Answer:
They can estimate the ocean's temperature.They can calculate the amount of carbon dioxide in the air.Explanation:
Foraminifera are single-celled organisms that live in the ocean and secrete shells made of calcium carbonate. The shells of foraminifera contain chemical isotopes that are useful for understanding past climate conditions.
The ratio of different isotopes of oxygen in the foraminifera shells provides a record of the ocean temperature at the time the foraminifera lived. This is because the ratio of isotopes in the shells changes in response to changes in the ocean temperature. Scientists can use this information to reconstruct past ocean temperatures, which in turn can be used to infer other aspects of the climate at the time.
The amount of carbon dioxide in the air can also be estimated from the chemical isotopes in the foraminifera shells. Foraminifera shells contain information about the amount of carbon dioxide in the water, and by extension, in the air, because the ocean and atmosphere are interconnected. Scientists can use the amount of carbon dioxide in the shells to infer changes in atmospheric carbon dioxide levels over time, which is an important aspect of understanding the Earth's past climate.
Overall, the chemical isotopes in foraminifera shells provide an important tool for reconstructing past ocean and atmospheric conditions, which helps us understand how the Earth's climate has changed over time.
Answer: They can estimate the ocean's tempature
Explanation:
TRUE/FALSE. an organism's encompasses all of its genetic information.
True an organism's encompasses all of its genetic information.
A genome is considered to include all of an organism's genetic material in the sciences of molecular biology and genetics. It is made up of DNA nucleotide sequences (or RNA in RNA viruses). The nuclear genome contains both protein-coding and non-coding genes, as well as other useful genomic sections including regulatory sequences (see non-coding DNA) and frequently a sizable amount of "junk" DNA with no known function. The mitochondria and the tiny mitochondrial genome are present in almost all eukaryotes. Additionally, chloroplasts with a chloroplast genome can be found in algae and plants. The many repeated sequences revealed in human DNA that were not fully uncovered by the initial Human Genome Project investigation could be sequenced thanks to technological advances.
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If you detect evidence for some gene flow between the diverging types sometime during the speciation process, which form(s) of speciation can you exclude? - reinforcement - allopatric - sympatric - allopatric and sympatric - allopatric and reinforcement
Reinforcement can be excluded amongst the given forms of speciation as it will not allow any gene flow to occur.
In allopatric speciation, the species belonging to the different populations are separated through a geographic barrier. Geographic barrier can basically denotes any barriers provided by the environment like the river, lake etc. Whereas, sympatric speciation involves no physical barriers and the individuals are in close proximity with each other.
Both allopatric and sympatric speciation allow gene flow to occur. Reinforcement causes complete reproductive isolation and hence does not allow any gene flow to occur. No gene flow among the diverging types will be observed during reinforcement.
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Assuming independent assortment, what phenotypic ratio would you expect to see if an individual with the genotype RrGg is self-crossed?
A) 1:3
B) 9:3:3:1
C) 1:2:1
D) 1:3:2:1
E) 3:1
If the two genes exhibit independent assortment, a 9:3:3:1 ratio of phenotypes should be predicted in the progeny.
Both of the parent genes have homozygous recessive alleles. Therefore, regardless of independent assortment, any cross between them would result in a ratio of 9:3:3:1, causing the progeny to likewise have homozygous recessive genes. Mendel's law of independent assortment states that alleles from two or more different genes are separately sorted into gametes.
The allele a gamete receives for one gene does not affect the allele it receives for another gene, to put it another way. The offspring in the question displays the same phenotypic features since the allele from the two parents is the same.
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which of the statements below is correct? a. proteins, rna and phospholipids are macromolecules, while membranes and ribosomes are molecular aggregates. b. proteins, dna and membranes are macromolecules, while phospholipid bilayers and ribosomes are molecular aggregates. c. proteins, rna and phospholipids are molecular aggregates, while membranes and ribosomes are macromolecules. d. dna, rna and proteins are macromolecules, while membranes and ribosomes are molecular aggregates. e. dna, rna and polysaccharides are macromolecules, while phospholipids and ribosomes are molecular aggregates.
The correct answer is D. DNA, RNA and proteins are macromolecules, while membranes and ribosomes are molecular aggregates.
Macromolecules are large molecules composed of hundreds to thousands of atoms, usually in the form of one or more long chains. These molecules possess properties not found in smaller molecules, such as proteins which are made of amino acids and serve a variety of functions including structure, movement, and enzymatic activity.
Nucleic acids, like DNA and RNA, are composed of nucleotides and act as a genetic code for cells. Carbohydrates are composed of sugars and provide cells with energy and structural support. Lipids are composed of fatty acids and form an integral part of cell membranes. In addition to these macromolecules, molecular aggregates such as membranes and ribosomes are formed when multiple macromolecules are grouped together.
These aggregates are composed of proteins, lipids, and other molecules and are responsible for tasks such as the translation of mRNA into proteins.
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If a guinea pig contains 64 chromosomes in each body cell, how many chromosomes would be produced in each cell as a result of meiosis?.
process which moves an electrical impulse through a nerve cell?
A nerve impulse is an electrical occurrence, similar to a lightning strike. A nerve impulse is caused by an electrical charge differential across a neuron's plasma membrane.
When a neuron is not actively delivering a nerve impulse, it is at rest and ready to transmit one. The sodium-potassium pump maintains a charge difference across the neuron's cell membrane while at rest. The sodium-potassium pump is an active transport system that pumps sodium ions out of cells and potassium ions in. The sodium-potassium pump transports both ions from low to high concentrations by utilising ATP and carrier proteins in the cell membrane.
When a neuron receives a chemical stimulation, a nerve impulse is formed. The nerve impulse travels as an electrical action potential down the axon membrane to the axon terminal. Neurotransmitters are released by the axon terminal and transfer the nerve impulse to the next cell.
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TRUE/FALSE. not one of the 4 most common elements in living organisms, but present in greater than trace amount
Yes, Sodium, Chloride, Calcium, Phosphorus, Potassium, Sulfur, Magnesium, Iron one of the 4 most common elements in living organisms, but present in greater than trace amount.
The heart, bones, muscles, neurons, and other body organs all depend on magnesium to function properly. These regions malfunction if there is insufficient magnesium. A low magnesium diet or a magnesium shortage are linked to health issues, according to study. Clinical trials have produced conflicting results about the ability of magnesium supplementation to treat these illnesses, despite epidemiological research showing a link between higher magnesium diets and reduced incidence of disease. It could be because a diet strong in magnesium is frequently richer in other nutrients, which work better together to prevent disease than a pill providing just one vitamin.
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The absorptive surface area of the small intestine is increased by plicae circulares, villi, and microvilli. (T/F)
True, the absorptive surface area of the small intestine is increased by plicae circulares, villi, and microvilli.
What do you mean by villi?Villi are small, finger-like projections that line the inner surface of the small intestine in the human digestive system. They play a crucial role in the absorption of nutrients from the food we eat. The surface area of the small intestine is increased by the presence of the villi, which increases the efficiency of nutrient absorption.
Each villus is composed of a central core of connective tissue, covered by a layer of simple columnar epithelium, which contains absorptive cells known as enterocytes. The enterocytes have microvilli, which are even smaller projections that further increase the surface area for absorption. Nutrients pass through the cell membranes of the enterocytes and into the bloodstream, where they are transported to the rest of the body.
In addition to facilitating nutrient absorption, the villi also help to mix and move the food through the small intestine, and they are involved in the regulation of the secretion of digestive enzymes and hormones.
True. The absorptive surface area of the small intestine is increased by the presence of plicae circulares, villi, and microvilli. The small intestine is the primary site of nutrient absorption in the digestive system. The inner lining of the small intestine is covered with plicae circulares, which are folded ridges that increase the surface area for absorption. On top of the plicae circulares are small finger-like projections called villi, which further increase the surface area. The villi are covered with even smaller projections called microvilli, which increase the surface area even further, creating a highly absorptive surface for the uptake of nutrients from the gut. The increased surface area of the small intestine helps to maximize the efficiency of nutrient absorption from the gut.
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what two organelles produce proteins?
Proteins used outside the cell are produced by the rough ER and used inside the cell by free ribosomes.
What are the 12 organelles in a cell?The following key organelles as well as cellular constituents can be found within the cytoplasm: nucleolus, nucleus, ribosome, vesicle, smooth endoplasmic reticulum, Golgi apparatus, cytoskeleton, mitochondria, vacuole, cytosol, lysosome, centriole, and rough endoplasmic reticulum.
What are 2 types of organelles?There are two different kinds of organelles in this regard: membrane-bound organelles (which include both single- and the double cytoplasmic structures) as well as non-membrane-bound organelles (also referred to as biomolecular complexes or proteinaceous organelles).
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When a substance freezes, its atoms become locked in place so they do not move from one position to another. Therefore, any substance that is frozen is aplasma. Gas. Liquid. Solid.
When a substance freezes, its atoms are locked in place, so they don't move from one position to another. Therefore, any substance that is frozen is solid.
What is the solid?
Solid is one of the four fundamental states of matter. It is characterized by the rigidity of its structure and its resistance to changes in shape or volume. Solids are substances that have a fixed shape and a fixed volume.
The characteristics of solids are:
The arrangement of the atoms is regular and they are close together.The movement of the constituent atoms is not free due to the strong attraction between the particles.The shape is always fixed.The volume is always constant.Examples of solids are wood, aluminum, glass, and stone.
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How are PET and fMRI research methods similar?A. Both involve the stimulation of specific brain regions.B. Both involve lesioning.C. Both use X-rays.D. Both can be uses to map activity in the brain over time.
Option D. Both can be used to map activity in the brain over time. PET (Positron Emission Tomography) and fMRI (Functional Magnetic Resonance Imaging) are both non-invasive imaging techniques used in brain research to map brain activity over time.
Both methods use functional imaging to measure changes in blood flow to various regions of the brain, which is taken as an indicator of increased neural activity in those regions. While PET uses radioactive tracers to detect changes in blood flow, fMRI uses magnetic fields and radio waves to measure changes in blood oxygen levels. Both techniques have their own strengths and limitations, and are often used together to gain a more comprehensive understanding of brain function.
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What does Pseudostratified columnar epithelium do?
Pseudostratified columnar epithelium is a type of epithelial tissue that lines various organs and structures in the body, such as the trachea, bronchi, and reproductive tract.
How Pseudostratified columnar epithelium works?
Its key function is to provide a protective barrier, prevent the entry of harmful substances, and regulate the movement of materials such as air, mucus, and sperm through the lumen of these organs. Additionally, pseudostratified columnar epithelium is involved in secreting and transporting mucus, which helps to lubricate and moisten these surfaces and protect them from foreign particles and pathogens.
Pseudostratified columnar epithelium also plays a role in sensation by containing sensory nerve endings that detect changes in temperature, pressure, and other stimuli. This type of epithelium also has cilia, which are hair-like structures that help to move mucus and other materials along the surface of the epithelium.
The cilia work in coordinated, rhythmic movements to propel mucus toward the opening of the lumen, where it can be expelled. This helps to keep the surface of the epithelium clean and clear of harmful substances and pathogens. In conclusion, pseudostratified columnar epithelium serves multiple functions in the body, including protection, regulation of material movement, sensation, and secretion, among others.
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according to the blank______, development reflects an ongoing, bidirectional interchange between genes and the environment.
In developmental psychology, the word "epigenetic" has been used to define psychological development as the outcome of a continuous, reciprocal interaction between environment and genetics.
The epigenetic perspective emphasizes that heredity and environment interact continuously and in a bidirectional manner to shape development. Epigenesis is the idea that development happens as a result of interactions between the environment and the genotype in both directions. Because genes provide a range for development and environment dictates where development falls within that range, the idea of reaction range also encompasses gene-environment interactions. Both "Heritage and Environment" have an impact on human development because these factors are crucial in determining an individual's growth and development. Heredity and environment work together to shape human development.
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Non-human primates account only 0.025% of all biomedical research. T/F
False, Non-human primates account only 0.025% of all biomedical research.
However, it can be challenging to pinpoint an exact percentage because it varies according to the source and selection criteria. Non-human primate research is thought to make up less than 1% of total biomedical research, according to some estimates. However, because of ethical issues and the significant cost of keeping these creatures in scientific settings, the use of non-human primates in research has been debatable. The use of non-human primates in research has decreased in recent years, and other models such cell cultures, computer simulations, and genetically modified mice have taken their place. Non-human primates still contribute significantly to various fields of biomedical study, particularly those involving the study of infectious illnesses, neuroscience, and physiology.
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In the same mouse species, a third unlinked gene (gene c/c) also has an epistatic effect on fur color. The presence of the dominant allele c (for color), allows the a/a and b/b genes to be expressed normally. The presence of two recessive alleles (cc), on the other hand, prevents any pigment from being formed, resulting in an albino (white) mouse.
In the same mouse species, an unlinked third gene (gene C/c) also has a dominant effect on coat color. The presence of the dominant allele C (color) allows normal expression of the A/a and B/b genes. On the other hand, the presence of two recessive alleles (cc) prevents pigmentation and produces albino (white) mice.
Since the C/c gene is epistatic to both the A/a and B/b genes, offspring with the cc allele combination will be albino. Otherwise, genes A/a and B/b are normally expressed.
aaBbCc-Solid color,
Black AABBCC-Albino
AaBbcc-Albino,
AaBBCC-Agouti Black
Aabbcc-Albono
AAbbCc Agouti Brown
ABOUT GENETIC ENGINEERINGGenetic engineering is the science of intentionally altering the properties of living things through genetic manipulation.
By manipulating DNA and transferring it from one organism to another, it is thought possible to integrate the characteristics of almost any organism. Currently, transgenic organisms contain enzymes, monoclonal antibodies, nutrients, hormones,
Benefits of genetic engineeringThe application of genetic engineering is very helpful in meeting the needs of human life, including providing future food needs with better quality. Used as an alternative energy source that can be renewed, for example biomass and biofuels which can replace conventional energy sources. Then better health care, with more effective drugs. As well as better agricultural efficiency and relatively less use of chemical pesticides.
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How are humans impacting biodiversity in ecosystems around the world?
Humans impact biodiversity in ecosystems around the world through climate change, ocean acidification, air pollution, pollutants, and invasive species.
Land use change is the primary direct source of biodiversity loss (mainly for large-scale food production), and it is estimated that this causes approximately 30 percent of the decline in biodiversity worldwide. The second factor, which accounts for approximately 20% of the problem, is the excessive extraction of resources through overfishing, and overharvesting.
Significant changes can occur in ecosystems as a result of the effects of human activities both on land and in water. There are various challenges that are now being faced by ecosystems, some of which include climate change, ocean acidification, the loss of habitat, eutrophication, air pollution, pollutants, and invasive species.
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Choose the accurate statements about how communication by the nervous and endocrine systems differs. Check all that apply.
A.The nervous system releases neurotransmitters at synapses at specific target cells.
B.The nervous system adapts relatively slowly and may respond for days to weeks.
C.The endocrine system reacts more slowly to stimuli, often taking seconds to days.
D.The endocrine system stops quickly when stimulus stops.
E.The endocrine system communicates by means of hormones
The right answers are. Option A. The neurous system sends neurotransmitters to particular target cells via synapses, and Option E. The endocrine system communicates via hormones.
Neurotransmitters are used by the nervous system to communicate between neurons and to respond quickly to stimuli. In contrast, the endocrine system communicates by releasing hormones into the circulation, which subsequently travel to target cells throughout the body. Endocrine communication is slower, and responses might range from seconds to days.
Hormones are produced by endocrine glands and have properties similar to neurotransmitters (which are released at synapses between neurons in the nervous system). Chemical signals are used in both neuronal and hormonal communication.
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where is stratified squamous epithelium found in the body
The epidermis (the outer layer of your skin) is made up of stratified squamous epithelial cells.
Along with connective tissue, muscular tissue, and nerve tissue, epithelium or epithelial tissue is one of the four fundamental forms of animal tissue. It is a thin, continuous layer of densely packed cells with little intercellular matrix. The outside surfaces of organs and blood arteries throughout the body, as well as the inner surfaces of cavities in many internal argans, are lined by epithelial tissues. The epidermis, the skin's outermost layer, is one example.
Epithelial cells are classified into three types: squamous (scaly), columnar, and cuboidal. These can be organized in a single layer of cells as simple epithelium, which can be squamous, columnar, or cuboidal, or in layers of two or more cells deep as stratified (layered), or compound, which can also be squamous, columnar, or cuboidal.
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White tailed deer begin their reproductive cycle in the fall. Rising testosterone levels in
male white tailed deer cause them to start their breeding season around the same
time. Offspring are born the following spring and summer.
What is the most likely explanation for the white-tailed deer having a seasonal
breeding cycle instead of a monthly breeding cycle?
White-tailed deer having a seasonal breeding cycle instead of a monthly breeding cycle is due to environmental and ecological factors. The reproductive cycle of white-tailed deer is influenced by the availability of food, light, and other environmental cues.
These cues trigger changes in hormone levels, which lead to the onset of the breeding season. In the fall, when food is abundant and days are getting shorter, testosterone levels in male deer rise, signaling the start of the breeding season. This seasonal timing helps to ensure that offspring are born during a time of year when food and other resources are most plentiful, increasing their chances of survival. White tailed deer begin their reproductive cycle in the fall. Rising testosterone levels in male white tailed deer cause them to start their breeding season around the same time. Offspring are born the following spring and summer.
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Which of these terms categorize microorganisms based on their temperature preference? Mesophile Psychrophile Thermophile.
Mesophile, psychrophile and thermophile are the three categories of microorganisms which are categorized on the basis of temperature preference.
One of the key factors in determining the population percentage of any species in a region is temperature. Reduced population might result from temperatures that are too high or low.
Enzymes have a major role in controlling microorganisms. Enzymes control every aspect of their metabolism and physiological operations. These enzymes are extremely temperature sensitive. These microorganisms are killed by temperatures that are too high, yet even a small temperature increase causes them to multiply. Microbes' ability to produce enzymes is increased by a rise in temperature, which eventually causes their body's metabolic processes to speed up.
The following table lists how bacteria are categorized according to temperature:
1. Psychrophiles: This classification includes microscopic organisms that can continue to exist at very low temperatures. Psychrobacter cryohalolentis, for instance.
2. Mesophiles: This classification only includes microscopic creatures that can survive in the 25°C to 35°C range in temperature. Pseudomonas maltophilia is one illustration.
3. Thermophiles: These little organisms that can endure high temperatures fall under this category. Chloroflexus aurantiacus, as an illustration.
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although four haploid sperm cells are made for every starting germ cell, only one mature egg cell is made. even though this is the case, mendelian inheritance is still maintained. (ie. the egg cell still has the same probability of carrying each allele) briefly explain why.
Only one egg is produced which is due to the unequal meiotic divisons and leading to formation of total 2 polar bodies. The primary oocyte produces one larger secondary oocyte and a tiny polar body. And because of this it maintaince the Mendelian inheritance pattern (haploid ovum).
A cell with a single pair of chromosomes is referred to be haploid. The term haploid can also refer to the number of chromosomes in gametes, which are egg or sperm cells. In humans, gametes are haploid cells with 23 chromosomes, one of which is a chromosomal pair seen in diplod ocytes.
Human cells are classified as 'diploid' because they get two sets of chromosomes, totaling 46 in total, 23 from the mother and 23 from the father. The only exceptions are reproductive (egg and sperm) cells, which are referred to as "haploid" since they have a single set of 23 chromosomes.
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What do you understand by meiosis?
Meiosis is a type of cell division
What is Meiosis ?
Meiosis is a type of cell division that results in the production of four genetically diverse daughter cells from a single parent cell. It occurs in sexually reproducing organisms and is responsible for generating the gametes, or reproductive cells, such as sperm and eggs.
Meiosis involves two rounds of division, resulting in the segregation of homologous chromosomes and the reduction of chromosome number by half. This is important because it allows for the mixing of genetic information between two individuals and helps to promote genetic diversity in a population.
In the first round of meiosis, homologous chromosomes pair up and exchange genetic material through a process called crossing over
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urine test to determine the presence of microorganisms
A urine culture test is typically used to determine the presence of microorganisms (such as bacteria, yeast, or fungi) in the urine and to identify the specific type of microorganism causing an infection.
In order to perform the test, a clean-catch urine sample must be collected and sent to a lab for evaluation. After incubating the sample, the lab will look for any signs of growth that would point to the presence of an infection. If germs are discovered, the lab will carry out additional examinations to pinpoint the precise species and choose the best course of action.
These tests consist of:
Testing for sensitivity: If a particular kind of bacterium is identified in the urine culture, testing for sensitivity can be done to identify the antibiotics that will be most successful in treating the illness.
Urinalysis: A urinalysis is a screening test that can find changes in the color, concentration, and composition of the urine as well as the presence of bacteria, yeast, or other microorganisms in the urine.
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define and draw turgid cells
Answer:
turgid cells are the cells which cannot absorb any more water due to process of endosmosis in this case the tumor pressure is equal to the wall pressure
External obliques, internal obliques, transversus abdominis, and rectus abdominus are abdominal muscles that will perform the following action when both sides areA. contracted.B. extension of the torso compression/flexion of the torsoC. rotation of the torsoD. lateral flexion of the torso
The aponeurosis of the external oblique muscle forms the inguinal ligament. The inguinal canal is likewise formed by the muscle. Directly below the external oblique muscle is the internal oblique muscle.
Near the abdomen are the internal oblique muscles. These two muscles work together to support the spine's muscles and internal organs.
Additionally, by maintaining your important organs in their correct positions, you will shield them from injury. Oblique muscles help you stand up straight as well.
The first time an oblique injury, sometimes referred to as a side strain, occurs, it can produce severe rib cage pain. Over time, you can experience pressure and tightness on the front side of your abdomen or the lower ribs.
The inguinal ligament is made up of the external oblique muscle's aponeurosis. The inguinal canal is also helped to develop by the muscle. Under the external oblique muscle is the internal oblique muscle.
Internal oblique muscles are therefore directly superior to external oblique muscles in the torso.
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place proteins a, b, and c in order of probable increasing elution volume in cation exchange chromatography during an increasing salt gradient run at ph 5 .
The given problem can be solved using the weight and isoelectric point of the proteins A,B, and C. Under the influence of an electric field, the heavy molecules (proteins) travel a shorter distance than the light molecules. Protein molecules have a zero-net charge at the isoelectric point.
Protein molecules are separated using SDS PAGE (sodium dodecyl sulphate polyacrylamide gel electrophoresis). Under the influence of the electric field, the molecules separate.
Isoelectric focusing is a technique used in the separation of molecules based on their charge.
The isoelectric point of a molecule is the point at which it has a zero-net charge (the power of hydrogen).
Step: 1
The size of the protein particles can be calculated based on the distance travelled by the protein in the problem's figure.
Protein C is the smallest, followed by protein B and then protein A.
In the SDS PAGE, protein C has travelled the most distance, followed by protein A and protein B.
The movement of a protein molecule under the influence of an electric field is inversely proportional to its size.
The molecule with the smallest size (and thus the lowest molecular weight) spends the most time in the size exclusion column.
Protein B is larger in size, resulting in a higher molecular weight. It will require the least amount of elution volume, followed by proteins A and C.
Protein B, which is larger and has a higher molecular weight, will not pass through every pore in size exclusion chromatography and will thus elute quickly. Protein B would come after protein A and protein C. Furthermore, the protein that elutes first requires the least amount of elution volume.
Protein C will require the least elution volume if the proteins are placed in increasing volume in the chromatographic column separating proteins based on cation exchange.
Protein C will come after protein B and protein A.
The proteins are supposed to be run at pH 5. At this pH, the protein with a high isoelectric point will acquire more negative charges and be attracted to the cation much faster. It will also necessitate a small elution volume. Protein A, with an isoelectric point of 8.2, will have the most negative charges, followed by protein B and protein C. As a result, protein c will require the least amount of elution volume, followed by protein B and protein A.
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Fertilizers are classified as which kind of water pollutant? answer choices. a. organic chemicals. b. inorganic chemicals. c. heavy metals.
Answer:
the answer to the question is "A"
help me please need help
What is happening in the image is an example of primary succession.
Primary successionPrimary succession is a type of succession that happens when an area that has never held any life form gets colonized by living organisms.
In the image, the bottom of the water shows no life. With time, the deposition of soil made the water grow shallow and brought about colonization by simple plants.
As the deposition continues and the environment keeps changing, the community of plants also changes from herbs to shrubs to small trees, and finally to a forest filled with large trees. The community of large trees represents the climax community - a community in which no major changes occur again unless a disturbance takes place.
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In photosynthesis within one plant, other plants would be considered the _____(1 point).
In photosynthesis within one plant, other plants would be considered the surroundings.
Photosynthesis is a process that plants and other organisms utilize to transform light energy into chemical energy that may then be released to power the organism's activities via cellular respiration. Some of this chemical energy is stored in carbohydrate molecules, such as sugars and starches, which are synthesized from carbon dioxide and water - hence the term photosynthesis, from the Greek , "light", and synthesis , "bringing together".
Photosynthesis is performed by the majority of plants, algae, and cyanobacteria; these organisms are known as photoautotrophs. Photosynthesis is responsible for creating and maintaining the oxygen content of the Earth's atmosphere, as well as supplying the majority of the energy required for life on Earth.
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Full Question In photosynthesis within one plant, other plants would be considered the _____
A. Reactants
B. Surroundings
C. System
D. Products
what structure found in plant cells is an organelle for storing water and metabolites?
The organelle found in plant cells for storing water and metabolites is called a Vacuole.
Plant cells and several other eukaryotic cells have vacuoles, which are membrane-bound organelles. It primarily serves as a container for storing water, salts, carbohydrates, and other metabolic waste materials. High amounts of organic components like sugars and amino acids as well as inorganic ions can be found in the cell sap, which fills the vacuole. The vacuole is essential for maintaining the cell's turgor pressure, which keeps the cell rigid and erect. A cell may manage the composition of the cell sap and the flow of materials into and out of the vacuole thanks to the selective permeability of the vacuolar membrane, or tonoplast. Large and frequently taking up the majority of the cell's volume.
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