The biologist could use a process that separates by mass to divide a mixture of oligonucleotides and polynucleotides.
Short single strands of synthetic DNA or RNA called oligonucleotides, or oligos, are the basis for many molecular biology and synthetic biology applications. An oligo might be the starting point for anything from genetic testing to forensic analysis and next-generation sequencing. Through a number of techniques, including as RNA interference (RNAi), target degradation by RNase H-mediated cleavage, splicing modification, non-coding RNA inhibition, gene activation, and programmed gene editing, oligonucleotides can be used to modify the expression of certain genes. A polynucleotide is made up of several nucleotide monomers joined together by covalent bonds. A single polynucleotide molecule is made up of at least 14 nucleotide monomers arranged in a chain. Polynucleotides include ribonucleic acid (RNA) and deoxyribonucleic acid (DNA).
DNA is a polynucleotide chain with two strands.
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(il) Name the process that causes the change in the level of the water and the level of the
sucrose solution.
Answer: Osmosis
Explanation:
Answer: OSMOSIS
osmosis is the movement of water molecules from a solution with a high concentration of water molecules to a solution with a lower concentration of water molecules, through a cell's partially permeable membrane.
.
Results from a wide-range of climate model simulations suggest that the Earth's average surface temperature could be between 1. 1 and 5. 4°C warmer in 2100 than it was in 2015. Which best summarizes this information:
By 2100, the global average annual temperature will increase more than 1. 1 and less than 5. 4°C.
By 2100, the global average annual temperature will decrease more than 1. 1°C.
By 2100, the global average annual temperature will increase more than 5. 4°C.
By 2100, the global average annual temperature will decrease more than 1. 1 and less than 5. 4°C
Results from various climate model simulations suggest that the Global average temperature in 2100 could be 1.1 to 5.4 °C (2 to 9.7 °F) higher than today. The main cause of this temperature rise is "greenhouse gases" that trap carbon dioxide and other heat produced by human activity.
Global average temperature is projected to increase by 2°F to 11.5°F by 2100, depending on future greenhouse gas emission levels and the results of various climate models.
Fossil fuels release carbon dioxide, a greenhouse gas that can increase the average temperature of the earth. In a high-emissions scenario, global temperatures could rise by 4.4 degrees by 2100, says the IPCC, with potentially catastrophic consequences.
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Part A Bipotential state Which of the following statements best describes the bipotential state of a developing fetus? Hints O a stage of development when the internal and external reproductive organs have developed into both male and female O a stage of development when the internal and external reproductive organs are only female O a stage of development when the internal and external reproductive organs are only male O a stage of development when the internal and external reproductive organs have the potential to be either male or female
The Bipotential state of the growing fetus is a stage of development when the internal and external reproductive organs have the potential to be either male or female. Correct option(C)
During fetal development after two months the generation of sex organs or gonads take place to determine the sex of the growing fetus.
Until about two months after fertilization the immature gonads of human embryos are potential means that they can develop either into testes or ovaries. Undifferentiated gonads of XX or XY individuals are apparently identical and can form either ovaries or testes.
This period of Bipotential stage is also known as indifferent stage of gonads development.
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Explain why fat-free potato chips fried in artificial fats contain fewer calories than those fried in natural fats.
Fat-free potato chips fried in artificial fats contain fewer calories than those fried in natural fats because of the less fat content which are present in the product.
What is Artificial fat?This is referred to as the type of fat which is created in an industrial process that adds hydrogen to liquid vegetable oils to make them more solid.
It also has less amount or percentage of fat which can be converted into calories by the body as fat on its own is also a major source if energy in the body but is usually metabolized slowly unlike carbohydrates which is metabolized faster.
This is therefore the major reason reason why fat-free potato chips fried in artificial fats contain fewer calories than those fried in natural fats thereby making it the correct choice.
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What is the difference between getting energy from cellular respiration and getting energy from a log by burning it?
During cellular respiration, stored chemical energy is gradually released in a series of enzyme-assisted reactions. Burning a log releases the stored chemical energy rapidly as heat and light.
The energy produced by cellular respiration is in the form of chemical bond energy. The energy produced when a log of wood is burned is mainly heat or heat energy and some light energy.
The third phosphate bond of adenosine triphosphate (ATP) is a high-energy bond. It is used to provide energy for metabolic reactions and perform tasks such as muscle contraction. Energy is the ability to execute work. It is electricity obtained from a physical or chemical source and used to provide heat or light or to do work. Forms of energy include chemical, thermal, mechanical, electrical and nuclear energy. Energy can be transformed from one mode to another.
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deep in your digestive system, next to your small intestine, you have a small organ called an appendix. your appendix is a (mostly) useless organ and does not help your digestion.what kind of structure is it and how do you know
Answer: The appendix is a vestigial organ located at the lower right side of the abdomen. Its structure is like a thin tube of about 2-20cm. This can be known through its location at the lower end of the cecum which is a pouch-like structure in the large intestine.
Explanation: The appendix is located in the region of the body where the small intestine connects to the large intestine. It's a short tube that's roughly an inch and a half in diameter. In most people, the appendix is located in the right bottom quadrant of the abdomen.
It is not known what role the appendix plays in the body. There is a school of thought that suggests the appendix works as a repository for healthy bacteria, "rebooting" the digestive system after an illness that causes diarrhea. Some medical professionals are of the opinion that the appendix is nothing more than an evolutionary relic that serves no use. There are no obvious negative health effects associated with surgical removal of the appendix.
Why did the author call it as an uneventful chronicle?
Answer:The author called it an uneventful chronicle because of the couple who most unwisely sacrificed for each other the greatest treasures of their house.
Explanation: This is not biology
Which of the following genotypes would most likely lead to a low birth weight and a small placenta?
A. Igf2+/Igf2- where the mutated Igf2- allele comes from the paternal source.
B. Igf2+/Igf2- and it doesn't matter which parental source the mutated Igf2- comes from.
C. Igf2+/Igf2- but only in female progeny as the Igf2 gene is on the X-chromosome.
D. Igf2+/Igf2+ where neither maternal nor paternal allele is mutated.
E. Igf2+/Igf2- where the mutated Igf2- allele comes from the maternal source.
Igf2+/Igf2-, a genetic condition in which the mutated Igf2-allele is inherited from the father. B. Igf2+/Igf2-, and the parent from whence the mutant Igf2- comes is unimportant.
Whatever happens to a placental after delivery?
The placenta usually breaks from the uterine lining after childbirth. The placenta may still be partially or entirely attached to the uterus when there is placental accreta. This condition happens when the blood vessels and other parts of the placenta encroach too deeply into the uterine lining.
What benefits may you expect if you eat your placenta?
Despite suggestions that eating the placenta can reduce postpartum hemorrhage, increase mood and energy, increase milk production, and provide essential micronutrients like iron, there is no evidence to support any health benefits. You can suffer from placentophagy.
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As organs and organ systems continue to develop in this embryo, the eyes will contain clear, transparent lenses. How does a single group of cells differentiate to produce both the transparent lens cells as well as all the other specialized cells in the completed organism
Throughout embryonic development, a single group of cells, known as the ectoderm, differentiates to form a variety of specialized cells that make up the body of a completed organism.
One example of this is the development of the eyes, which contain clear, transparent lens cells. In order to understand how a single group of cells can differentiate to form such diverse components, it is important to understand the underlying cellular processes that drive this differentiation.
First, the ectoderm of the embryo undergoes a process known as gastrulation. During this process, the ectoderm begins to fold and divide, producing three distinct layers of cells known as the endoderm, mesoderm, and ectoderm.
As the cells differentiate, they begin to express different proteins on their surfaces which become the basis for further cell-to-cell interactions and signaling. This process is known as inductive signaling and is responsible for the development of the specialized cells in the embryo.
The inductive signaling process is responsible for the formation of the transparent lens cells in the eye. As the ectoderm begins to differentiate, certain cells in the mesoderm will receive signals from the ectoderm to begin the process of lens formation. The lens cells then produce proteins that induce the formation of other specialized cells in the eye, such as the cornea and the iris.
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so i kinda need help with this problem, can someone help?
This is what I think maybe this can help you
T or F? In the muscles of the limbs, the origin is usually the immobile muscle attachment
In the muscles of the limbs, the origin is usually the immobile muscle attachment. True
A skeletal muscle connects to bone (or other muscles or tissues) at two or more points. If the location is a bone that stays motionless during an activity, the connection is referred to as an origin. If the connection is on a bone that moves during the activity, it is referred to as an insertion.
Muscle tissue is classified into three categories in the muscular system: skeletal, cardiac, and smooth. The term "structural" refers to the fact that the body has a distinct structure. Skeletal muscle is responsible for the movement of bones and other structures. To pump blood, cardiac muscle contracts.
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The organism in the image is a free-living one that is anchored to the bottom of ponds and streams. What is the common name of this organism
Dedarians are a type of free-living organism that are usually found anchored to the bottoms of ponds and streams. They are usually found in freshwater habitats and are related to the annelid family.
Dedarians have an elongated, segmented body and are usually transparent. They have a single set of antennae and two sets of parapodia that help them move. They are filter feeders and typically feed on small particles suspended in the water. They also use their parapodia to collect organic matter from the sediment and process it through their digestive system.
Depending on the species, dedarians have the ability to procreate both sexually and asexually. They are a beneficial part of the aquatic ecosystem as they help to keep the water clean by consuming small particles of organic matter. They also provide food for fish, amphibians, and other aquatic organisms. Dedarians are incredibly important to their environment and should be protected from environmental damage.
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In Drosophila, the gene for eye color (A), wing shape (B), and body color (C) are all found on the same chromosome. The following crossover frequencies for these genes were determined by & trihybrid test-cross experiments. Determine the sequence of genes A, B, and C on a chromosome. There are two correct answers: Crossover Frequency 12% Genes A&B A&C B&C 18%
The correct sequence of the genes A, B and C found on the same chromosome can be : B A C or C A B.
Genes are the part of DNA sequences that code for a certain protein responsible for a particular trait. These genes are present upon the chromosomes. Each chromatid can contain multiple genes on it.
According to the question, the crossover frequency between genes B and C is 18 % hence they are the farthest (18% = 18 centi-Morgan). And the frequency between genes A & B and A & C is 12% and 6% respectively. Therefore the distance of B and C is the sum of the remaining two. This determines the sequence could be B A C or C A B.
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A glomerulus is Question 13 options: a) the expanded end of a nephron b) the source of erythropoietin c) attached to the collecting duct d) a knot of capillaries within the renal corpuscle e) the loop-shaped segment of the nephron
The correct option is D, A knot of capillaries within the renal corpuscle. Each nephron has a network of tiny blood vessels known as glomeruli that are encased in a sac known as Bowman's capsule.
The filtered waste product (urine) passes via microscopic tubes before being transported from the kidneys to the bladder by larger tubes known as ureters.
The glomerulus is the kidney's filtering unit, and it is made up of a network of capillaries and highly differentiated epithelial cells called podocytes, which govern the selective filtration of blood into an ultrafiltrate that will eventually become urine (Greka and Mundel, 2012).
Glomerulus is a tuft of blood capillaries nestled inside the glomerular capsule, which is situated at the end of each nephron. The glomerulus receives blood that is about to be filtered.
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Why are identical twins rare?
Word Bank:
gene, chromosome, reproductive cell, identical twin, fraternal twin, trait, protein, variation.
Mention:
Explain how genes are passed on normally in humans.
Explain how genes are passed on in identical twins.
Explain why identical twins are rare.
Identical twins are rare because they are generated when a fertilized egg is divided into two zygotes and thus generate two different organisms having genetically identical material. Genes are passed on normally in humans due to the inheritance from parents to offspring, they (genes) are passed on in identical twins as copies in the egg cell.
What is the proportion of identical twins in nature?The proportion of identical twins in nature is relatively low in the order of 1 to 250, which inherit the same genes contained in homologous pairs of chromosomes, while fraternal twins denote the process of fertilization of two separate eggs to form different organisms. These genes generate different proteins that will lead to different traits.
Therefore, with this data, we can see that the proportion of identical twins in nature is low because the division of the egg cell after fertilization cell is a rare process.
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What are 3 differences between natural selection and selective breeding?
Environmental conditions, like as harsh habitats or competition for mates, that restrict survival and reproduction are what drive natural selection. The term "artificial selection" also applies to selective breeding.
Selective breeding is an artificial process where people step in and choose certain organisms to mate, whereas breeding is a natural process of mating between two species.
Three contrasts exist between selective breeding and natural selection:
Human involvement drives artificial selection. The selective pressure of the environment controls natural selection.Breeders are in charge of artificial selection. On Earth, biological diversity is greatly increased via natural selection.Contrarily, artificial selection makes it easier for the breeder to pass on desired traits.Learn more about breeding Visit: brainly.com/question/13614055
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in what tissues, cells and organ does ependymoma first start
It begins in the spinal cord or brain
How wet land are formed?
On floodplains where recurrent flooding or high water tables supply enough moisture, wetland formation occurs.
As rivers and streams create new channels and when floods scour the floodplain or deposit new material, these "riparian" wetlands may experience continual change.
Wetlands are transitional regions between terrestrial and aquatic ecosystems when the water table is typically at or near the surface or the area is submerged in shallow water.
One or more of the following three characteristics are required for wetlands:
1) At least occasionally, the land supports primarily hydrophytes
2) the substrate is primarily undrained hydric soil
3) at some point during the growing season of each year, the substrate is saturated with water or covered by shallow water.
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why is it difficult to include water vapor in a graph of the percentages of various gases in the atmosphere? How could you solve the problem
Atmosphere is a blanket of air surrounding the earth. It is composed of different gases. It difficult to include water vapor in a graph of the percentages of various gases in the atmosphere.
What are main gases?The gases nitrogen as well as oxygen are the main gases which has been comprise 78.08 % and 20.95% by the volume respectively. The carbon dioxide has another important gas which consists of 0.036%.
In the atmosphere water vapor has been 0 to 4% but it has concentration varies in the atmosphere near different regions, for example the highest concentrations is near the equator over the oceans and tropical rain forests.
Therefore, Atmosphere is a blanket of air surrounding the earth. It is composed of different gases. It difficult to include water vapor in a graph of the percentages of various gases in the atmosphere.
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Can any conclusions be drawn as to the types of habitats likely to contain the most microbes?
Yes, a conclusion can be drawn that living surfaces contain more number of microbes as compared to non-living surfaces.
Microorganisms or microbes can be found in a lot of different conditions in the environment. This proves that they can thrive in a number of different conditions. All microbes require different environmental factors which can boost their growth. Some of them are able to survive in harsh cold habitats like in the ice and also in high temperatures like hot springs.
It has been observed that the number of microbes is high in habitats or surfaces which can suffice the need for nutrition and other factors of the microbe so that it is able to survive and it can be concluded that living surfaces, for example fungal spores, will have more microbes as compared to a non-living surface.
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Biologists conclude that sardine fish form tight clusters
called "bait balls," such as the one shown in the image,
because this behavior protects them from predators.
Which evidence would support this conclusion?
A. Observations tracking the movement of an individual sardine
when a predator is near
Fish species found in open ocean are especially in need of some protection, as they don't have the cracks and crevices that fish in coastal or coral reef habitats have to hide away.
What do biologists do?Biologists research all living things, including people, plants, animals, and their habitats. They may carry out their study at the cellular level, the ecosystem level, or everywhere in between, whether it is in the field of human medicine, plants, animals, or environmental systems.
Which biologists are some well-known ones?One of the most well-known British scientists, Charles Darwin, is recognized as the originator of evolution according to his 1859 book Just on Origin of Species. While serving as a naturalist just on HMS Beagle during its round-the-world trip from 1831 to 1836, Darwin conducted the research for the this book.
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Please Help it's for midterm review notes
In general, hydrolysis is calculated as carbohydrates Polymer + Water Monomer + Monomer. Two amino acids through a condensation reaction form a peptide. Hydrophobic compounds can't be dissolved in water or combined with it.
What are carbohydrates and amino acids?A covalent link is formed between the carboxyl carbon of one amino acid and the amine nitrogen of the second amino acid when two amino acids mix in a condensation process.
Hydrolysis is the term for the digestive process. These lengthy sugar chains, or polymers, are disassembled into their constituent monomers during hydrolysis.
Therefore, a compound known as a dipeptide is created when amino acids come together.
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What is weight of 100 seeds called?
The weight of 100 seeds is known by the name Hundred Seed Weight (HSW).
Seed is the fertilized ovule that represents the undeveloped part of the plant. It consists of all the essential enzymes and food reserves required for its growth and development into a fully grown plant. The seeds can remain in dormant stage for a very long period of time.
HSW gives the yield of the plant and is also an indicator of the inheritance of the quantitative characteristics and how the inheritance is affected by the genotype and environmental factors. Large seeds impact the yield of the plant positively.
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10. Phylogenetic relationships among genera of danaine but terflies (Lepidoptera: Nymphalidae) as implied by morphology and DNA sequenc
The findings show that, under the right conditions, this little gene area can be a valuable source of information for phylogenetic inference.
In order to infer deeper level patterns of association among nymphalid subfamilies and tribes, a cladistic analysis was done on a 378 bp area of the wingless gene from 103 nymphalid species and three pierid outgroups. Despite the fact that the data are largely homoplastic, the most sparse cladograms frequently confirm well-known groups. For the diverse butterXy subfamily Satyrinae, we have derived the first relationship theory that has empirical validity. For the 165 Satyrinae taxa represented, we used 3090 base pairs of DNA from the nuclear genes EF1 and wingless as well as the mitochondrial gene COI.
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Which of the following groups of algae is notable for having members with silica cell walls?
a) Phaeophyta b) Chlorophyta c) Chrysophyta d) Rhodophyta
Algae in the following categories are distinguished for possessing silica cell walls. Correct Response Cryophyte.
What distinguishes Cryophyte?The Chrysophyceae and Synurophyceae groups of flagellates, which make up the majority of the cryophytes, are distinguished for their central and peripheral nervous systems flagella, yellow enhanced version, and silicified endogenous resting phases (stomatocysts). About 1200 species have been described in their entirety.
Why are chrysophytes referred regarded as diatoms?Diatoms are a form of photosynthesizing phytoplankton that are almost ubiquitous in wet environments, such as soils, freshwater pools of water, and seas. Cryophytes used to refer to all types of cellular brown algae in addition to diatoms. Diatoms are present in every terrestrial and aquatic habitat.
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which of the following events stimulates the production of viral particles in a host cell?
a) activation of the host cell by cytokines, growth factors, or antigens
b) Assembly of viral proteins and mRNA molecules
c)Processing of viral envelope proteins at the Golgi.
d) Low-level transcription of viral DNA.
The production of viral particles in a host cell is a complex process that is stimulated by a variety of events. One of the key events that triggers the production of viral particles is the activation of the host cell by various factors. So the correct option is a.
This can include the presence of cytokines, growth factors, or antigens. These factors can activate the host cell's machinery and cause it to begin the process of viral replication.Another important event that stimulates the production of viral particles is the assembly of viral proteins and mRNA molecules. Once the host cell is activated, the viral genome is transcribed and translated, resulting in the production of viral proteins. These proteins then come together to form the viral particles.
The processing of viral envelope proteins at the Golgi is also an important event in the production of viral particles. The Golgi is a cellular organelle that is responsible for the sorting and modification of proteins. It plays a crucial role in the formation of the viral envelope, which surrounds the viral particles and helps them to enter host cells.
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Which fundamental principle surrounding enzymes explains why transition state analogues are able to act as potent inhibitors of naturally occurring enzymes
A fundamental principle surrounding enzymes is that they can only catalyze reactions if the substrate binds to a specific site on the enzyme. This site is known as the active site.
The active site of an enzyme is a highly specific region that contains amino acid residues that interact with the substrate. These residues form a complementary shape that is specifically tailored to bind to the substrate. This binding of the substrate to the active site is what allows the enzyme to catalyze the reaction.
The transition state of a reaction is the energy state of the molecules just before the products of the reaction are formed. Transition state analogues are molecules that are designed to mimic this transition state and can be used to inhibit the enzyme.
Due to their similarity to the transition state of the reaction, the transition state analogues bind to the active site of the enzyme. This binding is strong and tight, preventing the natural substrate from binding. Therefore, the enzyme is unable to catalyze the reaction and is inhibited.
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Which of the choices below is not an essential role of salts in the body?
A) anabolism of lipids
B) membrane permeability
C) secretory activity
D) neuromuscular activity
The selections below do not necessarily affect the body's need for salts in terms of membrane permeability.
Which one of the following medications plays a key role in controlling sodium ion levels in extracellular fluid?Aldosterone, a hormone made in the kidneys' adrenal cortex, promotes water and Na+ reabsorption from extracellular fluids through diffusion. One mechanism for regulating aldosterone secretion is the renin-angiotensin-aldosterone pathway.
Which one of the aforementioned helps preserve the body's fluids' acid-base balance?When dissolved in a liquid, such as blood, electrolytes, which are minerals, have an electric charge. The sodium, magnesium, chloride, and bicarbonate in the blood assist control neuron and muscle activity and keep the acid-base balance stable.
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What would happen if the active site of an enzyme has a different shape ?
If the enzyme changes shape, the active site may no longer be able to bind to the right substrate, which would slow down the activity. In response to abrupt pH and temperature fluctuations, enzymes eventually denature.
Enzymes accelerate processes by reducing the activation energy of certain reactions, just like other catalysts do. The rate of substrate to product conversion can be multiplied by ten by some enzymes. Orotidine 5'-phosphate carboxylase is an extreme example, accelerating a reaction from millions of years to milliseconds. Enzymes are similar to any catalyst chemically speaking and neither consume substances in chemical reactions nor change the equilibrium of a reaction. Enzymes are much more specialized catalysts than the majority of other catalysts.
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What are the three ways ATP is formed?
Glycolysis , TCA cycle , Oxidative phosphorylation are the three ways ATP is formed
Adenosine triphosphate, or ATP, is the chemical symbol for energy.cellular respiration causes the mitochondria to produce ATP.It is produced during the TCA cycle, oxidative phosphorylation in the mitochondria, and glycolysis in the cytoplasm.
The metabolic process known as glycolysis is where glucose is transformed into pyruvic acid via a number of chemical events.
ATP and NADPH are used as energy storage molecules for the energy generated during these chemical processes.
The glycolysis process involves numerous enzymes and a total of ten processes.
The Krebs cycle and citric acid cycle are further names for the TCA cycle.
The activity that takes place in mitochondria is called oxidative phosphorylation.
The transfer of electrons across the mitochondrial cell membrane produces ATP.
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