The DNA sequence of a particular gene is 90 nucleotides long. If the 31st nucleotide is deleted, how many amino acids would the mutation likely impact in the gene?

Answer:

Natural selection drives evolution by preserving favorable variations and causing the extinction of unfavorable variations.

Explanation:

Natural selection is the process by which forms of life having traits that better enable them to adapt to specific environmental pressures, as predators, changes in climate, or competition for food or mates, will tend to survive and reproduce in greater numbers than other of their kind, thus ensuring the perpetuation of those favorable traits in succeeding generations. Evolution is the change of a gene pool of a population from generation to generation by such processes as mutation, natural selection, or genetic drift.

Answer:

Rift valley is the main topographic feature that is found along the center of mid-ocean ridges. It is formed due to the tectonic plates moving apart from each other, leading to the creation of a gap or rift zone. This rift valley is characterized by volcanic activity and hydrothermal vents, making it a unique and dynamic environment for marine life.

The species in question will have a Type III survivorship curve. This type of curve is characterized by high mortality at the young age classes, low mortality rates among individuals who reach maturity, and a gradual increase in mortality as the organisms age.

This type of curve is common in species with short life spans, such as invertebrates, and is due to a combination of high reproductive output and survival strategies that reduce the risk of mortality at maturity. In general, organisms with this type of curve produce large numbers of offspring, but only a few of them survive to reach maturity.


In terms of the species in question, it is likely that the organisms have adapted to survive in hostile environments or conditions in which only a few individuals will reach adulthood. These adaptive strategies may include behaviors such as avoiding predation, finding adequate food and shelter.

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A DNA microarray is a type of functional genomics study utilizing DNA fragments to detect and measure gene expression.

Functional genomics focuses on the dynamic expression of gene products in a particular context, such as during an illness or a particular stage of development. In functional genomics, we attempt to create a model connecting genotype to phenotype using our present understanding of gene function.

Transcriptomics is the study of gene expression across the whole genome. The quantity of RNAs is being investigated in the field of transcriptomics. Although mRNA is frequently the subject of this research, sRNAs and tRNAs might also occasionally be of interest. Studies of gene control, such as epigenetics (which genes are turned on or off), transcription, and other topics are covered by functional genomics.

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Correct Question:

A DNA ______ is a type of functional genomics study utilizing DNA fragments to detect and measure gene expression.

The prefrontal cortex is where one can forecast how an action will have an effect.

A wide range of executive processes are supported by the prefrontal cortex, including: concentrating one's thoughts. anticipating environmental events and anticipating the results of one's actions.

The main component of the forebrain, the cerebrum, is the brain (or prosencephalon). The cerebral cortex, which is its dominant outer region, processes sensory and motor information as well as enabling consciousness, or our capacity to think about ourselves and the outside world.

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The haploid number of chromosomes for an organism with a diploid number of chromosomes of 52 is 26.

The haploid cell is a cell that contains a single set of chromosomes, whereas the diploid cell is a cell that contains two sets of chromosomes. Each parent contributes one set of chromosomes in diploid cells. In diploid cells, one set of chromosomes is derived from each parent. A haploid cell, on the other hand, contains only one set of chromosomes. When a haploid cell from the father combines with a haploid cell from the mother during fertilization, a diploid cell is formed.

The formation of gametes is a significant role in haploid cells, while the formation of somatic cells is a significant role in diploid cells. Gametes, such as egg and sperm cells, are formed as a result of meiosis in diploid cells. The haploid cells combine during fertilization to form a zygote. The zygote, in turn, develops into a diploid cell.

The haploid number of chromosomes, abbreviated n, is the number of chromosomes in a gamete cell. A haploid number of chromosomes varies from one organism to another. For example, the haploid number of chromosomes in humans is 23. In contrast, the diploid number of chromosomes in humans is 46. In humans, a haploid sperm cell and a haploid egg cell combine to form a diploid zygote during fertilization.

Therefore, the haploid number of chromosomes for an organism with a diploid number of chromosomes of 52 is 26. Each of the organism's gametes will contain 26 chromosomes, which will combine during fertilization to form a diploid zygote with 52 chromosomes.

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The most significant advantage of producing flowers is that they can reproduce quickly and effectively. As well as spread their pollen across large distances.

Flowers are a type of modified shoot that contain reproductive organs, and their bright colors and nectar attract pollinators like bees, butterflies, and hummingbirds. The pollen is transferred from one flower to another, leading to cross-pollination and gene exchange, which helps the plant species to adapt to new environments and survive in diverse climates. Flowers also help protect the reproductive organs from dehydration, heat, and other environmental stresses. In addition, the production of flowers provides food sources for many species of animals, further aiding in the dispersal of the plant's genetic material.

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The cell cycle is divided into two major phases: the interphase and the mitotic phase.

The cell cycle describes a series of events that occur from the beginning of one cell division (when a cell is born) to the beginning of the next cell division (when the cell is ready to divide).

Interphase is a non-dividing phase that is further divided into three phases. These phases are G1, S, and G2. In the G1 phase, the cell grows and develops while preparing to replicate its DNA in the next phase. In the S phase, the DNA is replicated to form two identical sets of chromosomes. In the G2 phase, the cell prepares for cell division by producing organelles and molecules required for the mitotic phase.

The mitotic phase is a dividing phase that consists of four stages. These stages are prophase, metaphase, anaphase, and telophase.

The cell then undergoes cytokinesis, which results in the division of the cytoplasm to produce two identical daughter cells.

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The common structural pattern that is a distinguishing characteristic specific to all G-protein-coupled receptors is that they contain seven transmembrane helices (Option D). This structural pattern allows them to interact with G proteins and transmit signals across the plasma membrane.

G-protein-coupled receptors (GPCRs) are a class of cell surface receptors that respond to various extracellular signals such as light, odorants, hormones, and neurotransmitters. They are involved in a wide range of physiological and pathological processes, and they are also the targets of many drugs, making them an essential class of receptors to study.

The structural pattern specific to all G-protein-coupled receptors is that they contain seven transmembrane helices, which are arranged in a specific way to form a pocket that binds to extracellular ligands. This structural pattern is also known as the seven-transmembrane domain or 7TM domain. The seven transmembrane helices are arranged in a circular fashion, with the extracellular loops facing outwards and the intracellular loops facing inwards.

Thus, option D- contain seven transmembrane helices is the correct answer.

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The statement that "positive frequency dependent selection results in greater genetic variance in a population" is true as positive frequency dependent selection occurs when the reproductive success of a particular genotype increases as it becomes less common in the population.

This causes the population to have a greater diversity of genotypes, which in turn leads to an increase in genetic variance.

In a population where positive frequency dependent selection is in effect, the more common genotypes will tend to be less fit than the rare genotypes. This increases the competition between the individuals of the population, which drives them to adapt to their environment faster. As a result, the population will have a greater variety of genotypes which are better adapted to their environment and, therefore, a higher genetic variance.

Another factor that leads to greater genetic variance in populations under positive frequency dependent selection is the higher level of genetic drift. Genetic drift is the random process by which genes are randomly distributed throughout the population. Because positive frequency dependent selection results in a greater variety of genotypes, the effects of genetic drift will be increased as well. This further contributes to the population’s higher genetic variance.

In conclusion, positive frequency dependent selection does result in greater genetic variance in a population. This is because the more common genotypes become less fit than the rare genotypes, leading to an increase in competition which drives adaptation. Additionally, the higher level of genetic drift contributes to the higher genetic variance.

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The correct option is E, in addition to thermoregulation, these set points  the human body also work to maintain are Blood glucose and blood pH

The human body is a complex organism made up of different systems that work together to maintain homeostasis or a stable internal environment. The skeletal system provides structure and support, while the muscular system enables movement. The cardiovascular system circulates blood throughout the body, delivering oxygen and nutrients to cells and removing waste products.

The respiratory system enables the exchange of gases between the body and the environment. The digestive system breaks down food and absorbs nutrients, while the excretory system eliminates waste products. The nervous system controls and coordinates bodily functions, while the endocrine system regulates hormones and metabolism. The immune system defends against pathogens and foreign substances. Reproductive systems enable the production of offspring. The human body is an intricate and fascinating organism, and understanding its functions is crucial for maintaining health and well-being.

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Complete Question:

In addition to thermoregulation, the human body also works to maintain which of these set points?

A). blood pH and energy level

B). blood glucose and blood clotting

C). blood clotting and energy level

D). energy level and blood pH

E). blood glucose and blood pH

The best explanation for the pattern of change in mass of the organisms over time is (B) Cellular respiration.

Cellular respiration is a metabolic process that occurs in the cells of living organisms, where nutrients are converted into energy in the form of ATP (adenosine triphosphate). During this process, some of the mass of the organism is lost in the form of carbon dioxide and water, which are byproducts of cellular respiration.

This loss of mass would be observed even when the organisms are kept in the dark for 24 hours without being provided with nutrients, as their cells continue to perform cellular respiration to maintain basic life functions.

The other options can be ruled out for the following reasons:
(A) Water loss due to evaporation would not apply to all the organisms mentioned, especially the submerged aquatic plant and sea anemone, as they are in a water-filled environment.

(C) The law of conservation of matter states that matter cannot be created or destroyed, only converted from one form to another. While it is a fundamental principle in science, it does not specifically explain the observed pattern of change in mass in this scenario.

(D) Growth and reproduction could potentially cause an increase in mass, but since the organisms were not provided with nutrients during the 24-hour period, it is unlikely that they experienced significant growth or reproduction.

In conclusion, cellular respiration is the best explanation for the observed changes in the mass of organisms over a 24-hour period without nutrients.

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Adjectives like height, size, and color should not be entirely avoided when describing the traits of an organism. However, it's essential to recognize that these characteristics are not the only defining traits of an organism and may not be the most relevant or useful in all contexts.

For example, when describing a living organism, it is crucial to consider other traits such as behavior, habitat, diet, reproduction, and other characteristics that help define the species and its ecological niche. Focusing solely on physical characteristics like height, size, and color may provide only a limited perspective on the organism and its place in the ecosystem.

Additionally, overemphasizing certain physical characteristics like height, size, or color may perpetuate stereotypes or biases that are not based on scientific evidence. Therefore, it's important to use a balanced approach when describing an organism and to recognize that all traits are essential in defining a species and understanding its role in the environment.

Answer: water

Explanation:

The tunica media is the structural layer of blood vessels most responsible for maintaining blood pressure. Option C.

It is made up of a layer of smooth muscle cells and elastic connective tissue, which act together to regulate blood flow and pressure. The elastic connective tissue is able to stretch and expand, helping to maintain a constant pressure within the vessel walls.

When the pressure increases within the vessel, the muscle cells contract to restrict the flow, while when the pressure decreases the muscle cells relax to allow more blood flow.

The tunica intima, or innermost layer of the vessel wall, is composed of endothelial cells and helps to protect the vessel from damage. The subendothelial layer lies beneath the endothelial cells and provides a framework for the endothelial cells to attach to. Lastly, the tunica externa is the outermost layer of the vessel wall and helps to provide strength and support.
Together, these three layers of the blood vessel help to maintain consistent blood pressure and ensure the flow of blood throughout the body.

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The function of cilia located in the trachea is to move mucus, dirt, and other small particles out of the respiratory tract.

The trachea, also known as the windpipe, is lined with pseudostratified ciliated columnar epithelium that plays a critical role in the respiratory system. The cilia present in the trachea are hair-like projections that protrude from the cells of the pseudostratified ciliated columnar epithelium. These cilia are extremely essential in trapping harmful particles and expelling them out of the body.

When we inhale, particles that get into the respiratory tract stick to the mucus that covers the trachea lining. The cilia then begin to move in coordinated, wave-like patterns to push the mucus and trapped particles out of the trachea and into the pharynx. From there, the mucus can be swallowed or coughed up. This process helps protect the lungs from harmful particles such as bacteria, viruses, and dust.

In summary, the function of cilia located in the trachea that is lined with pseudostratified ciliated columnar epithelium is to keep the respiratory tract free from unwanted foreign particles.

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Dr. Alfred Wegener used fossils and present-day plants and animals to support the continental drift theory in the following ways: Lines of evidence, Fossils, Paleoclimate, Logical reasoning,  divergent evolution.

Lines of evidence: Dr. Alfred Wegener used the following lines of evidence to support his theory of continental drift.

Fossils: Dr. Alfred Wegener used the presence of fossils on different continents as evidence for the existence of land bridges in the past. For example, he found fossils of the same species of plants and animals in different continents such as South America and Africa, which suggested that they were once connected.

Paleoclimate: He also used paleoclimate data, including the distribution of glaciation patterns and rock formations, to support his theory.

Logical reasoning: Wegener reasoned that if continents had once been connected, then the continents themselves must have drifted apart, rather than having been pushed apart by some other mechanism. This led him to propose the idea of continental drift.

Considering divergent evolution: Divergent evolution is the process by which species with the same ancestral origin develop different characteristics over time as they adapt to different environments. For example, Africa has different large animals and snakes compared to North America because of divergent evolution.

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The experiment that reconstituted two different strains of tobacco mosaic viruses that had different infection characteristics produced recombinant viruses that have hybrid properties.

A recombinant virus is a virus that has been created by inserting genes from one virus into another. Recombinant viruses can be used to develop new vaccines, antiviral drugs, and other medical treatments. By combining genetic material from different viruses, scientists may produce viruses with novel properties, such as higher virulence or improved infectivity.

The outcome of the experiment that reconstituted two different strains of tobacco mosaic viruses that had different infection characteristics was the production of recombinant viruses that have hybrid properties. The recombinant viruses had characteristics that were intermediate between the two original viruses, and they could infect tobacco plants that were resistant to either of the parent viruses.

In other words, the experiment showed that different strains of viruses can exchange genetic material and produce novel viruses that have unique characteristics. This can have important implications for the study of virology and for the development of new treatments and vaccines.

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In the disc-diffusion assay, a large zone of inhibition around a disk to which a chemical antiseptic/disinfectant has been applied indicates high susceptibility of the test microbe to the chemical antiseptic/disinfectant.

A large zone of inhibition indicates that the test microbe is sensitive to the chemical antiseptic/disinfectant. In the disc-diffusion assay, antimicrobial agents are tested on a culture of microorganisms to determine their susceptibility. Paper disks containing antimicrobial agents are placed on an agar plate containing the microorganisms, and the antimicrobial agent diffuses through the agar. If the antimicrobial agent is effective against the microorganisms, it will create a zone of inhibition around the disk where the microorganisms cannot grow. The size of the zone of inhibition indicates the degree of susceptibility of the microorganisms to the antimicrobial agent.

Therefore, in the disc-diffusion assay, a large zone of inhibition around a disk to which a chemical antiseptic/disinfectant has been applied indicates that the test microbe is sensitive to the chemical antiseptic/disinfectant.

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The correct answer is A. Dermal tissues in plants and epithelial tissues in animals are both similar in that they offer protection.

Dermal tissues in plants form a protective layer that covers the plant's exterior surface, protecting it from environmental stresses, physical damage, and water loss. Similarly, epithelial tissues in animals form a protective barrier that lines the body's surface, protecting it from harmful external agents such as pathogens and chemicals.

While both types of tissues serve different functions in their respective organisms, they share the common function of offering protection. Other functions of dermal tissues in plants include regulation of gas exchange and absorption of water and nutrients from the environment, while epithelial tissues in animals also participate in sensory perception and secretion of substances such as hormones and enzymes.

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The reverse of the reaction carried out by pyruvate kinase in glycolysis in gluconeogenesis is carried out by both pyruvate carboxylase and phosphoenolpyruvate carboxykinase in gluconeogenesis.

Pyruvate kinase is an enzyme that catalyzes the conversion of phosphoenolpyruvate (PEP) to pyruvate, with the production of adenosine triphosphate (ATP). In gluconeogenesis, pyruvate carboxylase catalyzes the conversion of pyruvate to oxaloacetate, a reaction that is the opposite of the reaction catalyzed by pyruvate kinase in glycolysis. In addition, phosphoenolpyruvate carboxykinase (PEPCK) is involved in the conversion of oxaloacetate to phosphoenolpyruvate (PEP), with the production of guanosine triphosphate (GTP). Both of these reactions are the reverse of the reaction catalyzed by pyruvate kinase in glycolysis.

Pyruvate carboxylase and phosphoenolpyruvate carboxykinase play an important role in the conversion of energy from pyruvate to oxaloacetate and phosphoenolpyruvate, respectively. These reactions are essential for the production of energy during gluconeogenesis. In addition, fructose 1,6-bisphosphatase is also involved in gluconeogenesis, catalyzing the hydrolysis of fructose 1,6-bisphosphate to form fructose 6-phosphate and inorganic phosphate.

In summary, the reverse of the reaction catalyzed by pyruvate kinase in glycolysis is catalyzed by both pyruvate carboxylase and phosphoenolpyruvate carboxykinase in gluconeogenesis, and is also assisted by fructose 1,6-bisphosphatase. These enzymes are essential for the production of energy in gluconeogenesis.

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Answer:

It is located at the superior temporal gyrus in the temporal lobe

The auditory cortex is located in the temporal lobe of the brain. This is the part of the brain responsible for the processing of auditory information, such as sound and language. It is also responsible for memory formation related to sound.

The temporal lobe is located in the lower part of the brain, behind the ears, and is divided into two regions: the superior temporal gyrus and the inferior temporal gyrus.

The superior temporal gyrus contains the primary auditory cortex, which is responsible for the processing of sound and language. It receives input from the ears, and from the temporal part of the thalamus, which serves as an intermediary between the ears and the cortex.

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selective pressures an change if the environment changes.

The correct answer is option C.

The picky pressure description is an evolutionary force that causes a particular phenotype to be more favorable in certain environmental conditions. picky pressures are considered forces that drive elaboration via natural selection. Some phenotypes are more favorable than others, depending on external conditions. Natural selection is one variable in elaboration, but it isn't the only type of selection. Other types of selection include artificial, sexual and kin selection.

These picky pressures affect in accommodations-particular cultures or body plans that give an advantage in a specific terrain. Selection pressures are external agents which affect an organism's capability to survive in a given terrain. Selection pressures can be negative( decreases the circumstance of a particularity) or positive( increases the proportion of a particularity)

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The cellular machinery that is involved in translation includes the ribosome and mRNA. The correct option is b and d.

Translation is the mechanism by which genetic information contained in an mRNA molecule is decoded by the ribosome to produce a protein chain. In prokaryotes, transcription and translation occur in the cytoplasm simultaneously since the mRNA produced in transcription is promptly used as a template for protein synthesis.

Selecting the Right Answers

Two of the five options given are right answers for this question, which asks about the cellular machinery that is involved in translation. The two right answers are ribosome and mRNA.RibosomesRibosomes are RNA-protein complexes that are in charge of producing proteins. Ribosomes consist of two subunits that are distinct in their composition and are assembled in the nucleolus. The ribosome subunits are transported into the cytoplasm, where they engage with mRNA to initiate protein synthesis. The ribosome's function is to read the mRNA transcript in the 5' to 3' direction and then create a complementary polypeptide chain.

Messenger RNA (mRNA)Messenger RNA is a form of RNA that is transcribed from DNA in the nucleus and functions as a template for protein synthesis. RNA polymerase reads the DNA template and synthesizes a complimentary mRNA transcript. Once the mRNA is transcribed, it is processed and transported to the cytoplasm, where it binds to the ribosome to begin translation. mRNA serves as a blueprint for protein synthesis and determines the sequence of amino acids that will make up the polypeptide chain.

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If a testcross between a female fly with long bristles and a gray body and a male with short bristles and an ebony body was completed. The two categories of flies that will likely have the greatest numbers of offspring are long bristles, gray body and short bristles, ebony body.

In a testcross between a female fly with long bristles and a gray body and a male with short bristles and an ebony body, the female is homozygous dominant and the male is homozygous recessive. The offspring will show the dominant phenotype because the dominant allele will mask the recessive one. The F1 generation will have a long bristle and gray body. In the F2 generation, the offspring will show both dominant and recessive traits. Among the offspring, there will be flies with long bristles and gray body, short bristles and ebony body, long bristles and ebony body, and short bristles and gray body.

The dominant and recessive alleles assort independently during meiosis. The probability of the traits is 9:3:3:1. This means that out of 16 offspring, 9 will have long bristles and gray body, 3 will have short bristles and ebony body, 3 will have long bristles and ebony body, and 1 will have short bristles and gray body. Therefore, the two categories of flies that will likely have the greatest numbers of offspring are long bristles, gray body and short bristles, ebony body.

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From the given options d.partial pressure gradient determines the direction of respiratory gas movement

The partial pressure gradient of the gases is what drives the flow of respiratory gases like oxygen and carbon dioxide between the lungs and blood as well as between the blood and tissues. The pressure that a gas would apply if it were the only gas in the volume that the other gases are occupying is known as the partial pressure of a gas.

The partial pressure gradient, which applies to respiratory gases, is the variation in the partial pressure of the gas between two places, such as between the blood and the tissues or between the blood and the alveoli of the lungs. Until the partial pressures are equal, respiratory gases always migrate down their partial pressure gradient from an area of higher partial pressure to an area of lower partial pressure.

Complete Question:

which of the choices below determines the direction of respiratory gas movement?

a. the temperature solubility in water

b. molecular weight

c. size of the gas molecule

d. partial pressure gradient

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Neurotransmitter activity at a synapse can be terminated by three main mechanisms: reuptake, enzymatic breakdown, and diffusion.

Reuptake is when neurotransmitters are taken back into the presynaptic neuron, while enzymatic breakdown is when enzymes break down neurotransmitters into smaller molecules. Diffusion is when neurotransmitters move away from the synapse, which causes the neurotransmitter concentration to decrease.

Reuptake is a process by which the neurotransmitter is taken back into the presynaptic neuron and broken down, either for reuse or for storage. This process is known as active reuptake and is very efficient in preventing the build-up of neurotransmitters in the synapse.

Enzymatic breakdown is when enzymes break down neurotransmitters into smaller molecules, and this process can occur both within and outside of the synapse.

Finally, diffusion is the process by which neurotransmitters move away from the synapse and the concentration of neurotransmitter decreases over time. This process is known as passive diffusion and is the most common way neurotransmitter activity is terminated at the synapse.

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The difference between metaphase in mitosis and meiosis is that in mitosis, chromosomes line up in a single file at the metaphase plate. While in meiosis I, homologous chromosomes line up in pairs at the metaphase plate.

Metaphase is a stage in cell division where chromosomes are lined up in the center of the cell. However, there are differences in how chromosomes line up during metaphase in mitosis and meiosis I. In mitosis, the chromosomes line up in a single file at the equator of the cell during metaphase. They are lined up in a single row, which is called the metaphase plate. In meiosis I, the chromosomes are lined up as homologous pairs, rather than in a single row like in mitosis. Homologous chromosomes line up in pairs at the metaphase plate.

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