When chyme enters the small intestine, pancreatic juice is released from the pancreas to neutralize hydrochloric acid.
What is pancreatic juice?Pancreatic juice is the secretion of the pancreas produced by the acini found in it, which is released for the digestion of the food that is ingested. This juice is released by the stimulation of the acidity that is given by the chyme in the duodenum.
The juice is composed of water, mineral salts, mucins and proenzymes. All these components will neutralize and digest the components of the chyme.
Therefore, we can confirm that when chyme enters the small intestine, pancreatic juice is released from the pancreas to neutralize hydrochloric acid.
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In cells performing transepithelial transport (such as cells that constitute a blood-brain barrier), you would find __________ between neighboring cells.
In cells performing trans-epithelial transport (such as cells that constitute a blood-brain barrier), you would find tight junctions between neighboring cells.
Blood-brain barrier is a semi-permeable membrane of endothelial cells. These barriers strictly regulate the traffic that cross the membrane and reach the brain. The only substances that can cross this barrier are: water, certain gases, and lipid-soluble substances.
Tight junctions are the barriers that are formed between the epithelial and the endothelial cells. Their function is to prevent the leakage of substances through the membrane. They are also known to maintain the polarity of the cells. Proteins like claudin and occludin are involved in these junctions.
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For biologists studying a large flatworm population in the lab, which hardy-weinberg condition is most difficult to meet?.
According to the Hardy-Weinberg principle, the most difficult condition for a biologist studying a large population of flatworm in the lab is no mutation.
An essential population genetics principle known as the Hardy-Weinberg equilibrium states that, in the absence of unfavourable circumstances, the genetic variation in a population should remain constant from generation to generation.
A mathematical model called the Hardy-Weinberg principle postulates that, given specific circumstances, the genotype and allele frequencies in a population of sexually reproducing individuals would remain constant throughout generations. This principle requires that evolution be virtually halted.
Hardy-Weinberg equation:
[tex]p^2+2pq+q^2=1\\[/tex]
where,
[tex]p^2[/tex] = dominant homozygous frequency (AA)
[tex]2pq[/tex] = heterozygous frequency (Aa)
[tex]q^2[/tex] = recessive homozygous frequency (aa)
The following requirements must be met for the Hardy-Weinberg equilibrium to persist:
• no mutation
• no gene flow
• large population size
• random mating
• no natural selection.
Deviations from any of the Hardy-Weinberg equilibrium's five fundamental underlying requirements can cause it to disrupt.
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Do the data support the hypothesis that the timing of the end of cleavage depends on counting cell divisions? Explain.
No, because the toxin's inhibition of cell division has no effect on when cleavage ends.
Cell division is the process by which the parent cell splits into two daughter cells, whereas cleavage is the cytoplasmic division that occurs after nuclear division.
The cell cycle includes the processes of cleavage and cell division. They are in charge of a parent cell's ability to produce daughter cells. Additionally, the two stages of cell division are referred to as karyokinesis and cytokinesis, respectively.
The process of cytokinesis in animals and many unicellular eukaryotes involves four steps: start, contraction, membrane insertion, and completion.
Cleavage, which occurs during development, describes the zygote's rapid mitotic divisions that result in the blastocyst, a multicellular entity. It is distinguished by the absence of daughter cell proliferation; as a result, cleavage is engaged in the distribution of the zygote's cytoplasm among the blastocyst's cells.
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one of the primary benefits of a survey is that they . a. can generate cause-and-effect conclusions b. allow efficient gathering of unobserv
One of the primary benefits of a survey is that they allow efficient gathering of unobservable. Therefore, the correct option is (B)
A survey is often conducted by letting the subjects fill out a set of questions on their own, normally without the general oversight of the researchers. Because of this, it really shows that acquiring necessary information has become increasingly highly efficient because it can usually be done with a very small amount of work and a huge number of people.
A survey is a list of questions used in human subject research to elicit valuable data from a particular group. Surveys may be conducted over the phone, by mail, online, at busy intersections, and even in shopping malls.
Finding answers to important questions is the goal of surveys. They are typically used to determine people's opinions about a subject and the reasons behind their opinions. Depending on what you intend to do with the information you gather, surveys can have a variety of structures.
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EXTENSION On a separate sheet of paper, write a short paragraph describing U.S.
efforts to address environmental issues over the last few decades. In the paragraph,
use at least one vocabulary term from each lesson in the chapter.
The Unites States has been doing a lot about environmental protection in the last decade.
What are the efforts of the United states?The United States government via the environmental protection agency has been at the forefront of addressing several environmental issues such as Ozone layer depletion and climate change.
The United States Environmental protection agency has done a lot to update the standards for the amounts of toxic wastes in the environment over the years. There has also been an increase in legislation that aims at improving the environment such as the clean water act.
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which body cavity is surrounded completely by bone and provides protection to the structure (s) contained within?
The dorsal body cavity is surrounded by bone and protects the structure (s) contained within.
A body cavity is a space in the body that contains visceral organs. There are two main cavities in a body: the ventral cavity and the dorsal cavity. The major difference between the two cavities is that of space. The ventral cavity has a larger space than the dorsal cavity.
The ventral cavity is subdivided into two parts:
Thoracic cavity and abdominopelvic cavity. The organs in the thoracic cavity are generally bound by ribs, which are covered by pleura. The abdominopelvic cavity contains two portions that include abdominal and pelvic portions or their organs.
The dorsal cavity is smaller than the ventral cavity and lies on the dorsal side of the body. It generally contains two sub-units: the cranial cavity and the spinal cavity. The cranial cavity binds the brain and the spinal cavity binds the spinal cord. Meninges are the protective membranes that cover the dorsal cavity.
The dorsal cavity protects the organs inside by protecting a fluid called cerebrospinal fluid. This fluid gets pressurized and pushes back consequently protecting the brain and the spinal cord.
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The ____ nervous system works to monitor processes such as breathing, heart rate, and digestion. the ______ nervous system is a subsystem within the autonomic system that calms the body.
The autonomic nervous system nervous system works to monitor processes such as breathing, heart rate, and digestion. the peripheral nervous system nervous system is a subsystem within the autonomic system that calms the body.
What is nervous system ?Nervous system can be described as the body's command center.
This starts from the brain, which help to controls your movements, as well as thoughts and automatic responses to the world , hence autonomic nervous system nervous system works to monitor processes such as breathing, heart rate, and digestion. the peripheral nervous system nervous system is a subsystem within the autonomic system that calms the body.
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Long-term energy storage
O lipids
O protein
O carbohydrates
O nucleic acids
This diagram represents levels of organization within a multicellular
organism. The level represented by X is a
Organism
X
Organelle
Water
Hydrogen)
The smallest unit is the cell; tissues are made up of groups of similar cells; organs are composed of groups of various tissues; organ systems are composed of groups of organs, and multicellular organisms are made up of these components.
Cells, tissues, and organs are lower levels of organization in multicellular organisms. Organ systems and creatures come next after these. Since unicellular creatures only have one cell and no further tissue or levels, these levels are absent in them.
What constitutes a multicellular organism's primary level of organization?Atoms, molecules, organelles, cells, tissues, organs, organ systems, and the human organism are the main levels of organization in the body, going from the simplest to the most complex.
Multicellular organisms need levels of organization because their cells are divided into groups that perform functions like respiration, reproduction, digestion, cardiovascular function, and other metabolism functions.
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Why are action potentials usually conducted in one direction? a. Ions can flow along the axon in only one direction. b. The brief refractory period prevents reopening of voltagegated Na⁺ channels. c. The axon hillock has a higher membrane potential than the terminals of the axon. d. Voltage-gated channels for both Na⁺ and K⁺ open in only one direction.
Along an axon, action potentials only go in one direction. Because sodium channels in the neuron are refractory, action potentials can only move in one way along an axon. Thus, option A is correct.
What is the direction of action potential?
Action potentials, however, go one way. This is made possible by the sodium channels' ability to close after activation, known as their refractory period.
This ensures that the action potential moves in a specific direction along the axon.
Accordingly, the action potential can only flow forward because of the influx of potassium, which results in depolarization, and cannot flow backward.
Once the impulse enters the axon, it can no longer travel backward.
Therefore, action potentials usually conducted in one direction.
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HELP! Due yesterday;-;
The experiment shows that the brand of the energy drink is the independent variable.
What is independent variable?The independent variable is the variable that is changed during the experiment. This is the variable that is manipulated in the course of the study and it results to changes in the independent variable.
The independent variable is the variable that is being manipulated while the dependent variable is the variable that changes as we change the independent variable. We shall now look critically at the experiment to see the variables involved in the procedure.
1) Considering the experiment, the independent variable is the brand of the energy drink
2) The dependent variable here is the number of packages delivered.
3) The possible constant is the weight and size of the packages
4) Water was given to the workers to compare its effect against the energy drink
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. Based on indexes such as Shannon diversity, is a community of higher species richness always more diverse than a community of lower species richness? Explain.
Not necessarily if only one or a small number of species dominate the community with many species.
How is a species defined?A group of creatures that can breed with one another in nature and create healthy offspring is referred to as a biological species. A species is an organism's fundamental unit of classification, taxonomic rank, and biodiversity.
What are a species' five defining traits?Species characteristics:
Species members resemble one another more closely than do members of any other species.They have comparable morphological characteristics.To create fertile offspring, they interbreed with other members of their own group.Under normal conditions.They come from the same gene pool.To know more about Species visit:
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What kind of intermolecular forces act between a hydrogen chloride molecule and a dichlorine monoxide molecule?
Dispersion forces are the intermolecular forces that act between a hydrogen chloride molecule and a dichlorine monoxide molecule.
What are dispersion forces?The least powerful intermolecular force is the London dispersion force. When the electrons in two nearby atoms hold positions that cause the atoms to temporarily form dipoles, the consequence is the London dispersion force, a transient attractive attraction.
The term "induced dipole-induced dipole attraction" is frequently used to describe this effect. When the temperature is sufficiently dropped, London forces—attractive forces—cause nonpolar substances to condense into liquids and freeze into solids.
When an atom or molecule's electrons are dispersed asymmetrically around the nucleus, an instantaneous (temporary) dipole can form due to the electrons' continual mobility.
Therefore, dispersion forces are acting between hydrogen chloride and a dichlorine molecule.
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The four zones of a lake or characterized by the amount of sunlight they received. What differences in plants, animals, or properties are observed from these four zones
Each pond or lake contains a variety of zones that divide the water column from top to bottom and side to side. The Littoral Zone, Limnetic Zone, Profundal Zone, Euphotic Zone, and Benthic Zone are among these zones.
The Limnetic Zone
The area of the lake that is warmest and receives the most sunshine is the upper water layer, also known as the euphotic zone.
The zone ends when sunlight can no longer pass through the lake. Due to the presence of sunlight, aquatic plants flourish here, just like in the littoral zone.An area of a lake or ocean known as the aphotic zone receives little or no sunlight.Formally, it is described as the depths to which less than 1% of sunlight may penetrate.Plankton, or floating microscopic organisms, and nekton, or actively swimming organisms, make up the majority of life in the limnetic zone. Planktonic algae are the producers in this ecosystem. Primary consumers such as minute crustaceans and rotifers, also known as zooplankton, can be found in the limnetic zone.Learn more about the lake ecosystem here:
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Mature bone cells that maintain and monitor protein and mineral content of surround matrix are called:________
Mature bone cells that maintain and monitor the protein and mineral content of the surrounding matrix are called osteocytes.
Osteocytes are mature bone cells, differentiated from osteoblasts which are responsible for keeping the bone matrix. they may synthesize and resorb ruin down the matrix to keep homeostasis. Osteocytes hold bone tissue.
Osteoblasts are bone-forming cells that can be of mesenchymal starting. They synthesize bone matrix and convey a surrounding that promotes bone mineralization. Osteocytes are osteoblasts that must emerge as entrapped in bone. Osteocytes help synthesize and replace wished factors of the matrix via the usage of signaling osteoclasts and osteoblasts to resorb and form new bone.
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minor mutations and/or gene transfers may lead to the development of a new — a term that describes very closely related organisms that are slight genetic variants of one another.
Minor mutations and gene transfer may lead to the development of a new strain that contains slight genetic variants of another strain.
What are minor mutations?Minor mutations make reference to slight genetic alteration in the nucleotide sequence such as single nucleotide polymorphisms, which may be associated with the variation in a trait.
Moreover, a strain (for example a bacterial strain) is a group of microorganisms having the same genetic sequence in the genome, which leads to small variation between different strains.
In conclusion, Minor mutations and/or gene transfers may lead to the development of a new strain, which describes closely related organisms that are slight genetic variants of one another.
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Describe two types of interspecific interactions that you can observe in this photo. What morphological adaptation can be seen in the species that is at the highest trophic level in this scene?
The types of interspecific interactions present in this photo are parasitism and predatory. In addition, the spider is the species with the highest tropic level and presents camouflage as a morphological adaptation.
What are interspecific interactions?They are interactions between living beings.They are interactions between living beings of different species.They are harmonic or disharmonic interactions.The interaction shown in the photo is of the disharmonious type and occurs between a spider, a flower, and a bee. The interaction between the spider and the bee is called predatory because the spider is feeding on the bee. On the other hand, the interaction between the spider and the flower is called parasitism, since the spider is using the flower's resources and harming it by not allowing pollination.
In addition, we can see that the spider is camouflaged when it is on top of the flower, not allowing its free visualization while protecting itself from predators and attracting pollinating insects.
Finally, we can say that the spider is the highest tropic of the food chain in this image since it is the only predator we can see.
The image to which your question refers is attached.
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PLEASE HELP!!!
ITS DUE RIGHT NOW!
Sodium ions will move out of the cell until equilibrium is attained; option A.
What is osmosis?Osmosis is the movement of water molecules across a semipermeable membrane from a region of low solute concentration to a region of high solute concentration until equilibrium is attained.
Considering the cell and the solution in which it is placed in;
Therefore, sodium ions will move out of the cell until equilibrium is attained.
In conclusion, osmosis helps to maintain homeostasis.
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What parts of the cell did hydrolytic enzymes pass through on their way to lysosomes?
The cell passes through golgi apparatus and rough endoplasmic reticulum on their way to lysosomes.
Esters, peptides, and glycosides are just a few of the families of biomolecules that are cleaved apart by hydrolases, also known as hydrolases. Molecules of proteins, lipids, nucleic acids, carbohydrates and fats are broken down into their most basic components by hydrolytic enzymes. Organelles that are membrane bound and house digestive enzymes are called lysosomes. Lysosomes are involved in numerous cellular processes. Disassemble excess or worn cell components. They can be used to eliminate invasive bacteria and viruses. Lysosomes can help cells self-destruct when the damage is irreparable, in a process known as programmed cell death or apoptosis.Lysosomes are a special kind of acidic organelles. Therefore, it must be shielded from the rest of the cell interior.Therefore, the hydrolytic enzymes pass through Golgi apparatus and rough endoplasmic reticulum.
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An exocrine gland secretes its product into localized capillaries while an endocrine gland secretes its product into ducts. True or false
It is false that an exocrine gland secretes its product into localized capillaries while an endocrine gland secretes its product into ducts.
What are exocrine and endocrine glands?Exocrine glands are any of various glands which secrete via a duct, typically into the digestive tract or onto the skin.
On the other hand, an endocrine gland is any of various glands that secrete hormones directly into the bloodstream or lymph and not through a duct.
This means that the major difference between an endocrine and exocrine gland is that the former operates ductless while the latter operates with ducts.
Therefore, it is false that an exocrine gland secretes its product into localized capillaries while an endocrine gland secretes its product into ducts.
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According to the research, the correct option is false. An exocrine gland doesn't secrete its product into localized capillaries while an endocrine gland secretes its product into ducts.
What is an exocrine gland?They are secretory glands that release substances such as sweat, mucus, tears, saliva and digestive juices outside the body directly through ducts.
In this sense, these ducts are located on the epithelial surface, external or internal, from which they originated and some examples of these glands are the pancreas and the sweat or sebaceous glands of the skin.
Therefore, we can conclude that according to the research, the correct option is false. An exocrine gland doesn't secrete its product into localized capillaries while an endocrine gland secretes its product into ducts.
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What causes Down syndrome?
Explanation:
Babies with Down syndrome have an extra copy of one of these chromosomes(trisomy),so basically it is problems with chromosomes-simply
he passage suggests that glucose release from glycogen stores raises the osmotic pressure of body fluids and dehydrates cells protecting them from freezing. the glucose acts as an antifreeze, lowering the freezing po
Answer:
c
Explanation:
Detritivores are consumers that obtain their energy from detritus. How many joules of energy are potentially available to detritivores in the ecosystem represented in Figure 55.11 ?
Theorotically, the energy available to detritivores at a steady state according to the image shown is 11110J.
A heterotrophic creature known as a detritivore gets its sustenance by consuming detritus. Detritus refers to the organic debris including dead plant and animal stuff. Coprophagy is a feeding strategy used by detritivores that involves ingesting feces in order to get food. Detritivores include invertebrate insects such as flies, beetles, butterflies and mites as well as soil-dwelling woodlice, earthworms and millipedes along with mollusks such as snails and slugs.
Although the words "detritivore" and "decomposer" are sometimes used interchangeably, they have different meanings. Detritivores are essentially a subgroup of decomposers. Real decomposers, such as fungi, bacteria, or protists, adopt saprotrophic feeding, in which they receive nutrients by extracellular digestion instead of oral ingestion. This is in contrast to detritivores.
Detritivores and decomposers break down all of the dead and decaying matter in the ecosystem. As a result, they considerably contribute to the cycling of nutrients and are an essential part of the majority of biogeochemical cycles, including the nitrogen, phosphorus and carbon cycles.
Detritivores are present at all trophic levels in an ecosystem because they consume materials produced by primary producers as well as by herbivores and carnivores. Detritivores are an essential part of the ecosystem energy cycle because they typically take energy from secondary consumers in addition to eating energy from other species.
The total net energy generation shown in the figure is 10000 + 1000 + 100 + 10 = 11110J.
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dolphins have a diploid number of 44 chromosomes. how many different ways can their chromosome pairs line up at meiosis i?
Each pair of homologous chromosomes can align in two ways. The number of ways in which the 22 chromosome pairs line up is = 2ⁿ = 2²² = 4,194,304 ways.
What is the random alignment of homologous chromosomes?The random lining of homologous chromosomes (metaphase 1) is one of the three mechanisms involved in genetic variation, together with Crossing-over and random fertilization.
Gamete formation involves the random and independent segregation of the alleles.
The random arrangement of tetrads in the equatorial plane is different in every cell going through the meiosis process. There is no equal alinement between two cells.
Each homologous chromosome can orientate in two different ways, facing one of the poles to which it will migrate, or the other (independent separation of homologous chromosomes). This random arrangement in the equatorial plane introduces variation into the gametes.
This separation generates different chromosomal combinations in the daughter cells. There are two alternatives per homologous pair.
The number of different random alignments of the homologous chromosomes equals the number of gametes with different combinations, which is 2ⁿ, where n = number of homologous pairs.
In the exposed example
2n = 44n = 22Each pair of homologous chromosomes can align in two ways.
The number of ways in which the 22 chromosome pairs line up is = 2ⁿ = 2²² = 4,194,304 ways.
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Which major endocrine organs described in Figure 45.9 are regulated independently of the hypothalamus and pituitary?
The major endocrine organs are pancreas, parathyroid glands, and pineal gland
An organ in the belly is called the pancreas. The process of converting the food we eat into energy for the body's cells depends on it. Exocrine function, which aids in digestion, and endocrine function, which controls blood sugar, are the pancreas' two primary tasks.
Small endocrine glands called parathyroid glands are found in the necks of tetrapods like humans.
A tiny gland in your brain called the pineal gland, also known as the pineal body or epiphysis cerebri, is situated below the back portion of the corpus callosum parathyroid glands. It is a component of your endocrine system and releases the melatonin hormone.
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Explain how natural selection might have played a role in the evolution of species that are tolerant of serpentine soils. (Review Concept 1.2.)
The serpentine tolerant properties are transferred to its descendants and gradually, serpentine adapted plant species have evolved
How can evolution through adaptation arise from selection?Only heritable traits in the population are affected by natural selection, which favors advantageous alleles by increasing their frequency in the population while favoring deleterious alleles by decreasing their frequency. This process is known as adaptive evolution.
Natural selection leads to evolutionary change when individuals with certain characteristics have a greater survival or reproductive rate than other individuals.
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When would a hydrogen bond form?
Answer:
In order for a hydrogen bond to occur there must be both a hydrogen donor and an acceptor present.
Explanation:
Answer:
In order for a hydrogen bond to occur there must be both a hydrogen donor and an acceptor present.
Explanation:
in the 1930s researchers found that after lesioning the amygdala on borth sides of the brain in monkeys, the monkeys no longer
The researchers in the 1930s discovered that when a certain region of a monkey's brain was destroyed, the animal lost its fearfulness. They approached snakes, starting playing with their hissing tongues and swinging them around like sticks. The amygdala is typically believed to be the central component of a brain system for processing scary and the frightful stimuli.
Including threat recognition and activation of appropriate fear-related responses in response to dangerous or threatening stimuli . Alternately from the irritative lesions of temporal lobe epilepsy, destructive lesions such amygdala ablation have an impact. The amygdala damage results in tameness in animals.
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Why is the adaptive immune response to an initial infection slower than the innate response?
One reason for the delay in the adaptive immune response is that it takes time to identify and activate naive B and T cells with the appropriate antigen specificities. This step is skipped during reinfection, resulting in faster production of immune defenses.
Does adaptive immunity react slower than innate immunity?This means that it is slower to respond than the innate immune system, but it is more accurate when it does. It also has the advantage of being able to "remember" germs, so that the adaptive immune system can respond faster the next time a known germ is encountered.
The adaptive immune system must produce a large number of specialized proteins, whereas the innate immune system is fully functional.
One reason for the delay in the adaptive immune response is that it takes time to identify a
nd activate naive B and T cells with the appropriate antigen specificities. This step is skipped during reinfection, resulting in faster production of immune defenses.
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pharmacological inhibition of gut-derived serotonin synthesis is a potential bone anabolic treatment for osteoporosis
Osteoporosis is the disease of the low bone mass and most often caused by the increase in the bone resorption that is not in sufficiently compensated for by the corresponding increase in the bone formation. As result gut-derived serotonin (GDS) inhibits the bone formation, we can asked whether hampering its is biosynthesis that could treat the osteoporosis through the anabolic mechanism (that is, by increasing bone formation).
We can synthesized and used the LP533401, a small of molecule inhibitor of the tryptophan hydroxylase-1 (Tph-1), the initial enzyme in the GDS biosynthesis. or the Oral administration of this small molecule once daily for up to the six weeks that acts as prophylactically or therapeutically, in the dose-dependent manner, to treat the osteoporosis in the ovariectomized the rodents because of an isolated increase in the bone formation. These results that provide a proof of the principle that have inhibiting the GDS biosynthesis that could become a new anabolic and treatment for osteoporosis.
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