biological transmission differs from mechanical transmission in that biological transmissiongroup of answer choicesrequires direct contact.involves reproduction of a pathogen in an arthropod vector prior to transmission.works only with noncommunicable diseases.involves fomites.occurs when a pathogen is carried on the feet of an insect.

Answer: Oxygen

Explanation:

Anaerobic respiration is a type of cellular respiration that occurs in the absence of oxygen, where organic compounds act as electron donors and acceptors. It plays an important role in both the nitrogen cycle and the sulfur cycle.
However, not all compounds involved in these cycles can be used as electron acceptors in anaerobic respiration. For example, nitrogen gas cannot be used as an electron acceptor in anaerobic respiration, as it is already in its most reduced form. Similarly, elemental sulfur cannot be used as an electron acceptor in anaerobic respiration, as it is not a strong enough oxidizing agent.

In the nitrogen cycle, anaerobic respiration occurs when nitrate is reduced to nitrogen gas by bacteria, while in the sulfur cycle, anaerobic respiration occurs when sulfate is reduced to hydrogen sulfide by bacteria.

On the other hand, nitrate and sulfate are commonly used as electron acceptors in anaerobic respiration in both the nitrogen cycle and the sulfur cycle, respectively. These compounds are more oxidizing than their reduced forms, making them suitable electron acceptors for anaerobic respiration.

In summary, while anaerobic respiration plays a role in both the nitrogen cycle and the sulfur cycle, not all compounds involved in these cycles can be used as electron acceptors. Nitrogen gas and elemental sulfur are examples of compounds that cannot be used as electron acceptors in anaerobic respiration, while nitrate and sulfate are commonly used as electron acceptors in these cycles.

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The carbohydrates attached to plasma membrane proteins are on the extracellular side of the vesicle membrane, after being processed in the ER and Golgi apparatus. Their outward-facing position allows them to perform crucial functions in cell communication and recognition.

The carbohydrates attached to plasma membrane proteins are located on the extracellular side of the vesicle membrane. These carbohydrates are added to the proteins in the endoplasmic reticulum (ER) and further modified in the Golgi apparatus. After modification, the proteins are transported to the cell surface in vesicles.

During this process, the vesicle membrane fuses with the plasma membrane, releasing the proteins with their attached carbohydrates. The carbohydrates face outward, towards the extracellular environment, which plays a vital role in cell-cell recognition, adhesion, and signaling. This orientation is essential for proper function and communication between cells.

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More dense fluid will sink and it will be difficult to find, however, less dense fluid will float at the surface of the water.

The density of a substance is its mass per unit volume. The most common sign for density is ρ. The SI unit of density is kilogram per cubic meter (kg/m3).

Volume, on the other hand, is the measurement of how much space an object takes up. The density of matter is the amount of matter contained in a given volume.6 Aug 2021

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The control in Colleen's experiment is the group of plants that are watered once daily.

In a scientific experiment, a control group is a group of subjects or objects that are not exposed to the independent variable or treatment being tested. The purpose of the control group is to provide a baseline for comparison to the experimental group or groups. In Colleen's experiment, the control group is the group of plants that are watered once daily.

This group serves as a baseline for comparison to the experimental group, which consists of the plants that are watered twice a day. By comparing the number of leaves on the plants in the control group to the number of leaves on the plants in the experimental group, Colleen can determine if watering the plants more often leads to an increase in leaf growth. The control group is an important component of a well-designed experiment, as it helps to ensure that any observed effects are due to the independent variable being tested and not due to other factors.

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The false statement about population monitoring is "Population monitoring is only necessary for endangered species" because Population monitoring is important for all species, not just endangered species.

Option C. statement is false.

Monitoring populations can provide valuable information for managing and conserving wildlife, as well as assessing the health of ecosystems. By tracking changes in population size, structure, and distribution over time, managers can identify trends and potential threats, and take action to mitigate negative impacts.

It is important to monitor populations of all species, including those that are not endangered, to ensure their long-term survival and ecological functioning.

Therefore, statement C is false.

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The question is incomplete. the complete question is:

Which statement about population monitoring is false?

A) Population monitoring is the process of observing and recording changes in the size, structure, and distribution of a population over time.

B) Population monitoring can provide important data for conservation and management of wildlife species.

C) Population monitoring is only necessary for endangered species.

D) Population monitoring methods include visual surveys, radio-telemetry, and genetic analysis.

Answer:

B Chimpanzees would be more closely related to humans than to bonobos

Explanation:

The kidney and bladder are part of the organ system depicted, and its job is to extract water and salts from the blood.

The kidney is in charge of filtering blood as well as eliminating extra salt, water, and waste from the body. Prior to being expelled from the body, the bladder holds urine produced by the kidneys. By filtering waste and extra water from the blood and excreting them as urine, they are essential to preserving the body's internal ecology. An essential job of the urinary system, which is made up of the kidneys, bladder, and related tissues, is to remove water and salts from the body.

Therefore, the correct option is C.

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Your question is incomplete, most probably the complete question is:

The picture shows an organ system in the human body.

Kidney and Bladder

What is a function of the organ system shown?

The type of muscle fiber that is most resistant to fatigue is the slow fiber. Slow fibers, also known as Type I fibers, are characterized by their endurance and ability to contract for long periods of time without tiring. This is due to their high concentration of mitochondria, which produce energy for the muscle fiber to use during contraction.

The Slow fibers also have a high level of myoglobin, a protein that stores oxygen in the muscle, allowing them to work aerobically for longer periods of time. In contrast, fast fibers, also known as Type II fibers, are better suited for short bursts of intense activity, but fatigue quickly due to their reliance on anaerobic metabolism. Intermediate fibers, as their name suggests, fall somewhere in between the slow and fast fibers in terms of their properties. The type of muscle fiber that a person has is largely determined by genetics but can also be influenced by training. Endurance activities such as long-distance running or cycling can increase the proportion of slow fibers in the muscle, while strength training may lead to an increase in fast fibers. It is important to note that both types of fibers are necessary for optimal performance and overall muscle health.

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The effects of photosynthesis and respiration are usually ignored when taking potometer readings because potometers are typically used to measure transpiration,

which is the loss of water vapor from the stomata of plant leaves. Transpiration is a physical process that involves the movement of water vapor from the leaf to the atmosphere through the stomata, driven by factors such as humidity, temperature, and atmospheric pressure.

Photosynthesis and respiration, on the other hand, are metabolic processes that occur within the cells of the leaf and involve the exchange of gases, including oxygen and carbon dioxide, with the atmosphere. These processes can affect the concentration of gases, including water vapor, in the leaf and may potentially impact the rate of transpiration measured by a potometer.

However, the effects of photosynthesis and respiration on transpiration are usually considered to be negligible or minimal in most potometer readings. This is because the rate of photosynthesis and respiration in leaves is relatively small compared to the rate of transpiration, and the changes in gas concentration due to these processes are typically small and do not significantly affect the overall rate of water loss through transpiration.

Additionally, potometer readings are usually taken over relatively short time periods, typically a few minutes to an hour, during which the effects of photosynthesis and respiration on transpiration are considered to be minimal. Therefore, these effects are usually ignored in potometer readings to simplify the measurement and interpretation of transpiration rates in plant physiology experiments.

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The BEST piece of evidence that Darwin used to support his ideas was comparative embryology, which demonstrated the patterns of distribution of organisms are consistent with ancestor descendant relationships.

A potential pro of this evidence is that it provides a clear link between organisms, allowing for a better understanding of their evolutionary history. However, a potential con is that it can be difficult to determine which organisms are closely related based solely on embryological similarities, and other types of evidence may need to be considered as well.
d. Artificial selection demonstrated that selection on heritable variation is a plausible mechanism of species change, but artificial selection is "deliberate." This evidence supports Darwin's ideas by showing how traits can be passed down and selected for, leading to species change. However, the con is that artificial selection is human-driven and may not perfectly represent natural processes.

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The complete classification of the Peruvian lily is given below:

Eukaryota is a varied domain of creatures whose cells have a nucleus, and its members are referred to as eukaryotes.

Eukaryotes include all animals, all plants, all fungi, and many unicellular creatures.

The following are some traits of the domain eukarya:

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Answer:

A simple hypothesis is a statement made to reflect the relation between exactly two variables. One independent and one dependent. Consider the example, “Smoking is a prominent cause of lung cancer." The dependent variable, lung cancer, is dependent on the independent variable, smoking.

Explanation:

There are 5 main steps in hypothesis testing:

State your research hypothesis as a null hypothesis and alternate hypothesis.

Collect data in a way designed to test the hypothesis.

Perform an appropriate statistical test.

Decide whether to reject or fail to reject your null hypothesis.

Fertilization accomplishes two separate activities: fusion of the sperm and egg to form a zygote, and the initiation of cell division. During fertilization, a sperm cell penetrates the zona pellucida surrounding the ovum and fuses with the egg to form a single cell called a zygote.

1. Fusion of sperm and egg: Fertilization involves the fusion of a sperm cell with an ovum (egg). The sperm, carrying the male genetic material, penetrates the outer layer of the egg called the zona pellucida. This fusion results in the formation of a single-celled structure called a zygote, which contains the combined genetic information from both parents.

2. Activation of egg development: The second activity accomplished by fertilization is the activation of the egg's developmental program. Once the sperm enters the egg, it triggers a series of biochemical changes within the egg that initiate the process of cell division and growth. This eventually leads to the formation of an embryo that will implant itself into the uterus and develop further.

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The main characters in this story are the Johnson family, which includes Mom, Dad, and their children.

Main characters are the most important characters in a story. They are usually central to the plot and have a significant impact on the story's outcome. Main characters are typically well-developed and undergo some kind of transformation or change throughout the story.

They often have goals, motivations, and conflicts that drive the narrative forward. They are also known as protagonists whom the storyline is usually based on. It is usually their background story that starts off every tale told by the authors.

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Molecules start moving faster as the kinetic energy of the molecules becomes fast when the temperature increases. That's why, the rate of an enzyme-controlled reaction will change with the temperature.

An enzyme is a catalyst in biology, and its work is to lower the activation energy and increase the rate of reaction. But in this whole process, the enzyme itself is not being used up.

Whenever the temperature changes from high to low or low to high, the kinetic energy of the molecules in a reaction also changes.

Here, the temperature increases from 35°C to 55°C, there will be more kinetic energy.

So, if the kinetic energy is more, there would be more collision between molecules which thus results in more complex substrates formed.

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Answer:Molecules start moving faster as the kinetic energy of the molecules becomes fast when the temperature increases. That's why, the rate of an enzyme-controlled reaction will change with the temperature.

An enzyme is a catalyst in biology, and its work is to lower the activation energy and increase the rate of reaction. But in this whole process, the enzyme itself is not being used up.

Whenever the temperature changes from high to low or low to high, the kinetic energy of the molecules in a reaction also changes.

Here, the temperature increases from 35°C to 55°C, there will be more kinetic energy.

So, if the kinetic energy is more, there would be more collision between molecules which thus results in more complex substrates formed.

Explanation:

The addition of insulation inside the walls of the classrooms would affect the results of the study in the following ways:

Improved temperature control: Adding insulation to a classroom's walls can aid in maintaining a consistent indoor temperature, which can have a substantial impact on student comfort and productivity. According to studies, pupils perform better in classrooms that are pleasant and have adequate temperature management.

Noise reduction: Insulation can also help to lower noise levels inside the classroom, which can improve student concentration and focus. Excessive noise can be distracting, making it difficult for students to understand instructions or participate in class discussions.

The comfort, focus, and energy efficiency of students can all be improved by adding insulation inside the classroom's walls. The addition of insulation may or may not have a substantial impact on the outcomes, depending on the precise goals of the study. However, it is expected to make students' learning environments more pleasant and productive.

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a. The factors described by the graphs are as Temperature: Abiotic ,Precipitation: Abiotic, Lemming population: Biotic , Arctic fox population: Biotic.

b. The biotic factor that likely prevents the Arctic fox population from growing exponentially is the lemming population.

c. Arctic foxes and lemmings most likely share a predator-prey relationship. This means that the Arctic fox preys on lemmings, and lemmings are the prey of the Arctic fox.

The data support this answer because the Arctic fox population follows a cyclical pattern that is closely linked to the lemming population.

When the lemming population is high, the Arctic fox population also increases. However, when the lemming population crashes, the Arctic fox population also declines. This suggests that the Arctic fox population is limited by the availability of prey.

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The part of a plant that attracts pollinators is the petals.

They are often brightly colored and have appealing scents to draw in pollinators, such as bees, butterflies, and birds, which help with the fertilization process by transferring pollen from the stamen to the carpel.

The process of pollination involves the transfer of pollen from the male reproductive structure of a flower, the stamen, to the female reproductive structure, the carpel.

Pollinators play a critical role in this process by carrying pollen from one flower to another. When a pollinator lands on a flower to gather nectar or pollen, some of the pollen rubs off onto the pollinator's body, which is then transported to another flower, where it can fertilize the carpel and produce seeds.

In addition to attracting pollinators, petals also protect the reproductive structures of the flower, such as the stamen and carpel. They can also help regulate the temperature of the flower, which can affect the development of the pollen and ovules.

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A snake is a secondary consumer when it devours a frog that had previously consumed an insect that had devoured a plant.

When living organisms are arranged in a food chain, food energy is transferred from producers to a series of species who repeatedly consume and are consumed.

A trophic level is a term used to describe any level or step in a food chain where energy is transferred. The primary producers—the plants—are where energy transfer in most ecosystems begins. Thus, producers help the second trophic level of organisms, which is made up of tiny and insect-like herbivores and other primary consumers.

Frogs, tiny birds, and other herbivore feeders, which make up the third trophic level, are examples of primary carnivores or secondary consumers.

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If a slide is not allowed to air dry sufficiently prior to heat fixation, it can have several negative consequences.

Firstly, the bacteria may not take up the stain properly, leading to an inaccurate or unclear image. This can make it difficult or impossible to identify specific types of bacteria or assess their quantity accurately. Secondly, if the slide is not fully dry, the bacteria may rinse off during the staining or washing process, leading to an insufficient sample or distorted results. Thirdly, if the slide is not fully dry, heating it to fix the bacteria in place could create aerosols, potentially exposing the technician to harmful pathogens. Finally, if the slide is not fully dry, the shape and arrangement of the cells may be disrupted, making it difficult to assess the true structure and organization of the bacteria. Overall, ensuring that slides are fully dry before heat fixation is an essential step in accurate and safe bacterial analysis.

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The statement that best describes a biosynthesis reaction is :- formation of bonds between small organic molecules to form larger organic molecules.

The correct option is :- (D)

A biosynthesis reaction, also known as anabolic reaction, is a type of chemical reaction in living organisms where smaller organic molecules are combined or synthesized to form larger organic molecules.

This process involves the formation of new chemical bonds between the small organic molecules to create larger, more complex molecules.

Examples of biosynthesis reactions include the synthesis of proteins from amino acids, the formation of carbohydrates from simple sugars, and the production of nucleic acids from nucleotide building blocks.

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Tracheostomy valves are devices used to enable speech and help in breathing for people with tracheostomies. They are attached to the opening in the trachea or windpipe,

which is created during a surgical procedure called tracheostomy. These valves can be classified into two main types: speaking valves and non-speaking valves. Speaking valves allow patients to breathe in through the tracheostomy tube and out through the mouth and nose. They are designed to close the tracheostomy opening during exhalation, enabling the air to flow through the vocal cords and mouth, producing speech.

There are two main types of speaking valves, the Passy-Muir Valve, and the Blom-Singer Valve.Non-speaking valves, on the other hand, do not allow speech but are designed to prevent food and fluids from entering the tracheostomy tube. These valves are used to protect the lungs from aspiration and to prevent infection.

They are commonly used in patients who are unable to protect their airways and require mechanical ventilation. Examples of non-speaking valves include the Bivona Foam Cuffless Tracheostomy Tube and the Portex Bivona Flextend TTS.

In conclusion, tracheostomy valves play an essential role in enhancing the quality of life for people with tracheostomies. They are available in different types, depending on the patient's needs and the purpose of the valve. It is important to consult a healthcare professional before choosing a tracheostomy valve to ensure the best possible outcome.

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The artery being referred to in this question is the popliteal artery. It originates at the opening in the adductor magnus muscle, which is a large muscle located in the thigh region. This opening is known as the adductor hiatus, which allows the popliteal artery to pass through the muscles and enter the posterior compartment of the leg.

Once the popliteal artery enters the leg, it continues to travel downwards and branches off into various smaller arteries that supply blood to the lower leg and foot. It terminates at the inferior border of the popliteus muscle, which is a muscle located in the posterior aspect of the knee joint.

The popliteal artery is an important artery in the lower extremity as it provides blood supply to the muscles, bones, and tissues of the leg and foot. Any obstruction or damage to this artery can lead to a variety of health problems, such as pain, numbness, or even tissue death.

In summary, the popliteal artery originates at the adductor hiatus, passes through the muscles of the thigh and leg, and terminates at the inferior border of the popliteus muscle. Its importance lies in the fact that it provides vital blood supply to the lower extremity, making it an essential component of the circulatory system.

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The celiac trunk (also known as the celiac axis or celiac artery) is a vital blood vessel that provides oxygenated blood to various abdominal organs, ensuring their proper functioning.

The celiac trunk, also known as the celiac axis or celiac artery, is a major blood vessel in the abdominal cavity. It originates from the abdominal aorta and supplies oxygen-rich blood to several important organs. Here's a brief overview:

1. The celiac trunk arises from the anterior aspect of the abdominal aorta, just below the diaphragm, at around the level of the T12 vertebra.
2. It branches into three main arteries: the left gastric artery, the splenic artery, and the common hepatic artery.
3. The left gastric artery supplies blood to the stomach and the lower part of the esophagus.
4. The splenic artery supplies blood to the spleen, pancreas, and the greater curvature of the stomach.
5. The common hepatic artery supplies blood to the liver, gallbladder, pancreas, and parts of the stomach and duodenum.

In summary, the celiac trunk (also known as the celiac axis or celiac artery) is a vital blood vessel that provides oxygenated blood to various abdominal organs, ensuring their proper functioning.

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Around 12 months of age, children across cultures begin to speak words. This is a natural developmental milestone that occurs in all cultures. While the exact words and languages spoken may vary depending on the culture and environment, the explanation for this milestone remains the same.

As children grow and develop, they begin to acquire the necessary skills and knowledge needed to communicate with others through speech.
This is a general milestone observed in children's language development, and it signifies their growing ability to communicate with others in their respective cultures. The specific words and language patterns may differ across cultures, but the process of language acquisition is universal among children.

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It is untrue to say that the start codon serves two purposes because it also codes for an amino acid. The majority of amino acids have many codons that specify them, and in rare situations, a codon's base sequence can be changed while still coding for the same amino acid. Not all codons encode amino acids.

The statements about the relationship between codons that are true are as follows :

1. The statement "The start codon has a dual function because it also codes for an amino acid" is true. The start codon, AUG, not only signals the start of translation but also codes for the amino acid methionine.

2. The statement "Most amino acids are specified by more than one codon" is true. This is due to the redundancy of the genetic code, where several codons can code for the same amino acid.

3. The statement "In some cases, it is possible to change the sequence of bases in a codon and it will still code for the same amino acid" is true. This occurs due to the degeneracy of the genetic code, where different codons can specify the same amino acid.

The statements about the relationship between codons that are false are as follows :

1. The statement "Most codons code for more than one amino acid" is false. Each codon specifically codes for one amino acid or serves as a stop signal.

2. The statement "Only 20 different codons are used to code for amino acids" is false. There are 64 possible codons, but only 20 amino acids. This means that multiple codons can code for the same amino acid.

3.The statement "All codons code for amino acids" is false. Some codons, known as stop codons, signal the end of translation and do not code for an amino acid.

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C) dark red. While it is a common misconception that blood in veins is blue, it is actually always red.

The reason why veins appear blue is due to the way light travels through the skin and reflects off the veins. Oxygen-poor blood in veins is darker in color compared to oxygen-rich blood in arteries, which is bright red. This is because hemoglobin, the protein in red blood cells that carries oxygen, changes color depending on whether or not it is carrying oxygen. When it is carrying oxygen, it appears bright red, but when it is not carrying oxygen, it appears darker in color. This is why the blood in veins, which has already delivered oxygen to the body's tissues, is a darker red compared to the blood in arteries, which is still carrying oxygen to the body's tissues. So, the correct answer is C) dark red.

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The right response is A. Blood flow resistance is reduced by low blood viscosity.

Viscosity is a metric for a fluid's resistance to flow. The blood flow rises when the viscosity decreases because there is less resistance in the blood vessels.

Low viscosity fluids may flow through the vessels more readily and with less effort, which is why they do not require as much energy to do so.

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In 1953, James Watson and Francis Crick proposed the double helix model of DNA structure, which is now widely accepted as the fundamental basis of DNA organization. One of the key insights provided by Crick was the direction of travel of each DNA chain within the double helix.

Specifically, Crick proposed that each DNA chain has a directional orientation that is determined by the chemical structure of the nucleotides. In DNA, each nucleotide consists of a sugar molecule, a phosphate group, and a nitrogenous base (adenine, guanine, cytosine, or thymine). The sugar molecule and the phosphate group form the backbone of the DNA molecule, while the nitrogenous bases form the "rungs" of the ladder.

Crick realized that the orientation of the sugar molecules in each nucleotide within a DNA chain is such that they are always aligned in the same direction. Specifically, the sugar molecule in each nucleotide is connected to the phosphate group in the next nucleotide through a covalent bond, and this bond always occurs between the 3' carbon of one sugar molecule and the 5' carbon of the next sugar molecule. This creates a "sugar-phosphate backbone" that runs along the length of each DNA chain.

Based on this understanding, Crick proposed that the two DNA chains in the double helix are oriented in opposite directions. Specifically, one DNA chain runs in the 5' to 3' direction (where the 5' end has a free phosphate group and the 3' end has a free hydroxyl group), while the other chain runs in the 3' to 5' direction (where the 3' end has a free hydroxyl group and the 5' end has a free phosphate group). This orientation is often referred to as "antiparallel," since the two chains run in opposite directions.

The directional orientation of the DNA chains is important for understanding how DNA replication, transcription, and translation occur. For example, during DNA replication, the enzyme DNA polymerase can only add nucleotides to the 3' end of a growing DNA chain, so replication proceeds in the 5' to 3' direction on both strands. Similarly, during transcription, RNA polymerase adds nucleotides to the 3' end of the growing RNA chain, which is complementary to one of the DNA strands, while during translation, the ribosome reads the sequence of mRNA in the 5' to 3' direction to synthesize a protein.

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The change in the nectary tube length of the tobacco plant may result in selection pressure on the proboscis length of the moth population that feeds on it. The resistant species has a nectary tube length of 7.5cm, which is longer than the nectary tube of the original tobacco species.

As a result, the moths with longer proboscises may have an advantage in obtaining nectar from the resistant tobacco plants, while moths with shorter proboscises may be at a disadvantage. Over time, this may lead to a shift in the distribution of proboscis length in the moth population, with an increase in the frequency of longer proboscises and a decrease in the frequency of shorter proboscises.

Therefore, it is expected that the distribution of proboscis size in the moth population will shift towards longer proboscises by the end of the five-year study. However, the exact distribution of proboscis size cannot be predicted without further information, such as the starting distribution of proboscis sizes in the moth population and the strength of the selection pressure.

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