Answer:
its b
Explanation:
I can tell you how to do it Ahem, Because I did C:
The example of geotropism helping a plant survive a change in its environment is The roots of a partially uprooted seedling grow straight down.
What is geotropism?Geotropism is a process plants response to influence of gravity either by moving toward or away from the influence of gravity for their survival in their environment.
Therefore, The example of geotropism helping a plant survive a change in its environment is The roots of a partially uprooted seedling grow straight down.
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According to computer models, most coastal areas will experience what effect of global warming
increased flooding .
all late but that's the answer :)
Most of the coastal regions will experience increased flooding because of global warming.
Due to global warming, the levels of the sea will rise mainly due to two reasons. First, with the increase in temperature, huge amounts of ice in the polar caps will melt, increasing the volume of water in the oceans. Secondly, the substances seem to expand when it gets heated, that is, known as thermal expansion.
Thus, if the average temperature of the Earth rises, the water in the ocean will expand, leading to rising sea levels. One prime influence of rising sea levels is that coastal regions will encounter with more flooding, mainly due to storm surges at the time of typhoons or hurricanes.
Paramecia use _________ to move and capture food
Match the following terms and definitions 1. lysosomes and peroxisomes small storage sacs containing water, food, and waste 2. vacuoles powerful enzymes used to process cellular activity 3. cytoskeleton bundles of microtubules that separate to opposite poles of a cell 4. flagella chains of protein fibers that provide support and shape 5. vesicles prepares protein-packed vesicles for release outside of the cell 6. centrioles tiny sacs at the end of the ER which contain protein 7. endoplasmic reticulum (ER) whip-like structures on cells that are used for movement 8. ribosomes produces and assembles proteins 9. Golgi complex rough and smooth organelle that produces protein, steroids, and lipids
For a transverse wave, the particles of the medium move ______ to the direction that the wave moves. perpendicular parallel diagonal
Answer:
Perpendicular
Explanation:
For USA Test Prep this is the answer.
What is the function of the vacuole?
The body's reaction to long-lasting stress is associated with ____.
Answer: The body's reaction to long-lasting stress is associated with impaired immune response.
The body immune system is the first defence mechanism against any invading pathogens, physical and mental stress. There are two ways by which stress can affect the immune system: firstly by the creation of chronic inflammation harming the tissues and secondly by the suppression of the immune cells for fighting the infection.
During stress or fight-or-flight condition, body starts to produce more amount of cortisol which is a stress hormone. The immune system is suppressed by lowering the amount of the protein needed to signal the immune cells. This reduces the number of lymphocytes or B cells and T cells.
if the engery (E) of a wave increases, what happens to the frequency (f) and the wavelength
Secretors (genotypes ss and ss) secrete their a and b blood group antigens into their saliva and other body fluids, while nonsecretors (ss) do not. what would be the apparent phenotypic blood group proportions among the offspring of an iaib ss woman and an iaia ss man if typing was done using saliva?
Final answer:
The offspring of an IAiBss woman and an IAiAss man will have 50% blood type A and 50% blood type O phenotypic proportions.
Explanation:
Secretors are individuals who secrete their A and B blood group antigens into their saliva and body fluids. In the case of an IAiBss woman and an IAiAss man having offspring, the phenotypic blood group proportions would be 50% blood type A and 50% blood type O.
The part of the eye that allows for varying amounts of light onto the retina is the
Final answer:
The iris of the eye controls the size of the pupil, allowing more or less light onto the retina depending on light conditions.
Explanation:
The part of the eye that allows varying amounts of light onto the retina is the iris. The iris is the colored part of the eye and it controls the size of the pupil. When exposed to bright light, the iris causes the pupil to narrow, reducing the amount of light that enters the eye. In dim conditions, the iris allows the pupil to widen, permitting more light to enter. After light passes through the pupil, it then travels through the lens, which further refracts the light focusing it on the retina—a layer of photoreceptor cells which include rods sensitive to dim light and cones that detect different colors.
Which term represents the process of nuclear division in a cell?
Cytokinesis
Interphase
Mitosis
Synthesis
Sexual reproduction requires cells to undergo ______, whereas only _______ is necessary for asexual reproduction.
A bird population only eats a certain type of plant. One year, flooding washes away most of these plants in an area. What will most likely result?
immigration followed by competition
competition followed by immigration
emigration followed by competition
competition followed by emigration
Answer:
competition followed by immigration
Explanation:
If the bird population eats only a specific species of plant and most of the plant population has been exterminated due to flooding, competition will occur followed by immigration of these birds. This is because the amount of plants has been reduced, resulting in poor availability of food for the birds, which will compete for the few remaining plants. After the birds consume the remaining plants, they will migrate to other regions in search of food.
Please help!
Through which process are freshwater resources renewed?
A) Soil formation
B) Gas exchange
C) The water cycle
D) Ocean waves
Answer: C) The water cycle
Explanation:
Freshwater is a naturally occurring source of water. It exhibit very low salt concentration. It includes water of ice sheets, glaciers, rivers, bogs, lakes and underground water source called as groundwater. The freshwater is required for the survival of living organisms on earth. The freshwater is a renewable resource because it can be replenished after use by the water cycle. The water cycle involves the evaporation of water from the freshwater sources or other water sources, formation of water vapors in the atmosphere, condensation, and precipitation of water in the form of rain or snow. By this way the freshwater renews in nature in the form of precipitation by water cycle.
What is a cistron? 2)
a. if 2 different mutant rii phages are able to lyse
e. coli k (our lab manual's shorthand for k12(λ)) when they co-infect it, while neither mutant can lyse it separately, what can you say about the 2 mutations?
Final answer:
A cistron is essentially a gene, and if two mutant rII phages co-infect E. coli and only then can lyse it, it indicates the mutations are in different cistrons. This scenario, involving rIIA and rIIB mutations, illustrates complementation, a fundamental concept in genetics demonstrating how genetic mutations can compensate for each other's deficiencies in specific interactions.
Explanation:
A cistron refers to a gene, particularly defined by its ability to be complemented in a cis-trans complementation test. In the context of the rII phages infecting E. coli K12(λ), if two different mutant rII phages can lyse E. coli K12 when they co-infect, while neither can do so separately, it suggests that the mutations are in different cistrons (genes or functional units). Specifically, this scenario implies that one phage carries a mutation in the rIIA gene, and the other in the rIIB gene, allowing for complementation that enables the phages to complete their lytic cycle and produce plaques due to functional complementation between the two defective rII mutants.
The phenomenon of functional complementation elaborates on how genetic mutations within different functional units of phages working together can compensate for each other's deficiencies, a concept pivotal in understanding the modular structure of genes and the intricacies of genetic interactions. This insight was significantly advanced by Seymour Benzer's experiments, marking a watershed moment in molecular genetics.
Which mutation does the given change in nucleotide sequence represent?
ATTGCATC → ATACGTTC
Answer:
Substitution Mutation (Transversion)
Explanation:
In a substitution mutation, the complementary base pairs of a gene get substituted.
Hence,a purine is substituted by a pyrimidine base or vice versa happens
ATTGCATC → ATACGTTC
In this set of gene , the bold highlighted base “TGCA” is replaced by its complementary base pair “ACGT”
A is complementary to T
G is complementary to C
Hence , this mutation is a tranversion substitution mutation
If a single DNA strand contains 40 adenines prior to replication, what conclusion can be made about its complementary strand after replication, assuming no mutations occurred?
If 2 organisms are in the same phylum, they are also in the same ____________.
a. kingdom
b. family
c. species
d. order
Answer:
kingdom
Explanation:
:)))))))))))
The overall folding of a single protein subunit is called
A patient enters a hospital after hitting her head in a car accident. she is diagnosed with a fractured skull but has other symptoms that show she is suffering from brain damage. what technology should be used to confirm this diagnosis? explain.
Final answer:
To confirm brain damage after a car accident, MRI or CT scanning should be used. MRI offers detailed imaging without radiation while CT scans provide quicker results, which is critical in emergencies. These imaging techniques surpass the limitations of autopsies which only provide postmortem insights.
Explanation:
To confirm the diagnosis of suspected brain damage post a traumatic event like a car accident, the most appropriate technologies to use would be brain imaging techniques like magnetic resonance imaging (MRI) or computed tomography (CT) scanning.
An MRI uses magnetic fields and radio waves to create detailed images of the brain and can help identify abnormalities, injuries, and bleeding without the use of radiation. A CT scan, on the other hand, utilizes X-rays to make cross-sectional images of the brain, which can quickly identify fractures, hemorrhages, and other forms of physical damage.
Both techniques have advantages - MRI provides more detailed images, beneficial for diagnosing soft tissue injuries, while a CT scan is faster and can be crucial in emergency settings where time is of the essence.
Before the advent of these modern imaging techniques, clinicians had to wait for autopsies to understand brain injuries, which obviously could only happen postmortem. Autopsies do not allow for any intervention that could potentially save a patient's life or reduce the severity of the brain injury. In contrast, MRI and CT scans provide real-time, non-invasive insights into brain health, allowing for immediate and potentially life-saving treatments.
The correct technology to confirm the diagnosis of brain damage in a patient with a fractured skull is a computed tomography (CT) scan, specifically a head CT scan.
A CT scan is the preferred imaging method for initial evaluation of a patient with acute head trauma because it can quickly detect the presence of intracranial hemorrhage, skull fractures, and other structural abnormalities that may be causing the symptoms of brain damage. It provides detailed images of the brain and allows healthcare professionals to assess the extent of the injury, including any swelling, bleeding, or shifts in brain structures that could be life-threatening.
The reasons for choosing a CT scan in this scenario include:
1. Speed: CT scans are fast, which is critical in an emergency setting where rapid diagnosis and treatment are necessary to prevent further brain injury.
2. Availability: CT scanners are widely available in most hospitals, especially in emergency departments.
3. Sensitivity to Hemorrhage: CT scans are highly sensitive for detecting acute bleeding, which is a common and serious complication of head trauma.
4. Detection of Skull Fractures: CT scans can clearly show skull fractures, which are important to identify in the context of head trauma.
5. Assessment of Brain Swelling: CT scans can reveal brain swelling (edema) and any shifts in the brain's structures, which can be indicative of increased intracranial pressure and potential herniation syndromes.
6. Non-invasive: CT scans are non-invasive and can be performed on patients with various medical conditions, including those with implanted medical devices, which might contraindicate other imaging modalities like magnetic resonance imaging (MRI).
In summary, a head CT scan is the most appropriate technology to confirm the diagnosis of brain damage in a patient with a fractured skull due to its speed, availability, and ability to detect both bony and soft tissue injuries in the acute setting.
What is a start codon?
Catabolic processes involve degradation of complex molecules into simpler molecules with the net release of chemical energy. catabolic processes involve degradation of complex molecules into simpler molecules with the net release of chemical energy.
a. True
b. False
The correct answer is: True.
Catabolism together with anabolism is a part of metabolism. It is the set of metabolic pathways in which the molecules are broken down into smaller units and the energy is released. Released energy of catabolism (in a form of ATP) is used for the maintenance and growth of cells. Examples of catabolic processes are glycolysis, the citric acid cycle or degradation of macromolecules: proteins into amino acids, lipids into free fatty acids...
The statement about catabolic processes releasing chemical energy by breaking down complex molecules into simpler ones is true. Catabolic reactions are critical for metabolism in cells, releasing energy that is partially captured in the form of ATP.
Explanation:The statement that catabolic processes involve the degradation of complex molecules into simpler molecules with the net release of chemical energy is true. Catabolic reactions break down larger molecules such as carbohydrates, lipids, and proteins, which are found in food, into their smaller constituents.
In the process, energy is released, which is necessary for the metabolic processes in cells throughout the body. For example, as much as 40 percent of the energy yielded from these reactions is transferred to ATP (Adenosine Triphosphate), which is the energy currency of the cell and can power various cellular functions. The remaining energy is released as heat, absorbed by tissues and body fluids.
The study of how food interacts with genes is known as ____.
a. nutritional genomics
b. nucleotide expression
c. chromosomal nutrition
d. mutagenic expression
e. personalized nutrition
Year old white male arrives in your clinic with general complaints of slight abdominal discomfort. he has a known history of smoking two packs per day for 40 years and hypertension. he also has copd and has been treated numerous times with oral steroids. you consider several optional diagnoses. of the ones listed below, which should be included as a potential top suspect in your choice of diagnosis?
Hemoglobin has quaternary structure:
a. True
b. False 2. individual alpha-helices found in hemoglobin are stabilized by ionic bonds:
a. True
b. False 3. hemoglobin would be synthesized by a ribosome on the rough er:
a. True
b. False 4. a dna mutation that affects the primary structure of the alpha-globin protein subunit would also affect the primary structure of the beta-globin protein subunit.
a. True
b. False
1. The right answer is True.
Hemoglobin, commonly symbolized by Hb, sometimes Hgb, is an iron-containing metalloprotein, found mainly in the blood of vertebrates within their red blood cells, as well as in the tissues of certain invertebrates.
Hemoglobin has a quaternary structure characteristic of many globular subunit proteins. Most of its amino acid residues are involved in α helices interconnected by non-helical segments.
2. The right answer is False.
The helicoidal sections of hemoglobin are stabilized by hydrogen bonds which give the protein its characteristic three-dimensional structure, called globin folding, as it is also found in other globins with prosthetic hemic groups such as myoglobin8. This characteristic folding has a cavity in which is closely inserted a heme molecule constituting the prosthetic group of the protein. Hemoglobin therefore contains one molecule of heme per subunit.
3 The right answer is False.
The biosynthesis of hemoglobin involves a complex set of steps. Heme is the result of a series of reactions that start in the mitochondria and continue in the cytosol of immature erythrocytes, while the apoprotein is produced at the ribosomes of the cytosol (and not those of the endoplasmic reticulum). Hemoglobin production occurs in the early stages of erythropoiesis, from the proerythroblast to the reticulocyte stage in the bone marrow.
4. The right answer is False.
Mutations on the hemoglobin genes can lead to hemoglobin variants. Most of these variants are functional and have no effect on health. Some mutations in hemoglobin, by contrast, are likely to cause genetic diseases called hemoglobinopathies.
Sickle cell disease is due to the substitution of a single amino acid residue for the β-chain of hemoglobin (without change in the alpha chain). This genetic mutation - replacement of glutamate in position 6 by a valine, giving hemoglobin S - promotes, under certain conditions, the appearance of rigid red cells of elongated shape, called sickle or acanthus leaf, likely to induce three broad categories of clinical manifestations.
Hemoglobin has a quaternary structure and is synthesized by ribosomes. Its alpha-helices are stabilized by hydrogen bonds, not ionic. And DNA mutation in the alpha-globin protein subunit does not necessarily affect the beta-globin protein subunit.
Explanation:1. Hemoglobin does indeed have a quaternary structure. This means that it's formed from multiple different protein subunits. In the case of hemoglobin, it's made up of 4 globin protein subunits.
2. Individual alpha-helices found in hemoglobin are stabilized mainly by hydrogen bonds, not ionic bonds. So the second statement is false.
3. The third statement is correct. All proteins, including hemoglobin, are synthesized by ribosomes. These ribosomes can be found both 'free' in the cytoplasm, and on the rough endoplasmic reticulum (ER).
4. The fourth statement is false. A DNA mutation that affects the primary structure of the alpha-globin protein subunit would not necessarily affect the primary structure of the beta-globin protein subunit. These are different proteins encoded by different genes. Therefore, a mutation in one gene does not automatically mean a mutation in the other.
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Describe the relationship between fish and coral.
Fish and coral have a symbiotic relationship, where fish benefit from the shelter and food provided by the coral, and coral benefits from the waste removal and nutrient delivery provided by the fish.
What is symbiotic relationship?A symbiotic relationship is a type of interaction between two or more species where both species benefit from the association. This can take various forms, such as mutualism, where both species receive benefits; commensalism, where one species benefits and the other is not affected; and parasitism, where one species benefits at the expense of the other.
Examples of symbiotic relationships include the relationship between bees and flowers, where bees collect nectar and pollen and pollinate the flowers, and the relationship between cattle and cattle egrets, where cattle stir up insects while grazing, making them easier for the birds to catch. The diversity of life on Earth is largely dependent on symbiotic relationships, and they play an important role in maintaining the balance of ecosystems.
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Mount Everest is the highest mountain in the world. Its peak is at an elevation of 8,848 meters (29,028 feet) above sea level. If you were standing on top of Mount Everest, which layer of the atmosphere would you be in?
the dna sequence actcg produces which mrna sequence during transcription
The DNA sequence ACTCG produces the mRNA sequence UGAGC.
Explanation:The DNA sequence ACTCG produces the mRNA sequence UGAGC during transcription. In transcription, the DNA sequence is copied into a complementary mRNA strand, with the nucleotide A in DNA being replaced by U in RNA, and the nucleotide T in DNA being replaced by A in RNA. Therefore, the complementary mRNA sequence for ACTCG would be UGAGC.
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whose mitochondrial dna did scientists use to try to identify the tsarinas bones elizabeth or philips
Answer:
Scientists used the mitochondrial DNA of Prince Philip in order to investigate the relationship of Tsarina with the Russian royal family.
Mitochondrial DNA inherited only through the maternal line i.e., it is passed from the mother to her offspring.
It helped in identifying the relationship of Tsarina with prince Philip who was related to Tsarina through his mother. It proved that Tsarina and her four daughters were indeed buried into two graves.
A woman has a mitochondrially-inherited autosomal dominant type of muscular dystrophy. she and her husband wish to conceive a healthy child that will have heritable characteristics of both parents, but will not have the the muscle disorder. describe a plausible way in which the parents' wishes might be realized.
Do you think most traits are inherited the way mouse fur color is ?
Incomplete dominance likely explains the all gray offspring from true-breeding black and white mice. Human traits such as hair and eye color can show linkage, whereas hair color is a polygenic trait. This illustrates the complexity of inheritance, involving both genetic and environmental factors.
Inheritance Patterns in Mouse Fur Color
If black and white true-breeding mice are mated and the result is all gray offspring, the inheritance pattern indicated would likely be incomplete dominance. This is a scenario where neither parent's trait is completely dominant over the other, and the resulting phenotype is a blend of both parental traits. The concept of incomplete dominance differs from Mendelian inheritance, where one allele is completely dominant over the other.
Linkage and Human Traits
Linkage can lead to certain traits being inherited together due to their genes being located close to each other on the same chromosome. Hair color and eye color are traditional examples of linked traits, such as the common association of blonde hair with blue eyes, and brown hair with brown eyes. Other human traits that might be controlled by linked genes could include various physical features like height and body shape, as well as susceptibility to certain diseases.
Polygenic Traits and Human Hair Color
Human hair color is a polygenic trait, meaning it is influenced by multiple genes, such as MC1R, TYR, TYRP1, SLC24A5, and KITLG. These genes contribute to the production and ratio of melanin, which determines hair color. Variants in these genes lead to a wide range of hair colors, from black to blonde to red, indicating a more complex inheritance pattern than simple dominance.
Complexity of Inherited Traits
Traits in organisms can be determined by both inherited factors and environmental factors. For example, intellectual capacity and susceptibility to certain diseases like diabetes can be influenced by a combination of both genetics and environmental conditions.
The inheritance of traits such as mouse fur color or human hair color helps illustrate the complexity and diversity of genetic inheritance, which can range from simple Mendelian patterns to more complex polygenic or non-Mendelian inheritance.