Make side-by-side box plots of the class data for both Total Coliform and E.coli to compare the assays. Mark the upper and lower LODs for each test with a line from the y- axis across the graph. Remember to clearly label all axes and include a descriptive title. You can use any program to create box plots (R, Excel, SAS, etc.), but R is recomendeed. Use a log scale for the y-axis

Tris-HCL buffer is used as a wash solution for negative gram bacteria such as E.coli because it helps to maintain a stable pH during the washing process.

The buffer prevents any changes in the pH of the solution, which could potentially affect the integrity of the bacterial cell walls and interfere with the washing process. Additionally, Tris-HCL buffer is also used to stabilize the proteins in the bacterial cells, which prevent them from being degraded during the washing process. Overall, the use of Tris-HCL buffer helps to ensure that the bacterial cells remain intact and that the washing process is effective.

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Without knowing the specific movie, it is impossible to accurately answer the questions about the creation of the monster, the description of the monster, the destruction caused by the monster, the defeat of the monster, and the production information of the movie.

As for the final question about the lessons about environmental protection that can be learned from the movie and whether the movie accurately predicted the future, it is difficult to answer without knowing the specific movie. However, in general, many movies that feature monsters or evil situations created by things like nuclear explosions or toxic waste can serve as cautionary tales about the consequences of mistreating the environment.

These movies can teach audiences about the importance of taking care of the planet and the dangers of pollution, nuclear weapons, and other environmental hazards. Whether or not the movie accurately predicted the future would depend on the specific movie and the events that have occurred since its release.

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For the control condition:
Vmax = 12 / (Km + 4)
Km = (12 / Vmax) - 4

For Inhibitor A:

Vmax = (3 * Km * (1 + (Ki * [I]))) / (4 - 3 * (Ki * [I]))

Km = (4 * (Ki * [I]) + 3 * [S]) / (3 * (Ki * [I]) - 1)

For Inhibitor B:

Vmax = (4 * Km * (1 + (Ki * [I]))) / (4 - 4 * (Ki * [I]))

Km = (4 * (Ki * [I]) + 4 * [S]) / (4 * (Ki * [I]) - 1)

For Inhibitor C:

Vmax = (3 * Km * (1 + (Ki * [I]))) / (4 - 3 * (Ki * [I]))

Km = (4 * (Ki * [I]) + 3 * [S]) / (3 * (Ki * [I]) - 1)

To calculate the Vmax and Km in each case and assign the inhibitor type, we can use the Michaelis-Menten equation:
V = (Vmax * [S]) / (Km + [S])
Where V is the reaction velocity, Vmax is the maximum reaction velocity, [S] is the substrate concentration, and Km is the Michaelis constant.

For the control condition, we can plug in the values and solve for Vmax and Km:
3 = (Vmax * 4) / (Km + 4)
12 = Vmax * Km + 4 * Vmax
Vmax = 12 / (Km + 4)
Km = (12 / Vmax) - 4

For the inhibitor conditions, we can use the same equation but with the inhibitor constant (Ki) added:
V = (Vmax * [S]) / (Km + [S] + (Ki * [I]))
Where [I] is the inhibitor concentration.

For inhibitor A:
3 = (Vmax * 4) / (Km + 4 + (Ki * [I]))

Vmax = (3 * Km * (1 + (Ki * [I]))) / (4 - 3 * (Ki * [I]))

Km = (4 * (Ki * [I]) + 3 * [S]) / (3 * (Ki * [I]) - 1)

For inhibitor B:
4 = (Vmax * 4) / (Km + 4 + (Ki * [I]))

Vmax = (4 * Km * (1 + (Ki * [I]))) / (4 - 4 * (Ki * [I]))

Km = (4 * (Ki * [I]) + 4 * [S]) / (4 * (Ki * [I]) - 1)

For inhibitor C:
3 = (Vmax * 4) / (Km + 4 + (Ki * [I]))

Vmax = (3 * Km * (1 + (Ki * [I]))) / (4 - 3 * (Ki * [I]))

Km = (4 * (Ki * [I]) + 3 * [S]) / (3 * (Ki * [I]) - 1)

We can solve for Vmax and Km in each case and then compare them to the control condition to determine the type of inhibitor.

If Vmax is decreased and Km is unchanged, the inhibitor is a non-competitive inhibitor.

If Vmax is unchanged and Km is increased, the inhibitor is a competitive inhibitor.

If both Vmax and Km are decreased, the inhibitor is an uncompetitive inhibitor.

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The bond between hydrogen and oxygen in water is a covalent bond.

In a covalent bond, atoms share electrons, forming a strong bond. In the case of water, two hydrogen atoms share electrons with one oxygen atom to form a water molecule. The oxygen atom has a greater attraction for electrons than the hydrogen atoms, so the electrons spend more time around the oxygen nucleus than the hydrogen nuclei.

This creates a slightly negative charge on the oxygen atom and a slightly positive charge on the hydrogen atoms. This is called a polar covalent bond and it is the reason why water is a polar molecule. This means that the oxygen end of the molecule has a slight negative charge and the hydrogen end has a slight positive charge.

This makes it possible for water molecules to attract one another and form hydrogen bonds, which help to hold the molecules together and give water many of its unique properties.

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Selection on one trait can affect the evolution of another trait at a different locus if the two traits are genetically linked through pleiotropy, which is when a single gene affects multiple traits.

This can result in genetic correlations and trade-offs between the two traits, meaning that one trait is favored over the other and both cannot be maximized simultaneously.

Natural selection and artificial selection are both mechanisms of evolution, but they differ in that artificial selection is driven by human preferences and natural selection is based on environmental factors.

Artificial selection is a stronger evolutionary force because humans are able to select for specific traits that are beneficial to them, while natural selection is a slower process that is limited by the environment.

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Answer:

B

Explanation:

True as the proportions of each type of gamete are consistent with Mendel's law of independent assortment.

This law states that the alleles of different genes assort independently of each other during gamete formation. This means that the inheritance of one trait does not affect the inheritance of another trait.

As a result, the proportions of each type of gamete will be consistent with the expected ratios predicted by Mendel's law of independent assortment.

For example, if two genes are located on different chromosomes and each gene has two alleles, the expected ratio of gametes will be 1:1:1:1 for each possible combination of alleles. This is consistent with the observed proportions of gametes in genetic crosses.

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The Bombay Phenotype is a type of blood group defined by the absence of the enzyme H-Substance (H) which results from a mutation in the H gene. The mechanism behind the phenotype is that people who have the mutated H gene are unable to produce H-Substance.

The Bombay phenotype is a rare genetic condition in which a person's red blood cells lack certain antigens. The Bombay phenotype is caused by mutations in the FUT1 gene that impair the ability to produce the H antigen, which is a precursor to the A and B antigens.

As a result, people with the Bombay phenotype do not have the A or B antigens on their red blood cells, nor do they have the H antigen, which is found in most people.

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Antiporters move one solute against its concentration gradient, by moving another solute in the opposite direction with its concentration gradient.

Thus, the correct answer is B.

Аntiporters аre а type of secondаry аctive trаnsport, which meаns thаt they do not directly use АTP to move solutes, but rаther use the energy from а concentrаtion grаdient of аnother solute to do so. In the cаse of аntiporters, one solute is moved аgаinst its concentrаtion grаdient, while the other solute is moved in the opposite direction with its concentrаtion grаdient.

This аllows for the movement of solutes without the direct use of energy, but rаther through the use of the energy stored in the concentrаtion grаdient of аnother solute.

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1. The docking system of the secretory vesicle to the target organelle or plasma membrane is a process known as exocytosis which involves the fusion of the secretory vesicle with the target organelle or plasma membrane, resulting in the release of the vesicle's contents into the extracellular space or into the target organelle.

2. The different ways of how substances pass through the cell membrane are simple diffusion, facilitated diffusion, active transport, endocytosis, and exocytosis.

1. Exocytosis is mediated by a set of proteins known as SNAREs (soluble N-ethylmaleimide-sensitive factor attachment protein receptors) that are found on both the secretory vesicle and the target organelle or plasma membrane. The SNAREs on the secretory vesicle (v-SNAREs) interact with the SNAREs on the target organelle or plasma membrane (t-SNAREs) to form a complex that pulls the two membranes together, leading to their fusion and the release of the vesicle's contents.

2. There are several different ways that substances can pass through the cell membrane, including:

- Simple diffusion: Small, non-polar molecules can pass directly through the lipid bilayer of the cell membrane without the assistance of any proteins.

- Facilitated diffusion: Larger or polar molecules can pass through the cell membrane with the assistance of transport proteins, such as channels or carriers.

- Active transport: Substances can be transported against their concentration gradient (from an area of low concentration to an area of high concentration) with the assistance of transport proteins and the expenditure of energy in the form of ATP.

- Endocytosis: Substances can be taken into the cell by the formation of vesicles from the cell membrane.

- Exocytosis: Substances can be released from the cell by the fusion of vesicles with the cell membrane.

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Three methods that can be used to determine the genotype of an individual are:

The methods that can be used to determine the genotype are explained:

One of these methods that would not be used in humans is PCR amplification. While this method is useful for amplifying small amounts of DNA, it is not accurate enough to determine the genotype of an individual in a clinical setting.

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The five safety mechanisms that regulate cell growth and division are cell cycle checkpoints, tumor suppressor genes,  DNA repair mechanisms, Apoptosis, and contact inhibition.

Many cancers arise in epithelial tissue because this tissue is constantly being renewed through cell division,

Cell growth and division is regulated by several mechanism such as first, cell cycle checkpoints that ensure the cell has completed all necessary processes before moving on to the next phase of the cell cycle. Second tumor suppressor genes, where the gene regulate cell growth and division and prevent the formation of tumors.

Third, DNA repair mechanisms repair damaged DNA before it can be replicated and passed on to daughter cells. Then fourth apoptosis, the process of programmed cell death, which prevents damaged or abnormal cells from continuing to divide and potentially forming tumors. Fifth contact inhibition, the mechanism prevents cells from continuing to divide when they come into contact with other cells, preventing overcrowding and the formation of tumors.

In epithelial tissue, cancer appears because during tissue cell division it is continuously renewed, increasing the possibility of mutation and tumor formation. Additionally, epithelial tissue is often exposed to environmental factors such as UV radiation and toxins, which can damage DNA and contribute to the development of cancer.

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Prezygotic barriers include all of the following except reduced hybrid viability. The correct answer is b. reduced hybrid viability.

Prezygotic barriers are mechanisms that prevent fertilization from occurring between two different species. These barriers include gametic isolation, behavioural isolation, and temporal isolation.
- Gametic isolation occurs when the sperm and egg of two different species are unable to fuse and create a zygote.
- Behavioural isolation occurs when two different species have different mating rituals or behaviors that prevent them from mating with each other.
- Temporal isolation occurs when two different species have different breeding seasons or times of day when they are active, preventing them from mating with each other.

Reduced hybrid viability, on the other hand, is a postzygotic barrier. This occurs when the offspring of two different species are unable to survive or reproduce, preventing the creation of a new hybrid species.

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Given that the population were in Hardy-Weinberg equilibrium, the expected number of individuals of each genotype be 810 RR, 180 Rr, and 10 rr.

Since a recessive disease appears at 1% in the population of 1000, it means that 10 individuals are homozygous recessive (rr). In Hardy-Weinberg equilibrium, the frequency of the recessive allele (r) is the square root of the frequency of the homozygous recessive genotype (rr). Therefore, the frequency of the recessive allele (r) is √(0.01) = 0.1. The frequency of the dominant allele (R) is 1 - 0.1 = 0.9.

Using the Hardy-Weinberg equation (p² + 2pq + q² = 1), we can calculate the expected number of individuals of each genotype:
- RR: (0.9)²(1000) = 810 individuals
- Rr: 2(0.9)(0.1)(1000) = 180 individuals
- rr: (0.1)²(1000) = 10 individuals

Therefore, it is expected that each genotype in the population of 1000 in Hardy-Weinberg equilibrium is 810 RR, 180 Rr, and 10 rr.

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The relative distance between the genes on their chromosome is important information based on the recombination frequency between any two linked genes. Option B.

Recombination frequency refers to the likelihood of two alleles on a chromosome that tends to be inherited together to be separated by recombination. The frequency of recombination is correlated with the distance between the linked genes that the chromosomes carry.

The greater the frequency of recombination, the greater the relative distance between the linked genes. A lower frequency of recombination implies that the linked genes are positioned closer together on a chromosome.

As the frequency of recombination rises, the relative distance between two linked genes on a chromosome also rises. The frequency of recombination in a cross between two genes can be used to determine the order of genes on a chromosome, as well as the relative distances between them.

Recombination is critical in the genetic analysis since it allows for the mapping of genes on chromosomes. Thus, the relative distance between the genes on their chromosome is important information based on the recombination frequency between any two linked genes.

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The correct answer to the question, "Oxidizes FMNH2 and FADH2 by accepting electrons and carrying them to Complex III" is option h) Quinol.

Quinol (also known as ubiquinol or Coenzyme Q) is a molecule that accepts electrons from FMNH2 and FADH2 in the electron transport chain and carries them to Complex III. Quinone, another molecule listed in the answer choices, also plays a role in the electron transport chain by accepting electrons from Complex I or II and transferring them to Complex III, but it does not directly oxidize FMNH2 or FADH2. The other answer choices (Glyoxylate Cycle, FMN, Cytochrome, FAD, NADH, and Citric Acid Cycle) are not directly involved in the electron transport chain or the oxidation of FMNH2 and FADH2.

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The standard cultivation method for the enumeration of viable bacteria is the plate count method.

This involves diluting the bacterial sample in sterile saline solution, then plating a small amount onto a solid agar medium and incubating it at the optimal temperature for growth. After incubation, the number of bacterial colonies on the plate is counted and used to calculate the number of viable bacteria in the original sample.

An example of bacteria that can be viable but unable to be cultured (VBNC) is Vibrio cholerae. This bacterium can enter a VBNC state when exposed to harsh environmental conditions, such as low temperatures or low nutrient availability.

In this state, the bacteria are alive and able to maintain their metabolic activities, but they are unable to form colonies on traditional culture media. This is why VBNC bacteria cannot be regarded as dead cells, as they can potentially revert back to a culturable state under favorable conditions.

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A 19-year-old woman visits her physician because of nausea, diarrhea, light-headedness, and flatulence. After an overnight fast, the physician administers 50g of oral lactose at time zero (indicated by the arrows in the figures). The combination is most likely in this patient during the next 3 hours is an increase in plasma glucose and an increase in breath hydrogen. This is because the patient is likely lactose intolerant, meaning that she is unable to digest lactose properly.

Lactose intolerance occurs when the body does not produce enough lactase, an enzyme that breaks down lactose into glucose and galactose. As a result, lactose is not absorbed into the bloodstream and instead travels to the large intestine where it is fermented by bacteria, producing hydrogen gas.

During the lactose tolerance test, the patient is given a dose of lactose and then their plasma glucose and breath hydrogen levels are measured over the next 3 hours. If the patient is lactose intolerant, their plasma glucose levels will not increase significantly because they are unable to digest the lactose. However, their breath hydrogen levels will increase because the lactose is being fermented in the large intestine. Therefore, the most likely combination in this patient during the next 3 hours is an increase in plasma glucose and an increase in breath hydrogen.

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.A chronic carrier is of particular concern in patient care in a medical facility and may lead to a nosocomial infection. The correct option is (b) chronic carrier; primary. Chronic carriers are individuals who continue to carry infectious agents such as bacteria, viruses, or other pathogens in their bodies for an extended period, often for months or years, without exhibiting any symptoms of the disease. Chronic carriers are of particular concern in patient care in a medical facility and may lead to a primary infection.

The criteria used to establish the etiology of a disease are called (c) Koch's postulates. Koch's postulates are a set of criteria used to establish the etiology of a disease. They were developed by Robert Koch in the 19th century and are still used today. According to Koch's postulates, to establish the etiology of a disease, there are four criteria must be met

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The four gametes that would be produced from a homozygous green and homozygous round pea plant are G, G, R, and R

The four gametes that would be produced from a heterozygous green and homozygous wrinkled pea plant are G, g, r, and r

The four gametes that would be produced from a homozygous yellow and heterozygous round pea plant are g, g, r, and R.

A gamete is a mammal or plant reproductive cell. Animals' male and female gametes are referred to as sperm and eggs, respectively. Each ova and sperm cell carries one duplicate of each chromosome, making them haploid cells.

Homozygous organisms have the same allele copies while heterozygous organisms have different allele copies.

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Answer: A

Explanation:

Glaciers are made of ice, which is part of the cryosphere.

Valleys are part of the land, which is part of the geosphere.

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Otters belong to the castoridae family and the order Rodentia. Animals that are known to like to build houses in river dams can live up to 20 years old. Otters are semi-aquatic animals, meaning they spend part of their time in water and part of their time on land.

They live in or around freshwater ponds, lakes, rivers and marshes. These animals come from the continents of North America and Europe. Nowadays, however, they only live in small numbers throughout southern Scandinavia, Germany, France, Poland and central Russia because of hunting.

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DNA synthesis is coupled to the hydrolysis of pyrophosphate to provide the necessary energy for the reaction to occur.

During DNA synthesis, nucleotides are added to the growing DNA strand by the enzyme DNA polymerase. Each nucleotide is added in the form of a deoxynucleoside triphosphate (dNTP), which contains a base, a sugar, and three phosphate groups.

When the nucleotide is added to the DNA strand, the two outermost phosphate groups, known as pyrophosphate, are cleaved off in a process called hydrolysis. This hydrolysis reaction releases a large amount of energy, which is used to drive the DNA synthesis reaction forward.

Without the coupling of DNA synthesis to the hydrolysis of pyrophosphate, the reaction would not have enough energy to proceed and DNA synthesis would not occur. Therefore, the coupling of these two processes is essential for the successful synthesis of DNA.

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The rate of keratin synthesis required for yearly hair growth is approximately 3166.67 amino acids per second.

To calculate the rate of keratin synthesis, we first need to convert the yearly growth rate of hair to a rate per second.

15 cm/year * (1 m/100 cm) * (1 year/365 days) * (1 day/24 hours) * (1 hour/60 minutes) * (1 minute/60 seconds) = 4.75 x 10^-7 m/s

Next, we need to convert the rise of the alpha helix per turn to a rate per second.

5.4 angstroms/turn * (1 m/10^10 angstroms) * (1 turn/3.6 AA residues) = 1.5 x 10^-10 m/AA residue.

We can calculate the rate of keratin synthesis by dividing the rate of hair growth by the rate of alpha helix rise per amino acid residue.

(4.75 x 10^-7 m/s) / (1.5 x 10^-10 m/AA residue) = 3166.67 AA residues/s

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Two examples of active immunity are vaccinations and having a disease, and two examples of passive immunity are maternal antibodies and antivenoms.

The body's ability to produce antibodies and memory cells in response to an antigen is known as active immunity. Active immunity can be acquired through exposure to a disease, immunization, or infection with a pathogen that activates the immune system.

Passive immunity is the transfer of pre-formed antibodies from one individual to another. Passive immunity can be natural, such as the transfer of antibodies from mother to child during pregnancy, or artificial, such as the administration of antivenom serum or immune globulin.

A vaccine is a biological preparation that improves immunity to a specific disease. Vaccines function by stimulating the immune system to produce an adaptive immune response similar to that produced by natural infection.

When an individual is exposed to the disease-causing organism in the future, the immune system "remembers" how to respond, providing protection against the disease.

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Introducing a new colony of monkeys requires careful consideration of potential health, animal welfare, and environmental issues, as well as appropriate responses to address these concerns.

Zoonotic diseases: The monkeys may carry diseases that can be transmitted to humans. The zoo needs to ensure that the monkeys are screened for any potential diseases and that proper measures are taken to prevent the spread of disease to humans.

Environmental impact: The introduction of a new species can have an impact on the local ecosystem. The zoo needs to consider the potential effects of the monkeys on the environment and take steps to minimize any negative impact.

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When calculating PAF, the following assumptions are made: the risk factor is a cause of the outcome, the effect of the risk factor is constant and does not vary with different levels of exposure, all exposed individuals are equally likely to be affected by the risk factor.

When calculating the population attributable fraction (PAF), the following assumptions are made:

Assumption 1: The relationship between exposure and outcome is causal.

Assumption 2: The exposure is binary and dichotomous, meaning that an individual is either exposed or not exposed.

Assumption 3: There are no interactions between the exposure and other risk factors, which means that the risk of the outcome occurring is the same across all strata.

Assumption 4: The exposure and the outcome are independent.

Assumption 5: The exposure and the outcome have a linear dose-response relationship.

Assumption 6: The exposure is evenly distributed across the population.

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D: Oxytocin is a hormone that is released into the blood supply in the posterior pituitary from neuroendocrine cells whose cell bodies lie in the paraventricular nucleus of the hypothalamus.  It acts on target tissue in the breast to initiate milk letdown, and in the uterus to induce contractions during childbirth.

Oxytocin is often referred to as the "love hormone" because it plays a role in social bonding, sexual reproduction, and childbirth. It is also involved in the regulation of stress and anxiety, as well as the regulation of blood pressure and heart rate.

In contrast, Vasopressin is a hormone that helps to regulate the amount of water in the body, Leuteinizing hormone is involved in the regulation of the menstrual cycle and ovulation, and Follicle stimulating hormone is involved in the development of follicles in the ovaries.

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A cell has 28 chromosomes in interphase. The chromosomes it have during metaphase of mitosis is 28 chromosomes.

The chromatids is 56 chromatids

During interphase, the cell's DNA is replicated, resulting in two copies of each chromosome. These copies are called sister chromatids and are attached to each other at the centromere. During metaphase of mitosis, the chromosomes line up at the equator of the cell, with each chromosome consisting of two sister chromatids. Therefore, the cell will have the same number of chromosomes (28) but double the number of chromatids (56).

In conclusion, a cell with 28 chromosomes in interphase will have 28 chromosomes and 56 chromatids during metaphase of mitosis.

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1. Examples of fibrous (structural) proteins are B. Collagen and H. Keratin. These proteins provide structure and support to the body's tissues and organs.

2. Examples of globular (functional) proteins are F. Hemoglobin and G. Hormones. These proteins have a variety of functions, including carrying oxygen in the blood and regulating bodily processes.

3. Biological catalysts are D. Enzymes. These proteins speed up chemical reactions in the body.

4. Plant storage carbohydrate is L. Starch. This is a complex carbohydrate that plants use to store energy.

5. Animal storage carbohydrate is E. Glycogen. This is a complex carbohydrate that animals use to store energy.

6. The material of the genes is C. DNA. This is the molecule that contains the genetic information for an organism.

7. A steroid is A. Cholesterol. This is a type of lipid that is involved in a variety of bodily processes, including hormone production and cell membrane structure.

8. Double sugars, or disaccharides, are I. Lactose and J. Maltose. These are carbohydrates that are made up of two simple sugars joined together.

1. Collagen and Keratin are examples of fibrous proteins that provide structural support to the body's tissues and organs. Collagen is the most abundant protein in the human body, and it forms the framework for many tissues such as skin, bones, and tendons.

2 . Hemoglobin and hormones are examples of globular proteins that have various functions. Hemoglobin is a protein found in red blood cells that binds to oxygen and transports it throughout the body. Hormones are chemical messengers that regulate various physiological processes such as growth, metabolism, and reproduction.

3. Enzymes are biological catalysts that speed up chemical reactions in the body. Enzymes are typically proteins that bind to specific molecules and facilitate chemical reactions by lowering the activation energy required for the reaction to occur.

4. Starch is a complex carbohydrate that plants use to store energy. Starch is made up of glucose molecules that are linked together in a long chain. Plants store starch in specialized structures such as roots, tubers, and seeds. Starch is an important source of energy for both humans and animals.

5. Glycogen is a complex carbohydrate that animals use to store energy. Glycogen is similar to starch, but it is more branched and can be broken down more quickly to release glucose when energy is needed. Glycogen is stored in the liver and muscles and can be quickly broken down to provide energy during exercise or other forms of physical activity.

6. DNA is the material that contains the genetic information for an organism. DNA is made up of nucleotides that are linked together in a double helix structure. The sequence of nucleotides in DNA determines the genetic traits of an organism.

7.Cholesterol is a type of lipid that is involved in various bodily processes, including hormone production and cell membrane structure. Cholesterol is a component of cell membranes and is important for maintaining their fluidity and stability.

8 . Lactose and Maltose are examples of disaccharides, which are double sugars made up of two simple sugars joined together. Lactose is a sugar found in milk and is made up of glucose and galactose. Maltose is a sugar formed during the digestion of starch and is made up of two glucose molecules.

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