Think of a signal transduction pathway that activates PKA by using cAMP as a second messenger (Protein Kinase A). Which of the subsequent circumstances will cause the cellular response is
The correct option is a
The situation that will result in the cellular response in a signal transduction pathway that utilizes cAMP as a second messenger to activate PKA (Protein Kinase A) is option (a) - The G protein releases GDP and binds to GTP.
When an extracellular signal binds to a G protein-coupled receptor, the receptor activates a G protein, which then releases GDP and binds to GTP. The GTP-bound G protein then activates adenylate cyclase, which converts ATP into cAMP. The cAMP then binds to and activates the regulatory subunits of PKA, causing them to dissociate from the catalytic subunits. The free catalytic subunits of PKA are then able to phosphorylate target proteins and initiate the cellular response.
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in the sense of alternation of generations, how many generations are included in a mature pine seed?
The three generations or tissue that make up the seed include the embryo itself, the develop a new that will supply nourishment, and the seed coat, which comes from sporophyte tissue.
Are sporophytes vascular organisms?Plants that produce spores are alluded to as sporophytes. But it's crucial to remember that spores are a product of all plants. Sporophytes-bearing plants are divided into vascular and non-vascular plants, and these two groups are further subdivided into several botanical phyla.
What three components make up a sporophyte?Foot, seta, and capsule are the three distinct elements of the sporophyte. After meiosis, spores develop inside the capsule.
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In the 1820s and 1830s, what were two issues that greatly staked political importance
Answer: it was slavery and economic distress
What is the definition of valve ?
Answer:
A valve is a device that opens and closes to control the flow of liquids or gases.
Explanation:
how much energy does it take to pump a proton across the mitochondrial inner membrane, from the matrix to the intermembrane space? the membrane potential across the inner membrane is 150 mv (the intermembrane space is more positive than the matrix).
The electrogenic pumping of protons from the mitochondrial matrix to the intermembrane space, catalysed by the respiratory chain complexes, creates the electrochemical proton gradient.
Through the respiratory chain's redox carriers, electrons produced by the oxidation of substrates are channelled (for review see Esposti and Ghelli, 1994). Complexes I (NADH:ubiquinone reductase), III (ubiquinol:cytochrome c reductase or bc1-complex), and IV are connected to proton ejection during this process (cytochrome c oxidase). Molecular oxygen serves as the last electron acceptor before water is created through a four-electron reduction.
For the purpose of creating a proton gradient between the intermembrane space and the matrix, the inner mitochondrial membrane is replete with transport proteins.
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importance of researching post school destination before making a final decision
Researching post-school destinations before making a final decision can help students make more informed decisions that lead to greater success and personal fulfillment in their careers and personal lives.
Researching post-school destinations before making a final decision is important for several reasons:
1.Career preparation: Understanding post-school destinations can help students make more informed decisions about their future careers. By researching potential jobs, industries, and educational opportunities, students can better prepare themselves for the demands of the workforce and develop a clearer path to achieving their goals.
2.Financial planning: Researching post-school destinations can help students better understand the financial implications of their decisions. By understanding the costs associated with different educational and career paths, students can make more informed decisions about how to finance their education and plan for their financial futures.
3.Personal fulfillment: Researching post-school destinations can also help students better understand their own personal interests and values. By exploring different career paths and post-school opportunities, students can identify opportunities that align with their passions and provide a sense of personal fulfillment.
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In a population in Hardy-Weinberg equilibrium, the relationship between the genotype and allele frequencies of two alleles, A and a, are shown in the graph. At which point is 100% of the population exhibiting the recessive phenotype?
The graph depicts the association between genotype and allele frequencies of two alleles, A and a, in a population in Hardy-Weinberg equilibrium. At point A is 100% of the population exhibiting the recessive phenotype.
The Hardy-Weinberg principle, also known as the Hardy-Weinberg equilibrium, model, theorem, or law in population genetics, holds that in the absence of additional evolutionary factors, allele and genotype frequencies in a from generation to generation, the population would not change.
Genetic drift, mate choice, assortative mating, natural selection, sexual selection, mutation, gene flow, meiotic drive, genetic hitchhiking, population bottleneck, founder effect, inbreeding and outbreeding depression are examples of these factors.
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____________ flows into a neuron during an action potential to make its membrane potential more positive.
Sodium (Na+) ions flow into a neuron during an action potential to make its membrane potential more positive.
What is membrane potential?The membrane potential is the electrical potential difference that exists across the plasma membrane of a cell, including neurons. This potential difference results from the unequal distribution of ions, particularly sodium (Na+), potassium (K+), and chloride (Cl-), between the extracellular fluid and the intracellular fluid.
The membrane potential of a resting neuron is typically around -70 millivolts (mV), meaning the inside of the neuron is negatively charged relative to the outside. Changes in the membrane potential, such as the depolarization that occurs during an action potential, are essential for neural communication and the transmission of information between neurons.
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Scientists use specific levels of organization to analyze the biosphere. Which level of organization describes a school of anchovies?
A school of anchovies. At least 20 fish can be seen swimming.
You wish to determine whether a tall pea plant is homozygous or heterozygous for tallness. What
cross should you perform to arrive at your answer? Explain your choice of cross.
Answer:
Bb x Bb or BB x BB or bb x bb
Explanation:
B for dominant
b for recessive
When an organism is heterozygous and is crossed, 2 of the offspring out of the 4 will also share the same trait. So, if two of the tall pea plants are crossed, if they are heterozygous 2 of their offspring will also be tall pea plants and if they are homozygous all of their offspring will be tall pea plants.
Cross:
Bb is the tall pea plant if it is heterozygous.
Bb x Bb
B b B B
B BB Bb for homozygous : B BB BB
b Bb bb B BB BB
2/4 are tall pea plants all are tall pea plants
You could pick either cross, they both will give you the right answer answer:
If you use a heterozygous cross and 2 offspring are tall pea plants (same as the parents) then the trait is heterozygous.
If you use a homozygous cross and all offspring are tall pea plants (same as the parents) then it is homozygous.
Note that if the heterozygous cross doesn't have 2 tall offspring then it is homozygous and similarly if the homozygous crossed offspring does not yield all tall pea plants then the gene is heterozygous.
(20 points) In which stage of the Calvin cycle does the plant cell produce energy for storage?
In the Regeneration stage of the Calvin cycle does the plant cell produce energy for storage. So, the correct option is A.
What is Calvin cycle?
The Calvin cycle is defined as a series of chemical reactions that convert carbon dioxide and hydrogen-carrying compounds into glucose.
Regeneration is the second stage of the Calvin cycle where 3-PGA molecules created through carbon fixation are converted into simple sugar - glucose molecules that obtain energy from ATP and NADPH formed during the light-dependent reactions of photosynthesis .
Thus, in the Regeneration stage of the Calvin cycle does the plant cell produce energy for storage. So, the correct option is A.
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Answer:
The answer is reduction, which is the second stage of the Calvin cycle.
Explanation:
How would administering a non-hydrolyzable form of GTP to cell affect its G protein-coupled signal transduction pathways? a. The pathways would lose their specificity of response b. The pathways would become hypersensitive to stimuli. c. The pathways would respond in unpredictable ways.
d. The pathways would not turn off.
e. The pathways would become nonresponsive to stimuli.
d) The pathways would not turn off, if administering a non-hydrolyzable form of GTP to cell is in its G protein-coupled signal transduction pathways
In the pathway of G protein coupled signal transduction pathways, there are two principal signal transduction pathways involving the G protein-coupled receptors: the cAMP signal pathway and the phosphatidylinositol signal pathway.
there are 2 subunit which is alpha and beta subunits and when alpha subunit the interaction increases the alpha subunit affinity for the GDP. when these 2 subunits are separated they help in either inhibiting or help in activation of secondary messengers
so, we can say ligand binding to G receptor, changes its conformation, which leads to lower affinity of binding GDP and less affinity of GTP.
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10 different terminologies used in biology
abdomenabdomenabiogenesisabdomenabiogenesisabsorptionabdomenabiogenesisabsorptionactivation energyabdomenabiogenesisabsorptionactivation energyactive transportabdomenabiogenesisabsorptionactivation energyactive transportalleleabdomenabiogenesisabsorptionactivation energyactive transportallelealternation of generationsabdomenabiogenesisabsorptionactivation energyactive transportallelealternation of generationsanabolismabdomenabiogenesisabsorptionactivation energyactive transportallelealternation of generationsanabolismGenegenitic
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which organelle receives proteins from the endoplasmic reticulum and glycosylates them before sorting the proteins to other organelles?
Golgi Apparatus. Rough endoplasmic reticulum supplies the Golgi apparatus with proteins and lipids (fats). The vesicles are transported from the Golgi apparatus into the cis Golgi network's "unloading bay."
In order to create enclosed droplets known as vesicles, it changes some of them, sorts, concentrates and packs them.
Here, the "goods received" are examined. Any misdelivered items including compounds that ought to have remained in the RER are returned, packaged in vesicles, to the rough endoplasmic reticulum.
Once the proteins and lipids have been properly transported, they are next sent into the cisternae of the Golgi stack where they are processed and arranged in a systematic manner in accordance with any "labels" they may contain.
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Muscles are not likely to tear from their bones because? Select one: a. the tendons are partially ossified at their attachment points to the periosteum. b. a circumferential lamella sandwiches the ends of the tendon onto the surface of an adjacent lamella. c. perforating fibers of collagen attach the tendons and periosteum to the cortical surfaces of bone. d. elastin fibers in the tendon can allow for stretching and recoil of the muscle.
Because collagen perforating fibers connect the tendons and periosteum to the cortical surfaces of bone, it is unlikely that muscles will separate from their bones. C is the correct option .
Sharpey's fibres, which extend to the outer circumferential and interstitial lamellae of bone, are strong collagenous fibers that bind the periosteum to the bone. An outside "fibrous layer" and an inner "cambium layer" make up the periosteum.
The cambium layer contains progenitor cells that eventually become osteoblasts, which widen the bone, whereas the fibrous layer contains fibroblasts. The progenitor cells that form osteoblasts and chondroblasts after a bone fracture are crucial to the healing process. It has nociceptive nerve endings, which makes it more sensitive to manipulation than bone itself does.
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Which substances leave the blood by diffusing directly through the plasma membrane of endothelial cells? Check all that apply.
Check All That Apply
Oxygen
Steroid hormones
Carbon dioxide
Electrolytes
Large proteins
Glucose
Oxygen, carbon dioxide, and steroid hormones Diffuse Directly Through the Capillary Endothelium's Cell Membranes, diffuse directly through the plasma membrane of endothelial cells to exit the circulation.
Red blood cells are essential for oxygen transport. As we breathe in, millions of air sacs in the lungs fill with clean, oxygenated air. After passing through the extremely thin walls of the air sacs, the oxygen enters the capillaries, which are tiny blood vessels in a network within the lungs, and travels into the blood.
Red blood cells move in single file through slender capillaries. The haemoglobin molecules in red blood cells absorb and transport oxygen. These oxygen-rich cells travel from the lungs to the heart's left side via the blood arteries. Pumps are then used to circulate the body.
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In a leaf, you would expect to find tracheids in the veins (true or false)
False. Tracheids can be seen in xylem cells. In traechids, long tubular structures, cellulose and lignin, a chemical binder, work together to stiffen the walls.
The xylem of gymnosperms and seedless vascular plants (ferns, club mosses, and horsetails), which are more ancient plant forms, include nonliving cells called tracheids (cedar, pine, and cypress trees).
Plants acquire their distinctive woody texture as a result, and it also serves as support. Each cell has perforations at the ends that allow nutrients and water to travel from the roots to other areas of the plant. Contrary to popular belief, tracheids don't start to function until they are empty and dead. Flowering plants, or angiosperms, have a highly specialised and effective water conducting structure called the wood vessel or trachea that most likely evolved from the tracheid.
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based on the data in table 3.1, what can you infer about the relative length of time an onion root tip spends in each stage of cell division?
The onions cells spend the most of their time in interphase, getting ready for mitosis, just like the majority of cells (remember that each cell spends about 90% of its time in interphase). It takes a long time to complete a lot of tasks during this phase, which takes up the second-longest amount of time in the prophase. The length of each subsequent phase varies depending on the region of the root that is being examined. For example, the rem. M checkpoint, which ensures that the sister chromatids are properly aligned on the metaphase plate, takes some time.
what is a cell?the smallest unit that can sustain life on its own and makes up all living things, including the body's tissues. The cell membrane, the nucleus, and the cytoplasm are the three primary components of a cell. The cell membrane protects the cell and regulates what enters and leaves the cell.
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which organism releases a toxin that causes muscle paralysis?
Answer:
organisms.
Explanation:
Botulism (“BOT-choo-liz-um”) is a rare but serious illness caused by a toxin that attacks the body's nerves and causes difficulty breathing, muscle paralysis, and even death. This toxin is made by Clostridium botulinum and sometimes Clostridium butyricum and Clostridium baratii bacteria.<3
Answer:
Clostridium botulinum
Explanation:
The organism that releases a toxin that causes muscle paralysis is a type of bacteria called Clostridium botulinum. The toxin produced by this bacteria is called botulinum toxin and is one of the most potent neurotoxins known. When ingested or inhaled, it can cause muscle weakness, difficulty speaking or swallowing, and in severe cases, can even lead to respiratory failure and death.
ALLEN
Which conditions produce the smallest and largest ocean waves?
Choose the two correct answers.
Responses
strong winds that blow for short periods of time over great distances
weak winds that blow for long periods of time with a long fetch
strong winds that blow for short periods of time with a short fetch
strong winds that blow for long periods of time over small distances
weak winds that blow for short periods of time with a short fetch
strong winds that blow for a long time over a great distance
strong winds that blow for short periods of time over small distances
The condition that generates the smallest and largest ocean waves should be:
a. Strong winds that blow for a longer time
b. The weak wind blows for a shorter time.
The faster the wind, the longer it blows, or the farther it can blow uninterrupted, the bigger the waves. Therefore, a wave's size depends on wind speed, wind duration, and the area over which the wind is blowing (the fetch).
cell-to-cell adhesion often occurs through the interactions of
Cell adhesion in animals often occurs through the interactions of carbohydrates. Cell adhesion occurs in animals when particular receptors on the cell's surface are present. The correct answer is option E .
Cell adhesion is the process by which cells interact with and connect to neighboring cells via specialized cell surface chemicals. This process can take place either directly between cell surfaces, such as cell junctions, or indirectly, where cells adhere to the surrounding extracellular matrix, a gel-like material holding chemicals released by cells into gaps between them.
Cell adhesion is caused by interactions between cell-adhesion molecules (CAMs), which are transmembrane proteins found on the cell surface. Cell adhesion connects cells in various ways and can be involved in signal transduction, allowing cells to detect and respond to changes in their environment.
Cell migration and tissue formation are two more biological processes governed by cell adhesion in multicellular organisms. Changes in cell adhesion can disrupt critical cellular processes and result in a number of illnesses, including cancer. Infectious organisms, such as bacteria or viruses, require cell attachment to induce illness.
The correct answer is option E, carbohydrates.
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How do substitution insertion and deletion mutations form?
Substitution mutations occur when a base pair is replaced with a different base pair, insertion mutations occur when extra nucleotides are added to a DNA sequence, and deletion mutations occur when one or more nucleotides are removed from a DNA sequence.
The primary distinction between substitution insertion and deletion mutations is their origin. Substitution mutations occur when a base pair is replaced with a different base pair, insertion mutations occur when extra nucleotides are added to a DNA sequence, and deletion mutations occur when one or more nucleotides are removed from a DNA sequence.A mutation is a change in the DNA nucleotide sequence. A gene has a unique nucleotide sequence.Gene mutations can change the genetic information contained within the nucleotide sequence of a gene. The mutation can range in size from a single base change to a large fragment of a chromosome containing multiple genes. Mutations occur for a variety of reasons. Some of the major causes are errors in DNA copying during cell division, exposure to ionizing radiation, exposure to chemicals known as mutagens, and viral infections.
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for human genetic studies, researchers measure the concentration of triglycerides in the blood. What do triglycerides measure in a blood test?
for human genetic studies, researchers measure the concentration of triglycerides in the blood. A triglycerides test is a blood test that measures the amount of a fat in your blood called triglycerides.
A triglycerides test is a blood test that determines the level of triglycerides in your blood. Triglyceride levels that are too high may raise your chances of having a heart attack or stroke. A triglyceride test can help you determine whether you need to take steps to reduce your risk.
Triglycerides provide energy to your body. If you consume more calories than you require, your body converts the excess calories into triglycerides and stores them in your fat cells for later use. When your body requires energy, your cells release triglycerides into your bloodstream to energise your muscles.
You may have high triglyceride levels in your blood if you consume more calories than you burn off, particularly calories from carbs, including sugary foods, and fats.
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The gonads produce steroids. The specific steroid-producing organelle in gonad cells is ribosomes. lysosomes. smooth endoplasmic reticulum. mitochondria. contractile vacuole.
Smooth endoplasmic reticulum are the steroid producing organelle within the gonads.
What is smooth endoplasmic reticulum?The smooth endoplasmic reticulum (SER), an organelle found in the cytoplasm of eukaryotic cells, is made up of a network of minuscule disk-shaped tubular membrane vesicles. Lipids like cholesterol and phospholipids, which are required to build new cellular membranes, are synthesised and stored by the SER. The smooth endoplasmic reticulum (SER) differs from the rough endoplasmic reticulum (RER), the second fundamental form of endoplasmic reticulum, in that ribosomes, which are found linked to the outer surface of proteins, are absent. Animal and plant cells both display SER.
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within order of magnitude, approximate time of appearance of: prokaryotes, eukaryotes, multicellular eukaryotes, animals, land plants, humans
Approximate time of appearance of prokaryotes, eukaryotes, multicellular eukaryotes, animals, land plants, humans are, 3.5 bya, 1.8 bya, 535 to 525 mya and 500 mya, 6-7 mya.
The world is 4.6 billion years old. Stromalites and other primitive prokaryotes have existed for 3.5 billion years (were the only inhabitants of earth for over 1.5 billion years). Eukaryotes have existed for 1.8 billion years, and the oldest multicellular eukaryotes fossil that can be classified (relatively small red algae) date back 1.2 billion years. 1.8 billion years ago, other small multicellular eukaryotes first appeared. Larger and more diverse eukaryotes first appeared 600 mya. The Cambrian Explosion produced the modern animal phyla, which date from 535 to 525 mya. -Plants first colonised the land 500 mya. Human lineage separated from other primates around 6-7 mya.
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QuestionIf an exothermic reaction in equilibrium experiences a rise in temperature, what happens?AThe reaction shifts to the left toward reactants.BThe reaction shifts to the right toward products.CThe reaction shifts to the left toward products.DThe reaction shifts to the right toward reactants.EThe reaction remains unchanged.Hard
The correct answer is (A) The reaction shifts to the left toward reactants.
If an exothermic reaction in equilibrium experiences a rise in temperature, the equilibrium position of the reaction will shift to the left toward reactants.
This is because an exothermic reaction releases heat, so an increase in temperature will cause the reaction to shift in the direction that absorbs heat, which is the direction of the reactants. The shift occurs in order to counteract the effect of the increase in temperature and maintain the equilibrium constant of the reaction.
This relationship is described by Le Chatelier's principle, which states that a system at equilibrium will respond to any stress or change in conditions in a way that opposes the change and restores the equilibrium. In this case, the increase in temperature is the stress or change, and the shift to the left is the response that opposes the change.
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YOVE
2) If you travel north from the equator, what is the general rule
regarding the intensity of ultraviolet (UV) light?
When we travel north from the equator, the intensity of Ultra violet light will decreases.
What is Ultraviolet light?Ultraviolet (UV) radiation is defined as the type of non-ionizing radiation that is produced naturally by the Sun. There are three types of UV radiation which are as follows:
1. UVA
2.UVB
3. UVC
The intensity of the UV radiation is higher at the equator and decreases with latitude. The UV radiation intensity decreases which is the lowest at the poles.
Thus, when we travel north from the equator, the intensity of Ultra violet light will decreases.
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4) how many template strands does a gene have? how many strands serve as template strands during replication of a dna molecule? explain in your own words why the answers to these two questions are different.
One template strand makes up a gene. Both strands of DNA act as templates during replication. This is due to the bidirectional nature of DNA replication.
What is a gene?A gene is a segment of DNA that includes the genetic code required to assemble a protein or RNA molecule that functions. The cell uses the data contained in a gene to perform particular tasks, such as generating enzymes or constructing cellular structures. All living things have genes, which are carried from one generation to the next during reproduction and are located in their chromosomes. Gene alterations can affect the protein or RNA molecules generated, altering how cells function or even causing disease. A significant topic of research in the sciences of genetics, molecular biology, and biotechnology is the investigation of genes and their roles.
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the bacteria nitrosomonas sp. is found in the soil and gets energy by converting ammonia (nh3) to nitrite (no2-) and gets carbon to build other molecules by fixing carbon dioxide from the atmosphere (co2). how would you classify nitrosomas sp.?
The bacteria Nitrosomonas sp. is found in the soil and gets energy by converting ammonia (NH3) to Nitrite (NO2-) and gets carbon to build other molecules by fixing carbon dioxide from the atmosphere (CO2). How would you classify Nitrosomas sp?
b. Chemolithoautotroph
How much blood pressure in the pulmonary circuit?
At rest, the pulmonary artery pressure should be between 8 and 20 mm Hg. Without warning signs or symptoms, pulmonary hypertension can develop gradually.
Pulmonary hypertension is a condition in which the pressure in the pulmonary artery is unusually high and is greater than 25 mm Hg at rest or 30 mm Hg during physical activity. Despite the fact that there is no treatment for pulmonary hypertension, you can manage your symptoms with the help of your doctor and lead an active, full life. Before taking any over-the-counter medications, consult your doctor because some of them may make your pulmonary hypertension symptoms worse or may conflict with your prescriptions. Also, always carry a list of your current medications. Ask your doctor if you need a flu vaccine or a vaccination for pneumonia.
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1) the process of reading energy from food is called
2) the energy released during respiration is called
3) during anaerobic respiration glucose are broken is called
4) in plants the end products anaerobic are
5) the site of aerobic respiration
1. The process of obtaining energy from food is called cellular respiration.
2. The energy released during respiration is called chemical energy.
3. During anaerobic respiration, glucose is broken down into pyruvate in a process called glycolysis.
4. In plants, the end products of anaerobic respiration are lactic acid or ethyl alcohol and carbon dioxide.
5. The site of aerobic respiration is the mitochondria.
What is respiration?Respiration is described as a process in living organisms involving the production of energy, typically with the intake of oxygen and the release of carbon dioxide from the oxidation of complex organic substances.
The mitochondria is the primary location for the production of ATP through the process of oxidative phosphorylation in eukaryotic cells.
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