In response to proteins and fats in the small intestine, the duodenum releases the hormone

The best disinfectant to use in large-diameter pipes or very long pipelines depends on various factors such as the nature of the water source, the type of pipe material, and the disinfection by-products formed during the disinfection process.

However, sodium hypochlorite is a commonly used disinfectant for large-diameter pipes or very long pipelines due to its effectiveness and ease of use. It can rapidly disinfect the water and maintain residual disinfectant levels throughout the pipeline system. Chloramines can also be used as a disinfectant, but it is a slower-acting disinfectant and requires longer contact time to achieve the same level of disinfection. Calcium hypochlorite is a solid form of chlorine and is not commonly used for large-scale disinfection of pipelines. Chlorine gas is hazardous to handle and can pose a risk to workers, making it less commonly used.

The disinfection of large-diameter pipes or very long pipelines is essential to ensure that the water remains safe for human consumption. The disinfectant used must be effective in killing harmful microorganisms and maintaining residual disinfectant levels throughout the pipeline system.

Sodium hypochlorite is a commonly used disinfectant for large-diameter pipes or very long pipelines due to its effectiveness and ease of use. It is a liquid form of chlorine that can rapidly disinfect the water and maintain residual disinfectant levels throughout the pipeline system. The amount of sodium hypochlorite used will depend on the flow rate, pipe diameter, and the quality of the water being treated.

Chloramines can also be used as a disinfectant, but it is a slower-acting disinfectant and requires longer contact time to achieve the same level of disinfection as sodium hypochlorite. Chloramines are formed by combining chlorine with ammonia and are a more stable disinfectant compared to free chlorine, which means that they can provide longer-lasting residual disinfectant levels in the pipeline system.

Calcium hypochlorite is a solid form of chlorine and is not commonly used for large-scale disinfection of pipelines. It is more commonly used for disinfecting small to medium-sized water systems, such as wells, swimming pools, and wastewater treatment plants.

Chlorine gas is another disinfectant that can be used for large-diameter pipes or very long pipelines, but it is hazardous to handle and can pose a risk to workers. It is more commonly used in smaller water treatment systems where the risk can be better managed.

In summary, sodium hypochlorite and chloramines are the most commonly used disinfectants for large-diameter pipes or very long pipelines due to their effectiveness and ease of use. The choice of disinfectant will depend on various factors, such as the water quality, pipe material, flow rate, and regulatory requirements.

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Prolonged inspirations can result from stimulating the apneustic inspiratory center.

Inspiration is a process of respiration. It is the process whereby a body takes in or intakes oxygen. It may also be referred to as breathing in. Prolonged inspirations can result from stimulating the apneustic center. This center is located in the lower pons of the brainstem and plays a role in controlling the respiratory system by promoting long, deep inhalations.

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An ecosystem is a collection of all the living and nonliving things in a given area. Hence option D is correct.

A community of living things (plants, animals, and bacteria) in a specific location is called an ecosystem. 'Eco' refers to a region of the earth, and'system' refers to the organizing elements. An ecosystem is a group of creatures interacting with their physical surroundings.

An ecosystem is made up of a variety of biotic and abiotic (non-living) elements. The abiotic elements of an ecosystem are the numerous physical and chemical components. The physical elements of light, temperature, precipitation, air, soil, fire, and water have the biggest impacts on the ecosystem. A biome is a group of ecosystems in a specific geographic area that each have their own unique flora, fauna, and climate.

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Somnambulism, also known as sleepwalking, is a condition in which an individual engages in activities such as walking or performing complex tasks while they are still asleep.

Sleepwalking typically occurs during the non-rapid eye movement (NREM) stage of sleep, particularly during the deep stages of NREM, when the brain is primarily in slow-wave sleep.

Various factors contribute to sleepwalking, including genetic predisposition, sleep deprivation, stress, and certain medications. Additionally, alcohol consumption and certain medical conditions, such as sleep apnea or restless legs syndrome, may increase the likelihood of sleepwalking episodes.

During a sleepwalking episode, the sleepwalker may exhibit behaviors like walking, talking, or even eating, without any awareness or memory of their actions upon waking up. In some cases, sleepwalkers may perform potentially dangerous activities, such as driving or leaving the house, posing a risk to themselves and others.

To manage sleepwalking, it is essential to establish a regular sleep schedule, create a calming bedtime routine, and minimize stress. Additionally, ensuring the sleep environment is safe by removing obstacles, locking doors and windows, and using alarms can help prevent sleepwalking-related accidents. In more severe cases, medical intervention, such as prescription medication or therapy, may be necessary. It is also essential to consult a healthcare professional if sleepwalking persists or presents safety concerns.

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The component of a homeostatic system that perceives changes in some parameter of the environment is the sensor. Therefore the correct option is option B.

The component of a homeostatic system that perceives changes in some parameter of the environment is the sensor.

The sensor detects changes in the internal or external environment and sends this information to the integrator, which compares it to the set point and initiates a response if necessary.

The effector carries out the response to restore the parameter to the set point. Together, these components make up the homeostatic feedback loop, which helps to maintain stable conditions in the body. Therefore the correct option is option B.

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Small RNAs serve a variety of purposes, like option B: to cause mRNA transcripts to be broken down by a protein complex, and option D: mRNA molecules from being translated.

By attaching to particular mRNAs and either preventing or triggering the destruction of their translation, small RNAs, such as microRNAs and siRNAs, can control the expression of genes. They neither carry the information required to construct proteins on their own, nor do they construct proteins using codons.  

Numerous biological processes require RNA, also known as ribonucleic acid, which is a single-stranded nucleic acid. Its structure is comparable to that of DNA, except instead of deoxyribose and thymine, it contains the sugar ribose and the nucleotide uracil.

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If there is a mutation in kruppel, stripe 2 of EVE would expand towards the anterior region.

The transcription factor Kruppel is known to be involved in regulating the expression of genes during early embryonic development in fruit flies, including the expression of the pair-rule gene even-skipped (EVE).

In Drosophila melanogaster, EVE is expressed in seven stripes along the anterior-posterior axis of the embryo, with stripe 2 being located more towards the anterior region. The expression of EVE in these stripes is regulated by a complex network of interactions between various genes and transcription factors, including Kruppel.

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B combined with hemoglobin. Hemoglobin is a protein found in red blood cells that binds to oxygen and transports it to the body tissues.

Hemoglobin is a protein found in the red blood cells of almost all vertebrates and in the tissues of some invertebrates. It is an iron-containing oxygen-transport metalloprotein that carries oxygen from the respiratory organs to the rest of the body, where it releases the oxygen to permit aerobic respiration to provide energy to power functions of an organism in the process called metabolism. In humans, hemoglobin is responsible for carrying oxygen to the body's organs and tissues and transporting carbon dioxide from the tissues back to the lungs. Hemoglobin is made up of four protein molecules that are connected together, and it is abbreviated as Hb or Hgb

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A computer is a not a living thing as it is cannot grow, cannot reproduce etc. which are some of the characters of a living thing.

A living thing is basically any organism or any kind of life form which happens to possess or show the characteristics which include fundamental characteristics are having a conscious response to stimuli as well as adapting to environmental changes, and being able to reproduce, to be able to grow, to metabolize, and die.

Computers are made by living organisms, which is humans, but a computer itself is non-living as it does not shoe any kind of characteristics of living beings.

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Dead zones resulting from hypoxia and anoxia are prevalent in coastal waters west of the Mississippi River Delta during the summer months.

Dead zones resulting from hypoxia and anoxia are prevalent in coastal waters west of the Mississippi River delta during the summer months. This is due to the excess nutrient inputs from agricultural runoff and other sources, which lead to excessive algal growth. As the algae die and sink to the bottom, they are decomposed by bacteria, which consume oxygen from the water column. This process creates a low-oxygen or hypoxic environment, which can result in fish kills and other negative impacts on marine life. The term "delta" refers to the large sedimentary deposits that accumulate at the mouth of a river, such as the Mississippi. Hydrocarbons are organic compounds that are commonly found in oil and gas deposits, and can have harmful effects on marine ecosystems if they are released into the environment through oil spills or other accidents. However, organic hydrocarbons are not typically a significant factor in the formation of dead zones resulting from hypoxia and anoxia.

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After a volcanic eruption, the immediate aftermath is usually characterized by devastation and destruction of the local ecosystem due to the release of heat, ash, lava, gases, and other volcanic materials.

What is Pioneer species?

Pioneer species are typically hardy and adaptable organisms that can tolerate harsh conditions, such as extreme temperatures, high acidity, or nutrient-poor soils. These may include specialized plants like mosses, lichens, and ferns, as well as some invertebrates and microbes.

Many organisms in the affected area may perish or be forced to flee, leaving the area devoid of life. However, over time, various organisms, known as pioneer species, can return and establish themselves at the site, initiating a process of ecological succession.

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In the circulatory system, the muscular organ that pumps blood is called the heart.

It is a powerful organ that works continuously throughout a person's life to circulate blood to all parts of the body. The heart is located in the chest cavity, between the lungs, and is roughly the size of a closed fist. It is composed of four chambers: the right atrium, the right ventricle, the left atrium, and the left ventricle. The atria receive blood from the body and the lungs, while the ventricles pump the blood back out to the body and the lungs. The heart is surrounded by a protective sac called the pericardium, and it is supplied with oxygen and nutrients by a network of blood vessels called the coronary circulation. The heart muscle, or myocardium, is composed of specialized cells called cardiac myocytes that are capable of generating their own electrical impulses and contracting rhythmically to pump blood.

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Hominin evolution is a complex and multifaceted process that cannot be accurately depicted as a simple linear chain. While it is true that some hominin species have gone extinct over time and have been replaced by others, this is only one aspect of a much more complicated evolutionary history.

In reality, hominin evolution is characterized by a number of different branches and interconnections, with different species coexisting and interacting with each other in various ways. Additionally, the evolutionary process itself is not always straightforward, with some species undergoing significant changes over time while others remain relatively stable. Overall, it is important to recognize that the evolution of hominins is a complex and ongoing process that defies simple categorization.

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One of the effects of the stimulation of receptors in the central nervous system by nicotine is to release adrenalin. The correct answer is D.

Nicotine is a stimulant drug that interacts with the central nervous system by binding to and activating nicotinic acetylcholine receptors.

One of the effects of nicotine stimulation of these receptors is the release of adrenaline (epinephrine), a hormone produced by the adrenal glands.

Adrenaline is part of the body's "fight or flight" response to stress, and its release can increase heart rate, blood pressure, and respiratory rate.

It can also cause the liver to release glucose into the bloodstream, providing additional energy for the body's response to stress.

In addition to adrenaline, nicotine can also release other neurotransmitters and hormones, including dopamine, norepinephrine, and serotonin.

These substances can affect mood, appetite, and other physiological processes.

Overall, the release of adrenaline is one of the key effects of nicotine on the central nervous system and may contribute to the addictive properties of the drug. Therefore, the correct answer is D.

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The answer is C. 2. Coat color in Labrador retrievers is determined by two genes: the B gene,

Coat color in Labrador retrievers is determined by two genes: the B gene, which controls the amount of black pigment (B = black, b = brown), and the E gene, which determines whether or not the dog has yellow pigment (E = dominant, e = recessive). The different combinations of these genes can result in the variations of coat colors seen in the cross of a black female with a brown male. The cross of a black female Labrador retriever with a brown male can result in offspring with a variety of coat colors, depending on the genotype of the parents. The B gene controls the amount of black pigment in the dog's coat. Black is dominant over brown, so a dog with two copies of the B allele (BB) or one copy of B and one copy of b (Bb) will have black fur, while a dog with two copies of the b allele (bb) will have brown fur.

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The shark structure closest in function to a swim bladder full of gas is C) its liver. The liver in sharks is large and contains oil, which helps with buoyancy and maintaining their position in the water.

The liver of a shark contains oils that are less dense than water, which helps to provide buoyancy and allows the shark to control its depth in the water. This function is similar to the swim bladder in bony fish, which is also used to control buoyancy. The lateral line system helps sharks detect changes in water pressure and movement, the spiral valve aids in digestion, and the gills are used for respiration.
The shark structure closest in function to a swim bladder full of gas is C) its liver. The liver in sharks is large and contains oil, which helps with buoyancy and maintaining their position in the water.

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Unlike eutherians, both monotremes and marsupials have some embryonic development outside the uterus.

Monotremes and marsupials are two groups of mammals that differ from eutherians (placental mammals) in their reproductive strategies. Both monotremes and marsupials exhibit some embryonic development outside the uterus.

Monotremes, such as the platypus and echidna, are unique among mammals in that they lay eggs instead of giving birth to live young. The eggs of monotremes are incubated outside the mother's body, and after hatching, the young are fed with milk produced by mammary glands, but they do not have nipples.

Marsupials, such as kangaroos, wallabies, and opossums, give birth to relatively undeveloped young that are then carried and nursed in a pouch on the mother's belly. The young continue to develop and grow outside the uterus, attached to the mother's nipples inside the pouch, until they are sufficiently developed to survive independently.

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The biologically active coating that forms on the top of slow sand filters is termed the Schmutzdecke.

On top of the sand, a thin layer of living things, organic material, and silt known as the Schmutzdecke develops.

Due to its significant contribution to the removal of bacteria and other impurities from the water, it is a crucial component of the slow sand filtering process.

Algae, fungi, protozoa, and other microbes as well as organic materials including dead plant and animal matter make up the Schmutzdecke. These organisms feed on the organic material and make slime that traps bacteria, aiding in the removal of germs and other impurities from the water.

Due to the organisms' need for oxygen to survive, the Schmutzdecke actively pumps oxygen into the water, which is another crucial function of the Schmutzdecke. The water is kept clean and clear thanks to this procedure.

Complete Question:

The biologically active coating that forms on the top of slow sand filters is termed the _______.

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The correct answer is (d). TPCK is an analog of Phe, which is a residue that chymotrypsin recognizes and cleaves. Therefore, TPCK is a better inhibitor of chymotrypsin. On the other hand, TLCK is an analog of Lys, which is a residue that trypsin recognizes and cleaves.

Therefore, TLCK is a better inhibitor of trypsin. This demonstrates the importance of understanding the specific interactions between enzymes and their substrates in the design of inhibitors. The concept of Technological Pedagogical Content Knowledge (TPCK) may also be relevant here as it refers to the knowledge of how to use technology effectively to teach a particular subject matter, which may involve understanding specific interactions between technology and content. However, it is not directly related to this question. Trasylol (aprotinin), Lysine, Cysteine, and Kallikrein are abbreviated as TLCK. Trasylol is a drug used to stop blood loss during surgery; it does this by blocking the kallikrein enzyme. Amino acids, which serve as the foundation for proteins, include lysine and cysteine.

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Cooking apples in water and cooking them in a sugar solution can result in different textural changes due to the effect of heat and sugar on the fruit's cellular structure and pectin content. the texture of cooked apples can vary depending on the cooking method and the presence of added sugar.

When apples are cooked in water, the heat causes the cell walls to break down, releasing the pectin molecules contained within the fruit's cell walls. Pectin is a form of soluble fibre that gives fruit structure and causes cooked fruit to thicken into a sauce or jam.

Cooking apples in water for an extended period of time may result in a softer texture because the heat and water break down the cell walls and soften the fruit. The flavour of the cooked apples may be less sweet and less prominent if no sugar is used.

When apples are cooked in a sugar solution, the additional sugar helps preserve the texture and shape of the fruit by generating a syrup that coats the apple's surface.

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Reciprocal crosses involve switching the sexes of the parents in a breeding experiment to determine if the inheritance pattern is influenced by the sex of the parent, and can also reveal patterns of dominance or recessiveness among the different alleles.

Gregor Mendel used reciprocal crosses in his experiments with pea plants to demonstrate that the inheritance of traits is independent of the sex of the parent. He crossed a female plant homozygous for yellow seeds with a male plant homozygous for green seeds and then crossed a female plant homozygous for green seeds with a male plant homozygous for yellow seeds.

In both crosses, the inheritance pattern of the seed color trait was the same, demonstrating that the inheritance of the trait was not dependent on the sex of the parent.

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The complete question is:

Experimental technique: Reciprocal crosses When Gregor Mendel conducted his genetic experiments with pea plants, he observed that a trait's inheritance pattern was the same regardless of whether the trait was inherited from the maternal or paternal parent. Mendel made these observations by carrying out reciprocal crosses: For example, he first crossed a female plant homozygous for yellow seeds with a male plant homozygous for green seeds, and then crossed a female plant homozygous for green seeds with a male plant homozygous for yellow seeds.

w+ w+

w+ w

w w

w+ Y

w Y

w

w+

Y

What can be depicted from the given data?

B) The thioester has extensive π overlap between the S and carbonyl carbon.
Thioesters have less π overlap compared to regular esters due to the larger size of the sulfur atom, which leads to weaker resonance stabilization.

answer - The statement that is NOT true about thioesters is B) The thioester has extensive Ï overlap between the S and carbonyl carbon. Thioesters actually have very little Ï overlap between the sulfur and carbonyl carbon, which makes the bond weaker and more reactive than a regular ester bond. The other statements are all true: A) There is little double bond character to the CâSR bond, C) The thioester bond is destabilized, and D) The thioester bond is a weaker bond, making RSâ a good leaving group.

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The electron used in photosystem II is found in the very late photosystem I of light reactions. Here option C is the correct answer.

Photosystem II (PSII) is a complex of pigments and proteins located in the thylakoid membrane of chloroplasts in photosynthetic organisms. It plays a crucial role in the light reactions of photosynthesis, where it captures photons and uses their energy to generate an electrochemical gradient across the thylakoid membrane, which is subsequently used to produce ATP and NADPH.

During the light reactions, PSII absorbs light energy and uses it to excite electrons in the pigments, which are then transferred to a series of electron carriers within the thylakoid membrane. These electron carriers ultimately transfer the electrons to photosystem I (PSI), where they are further energized by the absorption of additional light energy before being used to reduce NADP+ to NADPH.

Therefore, the electrons used in PSII are not found at the very end of the light reactions, as they are ultimately transferred to PSI and used to produce NADPH. The electrons that are found at the end of the light reactions are those that have been used to generate an electrochemical gradient across the thylakoid membrane, which is subsequently used to produce ATP through the process of photophosphorylation.

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Complete question:

Where are the electrons used in photosystem II found at the very end of the light reactions?

A - in the stroma

B - in NADPH

C - in photosystem I

D - in ATP

E - in chlorophyll

Peahen's nesting behavior is a reproductive strategy involving ground-based, concealed nests that protect eggs from predators and weather.

The peahen's nesting behavior is a reproductive strategy designed to increase the likelihood of offspring survival.

Peahens create ground-based nests, often in tall grass or bushes, to conceal their eggs from potential predators.

This camouflage offers protection for the vulnerable eggs, increasing their chances of hatching successfully.

Furthermore, by constructing the nest on the ground, the peahen can easily incubate and protect the eggs from harsh weather conditions.

The combination of these factors enhances the overall success of the peahen's reproduction process, ensuring the continuation of her genetic lineage and promoting the survival of her species.

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The problem of nitrogen and phosphorus not being biologically available is solved through a process called nutrient cycling.

This involves the breakdown of organic matter by microorganisms, which release nutrients in forms that can be taken up by plants. Plants then use these nutrients to grow and reproduce, and are consumed by animals, continuing the cycle.

Human activities, such as fertilizer application and land use changes, can disrupt this cycle and lead to nutrient imbalances and environmental problems.

Therefore, sustainable management practices that prioritize nutrient cycling and minimize nutrient losses are important for maintaining ecosystem health and productivity.

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The problem of nitrogen and phosphorus not being biologically available can be solved through a process called fertilization. Fertilizers contain nitrogen and phosphorus in forms that can be easily taken up by plants, making them available for use in agriculture and gardening. Additionally, certain soil bacteria can convert nitrogen from the air into a form that plants can use, which can also increase the availability of this important nutrient.

The problem of limited bioavailability of nitrogen and phosphorus is solved by processes such as nitrogen fixation and phosphorus mineralization. Nitrogen fixation is carried out by certain bacteria and cyanobacteria, which convert atmospheric nitrogen (N2) into biologically available forms such as ammonia (NH3) and nitrate (NO3-). Phosphorus mineralization involves the breakdown of organic matter, releasing inorganic phosphate (PO4^3-) that can be utilized by plants and other organisms. These processes ensure that nitrogen and phosphorus are available to support life and maintain ecosystem balance.

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The somatic nervous system (SNS) and autonomic nervous system (ANS) are two major components of the peripheral nervous system (PNS), which is responsible for transmitting sensory and motor information to and from the central nervous system (CNS).

The somatic nervous system is responsible for voluntary motor control of skeletal muscles, as well as transmitting sensory information from sensory organs to the CNS. It is involved in activities such as walking, talking, and other conscious movements.

The autonomic nervous system, on the other hand, regulates involuntary physiological processes such as heart rate, digestion, and respiratory rate.

It has two main divisions: the sympathetic and parasympathetic nervous systems, which have opposing effects on bodily functions and work together to maintain homeostasis.

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The correct answer is A. On top of.

Recent sediment is deposited on top of older sediment. This is because sedimentation is a process where new sediments are continuously added to the top of existing layers of sediment. As new sediment accumulates, it buries and compresses the older sediment below it. Over time, this process leads to the formation of sedimentary rock layers with the oldest layers at the bottom and the youngest layers at the top, known as the principle of superposition. Thus, recent sediment is always found on top of older sediment.

~~~Harsha~~~

The vagus nerve provides the main parasympathetic innervation to the heart, lungs, and abdominal viscera (Option D)

The autonomic system consists of two major divisions: the sympathetic nervous system and the parasympathetic nervous system. Parasympathetic innervation is supplied by the vagus and pelvic nerves. The vagus innervates the upper GI tract, and the pelvic nerve innervates the lower GI tract. Parasympathetic neurons have long preganglionic fibers that synapse in ganglia in or near the target organs.

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Redundant genetic code helps protect an organism from the effects of mutations: If there is any point mutation that changes an amino acid may or may not cause a problem.

Because the genetic code is redundant, more than one codon can encode the same amino acid. There are 64 codons, of which 3 stop codons and the remaining 61 codify amino acids. There are just 20 amino acids found in nature.

Therefore, it follows that more than one codon will encode one amino acid. One codon codes just methionine (AUG for mRNA; ATG for DNA) and tryptophan (UGG for mRNA; TGG for DNA). Valine, Serine, Proline, Threonine, Alanine, and Glycine each have four cognate codons, whereas Leucine has six.

A mutation may totally eliminate the function of an enzyme or result in a dominant-negative phenotype by rendering it constitutively active or inactive if the amino is responsible for the catalytic activity or in the substrate binding site of an enzyme. The protein translation process may be halted by a new stop codon or the protein's open reading frame may alter as a result of a deletion or insertion mutation.

Silent mutations are mutations that do not alter the amino acid sequence. If the amino acid changes from CAU (which codes for histidine) to CAA (which codes glutamine), however, there is no difference if the amino acid changes from CAU to CAC.

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