Transcribe the following DNA into RNA: TACGGGATT *
1 point
a. TUCGGGUTT
b. ATGCCCTAA
c. AUGCCCUAA
d. GUAGGGUAG

The old microscopes do not allow a visibility of the cells because they had the limitation of both magnification and resolution. Therefore, the correct answer is option e. both A and C.

Magnification refers to the ability of a microscope to enlarge an image, while resolution refers to the ability of a microscope to distinguish between two separate points. Both of these factors are important in being able to see cells clearly. Older microscopes had lower magnification and resolution capabilities, making it more difficult to see cells.

it is crucial to highlight that the fundamental limiting factor for sight of cells in previous microscopes was resolution, not merely magnification. The resolution of traditional microscopes is restricted by the wavelength of visible light, which makes it impossible to examine features smaller than the limit of the wavelength. Consequently, even with high magnification, the features within cells could not be resolved with previous microscopes due to their poor resolution. In contrast, contemporary microscopes, such as electron microscopes, have far better magnification and resolution capabilities, which allow for much clearer and detailed views of cells.

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The probability of having a child with a long septum in this case is 10%.

To determine this, we can use a Punnett square to find the probability of each possible genotype for the offspring. Since the long septum trait is autosomal dominant, we will use the letter L to represent the dominant allele and l to represent the recessive allele.

The heterozygous parent has the genotype Ll, while the homozygous parent has the genotype ll.

 | L | l
--|---|--
l | Ll | ll
l | Ll | ll

From the Punnett square, we can see that there is a 50% chance of the offspring having the genotype Ll (heterozygous) and a 50% chance of the offspring having the genotype ll (homozygous recessive).

However, since the long septum trait exhibits 20% penetrance, only 20% of individuals with the dominant allele will actually express the trait. Therefore, the probability of having a child with a long septum is 50% (probability of having the dominant allele) x 20% (probability of expressing the trait) = 10%.

So the probability of having a child with a long septum in this case is 10%.

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Answer: Your welcome!

Explanation:

My thoughts on proteins are that they are critical for the body's cells, tissues and organs to operate. Proteins are large and complex molecules, which are responsible for carrying out many vital functions in the body, such as repairing cells and producing new ones. This is why protein is so important for weightlifting or gaining muscles, as it helps the body to heal itself after being stressed by exercise. On a chemical level, proteins are composed of a chain of amino acids, which are the building blocks of life. Without proteins, our cells would not be able to function properly and the body would not be able to perform its everyday tasks. We need proteins to maintain healthy bodies and support our everyday activities. In addition, proteins are also important for a healthy diet, as they provide essential nutrients that are needed for a balanced diet. All in all, proteins are essential for our body’s wellbeing and should be included in our daily diets to ensure our body is functioning properly.

The bone that fits the description provided is the humerus bone. The humerus bone is the long bone in the upper arm that connects the shoulder to the elbow.

The greater and lesser tubercles are located at the proximal end of the humerus bone, and they serve as attachment points for muscles. The trochlea and capitulum are located at the distal end of the humerus bone, and they form part of the elbow joint. The head of the humerus bone is located at the proximal end, and it fits into the glenoid cavity of the scapula to form the shoulder joint. The intertubercular groove, also known as the bicipital groove, is located between the greater and lesser tubercles, and it serves as a pathway for the tendon of the biceps muscle.

In conclusion, the bone that has the greater and lesser tubercles, a trochlea and a capitulum, and a head with an intertubercular groove is the humerus bone.

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Proteins are large, complex molecules made up of amino acids. The structure of a protein is determined by its primary structure, which is the sequence of amino acids. This primary structure can be further folded into secondary, tertiary and quaternary structures.

Activation and deactivation of proteins can be done by several methods, including changes in pH, binding of small molecules, or through post-translational modifications.

For example, protein kinases are enzymes that can phosphorylate other proteins and thus activate them. Similarly, phosphatases can dephosphorylate proteins and thereby inactivate them.

In another example, covalent modifications can modify the activity of a protein. Ubiquitination is a process where ubiquitin molecules bind to lysine residues in proteins and inactivate them. Alternatively, deubiquitination can activate the protein.

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Segregation is the separation of homologous chromosomes during meiosis, whereas independent assortment is the random distribution of maternal and paternal alleles into gametes.

Segregation and independent assortment are two different principles that describe the behavior of chromosomes during meiosis. While both of them explain the distribution of alleles from parent to offspring, there are some differences between them.

Segregation is the principle that describes how the two alleles of a gene present in a diploid cell separate from each other during meiosis, meaning that each gamete contains only one allele. This is due to the separation of homologous chromosomes during the first division of meiosis. Thus, one allele from each parent is randomly selected to be present in each gamete, and the resulting offspring inherit one allele from each parent.

Independent assortment is the principle that describes how the segregation of one pair of homologous chromosomes during meiosis is independent of the segregation of another pair of homologous chromosomes. This means that the alleles of different genes are distributed randomly among gametes without any influence of the other genes present. This is due to the random alignment of homologous chromosomes during the first division of meiosis.

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Physical properties of rock that are important to environmental practice and the underground storage and flow of water include permeability and porosity.

We proceed to analyze the two physical properties that the rock must have:

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3a. To make 10mL of 1mg/mL of BSA, you will need to weigh out 0.01 grams of BSA.

3b. you will need to add 2mL of the 1000µg/mL BSA stock solution to make 10mL of 200µg/mL and you will need to add 8mL of water to the solution.

To make 10mL of 1mg/mL of BSA, you will need to weigh out 0.01 grams of BSA. This is because 1mg/mL is equivalent to 0.001g/mL, and multiplying this by 10mL gives you 0.01 grams.
To make 10mL of 200µg/mL from a stock solution of 1000µg/mL, you can use the equation C1V1=C2V2.

Plugging in the values gives you (1000µg/mL)(V1) = (200µg/mL)(10mL). Solving for V1 gives you V1 = 2mL. This means you will need to add 2mL of the 1000µg/mL BSA stock solution to make 10mL of 200µg/mL. To find out how much water you will need to add, you can subtract the volume of the stock solution from the final volume: 10mL - 2mL = 8mL. So you will need to add 8mL of water to the 2mL of stock solution to make 10mL of 200µg/mL BSA.

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The given statement that colloidal particles in an untreated suspension usually have a mix of electrostatic charges making them tend to stick together and easy to filter  is true. The allowable rate of leakage has not been exceeded.

Colloidal particles in an untreated suspension typically have a mix of electrostatic charges that cause them to stick together and become easy to filter.

The allowable rate of leakage is 0.6 L/m/h. To calculate the leakage rate, the volume of water pumped in needs to be divided by the length of the section of the pipeline (240 m) and the pressure testing duration (1 hour). Therefore, the leakage rate is as follows:

Volume of water pumped in = 12 LSection of pipeline = 240 mDuration of pressure testing = 1 hourLeakage rate = Volume of water pumped in / Section of pipeline / Duration of pressure testing= 12 / 240 / 1= 0.05 L/m/h

Since the leakage rate is less than the allowable rate of 0.6 L/m/h, the allowable rate of leakage has not been exceeded. Therefore, the pipeline has passed the pressure test.

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The microorganism I will choose is the bacterium Staphylococcus aureus. It is a Gram-positive coccus-shaped bacterium found in the human nasal cavity and on the skin. Its virulence factors include the production of toxins such as leukocidin, protease, lipase, and hemolysins. It can be treated with antibiotics such as penicillin, cephalosporins, and vancomycin. Transmission is through contact with infected people or surfaces. Under the microscope, it appears as round or slightly ovoid, occurring in grape-like clusters.

The microorganism I have chosen is Staphylococcus aureus, a Gram-positive bacterium. It is often found on the skin or in the nose of humans, and it is associated with many different types of infections, from mild skin and respiratory infections to more serious ones such as septicemia and endocarditis.

S. aureus is a virulent organism, with many virulence factors including surface proteins, capsules, and pili, which can facilitate adhesion to host cells.

Under the microscope, S. aureus appears as spherical, gram-positive cocci, arranged in clusters or grape-like arrangements. Treatments for infections caused by S. aureus can include antibiotics, such as penicillin, and in some cases, antiviral drugs.

S. aureus is usually spread by contact with infected individuals, and can be spread from person to person through contact with skin lesions, or through contact with contaminated objects.

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The reason why the doctor prescribed a glass of red wine and a piece of roasted chicken for the French woman is most likely because she was suffering from a nutrient deficiency.

It is possible that she was not getting enough of the essential nutrients needed for a healthy pregnancy, such as iron, folic acid, and protein.

Red wine is a good source of antioxidants, which can help to protect the body from oxidative stress and inflammation. Roasted chicken is a good source of protein, which is essential for the growth and development of the fetus.

After following the doctor's prescription for three to four months, the French woman was able to get pregnant because her body was now receiving the essential nutrients needed for a healthy pregnancy.

The red wine and roasted chicken provided her with the antioxidants, protein, and other essential nutrients that her body needed in order to support a healthy pregnancy.

As a result, she was able to conceive and carry a baby to term. This case study shows the importance of good nutrition and the role that it plays in fertility and pregnancy.

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The hydrostatic pressure in Bowman's capsule can drastically increase by an B) increase in blood pressure.

The Bowman's capsule is a part of the nephron, which is responsible for filtering blood and forming urine. The pressure in the glomerular capillaries, which are located in the Bowman's capsule, is essential for the filtration process.

An increase in blood pressure causes an increase in hydrostatic pressure, which can lead to increased filtration rate and increased urine formation. On the other hand, a decrease in blood pressure can cause a decrease in hydrostatic pressure, leading to decreased filtration and decreased urine formation.

Therefore, the hydrostatic pressure in Bowman's capsule is dependent on blood pressure, and any changes in blood pressure can have a significant impact on filtration and urine formation.

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I suspect that  the presence of an allergic or inflammatory condition. Additional testing, such as bloodwork and/or skin tests, may be necessary to diagnose the underlying cause of the elevated eosinophils and mast cells.

the feline may have an eosinophilic plaque. Eosinophilic plaques are a common skin condition in cats that are characterized by raised, white, ulcerated lesions that are typically found on the abdomen, thighs, or near the anus. They are often associated with high numbers of eosinophils and mast cells on cytology, which are immune cells that play a role in allergic reactions and inflammation. Eosinophilic plaques are often itchy and can be caused by a variety of factors, including allergies, parasites, or immune-mediated diseases. Treatment typically involves identifying and addressing the underlying cause, as well as providing supportive care for the skin lesions.

Atypical Langerhans cell growth characterises human eosinophilic granuloma (LCs). Dendritic cells give rise to LCs, which are antigen-presenting cells. Eosinophilic granulomas are benign tumours that primarily affect children and adolescents in humans. EG is a somewhat uncommon illness that affects slightly more men than women overall and more white people than black people. 4-5 children (under 15) per million per year and 1–2 adults per million per year develop EG.

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Staphylococcus aureus became resistant to penicillin in the early 1940s.

This was just a few years after penicillin was first introduced as a treatment for bacterial infections. The resistance occurred due to the production of the enzyme penicillinase, which breaks down the penicillin molecule and renders it ineffective. This has led to the development of other antibiotics, such as methicillin, to treat Staphylococcus aureus infections. However, resistance to these antibiotics has also developed over time.

Today, Staphylococcus aureus strains that are resistant to multiple antibiotics are commonly referred to as methicillin-resistant Staphylococcus aureus (MRSA). MRSA infections can be difficult to treat and are a significant cause of hospital-acquired infections. The continued emergence of antibiotic-resistant bacteria highlights the importance of responsible antibiotic use and the development of new treatment strategies.

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A. The name of the daily cycle is the diurnal cycle.

During the diurnal cycle, the Earth's surface is heated by the sun during the day, causing the surface to warm up and radiate heat. At night, when the sun is no longer present, the Earth's surface cools down and radiates heat out into space. This cycle of heating and cooling is essential for regulating temperatures on Earth and maintaining a balance in the radiation budget.

The diurnal cycle, also known as the daily cycle, refers to the pattern of environmental changes that occur over a 24-hour period, such as changes in temperature, light, and atmospheric pressure. These changes are driven by the rotation of the Earth on its axis, resulting in a cycle of heating and cooling, as well as changes in other environmental factors. The diurnal cycle has a significant impact on many aspects of life on Earth, including plant growth and animal behavior, and is an important factor to consider in many scientific fields, such as meteorology, ecology, and physiology.

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a.) Organism X has 18.7% thymine.
b.) Organism Y has 20.1% cytosine.
c.) Organism Y will have the higher melting DNA.

a.) Organism X will have 18.7% thymine because adenine and thymine always pair together in DNA, and they will always have the same percentage.
b.) Organism Y will have 20.1% cytosine because adenine and thymine make up 59.8% of the DNA (29.9% + 29.9%), and the remaining 40.2% will be split equally between cytosine and guanine. So, 40.2% / 2 = 20.1% cytosine.
c.) Organism Y will have the higher melting DNA because it has a higher percentage of adenine and thymine, which form two hydrogen bonds, compared to cytosine and guanine, which form three hydrogen bonds. The more hydrogen bonds, the higher the melting temperature required to denature the DNA.

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The best description used to regulate calcium levels vs ER is -  A ligand gated calcium channel opens to let calcium when the cell requents (ligand) and the calcium ATPase to shove the calcium back in."  Therefore the correct option is option B.

Calcium regulation in the ER is based on the use of two different proteins, a ligand gated calcium channel and a Calcium ATPase. The ligand gated calcium channel is responsible for allowing calcium to enter the cytosol when it is needed by the cell.

The Calcium ATPase, on the other hand, is responsible for moving calcium back into the ER when it is no longer needed in the cytosol. By using these two proteins in conjunction, the cell is able to maintain a stock of calcium and use it when necessary.

Therefore the correct option is option B.

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We need to add 5.95 grams of sodium formate (HCOONa) to 500 ml of 0.50 M formic acid (HCOOH) for a pH 3 buffer.

To calculate the amount of sodium formate (HCOONa) needed to add to 500 ml of 0.50 M formic acid (HCOOH) for a pH 3 buffer, we can use the Henderson-Hasselbalch equation:

pH = pKa + log([A-]/[HA])

Where pH is the desired pH, pKa is the acid dissociation constant, [A-] is the concentration of the conjugate base (sodium formate), and [HA] is the concentration of the weak acid (formic acid).

Rearranging the equation to solve for [A-]:

[A-] = [HA] x 10^(pH - pKa)

Substituting the given values:

[A-] = 0.50 M x 10^(3 - (-log(1.77 x 10^-4)))

[A-] = 0.50 M x 10^(3 - 3.752)

[A-] = 0.50 M x 10^(-0.752)

[A-] = 0.175 M

To convert from molarity to grams, we can use the formula:

grams = molarity x volume x molar mass

Substituting the given values:

grams = 0.175 M x 0.500 L x 68.0069 g/mol

grams = 5.95 g

Therefore, we need to add 5.95 grams of sodium formate (HCOONa) to 500 ml of 0.50 M formic acid (HCOOH) for a pH 3 buffer.

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(SATA) The ff are the functions of the Heart:

a. pumps blood throughout the body

b. delivers oxygen- and nutrient-rich blood totissues and organs

c. removes the carbon dioxide and waste products of meta

Correct answer: a, b, c

The heart performs several important functions in the body, including:
a. Pumping blood throughout the body: The heart is responsible for circulating blood throughout the body in order to deliver oxygen and nutrients to the tissues and organs.
b. Delivering oxygen- and nutrient-rich blood to tissues and organs: The heart pumps oxygen- and nutrient-rich blood to the tissues and organs in order to support their functions.
c. Removing carbon dioxide and waste products of metabolism: The heart also plays a role in removing carbon dioxide and other waste products of metabolism from the body.
The heart is a crucial organ that plays a vital role in maintaining the health and functioning of the body.

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Dispersal is the movement of individuals or propagules (e.g., seeds, spores, or larvae) from one location to another, often to colonize new areas.

This can happen in different ways depending on the species and the environmental conditions. In animals, dispersal can occur in various life stages such as eggs, larvae, or adult individuals. It can be passive, where individuals or propagules are carried by wind, water currents, or other external factors, or active, where individuals move under their own power. Active dispersal can be influenced by factors such as competition for resources, mate availability, or avoidance of predators. In plants, dispersal occurs through various mechanisms such as wind, water, or animals. Some plants have adaptations such as lightweight seeds or fruits that are designed for wind dispersal, while others produce fleshy fruits that are eaten by animals who then disperse the seeds in their feces.

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Robert Koch's postulates are no longer fully acceptable because of all of the above reasons.

First, it is not always possible to isolate the disease-causing agent from all diseases. Some diseases may be caused by multiple factors, or the agent may not be easily identifiable.

Second, not all disease-causing agents can be grown on artificial media or in tissue culture. This makes it difficult to study and identify the agent.

Finally, a microbe may be present in the host without causing disease. This is known as asymptomatic carriage, and it can make it difficult to determine the true cause of a disease.

Overall, Koch's postulates are still useful guidelines for identifying the cause of a disease, but they are not always applicable in every situation.

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the inheritance patterns, biochemical studies, and population genetics all support the idea that the H allele is dominant over the h allele in the ABO blood group system.

The H allele and h allele refer to alleles of the ABO blood group system, which is controlled by a single gene on chromosome 9. The ABO gene codes for an enzyme that attaches specific sugars to red blood cell surfaces. The H allele codes for an enzyme that adds a specific sugar called fucose to the red blood cell surface, while the A and B alleles code for enzymes that add different sugars to the red blood cell surface.

Some of the evidence supporting the dominance of the H allele includes:

inheritance patterns: The ABO blood group system follows classic Mendelian inheritance patterns, with the H allele being dominant over the h allele.

Biochemical studies: Biochemical studies have shown that individuals who are heterozygous (Hh) or homozygous (HH) .

Population genetics: Studies of the distribution of ABO blood groups in different populations have shown that the H allele is much more common than the h allele.

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The mutation in the aminoacyl-tRNA synthase that attaches other amino acids, in addition to leucine, to leucine-specific tRNAs will have a detrimental effect on the cell. This is because the tRNA will now carry the wrong amino acid, leading to the incorporation of incorrect amino acids into the polypeptide chain during protein synthesis. As a result, the protein structure and function will be altered, leading to a variety of potential phenotypes, including loss of protein function, protein misfolding, and cellular toxicity.

Furthermore, this mutation can also lead to the production of truncated proteins, as the incorporation of incorrect amino acids can lead to the formation of premature stop codons. This will result in the production of non-functional proteins, which can have a negative impact on the cell's overall function and viability.

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Answer:

The phenotype of a male who is heterozygous for the widow's peak will have the dominant trait, which is the widow's peak.

Explanation:

A lipid bilayer is a structure that is made up of two layers of lipid molecules. These lipid molecules have a polar "head" region and a non-polar "tail" region. The polar heads are hydrophilic, meaning they are attracted to water, while the non-polar tails are hydrophobic, meaning they repel water.

In a lipid bilayer, the lipid molecules align themselves so that the hydrophilic heads are on the outside of the bilayer, facing the aqueous environment, and the hydrophobic tails are on the inside of the bilayer, away from the aqueous environment. This arrangement creates a barrier that separates the inside of the cell from the outside environment.

Here is a diagram of a lipid bilayer:

In this diagram, the "H" represents the hydrophilic heads of the lipid molecules, and the "T" represents the hydrophobic tails of the lipid molecules. The hydrophilic heads are on the outside of the bilayer, facing the aqueous environment, while the hydrophobic tails are on the inside of the bilayer, away from the aqueous environment.

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Answer:

does not have a permanent home

1. Compare eukaryotic and prokaryotic cells.

Eukaryotic cells are much more complex than prokaryotic cells and have a variety of organelles including a nucleus, mitochondria, and lysosomes. In contrast, prokaryotic cells lack a nucleus and have fewer organelles, such as ribosomes. Additionally, eukaryotic cells are larger than prokaryotic cells and have more DNA content.

2. Listed the beneficial aspects of microbes. What is the goal of the public health microbiologist when it comes to microbes?

Microbes have several beneficial aspects, such as being essential for certain food production, helping to decompose organic material, and providing several important services in biotechnology and bioremediation. The goal of public health microbiologists is to understand the ways in which microbes can cause illness, as well as the ways in which microbes can be used to prevent and treat diseases.

3. Compare bacteria and Viruses.

Bacteria and viruses are both microscopic, but they have very different characteristics. Bacteria are prokaryotic cells that can live independently, reproduce, and contain DNA. Viruses, on the other hand, are not considered to be alive, as they require a host to survive and reproduce, and they do not contain DNA. Viruses also tend to be smaller than bacteria.

4. List three modern challenges in Public Health microbiology and potential ways to mitigate them.

Some modern challenges in public health microbiology include the emergence of antibiotic-resistant bacteria, the potential for new pandemics due to the increasing ability of pathogens to spread, and the ability of pathogens to rapidly evolve. Potential ways to mitigate these challenges include developing better vaccines and drugs, using better surveillance and tracking systems, and increasing public health awareness.

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Recent discoveries of microscopic fossils have extended the known history of life to about b) 3.5 billion years ago.

Recent discoveries of microscopic fossils, such as stromatolites and microfossils of prokaryotes, have pushed back the known history of life on Earth to around 3.5 billion years ago. These fossils provide evidence for the existence of simple, single-celled organisms that lived in shallow waters and were capable of photosynthesis. Prior to these discoveries, the oldest known fossils were about 2.1 billion years old. The study of these ancient organisms is important for understanding the evolution of life on Earth and the conditions that led to the emergence of more complex organisms. Additionally, it has implications for the search for extraterrestrial life, as it suggests that life may be more common in the universe than previously thought.

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The nine species of land mammals that can grow to a body weight of over 1000 kg are herbivores that use fermentative digestion. These "megaherbivores" include two species of elephants, five species of rhinos, the common hippo, and the giraffe.

The metabolic pros of such large size are the capacity for the body to more efficiently regulate its internal temperature, the capacity to feed on plants that are inedible to smaller animals, and the capacity to digest large amounts of vegetation. The metabolic cons of such large size include a slower metabolism and the need for a much larger energy intake to sustain the large body size.

No terrestrial carnivores achieve such large size because their predatory lifestyle necessitates agility and speed which would be compromised by large size. Large carnivores would also require a larger territory to sustain their food requirements and would therefore be more vulnerable to predation.

Here's the full task:

Only nine species of existing land mammals grow to adu: body weights over 1000 kg (1 megagram). All are herbivores bod employ fermentative digestion.

These "megaherbirdie that he two species of elephants, the five species of rhinos it. common hippo, and the giraffe.

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