Fill in the blank. MacConkey agar is used to selectively grow _______________ and differentiate between _______________ and _______________.
What is an example of a bacteria that grows poorly on MacConkey agar?

The basal layer of the epidermis and the innermost lining of the small intestine share similarities in their composition of epithelial cells, high cell turnover rate, and selective permeability functions, contributing to the essential roles of protection and nutrient absorption in our bodies.

The basal layer of the epidermis and the innermost lining of the small intestine is similar in a few key ways.

First, both structures are composed of epithelial cells, which are essential in providing a protective barrier and promoting nutrient absorption. In the epidermis, the basal layer contains rapidly dividing keratinocytes that help regenerate and maintain the skin's integrity. In the small intestine, the innermost lining is known as the mucosa, which consists of absorptive enterocytes and other cell types to facilitate the absorption of nutrients.

Second, both the basal layer of the epidermis and the innermost lining of the small intestine display a high rate of cell turnover. In the basal layer, keratinocytes continuously divide and migrate upward, eventually differentiating into the various cell layers of the epidermis. Similarly, the cells within the mucosa of the small intestine have a short life span, with new cells being produced in the crypts and older cells being shed into the intestinal lumen.

Third, both structures are involved in selective permeability. The basal layer of the epidermis serves as a barrier against external pathogens, while also allowing the passage of essential substances like oxygen and water. In the small intestine, the mucosal lining helps regulate the absorption of nutrients, electrolytes, and water from the food we consume, ensuring that only the necessary elements enter our bloodstream.

In summary, a combination of these factors contributes to the similarity in the basal layer of the epidermis and the small intestine.

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The primary greenhouse gas emitted through human activity is carbon dioxide.

Carbon dioxide is released into the atmosphere through various activities such as burning of fossil fuels for transportation, heating and electricity generation, industrial processes, deforestation, and agriculture.

These activities increase the concentration of carbon dioxide in the atmosphere which leads to global warming and climate change.
Other greenhouse gases such as methane and nitrous oxide are also emitted through human activities. Methane is released from agricultural practices such as livestock farming, landfills, and fossil fuel production. Nitrous oxide is mainly produced through agricultural and industrial activities.
However, carbon dioxide remains the primary greenhouse gas emitted through human activities due to the high volume of emissions produced and its long-lasting effects in the atmosphere.

It is crucial to reduce carbon dioxide emissions and transition to renewable energy sources to mitigate the impacts of climate change. Governments, individuals, and businesses need to take action to reduce their carbon footprint and adopt sustainable practices to protect the planet for future generations.

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In the 1930s, Dr. Link and his laboratory at the University of Wisconsin discovered and purified an important anti-vitamin K substance from spoiled sweet clover hay. This substance was identified as dicoumarol, a compound that inhibits the enzyme vitamin K epoxide reductase, which is involved in the activation of blood clotting factors.

Dr. Link and his laboratory at the University of Wisconsin discovered and purified an important anti-vitamin K substance in the 1930s. This substance was purified from spoiled hay that had caused fatal hemorrhages in cattle. The substance was later identified as dicoumarol, a compound that inhibits the action of vitamin K in blood clotting. The discovery of dicoumarol led to the development of anticoagulant medications, which are still widely used today to treat blood clots and prevent stroke and heart attack.

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Collagen is an extracellular matrix protein and one of the most abundant protein in the body. Its triple-helical structure is a result of the 3 coiled chains. Each chain mainly comprises of Glycine, Proline and Hydroxyproline.

The Glycine hydrogen bonds with residues of the adjacent chain while the proline and hydroxyproline C-N bonds of protein provide stability in the structure.

Chromosomes cannot be seen in the nucleus of a cell that is not dividing, not even under a microscope. The DNA that forms the chromosomes, however, becomes more densely packed and is become visible under a microscope during cell division. Scientists have mostly learned about chromosomes by observing them during cell division.

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Answer:

The principle of discounting refers to the idea that people tend to place less value on future outcomes as compared to immediate ones. In the context of marine resources, this means that people tend to prioritize immediate benefits over long-term sustainability. They may overuse marine resources like fish or shellfish in the present, without considering the long-term consequences of this depletion on the environment, the economy, or even their own future food security. The immediate benefits of overfishing, such as increased income or food availability, are seen as more important than the potential costs that may be incurred in the future, such as reduced fish populations, damaged ecosystems, or economic losses. This tendency to discount future consequences can lead to the rapid depletion of marine resources and the collapse of fisheries. Therefore, understanding the principle of discounting is important for policymakers and resource managers in developing strategies that can help ensure the long-term sustainability of marine resources.

Explanation:

During the change of state from a gas to a liquid, there is a decrease in molecular motion. As the gas cools, the molecules lose energy and slow down, causing them to come closer together and form a liquid. The decrease in molecular motion is a key factor in this change of state.

When a state changes from a higher energetic state to a less energetic state, molecular motion normally slows down. This alteration can be seen during the phase shift from a liquid to a solid or from a gas to a liquid. The molecules slow down and become more densely packed together as the temperature drops and the intermolecular interactions between them strengthen throughout these transitions. As a result, the molecules' mobility slows down and the system becomes more organised. A phase transition is characterised by a reduction in molecular mobility, which is connected to the release or absorption of energy during the transition.

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The mass flow rate of the outlet cell suspension stream is 408.3 kg/min, the mass flow rate of the outlet buffer stream is 138.3 kg/min, and the mass flow rate of water across the membrane is -58.3 kg/min.

To solve this problem, we need to apply mass balance equations.

We can assume that the total mass of the system remains constant, so the mass flow rate of the inlet stream (cell suspension plus water) must be equal to the mass flow rate of the outlet streams (concentrated cell suspension plus water that has passed across the membrane).

We can start by calculating the mass flow rate of water across the membrane. This can be determined using the formula:

Q_water = Q_inlet * (C_inlet - C_outlet) / C_outlet

where Q_inlet is the flow rate of the cell suspension plus water, C_inlet is the concentration of bacteria in the inlet cell suspension (1.0 wt%), C_outlet is the concentration of bacteria in the outlet cell suspension (6.0 wt%), and Q_water is the mass flow rate of water across the membrane.

Substituting the given values, we get:

Q_water = 350 kg/min * (0.01 - 0.06) / 0.06

Q_water = -58.3 kg/min

This negative value indicates that water is flowing across the membrane from the buffer solution into the cell suspension.

Next, we can use the mass balance equation to determine the mass flow rate of the outlet cell suspension stream:

Q_outlet_cells = Q_inlet - Q_water

Q_outlet_cells = 350 kg/min - (-58.3 kg/min)

Q_outlet_cells = 408.3 kg/min

Finally, we can calculate the mass flow rate of the outlet buffer stream:

Q_outlet_buffer = Q_buffer - Q_water

Q_outlet_buffer = 80.0 kg/min - (-58.3 kg/min)

Q_outlet_buffer = 138.3 kg/min

Therefore, the mass flow rate of the outlet cell suspension stream is 408.3 kg/min, the mass flow rate of the outlet buffer stream is 138.3 kg/min, and the mass flow rate of water across the membrane is -58.3 kg/min.

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The genetic relationship that is similar to a hammer and the nails known as between an enzyme and a substrate.

An analogy between using a hammer and nails and a genetic relationship are referring to is: a hammer is needed to pound nails into a board, just like an enzyme is necessary to facilitate the process of gene expression. Even if one has the genetic material (nails), they cannot be expressed without the help of enzymes (hammer). This is similar to the concept of gene regulation in molecular biology, where enzymes act as catalysts for specific processes, such as transcription and translation, to produce functional gene products.

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Temperature is a measure of an object's average molecular kinetic energy.

Temperature expresses a fundamental characteristic at play within substances and systems through its determination of their respective degrees of hotness or coldness.

The average kinetic energies found at this level directly relate to specific particle behaviors exhibited in those substances and systems. It quantifies these behaviors through degrees corresponding to relative amounts of thermal energy that can be evaluated through analysis.

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Sodium and potassium leak channels and membrane pumps are ubiquitous, while voltage-gated channels are axonal.

Sodium leak channels, potassium leak channels, and membrane pumps are present throughout the membrane of a neuron. Voltage-gated sodium channels and voltage-gated potassium channels are mainly located in the axon membrane.

In summary, while sodium leak channels, potassium leak channels, and membrane pumps are present throughout the neuronal membrane, voltage-gated sodium channels and voltage-gated potassium channels are primarily located in the axon membrane and play a crucial role in neuronal signaling.

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Thrush is caused by the yeast species.

Thrush is caused by the yeast species Candida albicans, which could be a unicellular organism. Crytococcus neoformans could be a distinctive yeast species that can cause a sort of parasitic disease called cryptococcosis, whereas Trypanosoma brucei could be a protozoan parasite that causes African trypanosomiasis (resting affliction) and is transmitted by contaminated tsetse flies, not ticks.

Cryptococcal meningitis is an contamination caused by the organism Cryptococcus after it spreads from the lungs to the brain. The indications of cryptococcal meningitis incorporate: Cerebral pain. Fever. Neck torment.

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O2 in the air to reach a cell in your arm, it first moves into your lungs by inhalation, then moves into your blood by diffusion, then moves to your arm by circulation, and finally moves into a cell in your arm by diffusion.

To provide an explanation, the air we breathe contains O2, which is needed by our cells for energy production. When we inhale, air enters our lungs and diffuses across the alveoli membranes into our blood vessels. Hemoglobin in our red blood cells binds to O2, allowing it to be transported through our circulatory system to our arms and other parts of our body.

Finally, O2 diffuses from the blood vessels into our cells, where it is used for cellular respiration to produce energy. In summary, the process of O2 transport from the air we breathe to the cells in our arms involves inhalation, diffusion, circulation, and diffusion again.

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Genes and proteins are grouped into families and superfamilies based on similarities in their structure, function, and sequence. This classification allows for better understanding of their evolutionary relationships and functional characteristics.

Protein families are composed of proteins with related structures and functions, often resulting from gene duplication events in evolution. These proteins share significant sequence similarity and have conserved regions that are critical for their function. For instance, the serine protease family includes enzymes that share a common catalytic mechanism and conserved amino acid sequence.

Superfamilies comprise multiple protein families that share a common structural fold, even if their sequences are less similar. They often perform related functions and may have a common evolutionary origin. One example is the immunoglobulin superfamily, which includes proteins involved in cell adhesion and immune response.

Gene families are sets of homologous genes that share a common ancestor and encode proteins with similar functions. These genes may be located within the same organism or spread across multiple species. The globin gene family, responsible for oxygen transport in various organisms, is a well-known example.

In summary, grouping genes and proteins into families and superfamilies provides insights into their evolutionary history and functional roles, while facilitating research and identification of novel therapeutic targets.

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Drinking water can affect urinalysis results significantly.

Drinking water can have a significant impact on the results of a urinalysis. Urine volume is likely to increase after drinking a liter of water, leading to a decrease in the concentration of solutes in the urine and a subsequent decrease in specific gravity. The color of urine may also become more dilute after drinking water, appearing more clear or pale yellow. Additionally, the pH of urine may become more alkaline after water intake. Electrolyte concentrations, such as sodium, potassium, and chloride, may also be diluted in the urine after drinking water. It is important to take into account recent water intake when interpreting the results of a urinalysis.

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Low gametic investment in gametes means that males will not be monogamous is a False statement.

Low gametic investment in gametes does not necessarily mean that males will not be monogamous. Monogamy is a behavioral trait that can be influenced by various factors including social and environmental conditions. While some species with low gametic investment in males may exhibit polygamous behaviors, others may be monogamous. Therefore, there is no direct relationship between low gametic investment and male monogamy.

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A man and a woman have two sons. Each son has three daughters. all 6 grandchildren have the woman's mitochondria.

All of the grandchildren have the woman's mitochondria.
1. The man and woman have two sons.
2. Each son has three daughters, so there are a total of 2 x 3 = 6 grandchildren.
3. Mitochondria are inherited exclusively from the mother, so each of the sons has the woman's mitochondria.
4. Since each son's daughters inherit their mitochondria from their father (the woman's son), all 6 grandchildren have the woman's mitochondria.

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Assuming a 28-day ovarian cycle, ovulation should occur on day 14. This is because ovulation typically occurs around the midpoint of the cycle.

The ovarian cycle can be divided into three phases: the follicular phase, ovulation, and the luteal phase. The follicular phase begins on the first day of menstruation and lasts until ovulation. During this phase, follicles in the ovaries mature and prepare for ovulation. Ovulation occurs when a mature follicle releases an egg into the fallopian tube. The luteal phase begins after ovulation and lasts until the start of the next menstrual cycle. During this phase, the remaining cells in the follicle form the corpus luteum, which produces progesterone to prepare the uterus for a potential pregnancy.
It is important to note that not all women have a 28-day ovarian cycle, and cycle length can vary from person to person.

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Sedentary animals that live somehow attached to an area have a body plan known as sessility.

This type of body plan is characterized by the lack of movement, as the animals are rooted in one location. This type of lifestyle is often found in animals that live in the ocean, such as sea anemones, corals, sponges, and barnacles.

Sessile animals have adapted to their environment, often by developing a hard outer shell or a tough fleshy base. This helps protect them from potential predators and from being washed away by the motion of the water. Another adaptation is the ability to filter food from the passing water, as well as to capture prey.

Some sessile animals have even evolved the ability to move, albeit slowly, by using their tentacles or mouths to cling to surfaces. Sessile animals can also reproduce asexually, allowing them to spread and colonize new areas. This unique body plan has enabled them to survive in a wide variety of habitats and to thrive in their niche.

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B) MPF triggers the cell's passage past the G2 checkpoint into mitosis.

MPF, or Maturation Promoting Factor, is a complex made of cyclin and Cdk (cyclin-dependent kinase) that plays a crucial role in regulating the cell cycle and allowing the cell to proceed from the G2 phase into mitosis. MPF means maturation-promoting factor. It is a protein complex that activates targets necessary to push the cell through the cell cycle.

The three parts of the maturation promoting factor are M cyclin, a cyclin dependent kinase, and a phosphate group which is used to phosphorylate target proteins. During mitosis MPF is deactivated. During anaphase, active MPF activates another protein complex, APC. APC causes the M cyclins to be destroyed, thus deactivating MPF and allowing the new daughter cells to exit mitosis into G1. Maturation-promoting factor is a protein complex made of a cyclin (M cyclin) and a cyclin dependent kinase. The cyclin dependent kinase is activated upon binding to the M cyclin and can phosphorylate targets that promote the cell to move through G2 phase into mitosis, or M phase.

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The signal that activates the vir locus in Agrobacterium tumefaciens as a result of a wound in plants is the release of phenolic compounds from the injured plant tissue.

The signal that activates the vir locus in Agrobacterium tumefaciens is a chemical signal released by the wounded plant cells, which is sensed by the bacteria and triggers the activation of virulence genes.

This signal is believed to be a specific type of phenolic compound, which is released at the wound site and serves as a signal to the bacterium to initiate the infection process.

Once activated, the virulence genes enable the bacterium to transfer a segment of its DNA, called T-DNA, into the plant cell, which then integrates into the host genome and causes the formation of a tumor or gall.

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Polar orbiting satellites travel in a path that passes over the Earth's polar regions. These satellites typically orbit at a relatively low altitude of a few hundred kilometers (around 500–800 km) and complete one orbit of the Earth in about 90–120 minutes.

Polar-orbiting satellites are used for a variety of purposes, including remote sensing, weather forecasting, and scientific research. Because they pass over the Earth's poles, they are able to provide global coverage of the Earth's surface, including regions that are difficult to access by other means. Polar orbiting satellites can also provide information on the Earth's atmosphere, including temperature, humidity, and other atmospheric variables, which is important for weather forecasting and climate research.

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The diploid organism Biologica isawesema has 10 total chromosomes in each of its body (somatic) cells. A zygote produced from the fusion of a sperm and egg from Biologica isawesema would contain 10 chromosomes (Option E).

Biologica isawesema is a diploid organism, meaning it has two sets of chromosomes in its somatic cells. It has 10 total chromosomes in each somatic cell, which means it has 5 chromosomes from each parent (5 from the sperm and 5 from the egg). When a sperm (with 5 chromosomes) and an egg (with 5 chromosomes) from Biologica isawesema fuse, the resulting zygote will have a total of 10 chromosomes (5 from each parent).

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The motor neurons and the motor system are the last components of the nervous system to be involved in the process of swatting at a mosquito.

When a mosquito lands on your hand, sensory neurons in your skin detect the presence of the mosquito and transmit this sensory information to the central nervous system (CNS), specifically the spinal cord or the brain, depending on the reflex or conscious response.

Within the CNS, the sensory information is processed and integrated, leading to the generation of an appropriate motor response. In this case, the response is to swat at the mosquito.

The motor commands are then sent from the CNS to the motor neurons, which are the efferent neurons that carry the signals from the CNS to the muscles responsible for the swatting motion.

The motor neurons transmit the motor commands to the relevant muscles involved in the swatting action, initiating the contraction of these muscles and resulting in the physical movement of the hand to swat at the mosquito.

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Group A, Streptococcus pneumoniae belongs to no antigens, Streptococcus viridans belongs to no antigens, Streptococcus agalactiae belongs to group B, and Streptococcus gallolyticus (formerly S. bovis) belongs to group D.

It is a terrible medical disorder that affects infants and, if left untreated, can be fatal.

Meningitis is the medical term for inflammation of the meninges, a membrane that surrounds and protects the central nervous system.

The neonatal period, or when the infant is less than 44 days old, is when this condition is most prevalent.

The mortality rate in affluent nations ranges from 8 to 12.5%.

The blood-borne bacterial infection known as bacteremia, specifically the Streptococcus agalactiae, is the most frequent cause of neonatal meningitis.

The development of vaccines for the common cold has proven difficult due to the antigenic variety of the common cold virus and the enormous number of indistinguishable other viruses and even bacteria serving as infectious agents.

The following are the most common non-invasive diseases: The precise cause of strep throat, also known as a sore throat, is streptococcal infection. Easily contagious skin condition impetigo that causes blisters and ulcers

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The response of a motor unit to a single action potential of its motor neuron is called a muscle twitch. A muscle twitch is a brief and involuntary contraction of a small number of muscle fibers within a motor unit.

It occurs when an action potential is transmitted from the motor neuron to the muscle fiber at the neuromuscular junction, causing the release of calcium ions into the muscle fiber, which then triggers the contraction.
The strength and duration of a muscle twitch can vary depending on the type of muscle fiber involved and the frequency of stimulation. Slow-twitch muscle fibers, also known as type I fibers, have a slower contraction speed and are better suited for endurance activities. Fast-twitch muscle fibers, also known as type II fibers, have a faster contraction speed and are better suited for power and explosive activities.
In summary, a muscle twitch is the response of a motor unit to a single action potential of its motor neuron, and it is an important physiological process involved in muscle contraction and movement.

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Aspartic acid (Asp) is the least likely amino acid to be found in the transmembrane domains of GPCR43. This is because Asp is a polar and charged amino acid, which doesn't favor the hydrophobic environment found in transmembrane domains. So the correct answer is option A.

The transmembrane domains of GPCR43 are hydrophobic in nature and contain mainly non-polar amino acids. Among the given options, Asp is a polar amino acid and is less likely to be found in the transmembrane domains of GPCR43. On the other hand, Gly is a small, non-polar amino acid that is commonly found in transmembrane domains of proteins due to its ability to adopt a range of conformations. Trp and Phe are both bulky, aromatic amino acids that are commonly found in transmembrane domains due to their ability to form stable hydrophobic interactions with the surrounding lipid bilayer.

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Fuzzy assessment are universal approximators. If the data matches certain conditions, the fuzzy system can approximate the data with high accuracy, whether it is built intuitively, or tuned by ANFIS.

Fuzzy assessment is an important part of any classification project. It compares the classified image to another data source that is considered to be accurate or ground truth data.

The purpose of fuzzy assessment is the identification and measurement of map errors. It involves comparison of a site on a map ('classified data') against field or photo information ('reference data') for the same site.

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When the body needs to exercise after muscle cells develop oxygen debt, it carries out anaerobic respiration.

When the body needs to exercise after muscle cells develop oxygen debt, it carries out anaerobic respiration to produce energy without relying on oxygen. This process involves breaking down glucose to produce ATP, which allows the muscles to continue contracting even when oxygen is limited. However, this process also produces lactic acid, which can build up in the muscles and cause fatigue. Once oxygen becomes available again, the body can switch back to aerobic respiration, which is more efficient and does not produce lactic acid.

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The process of transporting nutrients into our blood is called absorption or nutrient absorption.

The process of transporting nutrients that we have consumed into our blood is known as digestion and absorption. It is a complex series of physiological processes that occur in the gastrointestinal tract.

The process begins in the mouth, where food is broken down into smaller particles by chewing and mixed with saliva. The food then travels down the esophagus and enters the stomach, where it is further broken down by gastric juices and enzymes.

Next, the partially digested food moves into the small intestine, where the majority of nutrient absorption takes place. The lining of the small intestine is lined with tiny, finger-like projections called villi, which increase the surface area available for absorption.

Nutrients such as carbohydrates, proteins, fats, vitamins, and minerals are absorbed through the villi and enter the bloodstream.

Water and some nutrients, such as electrolytes, are also absorbed in the large intestine. The remaining undigested waste material is formed into feces and eliminated from the body through the rectum and anus.

Overall, the process of digestion and absorption plays a vital role in providing our cells and tissues with the essential nutrients needed for growth, energy production, and overall functioning of the body.

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To make a 0.1 M solution of NaCl with a total volume of 0.6 L (or 600 mL), we can use the dilution formula:

C1V1 = C2V2

where C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume.

Given:

C1 = 3 M (initial concentration of the stock solution)

V1 = ? (initial volume of the stock solution, to be determined)

C2 = 0.1 M (final concentration of the desired solution)

V2 = 0.6 L (final volume of the desired solution)

Rearranging the formula, we can solve for V1:

V1 = (C2 * V2) / C1

Substituting the given values:

V1 = (0.1 M * 0.6 L) / 3 M

V1 = 0.02 L or 20 mL

Therefore, you would need 20 mL of the 3 M NaCl stock solution to make a 0.1 M NaCl solution with a total volume of 0.6 L (or 600 mL).

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