Many tattoo artists advise falling asleep with the covering that was applied.
To prevent the tattoo from adhering to your sheets on the first night, your artist may advise you to re-wrap it with plastic wrap (such as Saran Wrap). This is usually reserved for bigger or solid-color tattoos. If your artist did not advise re-wrapping, simply leave the tattoo exposed to the air overnight. Don't put off getting a tattoo.
This may not only affect the tattoo to adhere to the sheets while you sleep, but it may also deprive the area of oxygen, causing healing times to be delayed. Your wound requires fresh breathable air and reconstruct properly.
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vibrio cholerae is a human pathogen that causes cholera. it has an unusual shape distinctive of its genus. considering that it does not have one of the most common bacterial shapes, what is the shape of this species?
Vibrio cholerae is a human pathogen that causes cholera, the shape of this species is curved rod shaped.
Cholera is a potentially fatal secretory diarrhea characterized by many, copious watery feces, frequently accompanied by vomiting, and culminating in hypovolemic shock and acidosis.
It is caused by members of the Vibrio cholerae species, which can also produce mild or inapparent infections. Other members of the species may produce localized outbreaks of milder diarrhea on occasion, although the great majority are free-living and unaffected by illness.
Vibrios are Gram-negative curved rods with a single polar flagellum that are highly motile. They can withstand alkaline medium, which kills most intestinal commensals, but they are acid sensitive. There are several free-living vibrios, some of which are potentially harmful.
Cholera is spread by the fecal-oral route. Vibrios are acid-sensitive organisms that perish in the stomach. Surviving pathogenic organisms may cling to and populate the small intestine, where the highly lethal cholera enterotoxin is released (CT, also known as "choleragen"
This toxin binds to the plasma membrane of intestinal epithelial cells, releasing an enzymatically active component that increases cyclic adenosine 51-monophosphate production (cAMP). An increase in intracellular cAMP causes massive electrolyte and water release into the intestinal lumen.
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COVID-19 is a disease-causing severe pneumonia in patients infected by _______________.
A. Yersinia pestis
B. SARS-CoV-1
C. SARS-CoV-2
D. BatCoV RaTG13
A COVID pneumonia is an infection of the lungs brought on by the COVID-19 virus, SARS-CoV-2. Pneumonia can develop as a side effect of having COVID-19. Your lungs become inflamed and swollen as your immune system fights the infection there, making it difficult to breathe.
Almost usually, the COVID-19-related pneumonia affects both lungs simultaneously (bilateral). The interstitial tissue that lines the air sacs, blood veins, and airways in your lung. Scarring or other lung damage is a result of interstitial lung disease. In COVID-19, bilateral interstitial pneumonia refers to pneumonia caused by the virus that results in lung destruction on both sides. This often transpires following the first (infectious) stage, frequently in individuals with protracted COVIDs (post-acute sequelae of SARS CoV-2, or PASC).
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Chapter 17 The Female Reproductive System
The female reproductive system includes the ovaries, the fallopian tubes, the uterus, the cervix, and the vagina.
The internal and exterior sex organs that are part of the female reproductive system play a role in the conception of new offspring. The female reproductive system in humans is immature at birth and matures to produce gametes and carry a foetus to term during adolescence.
Vagina: The vagina is a muscular tube that accepts the male reproductive organ during sexual activity and serves as the baby's exit from the uterus during birthing.
Uterus: If an egg was properly fertilised, this organ houses and sustains a growing foetus.
Ovaries: The ovaries are the female gonads that create oocytes.
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What is the name of the process that converts mRNA → amino acid?
Translation is the name of the process that converts mRNA → amino acid.
Translation is the process by which ribosomes in the cytoplasm or endoplasmic reticulum make proteins after the process of converting DNA to RNA in the cell's nucleus, as defined by molecular biology and genetics. Gene expression refers to the entire process.
The process of translating mRNA into the chain of amino acids that makes up the produced protein occurs on ribosomes in the cytoplasm of the cell. The ribosome is a complex molecule made up of numerous ribosomal RNA molecules, numerous proteins, and both tiny and big subunits. Initiation, elongation, and termination are the three phases of an mRNA molecule's translation by the ribosome.
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What does the farmhouse in Animal Farm represent in the Russian Revolution?
Animal Farm, proverbial at the start and also the finish of the novel because the Manor Farm, symbolizes Russia and also the land beneath political party rule.
However a lot of typically, Animal Farm stands for any human society, be it capitalist, socialist, fascist, or communist. It possesses the interior structure of a nation, with a government , a personnel or army , a labour , and state holidays and rituals. Its location amid variety of hostile neighboring farms supports its symbolism as a political entity with diplomatic considerations.
The barn at Animal Farm, on whose outside walls the pigs paint the Seven Commandments and, later, their revisions, represents the collective memory of a contemporary nation.
The great windmill symbolizes the pigs’ manipulation of the opposite animals for his or her own gain.
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List the significant events of the light-independent reaction (Calvin Cycle). Include which reactants and products are involved. Highlight what will be released as a product. Be sure to include where the process occurs in the chloroplast.
Explanation:
there are two stages of Photosynthesis:
the light dependent stage: In this stage light energy is trapped using chlorophyll from the chloroplast. this light energy is used to separate water molecules(H2O) that were absorbed by the roots into Hydrogen and oxygen. the oxygen produced from this separation is then let off as a waste product.the light independent stage: the Hydrogen produced from the previous stage bonds with Carbon Dioxide(CO2) that diffused through the stomata from the atmosphere in order to form the plants food, which is in the form of glucose(C6H12O6)light dependent equation:
2H2O + (trapped light energy) --> 2H2 + O2
light independent equation:
6CO2 + 6H2O --> C6H12O6 + 6O2
What are the starting products of light-independent reactions?
The starting of the light-dependent reaction is called the Calvin cycle.
The Calvin cycle is a cycle that is also called the C3 cycle. It is the cycle of chemical reactions that binds carbon from the carbon cycle to sugars. It is found in the chloroplasts of plant cells. Calvin cycle reactions is divided into three main stages, They are Carbon fixation, reduction, and regeneration of the parent molecule. The function of the Calvin Cycle is to create three-carbon sugars that plants can use to build other sugars such as glucose, starch, and cellulose that they use as structural building materials. The Calvin Cycle takes carbon molecules directly from the air and turns them into plant matter. This is the starting product of light-dependent reactions.
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3. In the diagram of a cell below, the structure
labeled X enables the cell to
2
(1) release energy
(3) control cell activities
(2) store waste products (4) manufacture proteins
4 If the ribosomes of a cell were destroved whatsoever
Answer:
Explanation:
In the diagram you provided, the structure labeled X is the endoplasmic reticulum (ER). The endoplasmic reticulum is a network of flattened sacs and tubes that is found within the cytoplasm of eukaryotic cells (cells that have a nucleus and membrane-bound organelles).
There are two main types of endoplasmic reticulum: the rough endoplasmic reticulum (RER) and the smooth endoplasmic reticulum (SER). The rough endoplasmic reticulum is studded with ribosomes, which are small organelles that synthesize proteins. The smooth endoplasmic reticulum, on the other hand, does not have ribosomes attached to it.
The endoplasmic reticulum plays several important roles in the cell, including:
1. Release of energy: The endoplasmic reticulum is involved in the synthesis of lipids and the breakdown of carbohydrates, which releases energy that can be used by the cell.
2. Control of cell activities: The endoplasmic reticulum helps to regulate the synthesis and transport of proteins and lipids within the cell.
3. Storage of waste products: The smooth endoplasmic reticulum is involved in the synthesis and detoxification of certain substances, such as drugs and hormones.
4. Manufacture of proteins: As mentioned, the rough endoplasmic reticulum is involved in the synthesis of proteins. Proteins are synthesized on the ribosomes attached to the RER and are then transported into the lumen (cavity) of the RER for further processing and modification.
If the ribosomes of a cell were destroyed, the cell would no longer be able to synthesize proteins, which would severely impact its function and survival.
approximately one week after conception, when differentiation of the cells begins, the zygote is now a group of cells that is more specifically called the
approximately one week after conception, when differentiation of the cells begins, the zygote is now a group of cells that is more specifically called the Blastocyst.
A typically developing embryo will have six to ten cells three days after fertilization. The fertilized egg is recognized as a blastocyst — a rapidly dividing ball of cells — by the fifth or sixth day. The embryo will be formed by the inner group of cells.
A blastocyst is a ball of cells that develops early in a pregnancy, approximately five to six days after a sperm fertilizes an egg. It implants in your uterine wall and develops into an embryo, then a fetus.
Blastocyst embryo transfer has a success rate of 67%, which is significantly higher than cleavage embryo (6-cell to 8-cell stage of the embryo) transfer.
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the different finch species found on the galápagos islands probably arose as a result of _____.
Answer:
The different species of finches found on the Galapagos Islands probably arose as a result of evolution.
How does biology help the environment?
For example, biologists analyze soil, water, and air for chemical pollution as part of the protection, management, and monitoring of the land's current resources. discovering methods to clear up pollutants.
The environment is it studied in biology?A life science is biology. The living environment and the interaction between biological organisms and their surroundings are important topics to discuss when studying biology.
How is science beneficial to the environment?Science has aided in the reduction of pollutants in many regions of the world; new automobiles today are 99% cleaner than they were fifty years ago, for instance. The current global energy demand can be met by renewable resources more than 3,000 times over. We now have cleaner, safer water thanks to new discoveries and technology.
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What enzyme is broken down in the stomach?
Amylase (produced in the tongue and pancreas; breaks down complex carbs) (made in the mouth and pancreas; breaks down complex carbohydrates).
Lipase (produced in the pancreas; breaks down fats) (made in the pancreas; breaks down fats) Protease (produced in the pancreas; breaks down proteins) (made in the pancreas; breaks down proteins).
The six stages of digestion include ingestion, propulsion, mechanical digestion, chemical digestion, absorption, and feces.
The stomach lining's glands produce digestive enzymes and stomach acid. Your stomach's muscles mix the meal with these digestive liquids. Pancreas. An enzyme-rich digestive fluid that is produced by your pancreas can break down proteins, lipids, and carbohydrates.
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The sum of all physical and chemical changes that take place inside the cells of the human body
Answer:
The sum of all the physical and chemical changes that take place within the cells of the human body is known as metabolism.
What is a good thesis statement for coral reefs?
A good thesis statement for coral reefs is that the most colourful living things in the ocean are coral reefs.
Reef corals safeguard our coastlines, provide homes for many marine animals, and support a healthy ocean food chain.
Coral polyps build the enormous limestone structures known as coral reefs. Coral reefs, sometimes referred to as the "rainforests of the sea," are home to about 25% of all known marine species.
An underwater environment known as a coral reef is characterised by corals that construct reefs. Reefs are constructed by coral polyp colonies that are connected by calcium carbonate.Stony corals, whose polyps gather together, make up the majority of coral reefs.
Coral reefs support local economies, provide opportunities for recreation, and act as a barrier against erosion and storm damage. They are a source of both fresh food and medicines. Reefs are essential for the safety, livelihood, and nourishment of more than 500 million people.
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An electric power plant manages to transfer 76% of the heat produced in the burning of fossil fuels to steam. Of the heat carried by the steam, 45 % is converted to mechanical work of the spinning turbine. Which best describes the overall efficiency of the heat-to-work conversion of the plant?.
If the heat is carried by the steam, 45 % is converted to mechanical work of the spinning turbine. the overall efficiency of the heat-to-work conversion of the plant is less than 45% efficient.
The degree to which heat is actually converted into mechanical work is referred to as the efficiency of the conversion.
76% of the problem's heat was turned into steam.
Consider the amount of heat produced by the fossil fuel as "x."
which means out of x, 76x/100 became heat, indicating that 0.76x is steam.
The question also says that 45 percent of the steam was used for mechanical work. which entails;
45/100 × 0.76x was converted to work,
which is equal to 0.342x
that is 34.2% of x.
Therefore the overall efficiency of the heat-to-work conversion of the plant is 45%
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(complete question)
An electric power plant manages to transfer 76% of the heat produced in the burning of fossil fuels to steam. Of the heat carried by the steam, 45 % is converted to mechanical work of the spinning turbine. Which best describes the overall efficiency of the heat-to-work conversion of the plant?
greater than 76% efficient
76% efficient
45% efficient
less than 45% efficient
Learning through Art: DNA Structure doute Tento nea uchando Fra le
DOUBLE HELIX is a twisted-ladder shape of DNA, formed by two nucleotide twisted around each other.
PHOSPHATE GROUP This is attached to the 5' carbon of the sugar unit.
One nucleotide of a DNA molecule consists of a phosphate group. There is formation of phosphate backbone it is the portion of the DNA double helix that provides structural support to the molecule.
DEOXYRIBOSE: This is a A five-carbon sugar that is a component of DNA nucleotides.
HYDROGEN BOND: Hydrogen bonds are found between the bases of the strands of nucleotides. Adenine forms hydrogen bonds with thymine whereas guanine forms hydrogen bonds with cytosine.
BASE PAIR: Two nitrogen-containing bases (or nucleotides) that pair together to form the structure of DNA is called base pair.
So these are nucleotides on opposite strands of the DNA double helix.
NUCLEOTIDE: Nucleotide is one of the structural components, or building blocks, of DNA and RNA. It consists of a nitrogenous base (one of four chemicals: adenine, thymine, guanine, and cytosine) a molecule of sugar (deoxyribose or ribose) and a phosphate group.
NITROGENOUS BASE: Nitrogenous base is the carbon ring structure found in DNA or RNA binding of these base pairs forms the structure of DNA that includes adenine, guanine, cytosine, thymine, and uracil.
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How does oxygen levels relate to the rate of photosynthesis?
Oxygen production and the rate of photosynthesis are directly related. This means that as the rate of photosynthesis increases, more oxygen will be produced.
The effect of oxygen concentration in the range of 0–21% on photosynthesis was investigated in intact leaves of growing plants.
Photosynthetic [tex]CO_{2}[/tex] modification of higher plants is inhibited by oxygen in values to less than 2%. The inhibition increases with the oxygen concentration and is about 30% in the case of 21% [tex]O_{2}[/tex] and 0.03% [tex]CO_{2}[/tex]. There is no doubt, therefore, that oxygen in the air normally exerts a strong inhibitory effect on the adaptation of plants to photosynthesis of [tex]CO_{2}[/tex] under natural conditions.
Oxygen production and the rate of photosynthesis are directly related. This means that as the rate of photosynthesis increases, more oxygen will be produced. This is the reason behind why oxygen is created as a waste product from the light reactions in photosynthesis. Therefore, as photosynthesis occurs faster and faster, more oxygen will be created. Oxygen production is a simple way to measure the relative rate of photosynthesis in the lab.
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What is a point mutation quizlet?
Point Mutation is a mutation in which a single pair of nucleotides in a certain point in the gene sequence is affected.
A point mutation is a genetic mutation that occurs when a single nucleotide base in an organism's genome is changed, inserted, or deleted. Point mutations have a variety of effects on the downstream protein product, with moderately predictable consequences based on the specifics of the mutation. In terms of protein production, composition, and function, these consequences can range from having no effect (e.g., synonymous mutations) to having a negative effect (e.g., frameshift mutations).
Transitions occur when a purine base is replaced with another purine or a pyrimidine is replaced with another pyrimidine. Transversions occur when a purine is replaced by a pyrimidine or vice versa. Missense mutations result in the production of a different amino acid. A missense mutation, also known as a non-synonymous change, alters a codon to produce a different protein.
The term point mutation is sometimes used to describe insertions or deletions of a single base pair (which has a greater negative effect on the synthesised protein because the nucleotides are still read in triplets, but in different frames: a mutation known as a frameshift mutation).
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What are epigenetics in simple terms?
The coagulation cascade controls blood clot formation in response to blood vessel injury. Thrombin is an enzyme that plays a key role in regulating the coagulation cascade. A simplified model of thrombin’s role in regulating the coagulation cascade is represented in Figure 1.
Argatroban is a competitive inhibitor of thrombin. Which of the following effects on the coagulation cascade is most likely to result from inhibiting thrombin activity with argatroban?
answer choices
The activation of clotting factors will be blocked.
The rate of fibrin formation will decrease.
Thrombin will be converted to prothrombin.
The rate of blood clot formation will increase.
The rate of fibrin formation will decrease. So, the correct option is (B).
What is Coagulation cascade?The coagulation cascade is also known as secondary hemostasis. It is defined as the series of steps in response to bleeding that occurs due to tissue injury, where each step activates the next and finally leads to the formation of a blood clot. The word hemostasis is derived from "hem-", meaning "blood", and "-stasis", meaning "to stop".
Hemostasis has two phases where primary hemostasis forms an unstable platelet plug at the site of injury after which the coagulation cascade is activated to stabilize the plug, stop blood flow and allow increased time for necessary repairs to take place Is. This process reduces blood loss after injuries. The rate of fibrin formation will decrease which effects on the coagulation cascade is most likely to result from inhibiting thrombin activity with argatroban.
The coagulation cascade involves the activation of a series of clotting factors, which are proteins involved in blood clotting where each clotting factor is a serine protease which is a type of an enzyme that triggers the breakdown of another protein. Clotting factors are initially in an inactive form called zymogens.
Thus, the rate of fibrin formation will decrease. So, the correct option is (B).
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Are wood frogs Endotherms or Ectotherms?
Wood frogs are Ectotherms.
The ability of wood frogs to hibernate during the winter and remain dormant permits them to inhabit a large geographic range, reaching all the way from the Arctic to the Southeast of the United States. Wood frogs are referred to as the "coyotes of the amphibian world" by Mari Reeves, a researcher with the United States Fish and Wildlife Service who has conducted considerable research on the species in Alaska. However, despite their adaptations, wood frogs are particularly susceptible to stressors such as the contamination of water and the effects of climate change. In order to successfully complete their life cycle, wood frogs, like all other amphibians, must spend time in both aquatic and terrestrial environments.
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What adaptations do clams have?
(hope this helps, please mark me brainliest)
Learning through Art: Human Pedigree Analysis Can you identify the genotypes in this human pedigree for deafness? The human pedigree shown here is for an inherited form of deafness caused by a recessive allele (d). Drag the labels to the pedigree to identify the genotypes of individual family members. If you can't tell with certainty whether an individual is homozygous dominant or heterozygous dominant for the trait, place the label "DD or Dd" in that box.
Learning through Art: Human Pedigree the genotypes in this human pedigree shown here are homologous chromosomes, gene locus, recessive allele, centromere, sister chromatids, alleles, and dominant allele.
One chromosome from the mother and one from the father are often inherited in a pair. Homologous chromosomes, for instance, are two copies of Chromosome 1 in a cell.
Each gene has two copies, one from each parent, and they are each found at a distinct locus (place on a chromosome). However, the copies are not always the same. Gene copies that differ from one another are referred to as alleles.
When a cell divides, the centromere, which has a similarity with a constrictive area of a chromosome, is crucial in assisting DNA division (mitosis and meiosis). To be more precise, it is the area where the cell's spindle fibers are attached.
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which of the following is characteristic of cardiac muscle? cardiac muscle cells achieve tetany with every contraction. cardiac muscle cells are striated. neurons that innervate cardiac muscle tissue are under voluntary control. cardiac muscle fibers are faster than skeletal muscles. cardiac muscle fibers are multinucleated.
Compared to skeletal muscle fibers, the characteristics of cardiac muscle cell membranes are different. Therefore, cardiac muscle cannot develop tetanus (sustained contraction).
What quality of heart muscle prevents tetany from happening?Tetany is not present because summation cannot take place in heart muscle due to a long refractory period that lasts until relaxation is well advanced.
Has tetanic contraction been observed in heart muscle?Compared to skeletal muscle fibers, the characteristics of cardiac muscle cell membranes are different. Therefore, cardiac muscle cannot develop tetanus (sustained contraction). This characteristic is crucial since a heart in tetany would not be able to pump blood.
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for which organic compounds must information be encoded in dna for green plants to synthesize the other three compounds? select one: a. starches b. proteins c. fats d. sugars
Organic compounds are the building blocks of life and are essential for living organisms. They provide the necessary energy, structure, and functions for life to exist. In green plants, four main organic compounds must be encoded in DNA for the plants to synthesize the other three compounds. These four compounds are starches, proteins, fats, and sugars.
Starch is a polysaccharide composed of glucose molecules and is the main energy source for green plants. Proteins are complex molecules made up of amino acids. They are essential in the structure and function of cells and are responsible for many of the plants’ metabolic functions. Fats are made up of glycerol and fatty acid molecules and are an important source of energy for plants. They are also important in providing structure to the plants’ cells.
Sugars are simple carbohydrates composed of glucose molecules. They are a primary source of energy for green plants and provide the necessary sugars needed for photosynthesis. The information for synthesizing sugars must be encoded in the plants’ DNA in order to create the necessary enzymes and proteins needed in the chemical reaction.
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Bacteriophages and animal viruses do NOT differ significantly in which of the following steps?
A) attachment
B) penetration
C) uncoating
D) biosynthesis
E) release
Bacteriophages and animal viruses do NOT differ significantly in which of the following steps the correct option D) biosynthesis.
Animal viruses and bacteriophages do not considerably differ in the domain of biosynthesis. In an enzyme-catalyzed process, substrates are changed into products in living things. Bacteriophages and animal viruses both have comparable structures, which is why it is typically a multi-step process.Bacteriophages have a cycle called lytic/lysogenic. While the lysogenic cycle results in the integration of the phage into the host genome, the lytic cycle results in the death of the host. While animal viruses enter the host cell through membrane fusion or endocytosis, bacteriophages inject DNA into the host cell.The following are the steps in the lytic cycle of bacteriophages:
Phage attachment is the first step in the process of entering a bacterial cell as are bacterial cell entry, phage replication, and phage birth.To know more about Bacteriophages
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What are 5 things all cells have in common?
Answer:
a cell membrane (also known as the plasma membrane)
cytoplasm.
ribosomes.
DNA (genetic information)
Explanation:
a terminator in mrna synthesis is a(n) __________.
A terminator in mRNA synthesis is an Hlnts stop codon.
What is mRNA synthesis?The nucleus, where mRNA is produced, uses the nucleotide sequence of DNA as a template. When elements that help to maintain nuclear DNA are disturbed, transcription (the creation of mRNA) begins.
"In eukaryotic cells, Hlnts stop codon specific nucleotide sequence in DNA that signals the RNA polymerase to stop specific nucleotide sequence in mRNA that signals the RNA polymerase to stop an enzyme whose specialized purpose is to cease transcription" is a terminator in mRNA synthesis.
Thus, a terminator in mRNA synthesis is an Hlnts stop codon.
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How many genes did the human genome project find?
The primary goals of the Human Genome Project (HGP), which lasted from 1990 until 2003, were to determine both the DNA sequence and “the location of the estimated 100,000 human genes.
The Human Genome Project (HGP) was a worldwide scientific research effort that aimed to discover the base pairs that make up human DNA as well as to identify, map, and sequence every gene in the human genome from both a physical and functional perspective.
The project began in 1990 and was finished in 2003. It continues to be the biggest collaborative biological endeavor in the world. Planning began after the US government adopted the concept in 1984, the project was formally begun in 1990, and it was virtually finished on April 14, 2003, but only comprised around 85% of the genome.
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Lewis is running in a race. His muscles need oxygen. Which best describes how multiple systems interact to bring him into homeostasis?
The circulatory system brings oxygen to the respiratory system, which delivers oxygen to the muscular system.
The respiratory system brings oxygen to the circulatory system, which delivers oxygen to the muscular system.
The respiratory system brings oxygen to the circulatory system, which delivers oxygen to the skeletal system.
The circulatory system brings oxygen to the respiratory system, which delivers oxygen to the skeletal system.
Answer:
The circulatory stem brings oxygen to the respiratory system, which delivers oxygen to the muscular system.
Explanation: Hope this helps! :)