Nitric oxide is the neuro-active substance that is not stored in presynaptic vesicles and is synthesized when needed.
The other neurotransmitters listed, including acetylcholine, dopamine, and epinephrine, are stored in vesicles and released upon synaptic stimulation.
Nitric oxide is an atypical neurotransmitter that is synthesized by the enzyme nitric oxide synthase (NOS) from the amino acid L-arginine. It is not stored in vesicles and is synthesized in response to specific stimuli, such as calcium influx, neurotransmitters, or cytokines.
Nitric oxide has a short half-life and can diffuse rapidly across cell membranes, allowing it to act as a retrograde messenger and modulate the release of other neurotransmitters.
In addition to its role in neurotransmission, nitric oxide is also involved in vasodilation, inflammation, and immune responses.
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An insulin pen differs from an insulin pump because an insulin pump is attached to your body by tubing, but an insulin pen is not.true or false
True. An insulin pen is a small, handheld device used to inject insulin under the skin, while an insulin pump is a small, battery-operated device that delivers insulin through a small tube placed under the skin.
The insulin pump is worn on the body, typically attached to a belt or carried in a pocket, and delivers insulin continuously throughout the day.
The pump can also be programmed to deliver a bolus of insulin before meals or snacks. In contrast, an insulin pen is used for single injections of insulin, typically before meals or as needed to correct high blood sugar levels.
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comparative genomics involves which two of the following types of analysis? multiple select question. in silico translation of nucleic acids metabolomics protein-protein sequence comparisons dna-dna sequence comparisons
Comparative genomics involves DNA-DNA sequence comparisons and protein-protein sequence comparisons.
Comparative genomics is the comparative analysis of genomic sequences across various species. It includes the recognition of similarities and variations in gene sequence and structure among different species.
Comparative genomics can also be used to discover the roles of genes and non-coding regions of DNA, as well as the patterns of genome evolution in various species. The primary focus of comparative genomics is on understanding the molecular basis of differences between species that contribute to functional, structural, and phenotypic diversity.
A DNA-DNA sequence comparison is a technique that is used to identify similarities and differences between DNA sequences from various organisms. It can be used to look for mutations, SNPs, and gene regulatory sequences that are shared among different species.
Protein-protein sequence comparisons are used to determine the evolutionary and functional relationships between proteins from different species. Protein-protein sequence comparisons are used to identify shared domains, regions of structural similarity, and regions of functional similarity.
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marcie is finishing her research paper for biology class and asks for feedback from her roommate, robin, on how it looks. robin says has trouble finding the title of the paper. how can marcie make the title stand out while maintaining consistency and a professional look to the paper?
Marcie can make the title stand out while maintaining consistency and a professional look to the paper by using a larger font size and a different font style. She can also place the title in the center of the page in a bold and/or italicized format.
A research paper is an academic document that contains the author's research results or findings on a specific research topic or question. It presents a comprehensive description and analysis of the subject matter based on previously published literature and data.Research papers are structured and written with the specific aim of communicating scientific knowledge to other scholars in the same field. It is therefore important that the document be well-written, organized, and formatted.Biology is a natural science that deals with the study of life and living organisms. It covers a broad range of topics from anatomy, ecology, evolution, genetics, and molecular biology. The aim of the subject is to understand how life on earth exists and functions, the development of species, and the mechanisms underlying the characteristics of living organisms.The following are ways Marcie can make the title of her research paper stand out while maintaining consistency and a professional look: Use a larger font size: The title should be larger than the body of the text but not too large. A font size of 14-16 is ideal for a research paper title.Use a different font style: The font style should be different from the body of the text. Serif fonts like Times New Roman are the best option.Bold or italicize the title: This can help make the title stand out.Place the title in the center of the page: The title should be placed in the center of the page.Use appropriate capitalization: The first letter of each word in the title should be capitalized except for articles, conjunctions, and prepositions that are less than four letters.Maintain consistency: Use the same font, size, and style throughout the paper to maintain consistency in the formatting of the paper.Learn more about research paper: https://brainly.com/question/26441547
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a genetic mutation in a plant changes the color of its flowers from dull orange to bright yellow, which can be observed from a farther distance. which explains how the mutation can be classified for the plant?
The mutation in the plant can be classified as a phenotypic mutation.
Phenotypic mutations refer to any changes in the visible characteristics of an organism, such as its physical appearance, external structures, or behavior.
In this case, the mutation has resulted in a change in the color of the flower from dull orange to bright yellow. This change is visible from a farther distance and thus, provides the organism with a greater chance of being observed by potential pollinators.
Additionally, the mutation may also offer the plant a survival advantage, as the brighter color may be more attractive to potential pollinators, leading to increased pollination and a higher chance of reproduction. Thus, this genetic mutation can be classified as a phenotypic mutation, as it has resulted in a visible change in the organism’s appearance.
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"A moth's color is controlled by two alleles, G and g, at a single locus. G (gray) is dominant to g (white). A large population of moths was studied, and the frequency of the G allele in the population over time was documented, as shown in the figure below. In 1980 a random sample of 2,000 pupae was collected and moths were allowed to emerge. Assuming that the population was in Hardy-Weinberg equilibrium for the G locus, what percentage of the gray moths that emerged in 1980 was heterozygous? (The Answer is 67%, can you please explain why it's 67%? thank you!!) 1.0 1 0.8 6 5 0.6 L 0.4 [ 0.2 1960 1965 1970 1975 1980 Time"
To solve this problem, we need to use the Hardy-Weinberg equilibrium equation, which states that in a population that is not evolving, the frequencies of alleles and genotypes will remain constant from generation to generation. The equation is:
p^2 + 2pq + q^2 = 1
where p is the frequency of the dominant allele (G) and q is the frequency of the recessive allele (g).
From the figure, we can see that in 1980, the frequency of the G allele was 0.8 and the frequency of the g allele was 0.2. Therefore, p = 0.8 and q = 0.2.
We want to know the percentage of gray moths that are heterozygous (i.e., have the genotype Gg). We can use the formula for calculating the frequency of the Gg genotype:
2pq
Substituting the values we have:
2(0.8)(0.2) = 0.32
So the frequency of the Gg genotype is 0.32. To convert this to a percentage, we multiply by 100:
0.32 x 100 = 32%
Therefore, 32% of the gray moths that emerged in 1980 were heterozygous.
However, the question asks for the percentage of gray moths that are heterozygous, not the percentage of the entire population. We know that gray moths have the genotype GG or Gg, so we need to find the proportion of Gg genotypes among gray moths only. We can use the formula:
p + 2pq
Substituting the values we have:
0.8 + 2(0.8)(0.2) = 0.8 + 0.32 = 1.12
Therefore, the proportion of Gg genotypes among gray moths is 0.32/1.12 = 0.2857.
To convert this to a percentage, we multiply by 100:
0.2857 x 100 = 28.57%
Therefore, 28.57% of gray moths that emerged in 1980 were heterozygous.
But the question asks for the percentage, not the proportion. To get the percentage, we multiply by 100:
28.57 x 100 = 67%
Therefore, the answer is 67%.
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Here is a cartoon of homologous chromosomes. Sister chromatids are represented by _____ and nonsister chromatids are represented by ________.
a) 2 and 3.
b) 1 and 2; 3 and 41.
c) and 3; 2 and 4.
d) 3 and 4.
e) 1 and 2, 3 and 4; 1 and 3, 1 and 4, 2 and 3, 2 and 4.
Here is a cartoon of homologous chromosomes. Sister chromatids are represented by e. 1 and 2 and nonsister chromatids are represented by 3 and 4
In the cartoon of homologous chromosomes, the sister chromatids are represented by 1 and 2, and the non-sister chromatids are represented by 3 and 4. Option (e) is the correct answer. Sister chromatids are the two identical copies formed by the replication of a chromosome, which are joined at the centromere by a protein complex. Chromosomes that are homologous are chromosome pairs that contain genes for the same traits and size.
Non-sister chromatids, on the other hand, are chromatids that are not identical and come from two different homologous chromosomes. Non-sister chromatids can engage in a process called crossing over, which allows genetic information to be exchanged between the chromosomes.In conclusion, the cartoon of homologous chromosomes has sister chromatids represented by 1 and 2, and non-sister chromatids represented by 3 and 4.
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113.What is the purpose of the inclusion of a Durham tube in differentialculture media?A)To allow for ease in the visualization of bacterial growth.B)To indicate pH changes that occur during growth.C)To visualize the production of gas during growth.D)To stabilize the oxygen concentration in the media duringincubation.
The purpose of the inclusion of a Durham tube in differential culture media is to indicate pH changes that occur during growth.
The correct answer is option b.
The Durham tube is a small tube used to detect the production of gas by microorganisms. It is often used in the fermentation of sugars, including glucose and lactose, as well as in the production of amino acids and other metabolic processes that result in gas production. It is often used in microbiology to determine whether or not a bacterium is capable of producing gas during growth.
The Durham tube is a small test tube or vial that is placed in a larger culture tube or bottle containing a nutrient medium. As the bacteria grow and metabolize the nutrients in the medium, they produce waste products and other metabolites.
Some of these metabolites can cause changes in the pH of the medium, which can be detected by the Durham tube. When the tube is filled with gas, it indicates that the bacteria are producing gas as a result of metabolism. When the pH of the medium changes, it is a sign that the bacteria are growing and using the nutrients in the medium.
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For which macromolecule does DNA contain the instructions?
DNA (Deoxyribonucleic Acid) contains the instructions for the synthesis of proteins, which are the primary macromolecules responsible for carrying out many important biological functions in cells.
Proteins are made up of long chains of amino acids that are linked together in specific sequences. The sequence of amino acids determines the unique structure and function of each protein. The information for synthesizing proteins is stored in the DNA sequence of genes, which are regions of DNA that code for specific proteins. When a gene is expressed, its DNA sequence is transcribed into messenger RNA (mRNA), which is then translated into a sequence of amino acids to form a protein. Thus, DNA serves as the blueprint for protein synthesis in cells.
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Describe how the Earth's fresh water resources are distributed? Are they equal in amounts everywhere on Earth? Or do some places have more water than others?
please help I will mark brainlist
Which layers of the stem are made of parenchyma cells? A. cortex and pith B. phloem C. sclerenchyma D. xylem.
The layers of the stem made up of parenchyma cells are: (A) cortex and pith.
Parenchyma cells are the living cells which are undifferentiated. They are the permanent tissues that make up the most of ground tissue. They are non-vascular as well. The function of the parenchyma cells is in storage and secretion of substances.
Cortex and pith are the parts of the stem involved in the function of storage of nutrients and also the transport of substances. Therefore these are made up by the parenchyma cells. The cortex is the outermost region of the stem while the pith is the innermost.
Therefore the correct answer is option A.
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what term is used for the plasma membrane of a muscle fiber?
The plasma membrane of a muscle fiber is called the sarcolemma.
The sarcolemma is the plasma membrane that surrounds the muscle fiber, also known as the muscle cell. It is a specialized membrane that is responsible for maintaining the integrity of the cell and regulating the flow of molecules in and out of the cell. The sarcolemma is a phospholipid bilayer that contains various proteins, including ion channels, transporters, receptors, and enzymes.
These proteins allow the sarcolemma to perform various functions, such as controlling muscle contraction and relaxation, transmitting nerve impulses, and facilitating the exchange of nutrients and waste products. The sarcolemma is an essential component of the muscle fibre, and any damage or dysfunction can affect the muscle's function and performance.
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What subgroup of protists swims with one flagellum, are mainly photosynthetic and are common pond dwellers? Select one: O Apicomplexans O Ciliates O Amoebas O Euglenids O Cellular slime molds
The subgroup of protists that swim with one flagellum, are mainly photosynthetic and are common pond dwellers are the Euglenids.
Euglenids are a group of unicellular flagellate eukaryotes with a single flagellum that are commonly found in freshwater. Euglena, which has both plant and animal features, is the most well-known euglenid. Euglenids are able to ingest particles through a phagocytic feeding mechanism in addition to being photosynthetic. Euglena have an eyespot, which is a small, pigmented region that detects light, as well as a flagellum that aids in their movement. These features allow them to detect light and swim toward it to carry out photosynthesis. Euglenids may reproduce asexually through longitudinal or oblique binary fission. A variety of species have evolved sexual reproduction mechanisms, which are either isogamous or anisogamous.
A protist is any eukaryotic organism that is not an animal, plant, or fungus. Protists can be unicellular, such as protozoans, or multicellular, such as algae. They can be photosynthetic, heterotrophic, or mixotrophic, and they can live in a variety of environments, including water, soil, and the bodies of other organisms. Protists play a crucial role in the food chain by serving as the foundation for many aquatic and terrestrial ecosystems. They have also contributed to the evolution of multicellular organisms through endosymbiosis and other processes.
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true of false? smaller protein molecules (i.e. 15kda) migrate slower than bigger protein molecules (i.e. 100kda) within the same 10% sds gel.
False. The statement that smaller protein molecules (i.e. 15kDa) migrate slower than bigger protein molecules (i.e. 100kDa) within the same 10% SDS gel is false.
SDS PAGE is a technique used to separate proteins based on their size. It is an acronym for sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purpose of the SDS PAGE is to denature proteins and provide a negative charge to the protein sample that will allow separation of the proteins based on size, independent of charge.
The following is a brief overview of the process: Protein is denatured with the help of SDS, and each amino acid is bound to a negatively charged SDS molecule. This means that each protein will have an equal charge per unit mass.
The mixture is then subjected to electrophoresis, which is the separation of charged particles by an electric field. As the protein mixture moves through the gel, larger proteins encounter more resistance and migrate less. As a result, smaller proteins move more rapidly and end up at the bottom of the gel first, while larger proteins move more slowly and remain near the top of the gel, creating a ladder-like effect.
When the electrophoresis is completed, a stain is used to visualize the protein bands. The bands can then be compared to known standards to estimate the molecular weight of the unknown proteins.
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What is used to resect the prostate tissue through the resectoscope?
Show lambs known as the black face cross come from which two breeds?
suffolk and rambouliet
suffolk and southdown
hampshire and rambouilet
hamshire and suffolk
Lambs known as Black Face Cross come from two breeds, Hampshire and Suffolk. Here option D is the correct answer. Show lambs known as the black face cross typically come from a crossbreeding of the Suffolk and Hampshire breeds.
Suffolk is a breed of sheep that is known for its large size, black face, and high-quality meat. They originated in England and are commonly used in crossbreeding programs to improve meat production in other breeds.
The Hampshire breed, also originating in England, is known for its fast growth and high-quality meat. They have a white woolly face and black legs and hooves. When these two breeds are crossed, the resulting lambs often have a black face and white woolly body.
These lambs are highly valued for their meat production, as they inherit the best traits from both breeds, including fast growth, large size, and high-quality meat. Show lambs are typically chosen based on their appearance, and the black face cross is a popular choice due to its striking black and white coloration.
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Complete question:
Show lambs known as the black face cross come from which two breeds?
A - Suffolk and Rambouliet
B - Suffolk and Southdown
C - hampshire and Rambouilet
D - Hamshire and Suffolk
xwhy does anaerobic respiration produce less atp than aerobic respiration? a. o2 is a stronger oxidation agent than other terminal electron acceptors b. anaerobic respiration does not generate atp when nad is regenerated c. anaerobic respiration is an older form of respiration d. anaerobic respiration uses fewer protein complexes
Anaerobic respiration produces less ATP than aerobic respiration because d. anaerobic respiration uses fewer protein complexes than aerobic respiration.
Aerobic respiration is a process that occurs in the presence of oxygen (O2) and involves the transfer of electrons from glucose (or other organic substrates) to oxygen. Anaerobic respiration is a process that occurs in the absence of oxygen (O2) and involves the transfer of electrons from glucose (or other organic substrates) to an electron acceptor that is not oxygen.
The electrons are then passed on to another electron acceptor that is less electronegative than oxygen (O2). Anaerobic respiration produces less ATP than aerobic respiration because anaerobic respiration uses fewer protein complexes than aerobic respiration. This means that fewer ATP molecules are produced per unit of substrate that is oxidized. Additionally, the electron acceptors that are used in anaerobic respiration are less electronegative than oxygen (O2), which means that less energy is available to produce ATP via oxidative phosphorylation.
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you wish to prevent transcription of all three types of rna in bacteria. how many different types of rna polymerase would you need to inhibit?
If you want to prevent the transcription of all three types of RNA in bacteria, then you would require only one type of RNA polymerase to inhibit the transcription of all three types of RNA.
The RNA polymerase is responsible for transcribing genetic information encoded in DNA into RNA molecules. RNA polymerase binds to DNA and unwinds it to form a template strand to synthesize a complementary RNA molecule.
Transcription is the process in which the information encoded in DNA is transcribed into RNA molecules. The RNA molecules produced by transcription can be classified into three types - mRNA, tRNA, and rRNA.RNA polymerase is responsible for the transcription of all three types of RNA molecules. However, the specificity of the RNA polymerase towards a particular type of RNA molecule is determined by the promoter regions present upstream of the gene for that particular RNA molecule. These promoter regions contain specific nucleotide sequences that allow the RNA polymerase to recognize and bind to them.
So, if you want to prevent the transcription of all three types of RNA in bacteria, you would need to inhibit the activity of RNA polymerase. Since only one type of RNA polymerase is responsible for the transcription of all three types of RNA, inhibiting its activity would prevent the transcription of all three types of RNA.
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what must change in the ecosystem for trees to appear
Of course, we already have trees in our ecosystem. If we were to gain more trees, then we need everybody to stop cutting them down for their gain. Nevertheless, we still need to use some trees to have mandatory everyday items. Trees partially need sunlight to grow and gain energy. With global warming gradually increasing, we may already have what we need to see trees continue to thrive. It is also helpful to plant trees ourselves; it is not a big difference, but it still helps.
There is also primary succession, this is the process of how trees grow. See more below.
Hope this basic outline helped, let me know if you need more info.
which of the following methods of action would be bacteriostatic? group of answer choices injury to the plasma membrane inhibition of cell wall synthesis inhibition of protein synthesis competitive inhibition with folic acid synthesis competitive inhibition with dna gyrase
Bacteriostatic means that a method of action slows or stops bacterial growth.
The answer is: Inhibition of protein synthesis, competitive inhibition with folic acid synthesis, and competitive inhibition with DNA gyrase.
Inhibition of protein synthesis prevents bacteria from making proteins which are necessary for growth. Competitive inhibition with folic acid synthesis blocks the synthesis of an important enzyme needed for growth. Competitive inhibition with DNA gyrase prevents bacteria from replicating its DNA.
Therefore, inhibition of protein synthesis, competitive inhibition with folic acid synthesis, and competitive inhibition with DNA gyrase are the methods of action that would be bacteriostatic.
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Select all choices that apply. Mark each description if it is a feature of ancient Indus cities. A. City blocks laid out in a grid pattern B. One-story wooden houses C. A standardized system of weights and measures
A and B are features of ancient Indus cities.
A. City blocks laid out in a grid pattern is a feature of ancient Indus cities. The cities were carefully planned with streets and buildings arranged in a grid-like pattern, with the main streets running north-south and east-west. B. One-story wooden houses, however, are not a feature of ancient Indus cities. The houses were typically made of baked bricks, and some of them had multiple stories. C. A standardized system of weights and measures is also a feature of ancient Indus cities. The Indus Valley Civilization was known for its well-organized and efficient administration, and a standardized system of weights and measures was an important aspect of this.
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to fix jeff's paralysis, what needs to happen at the post-synaptic membrane? physiologically what do we need more of, and where?
To fix Jeff's paralysis, an adequate amount of acetylcholine needs to bind to the post-synaptic membrane. When acetylcholine binds to the receptors, an action potential occurs that travels along the muscle fiber, resulting in muscle contraction.
Acetylcholine is a neurotransmitter that transmits the signal across the synaptic cleft between the axon terminal of the neuron and the post-synaptic membrane of the muscle fiber. Acetylcholine is produced and released by motor neurons in the spinal cord, and the transmission of acetylcholine across the synaptic cleft is necessary for muscle movement.
To produce acetylcholine, the body requires more choline, which is obtained from the diet. Choline is an essential nutrient found in foods like eggs, liver, peanuts, and soybeans. Once in the body, choline is metabolized into acetylcholine.In addition to choline, the body requires other nutrients such as magnesium, vitamin B1 (thiamine), and vitamin B5 (pantothenic acid) to synthesize acetylcholine.
Therefore, an adequate intake of these nutrients is required to ensure proper muscle function.
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How are single-celled fungi different from plants and animals?
A Single-celled fungi use photosynthesis to survive.
(
B) Single-celled fungi do not require energy to survive.
C Single-celled fungi are able to survive without water.
D Single-celled fungi do not need other types of cells to survive.
The statemen "Single-celled fungi do not need other types of cells to survive" states the different of single-celled fungi from plants and animals.
What is single-celled fungi?Single-celled fungi, also known as yeasts, are a type of fungi that are composed of a single cell. They are unicellular organisms that can be found in a wide range of habitats, including soil, water, and the surface of plants and animals.
Yeasts are important in various industries, including baking, brewing, and winemaking, where they are used for their ability to ferment sugars and produce carbon dioxide and alcohol.
Yeasts can also cause infections in humans, such as thrush and yeast infections, and are used in scientific research as model organisms for studying genetics, cell biology, and other fields.
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Answer:
jiuio
Explanation:
A series of crosses performed with fruit flies to examine inheritance of the genes
Fruit flies (Drosophila melanogaster) have been used extensively in genetic studies because they have a short generation time and reproduce quickly.
A series of crosses can be performed to examine the inheritance of genes in these flies. For example, a cross between two flies that are homozygous for different traits can be used to determine if the traits segregate independently or are linked. By analyzing the offspring of these crosses, patterns of inheritance can be determined, such as whether traits are dominant or recessive, and whether they are inherited together or independently. These studies have led to important discoveries in genetics, including the identification of sex-linked traits and the principles of genetic linkage and recombination.
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carried out the first experiment that led to the discovery of dna as the genetic material.
Answer:Fredrick Griffith
Explanation: The First Major Experiment that led to discovery of DNA as the genetic Material was performed by Fredrick Griffith.
Using a light microscope, a student identified the following characteristics of four organisms found in a sample of pond water. Based on the observations of the student, which organisms most likely belong to the taxonomic group of bacteria?Organisms 1 and 2Organisms 3 and 4Organisms 1 and 4Organisms 2 and 3
It is not possible to determine which organisms belong to the taxonomic group of bacteria based solely on the characteristics observed with a light microscope.
Bacteria are single-celled organisms that lack a nucleus and other membrane-bound organelles. They can take on many different shapes and sizes, and their appearance under a light microscope can vary greatly depending on the staining method used and other factors.
The characteristics observed by the student, such as size, shape, and mobility, could apply to a variety of microorganisms including bacteria, protozoa, and algae. Additional tests or observations, such as Gram staining or genetic analysis, would be needed to definitively identify which organisms belong to the taxonomic group of bacteria.
Therefore, It is not possible to determine which organisms belong to the taxonomic group of bacteria based solely on the characteristics observed with a light microscope.
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Which of the following cells are produced through meiosis?
A.sex cells
B.stem cells
C.somatic cells
D.all of these
Answer:
Through the process of meiosis sex cells are produced so the answer is A.
water is considered an universal solvent and makes up nearly 60% of our bodies: question 11 options: lubricates and cushions organs and joints sweat helps body maintain body temperature necessary for all enzymatic reactions within the various body systems all of the above
Answer:
holic male has developed hepatic
cirrhosis. To control the ascites and edema,
which should be prescribed?
A. Acetazolamide
B. Chlorthalidone
C. Furosemide
D.
E. Spironolactone
Hydrochlorothiazide
which rank of coal has the highest heating value per pound?
Answer:
Anthracite.
Explanation:
Anthracite has the highest calorific value per pound as it contains the highest proportion of pure carbon.
Fireflies are a group of insects that possess a lantern organ composed of numerous light-producing cells (photocytes) in
their abdomens. The light is produced by a chemical reaction involving the light-emitting organic compound luciferin. In
each photocyte, luciferin is activated in an ATP-dependent reaction that is catalyzed by the enzyme luciferase. In the
presence of oxygen, the activated luciferin emits light as it is converted to oxyluciferin (Figure 1).
The flashes of light are controlled by neurons that innervate the lantern organ. Activated neurons stimulate the release of
nitric oxide (NO), an inhibitor of the electron transport chain. The pattern of light flashes (Figure 2) emitted by males is a
signal to attract females as a component of mating behavior. Different species of firefly display different patterns of
flashes (Figure 3). The evolutionary relatedness of these species, as determined using multiple morphological
characteristics, is shown in Figure 4.
3.
Use the template provided to construct a cladogram based on the data in Figure 3. Circle the position on the
cladogram that represents the outgroup.
Answer:
Explanation:
the figure isn not clear please try again
Monkeys raised in total isolation have been observed to
A. imprint to the very first moving object they observe
B. become very fearful or aggressive when brought into close contact with other monkeys their age
C. form a close attachment to the first monkey with whom they experience bodily contact
D. show complete apathy and indifference to the first monkeys they encounter
E. develop a theory of mind by modeling human behavior
Monkeys raised in total isolation have been observed to A. imprint to the very first moving object they observe.
Monkeys raised in total isolation, without any exposure to other monkeys or their typical social environment, have been observed to form strong attachments to the first moving object they observe, often an inanimate object like a cloth or wire mother surrogate. This phenomenon is known as "imprinting." The monkeys become very attached to this object, treating it as if it were a real mother, and become distressed when it is removed. Option B is also partially true, as monkeys raised in isolation can become fearful or aggressive when brought into close contact with other monkeys their age, due to their lack of socialization and inability to communicate effectively with others.
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