous chromosome pairs. In meiosis I, the homologous chromosomes separate, resulting in two haploid cells, each with a unique combination of chromosomes. In meiosis II, the sister chromatids separate, resulting in four haploid daughter cells, each with a single copy of each chromosome.

Therefore, the daughter cells at the end of meiosis II have half the number of chromosomes as the parent cell, and a different genetic makeup due to recombination and independent assortment of chromosomes.

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Ozone is a powerful substitute for chlorine when it comes to cleaning wastewater in a municipal treatment facility. Specific protozoan have been successfully inactivated using reverse osmosis (RO) filtration and ultraviolet (UV) disinfection. Hence (e) is the correct option.

Without the use of harsh chemicals or the handling of dangerous materials, both methods purify water. Chlorine can be replaced with bromine. However, it is a halogenic compound with characteristics that are comparable to those of chlorine. Chlorine, iodine, and ultraviolet (UV) radiation are a few of the most often employed disinfectants for decentralised applications. Chlorination, ozonation, and UV radiation are the three most popular methods of disinfecting wastewater.

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which of the following is an effective alternative to chlorine for disinfecting wastewater in a municipal treatment plant?

a. water.

b. land

c. soil

d. living bieng

e. Ozone.

Answer:

Bartholin’s glands.

Explanation:

The mucus that lubricates the vagina is produced by the Bartholin’s glands.

5. The actor could not have been the father of the child.

6. The claimant to the fortune could not have been the couple's biological son.

7. The possible offspring genotypes are AB positive, AB negative, A positive, A negative.

8. The possible offspring are: 25% AB positive, 25% AB negative, 25% A positive, and 25% A negative.

5.The child has blood type B, which means the child has the genotype BO. The mother has blood type A, so she could have the genotype AO or AA. The actor has blood type O, which means he has the genotype OO. For the actor to be the father, he would need to have at least one B allele, which is not possible with his blood type and genotype. Therefore, the actor is not the biological father of the child.

6. The couple had blood types AB and O, which means they could only pass on the A and B alleles to their offspring. The claimant has blood type O, which means he must have inherited an O allele from both parents. This is not possible given the parents' blood types, so the claimant must be an imposter.

7. The Rh positive woman could be either genotype AA or AO, and the man with heterozygous A positive blood is genotype AO. The Punnett square for this cross would be:

        | A | O |

Rh+ | AA | AO |

Rh- | Aa | Ao |

8. The expected offspring from the given crosses would be:

a) CeC (full color) and Cece (chinchilla)

b) Ceca (full color), Cee (albino), Cece (chinchilla)

c) Coce (Himalayan), Ceca (full color), Ccee (albino), Cece (chinchilla)

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The two seedlings that absorb the endosperm into the cotyledons before germination are corn and castor bean. In these seeds, the cotyledons become very large and fleshy and take up most of the space inside the seed. When the seed germinates, the cotyledons provide the nutrients that the young plant needs to grow until it can start to produce its own food through photosynthesis.

On the other hand, in lima bean and pea seedlings, the endosperm is not absorbed by the cotyledons before germination. Instead, the endosperm provides nutrients to the developing embryo until it can start producing its own food. When the seed germinates, the cotyledons emerge from the seed and become green and photosynthetic, helping the plant to continue to grow and develop.

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A substitution mutation occurs when one nucleotide in DNA is replaced by another. This can happen during DNA replication, when the wrong nucleotide is added to the growing strand. Option (C) is the correct answer.

The diagram shows an example of a substitution mutation, where a cytosine (C) is replaced by a thymine (T). This can result in a different amino acid being incorporated into the protein being synthesized, which can have a significant impact on the function of the protein.

Substitution mutations can be either silent, meaning they do not change the amino acid sequence, or they can be missense or nonsense mutations, which do result in a change to the amino acid sequence.

The impact of a substitution mutation on an organism depends on the specific gene affected and the role of the protein it codes for. Option (C) is the correct answer.

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