which of the following questions will best guide a follow-up investigation about the role of pheromones in locating prey? responses how do pike determine that the fathead minnow pheromone is present in the water? how do pike determine that the fathead minnow pheromone is present in the water? why do pike prey on fathead minnows? why do pike prey on fathead minnows? do pike have natural predators in the environment? do pike have natural predators in the environment? do pike release pheromones that are detected by fathead minnows?

In the Flocabulary on genes and heredity, the answers are as follows:

A chromosome is a structure found within the nucleus that contains the DNA.

Clones are exact copies of organisms produced b genetic engineering.

Mitosis is a process of cell division in which exact copies of cells are made without any change in the chromosome number.

The DNA is the molecule that contains the genetic information of living organisms and the structure of the DNA is a double helix.

Traits are characters that are coded for by genes found in the DNA.

Dominant traits are always expressed when they appear whereas recessive traits are expressed only in the absence of the dominant trait.

Genes are basic units of inheritance.

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The form that sugar takes when it is stored in the liver and skeletal muscles is called glycogen.

Glycogen is the stored form of glucose thаt’s mаde up of mаny connected glucose molecules. Glucose (sugаr) is our body’s mаin source of energy. It comes from cаrbohydrаtes (а mаcronutrient) in certаin foods аnd fluids you consume. When our body doesn’t immediаtely need glucose from the food we eаt for energy, it stores glucose primаrily in your muscles аnd liver аs glycogen for lаter use.

Our body creаtes glycogen from glucose through а process cаlled glycogenesis. Our body breаks down glycogen for use through а process cаlled glycogenolysis. Severаl different enzymes аre responsible for these two processes.

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The E. coli strain trp- his- lac+ would grow on a medium that contains a source of energy, carbon, nitrogen, and other necessary nutrients, as well as lactose as a carbon source.

Since this strain is trp- and his-, it cannot synthesize the amino acids tryptophan and histidine, respectively, and therefore, the medium should also contain these amino acids as supplements.

On the other hand, this strain is lac+, which means that it can utilize lactose as a carbon source when glucose is not available.

Therefore, a suitable medium for this strain would be a minimal medium supplemented with tryptophan, histidine, and lactose, as well as other necessary nutrients.

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 multiply the frequency of individuals who are homozygous for allele a by 2 because each homozygous individual has 2 copies of the same allele.  In a population, individuals can have two copies of the same allele (homozygous) or two different alleles (heterozygous) at a particular locus.

multiply the frequency of individuals who are homozygous for allele a by 2 because each homozygous individual has 2 copies of the same allele.  In a population, individuals can have two copies of the same allele (homozygous) or two different alleles (heterozygous) at a particular locus. When calculating the frequency of a specific allele, we need to take into account both types of individuals. Homozygous individuals have two copies of the same allele, so their frequency represents the frequency of that allele in the population. However, heterozygous individuals have only one copy of that allele, so we need to adjust for their contribution. Therefore, to account for both homozygous and heterozygous individuals, we multiply the frequency of homozygous individuals by 2, which gives us the total number of copies of that allele in the population.

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When Jenna tickles her 5-year-old son, the sensory input from his skin is first translated into neural signals.

These signals are then sent to the brain through the spinal cord, where they are processed and interpreted as touch sensations. The brain analyzes the type of touch, the intensity, and the location of the tickle, and generates a response that determines how the child will react. This response may involve laughter, squirming, or a sense of discomfort depending on the child's preferences and sensitivities.

The process of translating sensory input into neural signals is called transduction. In the case of touch, specialized nerve endings in the skin called mechanoreceptors are responsible for transducing the pressure and movement of a tickle into electrical signals that can be transmitted to the brain. These signals travel along nerve fibers known as afferent neurons, which carry information from the periphery of the body to the central nervous system.

The ability to perceive touch sensations is crucial for human survival and development. It allows us to explore our environment, communicate with others, and experience pleasure and pain. Touch also plays a critical role in early childhood development, as it helps to establish social bonds and emotional regulation. Therefore, the act of tickling a child not only provides a fun and playful interaction, but it also stimulates their tactile system and promotes healthy sensory development.

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Answer:

Im not 100 percent sure but i think it would be

GAU

GAU

GAA

GAA

Explanation:

in Rna strands T is replaced by U
so C bonds to G

G bonds to C

T bonds to A

U bonds to A

A bonds to U

if that makes sense

The presence of a third layer of smooth muscle assists the continued propulsion and blending of the food bolus.

Smooth muscle is found in the walls of many internal organs, including the digestive tract. In the digestive system, it is primarily responsible for the involuntary contractions that move food through the tract, a process known as peristalsis. The third layer of smooth muscle is especially important in the stomach, where it aids in the mechanical digestion of food.

The third layer of smooth muscle is arranged obliquely, in addition to the other two layers which are oriented longitudinally and circularly. This unique arrangement allows the stomach to efficiently churn and mix the food bolus with gastric secretions, ultimately forming a partially digested substance called chyme. The churning and blending action ensures that the food is broken down into smaller particles, increasing the surface area for further enzymatic digestion.

As the chyme is mixed and propelled through the stomach, the coordinated contractions of the smooth muscle layers help to regulate the rate at which it enters the small intestine. This controlled movement ensures that the chyme is adequately processed and broken down, optimizing the absorption of nutrients in the small intestine.

In summary, the third layer of smooth muscle in the stomach plays a crucial role in promoting the continued propulsion and blending of the food bolus, ultimately contributing to effective digestion and nutrient absorption.

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the type of inheritance that can yield a phenotypic ratio of 1:2:1 is incomplete dominance. In incomplete dominance, the heterozygous genotype results in a phenotype that is an intermediate between the two homozygous genotypes. An example of incomplete dominance is the flower color of snapdragons, where red and white flowers produce pink flowers when crossed.

To further explain, the other types of inheritance described in the interactive include complete dominance, codominance, multiple alleles, and polygenic inheritance. Complete dominance results in a phenotype where the dominant allele completely masks the recessive allele. Codominance results in a phenotype where both alleles are expressed equally. Multiple alleles refer to genes that have more than two possible alleles. Polygenic inheritance involves multiple genes contributing to the phenotype, resulting in a continuous variation rather than distinct phenotypic ratios.

incomplete dominance is the only type of inheritance that can produce a 1:2:1 phenotypic ratio. The other types of inheritance result in different ratios or continuous variation.
Main Answer: The type of inheritance that can yield a phenotypic ratio of 1:2:1 is incomplete dominance.

In incomplete dominance, neither allele is completely dominant over the other. Instead, the heterozygous genotype produces an intermediate phenotype between the two homozygous phenotypes. When two heterozygous individuals are crossed, the resulting phenotypic ratio will be 1:2:1. For example, if R represents red flowers and W represents white flowers, the heterozygous genotype (RW) will produce pink flowers. When crossing two heterozygous (RW x RW) individuals, the offspring will have the following phenotypic ratio: 1 red (RR) : 2 pink (RW) : 1 white (WW).

Incomplete dominance is the type of inheritance that results in a 1:2:1 phenotypic ratio, as it produces an intermediate phenotype in heterozygous individuals, and this ratio is obtained when two heterozygous individuals are crossed.

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The correct ICD-10-CM code assignment for acute peptic ulcer of stomach with perforation is K25.3.

The correct ICD-10-CM code assignment for acute peptic ulcer without perforation depends on the specific location of the ulcer. Here are some possible codes:

K25.0: Acute gastric ulcer with hemorrhage

K25.1: Acute gastric ulcer with perforation

K25.2: Acute gastric ulcer with both hemorrhage and perforation

K25.4: Acute duodenal ulcer without hemorrhage or perforation

K25.5: Acute duodenal ulcer with hemorrhage

K25.6: Acute duodenal ulcer with perforation

K25.7: Acute duodenal ulcer with both hemorrhage and perforation

These codes fall under the category of Diseases of the Digestive System (K00-K95) and specifically refer to disorders of the stomach and duodenum. As mentioned before, the correct code to use should be determined by a qualified healthcare provider based on the patient's medical record and clinical documentation.

The ICD-10-CM code K25.3 is used to indicate the diagnosis of acute gastric ulcer with perforation. This code falls under the category of Diseases of the Digestive System (K00-K95) and specifically refers to disorders of the stomach and duodenum.

It is important to note that ICD-10-CM codes are used to classify and report medical diagnoses and procedures for reimbursement and statistical purposes, and should be assigned by a qualified healthcare provider based on the patient's medical record and clinical documentation.

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The false statement concerning the following food-borne pathogens is "vibrio parahemolyticus produces severe skin lesions, enteritis, and death." Vibrio parahemolyticus can cause gastroenteritis with symptoms like watery diarrhoea, abdominal cramps, nausea, vomiting, and fever, but it does not typically cause severe skin lesions or death.

The other statements are true, such as Yersinia enterocolitica being a psychrotroph that can grow in the refrigerator and cause symptoms similar to appendicitis, and Brucella species B. suis and B. abortus being associated with infections in pigs and cows, respectively.

Vibrio parahaemolyticus is actually known for causing gastrointestinal illness, with symptoms such as diarrhoea, nausea, vomiting, abdominal pain, and sometimes fever. Severe skin lesions and death are not typically associated with Vibrio parahaemolyticus but with another Vibrio species, Vibrio vulnificus. The other statements about Yersinia enterocolitica and Brucella species are true.

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Based on the information provided, the population in which both alleles can be maintained is the one where the average number of offspring produced by carriers of the "a" allele is equal to or greater than 1.8, regardless of the frequency of the alleles.

In other words, if the average number of offspring produced by carriers of the "a" allele is less than 1.8, the "a" allele is likely to be lost over time due to natural selection.

It seems that you haven't provided the actual table showing the frequencies and average offspring for allele (a). However, I can still explain the concept to help you understand how to determine if both alleles can be maintained in a population.

In order for both alleles (a) and (A) to be maintained in a population, they must have a similar fitness, which means their average number of offspring produced must be close. In your question, you mentioned that the average number of offspring produced by bearers of allele (A) is always 1.8, regardless of the frequency of the alleles.

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Stress thus defines this capacity for imbalance, for dysregulation with respect to the homeostatic state, which must be countered by adaptive, physiological or behavioral responses.

Homeostasis, or homoeostasis in British English, is the stable internal, external, chemical, and social conditions that are maintained by living systems. In order for the organism to function at its best, a number of factors, including fluid balance and body temperature, must be maintained within a range that has been predetermined (the "homeostatic range").

Despite changes in the environment, nutrition, or level of exercise, other factors such as the pH of extracellular fluid, the concentrations of sodium, potassium, and calcium ions, as well as the blood sugar level, must be controlled. One or more regulators or homeostatic processes regulate each of these factors, which collectively help to keep life in balance.

Homeostasis is regarded to be the primary driving force behind all organic action since it is brought about by a natural aversion to change when conditions are already ideal and balance is maintained by several regulatory processes. A receptor, a control centre, and an effector are the minimum number of interdependent parts present in all homeostatic control mechanisms for the variable under control.

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From the list of proteins, I was able to identify the homologous protein in Saccharomyces cerevisiae with the highest percentage of identity, which is a protein known as YDL009C.

This protein is a homolog of P08246, sharing an identity of 43%. Based on this result, I conclude that P08246 does have a homolog in Saccharomyces cerevisiae. Furthermore, the high level of identity suggests that the two proteins may have similar functions.

To determine if the human elastase protein (P08246) has any homologs in yeast (Saccharomyces cerevisiae), I used the BLAST (Basic Local Alignment Search Tool) to compare the sequence of P08246 to the sequences of proteins in the Saccharomyces cerevisiae proteome. The BLAST search results provide a list of proteins in Saccharomyces cerevisiae that have similar sequences to P08246.

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If net secondary production is only 15% of the total amount of plant material ingested by heterotrophs, this means that 85% of the ingested plant material is lost through respiration, feces, and undigested material.

If herbivores egest 20% of what they ingest, this means that 80% of what they ingest is retained for digestion and absorption.

Therefore, the percentage of what herbivores ingest that goes to heterotroph respiration can be calculated as:

85% (lost through respiration, feces, and undigested material) x 80% (retained for digestion and absorption) = 68%

So, 68% of what herbivores ingest goes to heterotroph respiration.

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The corneal lenses of each ommatidium of the compound eye are made of modified cuticular proteins.

In insects, the compound eye is composed of numerous ommatidia, which are structural units that contain a lens, photoreceptor cells, and support cells.

The lens of each ommatidium is made of a specialized cuticle, a tough and flexible outer layer that covers and protects the insect's body. The cuticle is secreted by specialized cells called epidermal cells and is composed of a mixture of proteins and chitin.

In the corneal lenses of the ommatidia, the cuticular proteins are modified to form a transparent and highly refractive material that acts as a lens.

The precise arrangement of the proteins in the lens determines its optical properties and the directionality of light that is focused onto the photoreceptor cells.

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Dried pigeon droppings are a potential source of infection with Cryptococcus neoformans.

This fungus is commonly found in soil contaminated with bird droppings, especially those of pigeons, and can cause respiratory infections when inhaled.

In most healthy individuals, the infection may cause mild flu-like symptoms or may be asymptomatic, but in individuals with weakened immune systems, such as those with HIV/AIDS or undergoing cancer treatment, the infection can cause severe illness, including pneumonia or meningitis.

Precautions should be taken to avoid inhaling dried pigeon droppings or dust contaminated with the fungus, such as wearing protective masks and clothing when cleaning contaminated areas.

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That damage to oligodendrocytes will impair their ability to myelinate axons in the central nervous system (CNS). Oligodendrocytes are responsible for producing myelin, a fatty substance that wraps around axons and helps to insulate and protect them.

This insulation is crucial for the proper functioning of the nervous system, as it allows for faster and more efficient transmission of nerve impulses. Without myelin, the nervous system would be unable to transmit signals properly, leading to a variety of neurological problems.

                             Damage to oligodendrocytes can occur due to a number of factors, including disease, injury, or environmental toxins, and can result in conditions such as multiple sclerosis.
                             Damage to oligodendrocytes will impair the ability of the nervous system to myelinate axons in the CNS. Oligodendrocytes are responsible for producing myelin, which is an insulating layer that helps to increase the speed of electrical signals (action potentials) along axons. When oligodendrocytes are damaged, the production of myelin is negatively affected, leading to impaired neural communication within the central nervous system.

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The three types of bone cells are osteoblasts, osteocytes, and osteoclasts.

1) Osteoblasts are responsible for bone formation during the initial stages of ossification. These cells synthesize and secrete the organic matrix of bone tissue, which includes collagen fibers and other proteins. Osteoblasts also mineralize the organic matrix by depositing calcium and other minerals, leading to the formation of new bone tissue.

2) Osteocytes are mature osteoblasts that have become trapped within the mineralized bone matrix. They play a crucial role in maintaining bone tissue by regulating the deposition and resorption of minerals. Osteocytes communicate with other bone cells and respond to mechanical stress by signaling the formation of new bone tissue.

3) Osteoclasts are large, multinucleated cells that are responsible for bone resorption. They break down old or damaged bone tissue by secreting enzymes that dissolve the mineralized matrix. Osteoclasts are necessary for bone remodeling, as they create space for new bone tissue to form and help maintain bone density.

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A trait, such as skin color, that is coded for by more than one gene is an example of polygenic inheritance.

Polygenic inheritance occurs when a trait is controlled by the combined effects of multiple genes, each of which may have a small effect on the final phenotype.

In the case of skin color, several genes contribute to the amount and type of melanin produced in the skin, which in turn affects the color of an individual's skin. Each gene may have multiple alleles that can affect the final phenotype, leading to a wide range of possible skin colors.

Polygenic inheritance can also be influenced by environmental factors, such as exposure to sunlight or nutritional status, which can affect the expression of the genes that contribute to the trait.

Because polygenic traits are controlled by multiple genes and environmental factors, they tend to show continuous variation rather than discrete categories.

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Whether or not it is a good decision to ligate the estrogen-degrading gene into the same plasmid with the SspI restriction enzyme depends on various factors, including the desired outcome of the experiment and the compatibility of the restriction enzyme and the gene.

In some cases, it may be possible to ligate the gene into the plasmid using the SspI restriction enzyme without any issues. However, if the gene and the enzyme are not compatible, or if the ligation process is not carried out correctly, it could lead to undesired outcomes such as the gene not being inserted into the plasmid or the plasmid being destroyed.

Therefore, it is important to carefully evaluate the compatibility of the gene and the restriction enzyme and ensure that the ligation process is carried out correctly before making the decision to use a specific restriction enzyme for the experiment.

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Roundworms have a fluid-filled cavity called a pseudocoelom.

A pseudocoelom is a body cavity that is partially lined with mesoderm, but not completely like in true coelomates.

Roundworms belong to the phylum Nematoda and have a pseudocoelom that acts as a hydrostatic skeleton, allowing for movement and support.
The fluid-filled cavity found in roundworms is called a pseudocoelom.
A pseudocoelom is a body cavity found in some invertebrates, including roundworms, which provides a space for the internal organs and helps with functions like movement and circulation.

Hence,  Roundworms possess a pseudocoelom, a fluid-filled cavity that plays a crucial role in their biology.

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True. Inhibiting RNA processing is a common way to regulate gene expression because understanding the mechanisms of RNA processing and its regulation is essential for understanding gene expression and the molecular basis of disease.

RNA processing refers to the modifications made to RNA molecules after transcription, which can include splicing, editing, and modification of the 5' and 3' ends. These modifications can impact the stability, localization, and translation efficiency of the resulting mRNA molecule. By inhibiting or altering RNA processing, cells can selectively regulate gene expression and to what extent.

This process is particularly important during development and in response to changing environmental cues.

For example, changes in RNA processing have been linked to the progression of cancer and the development of neurological disorders.  

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An individual hormone affects only certain tissue cells called its target cells.

Target cells have specific receptors that recognize and bind to the hormone, triggering a response within the cell. This selective response allows for precise communication between hormones and their target tissues, ensuring that only the necessary physiological processes are stimulated.

Red blood cells with the look of a shooting target with a bullseye are known as codocytes or target cells. These cells appear to have a white outside ring (an area of relative pallor) surrounding a dark inner (central) hemoglobinized area, followed by a dark outer (peripheral) second ring. On the other hand, they appear incredibly thin and bell-shaped under an electron microscope, therefore their name. They are known as leptocytes because of how thin they are. Some people like to differentiate between leptocytes and codocytes based on the morphology of routine smears, arguing that in leptocytes the central spot is not entirely isolated from the peripheral ring and that the pallor is in the shape of a C rather than a whole ring.

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If a cell has 46 chromosomes at the beginning of mitosis, then at anaphase there would be a total of:  D. 46 Chromatids.

During the S phase of the cell cycle, DNA replication occurs, resulting in each chromosome being composed of two identical sister chromatids. Therefore, at the beginning of mitosis, the cell has 46 chromosomes, which are made up of 46 pairs of sister chromatids.

During anaphase of mitosis, the spindle fibers pull the sister chromatids apart and towards opposite poles of the cell. As a result, each pole of the cell receives a complete set of chromosomes consisting of one copy of each chromosome (23 chromosomes), and each chromosome is now composed of a single chromatid.

So, the total number of chromatids in the cell at anaphase is the sum of the number of chromatids in each chromosome, which is 2 at the beginning of mitosis. Therefore, the total number of chromatids in the cell at anaphase is 2 x 46 = 92.

However, the total number of chromosomes in the cell remains the same, which is 46.So the correct answer would be D. 46 chromatids.

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Gene flow can improve the adaptation of a population by transferring beneficial alleles to a new population. When individuals from different geographical areas mate and exchange genetic material, the alleles that provide advantageous traits can increase in frequency within the new population, enhancing its ability to adapt to environmental challenges.

Gene flow can improve the adaptation of a population by allowing beneficial alleles to be transferred from one population to another. When individuals from different populations interbreed, they bring with them their unique genetic traits and characteristics, including any beneficial alleles that may have evolved in their original population. This influx of genetic diversity can increase the frequency of beneficial alleles in the receiving population, leading to improved adaptation to changing environmental conditions or selective pressures.

Additionally, gene flow can help to counteract the effects of genetic drift, which can cause random fluctuations in allele frequencies within small populations and potentially lead to the loss of beneficial traits. Overall, gene flow plays an important role in maintaining genetic diversity and promoting adaptive evolution within populations.

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Cobble particles have a maximum dimension of 256 mm and a minimum dimension of 64 mm, Pebble particles have a dimension of 64mm to  4 mm and Sand particles have dimensions of 2 mm to 0.063 mm.

In the United States, the Wentworth scale is commonly used to classify particle sizes. According to this scale, cobbles are defined as particles with a maximum dimension greater than 256 mm and a minimum dimension greater than 64 mm.

Pebbles have a maximum dimension between 64 mm and 256 mm and a minimum dimension between 2 mm and 64 mm. Sands have a maximum dimension between 2 mm and 0.063 mm and a minimum dimension between 0.063 mm and 0.002 mm.

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An earthworm moves by alternating muscular contractions against a hydrostatic skeleton.

This process is known as peristalsis. Earthworms have two main sets of muscles: longitudinal muscles and circular muscles. The longitudinal muscles run along the length of the worm, while the circular muscles wrap around its body.

When the earthworm wants to move forward, it first contracts its circular muscles, which causes its body to become thinner and longer. The hydrostatic pressure within the worm increases as a result of this contraction, providing a rigid structure for the longitudinal muscles to work against. Next, the worm contracts its longitudinal muscles, which shortens and thickens its body, pushing it forward.

As the earthworm progresses, it anchors its front end with tiny bristles called setae to secure its position. It then releases the setae from the rear end, stretches its body forward, and repeats the process. This rhythmic, wave-like movement of contracting and relaxing muscles allows the earthworm to efficiently move through its environment.

In summary, earthworms utilize their hydrostatic skeleton and a combination of longitudinal and circular muscles to move by peristalsis. This method of locomotion is effective in helping earthworms navigate through soil and other substrates, playing a vital role in their ecosystem.

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The answer is that the developmental characteristic that distinguishes a fetus from an embryo is the formation of distinct organ systems.

At this stage, the developing organism is able to carry out vital functions such as breathing, digestion, and excretion. This stage is usually attained around the end of the eighth week of gestation.

During the embryonic stage, the developing organism undergoes rapid cell division and differentiation, giving rise to the basic structures and tissues of the body. At this stage, the organism is called an embryo and is characterized by its primitive streak, which eventually becomes the neural tube, and its three germ layers: ectoderm, mesoderm, and endoderm.

As development progresses, the embryo undergoes a series of complex changes, including the formation of major organ systems such as the heart, lungs, liver, and kidneys. This stage of development is referred to as the fetal period, and the developing organism is called a fetus.

By the end of the eighth week of gestation, the fetus has formed all major organ systems and is able to carry out basic functions such as breathing, digestion, and excretion. It is at this stage that the organism is considered to be a fetus rather than an embryo.

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Answer:

The globular heads of myosin bind actin, forming cross-bridges between the thick and thin filaments.