Answer:
Explanation:
C. Some may change to be warm blooded.
when dna is not being replicated for cell division, it exists as this grainy material rather than coiled up chromosomes.
when DNA is not being replicated for cell division, it exists as this grainy material rather than coiled up chromosomes.
When DNA is not being replicated for cell division, it exists as chromatin rather than coiled up chromosomes. Chromatin is the complex of DNA and proteins that makes up the chromosomes. Chromatin is a grainy, thread-like material that is composed of DNA and proteins called histones. During interphase, the period between cell divisions, the DNA is not tightly coiled and condensed, instead it exists in a more relaxed and extended form called chromatin. This allows the DNA to be accessible for the cell's normal processes such as transcription (the process by which genetic information is used to synthesize proteins). During the prophase stage of cell division, the chromatin fibers condense and coil to form the visible chromosomes that can be easily separated during cell division.
To know more about chromosome, click here,
brainly.com/question/11912112
#SPJ4
what is the significance of the s phase in the cell cycle?
The significance of the s phase in the cell cycle is during the S phase the DNA of the cell will replicates.
The S phase of the cell cycle will occurs before the interphase and it is involved in DNA synthesis or replication. In this way, the genetic material of the cell will replicated before entering mitosis or meiosis, leaving enough DNA to divide into the daughter cells.
S phase is not initiated until the cell passes through the G1 phase. The most important event which occurs in the S phase is DNA replication. The goal of this process is to produce twice the amount of DNA which forms the basis of the daughter cell's chromosomal set.
DNA replication begins when the regulated pre-replication complex will attaches to the DNA in the G1 phase. In addition to DNA replication, the cell proliferation continues during the S phase, producing the proteins and enzymes will required for DNA synthesis.
To know more about S phase here
https://brainly.com/question/210041
#SPJ4
n Drosophila melanogaster the allele for wild-type tan body color (B) is dominant to the recessive allele for black body color (b). Similarly, the allele for wild-type wing shape (V) is dominant to the recessive allele for vestigial wings phenotype (v). In the cross diagrammed above, the expected and observed results are shown. Which of the following best explains the observed results of the cross.
Expected BbVv-- 862, bbvv-- 862, Bbvv-- 862, bbVv--862
Observed BbVv-- 1447, bbvv-- 1416, Bbvv-- 309, bbVv-- 277
The observed results of the cross in Drosophila melanogaster show deviation from the expected results, indicating that epistasis is occurring.
Epistasis is a phenomenon where the expression of one gene affects the expression of another gene. In this case, the interaction between the B and V genes is affecting the expression of their respective traits.
Specifically, it appears that the V gene is epistatic to the B gene, meaning that the presence of the dominant V allele is masking the expression of the recessive b allele in the Bbvv genotype.
This can be seen in the observed numbers, where the Bbvv genotype is less than expected, indicating that the presence of the dominant V allele is leading to a higher expression of the wild-type wing shape.
To learn more about the Drosophila melanogaster at
https://brainly.com/question/28390240?referrer=searchResults
#SPJ4
A given mass of gas occupied 150 cm cube at 27 degrees C and pressure of 1.013x10^5 Newton per metre square. calculate the temperature at which it volume doubled at the same pressure
A given mass of gas occupied 150 cm cube at 27 degrees C and pressure of 1.013 x 10⁵ Newton per meter square, the temperature at which it volume doubled at the same pressure is: 600 K
What is Charles's Law?As according to Charles' law, the volume of such an ideal gas at constant pressure is exactly proportional to the absolute temperature. In accordance with the law, when the pressure on a sample of a dry gas is maintained constant, the Kelvin temperature and volume will be directly proportional. A hot air balloon flying through the air is an example of how Charles Law is used in everyday life. A flame warms the air within the balloon, causing the air molecules to move more quickly and scatter. Because the air inside the balloon is less dense than the outside air, the balloon floats as just a result.
Given that,
initial volume (V₁) = 150 cm³
final volume (V₂) = 300 cm³
initial temperature (T₁) = 27⁰C = (273 + 27) K = 300 K
final temperature (T₂) = ?
As we know from Charles's law:
V₁/T₁ = V₂/T₂
or, 150 / 300 = 300 / T₂
or, T₂ = 600 K
To know more about volume refer to:
https://brainly.com/question/27100414
#SPJ1
when blood glucose concentration falls, what pancreatic hormone is secreted to stimulate release of stored glucose?
While insulin is created to prevent blood glucose levels from increasing too high, glucagon prevents blood glucose levels from falling too low. To keep blood sugar levels stable, the two hormones work in opposition to
Describe hormones.. Hormones regulate a variety of bodily functions, including mood, sexual function, reproduction, including growth and development. They also affect metabolism, which is how your body converts food into energy.
What impact hormones have on the body?What bodily tissues produce hormones? The majority of the hormones produced and released by your body's endocrine system come from specialized glands. An organ known as a gland produces one or more compounds, including hormones, digestive fluids, sweat, and tears. Your bloodstream receives hormones straight from endocrine glands.
To know morr about hormones visit:
https://brainly.com/question/13020697
#SPJ4
true/false. Operons are structures in bacterial genomes that organize genes involved in a common metabolic pathway. A specific example is the lac operon, which produces three enzymes involved in the metabolism of lactose (milk sugar) as a food source for Escherichia coli. Identify the functions of each part of the operon and related structures.Operons are structures in bacterial genomes that organize genes involved in a common metabolic pathway. A specific example is the lac operon, which produces three enzymes involved in the metabolism of lactose (milk sugar) as a food source for Escherichia coli. Identify the functions of each part of the operon and related structures.
Answer:
true, The lac operon consists of three structural genes, lacZ, lacY, and lacA, and their related regulatory elements, such as the promoter, operator, and repressor. The promoter is the site on the operon where RNA polymerase binds to initiate gene transcription. The operator is a small segment of DNA on the operon where the repressor binds, inactivating gene expression of the lac operon. The repressor gene (also lacI gene) transcribes a gene that codes for the repressor protein that attaches to the operator, preventing transcription of the lac operon to take place. The lacZ gene transcribes a gene that codes for an enzyme called beta-galactosidase, which splits the disaccharide lactose into the monosaccharides glucose and galactose. The lacY gene transcribes a gene that codes for an enzyme called permease, which lets lactose sugars enter into the bacterial cell. The lacA gene transcribes a gene that codes for an enzyme called transacetylase, which helps to clean up any toxic metabolic byproducts of lactose metabolism. Lastly, the terminator represents the endpoint of the lac operon gene segment.
why would no ecosystem exist without energy conversion? the food chain would not be possible electronic devices need to convert energy photosynthesis would not operate transportation would be restricted
Energy conversion is essential for life on Earth, and without it, no ecosystem can exist. Energy conversion is necessary for the food chain to operate, for photosynthesis to occur, and for transportation of energy, resources, and living organisms.
Without energy conversion, life as we know it would not be possible.The food chain is a series of organisms that rely on each other for energy, with producers at the beginning of the chain, and consumers at the end. Producers such as plants use photosynthesis to convert sunlight into energy, which is then consumed by herbivores and passed on to carnivores. Without energy conversion, this process would not be possible, and the food chain would collapse.
Photosynthesis is the process by which plants convert sunlight into energy, and without it, plants would not be able to grow. This process relies on energy conversion, as sunlight is converted into chemical energy in the form of carbohydrates and other compounds. Without photosynthesis, the food chain would be impossible, as plants and other producers would not be able to produce energy-rich compounds.
Finally, transportation is essential for the movement of energy and resources, as well as living organisms. Without energy conversion, transportation would be restricted, as cars, planes, and other vehicles rely on energy conversion to operate. Without energy conversion, these vehicles would not be able to move, and the transportation of resources and living organisms would be impossible.
Learn more about Energy at : https://brainly.com/question/8427473
#SPJ4
describe how a test cross can be used to determine whether a dominant trait is homozygous or heterozygous.
A test cross is a union of two individuals, one of unknown genotype and the other of homozygous recessive genotype. A test cross establishes or reveals the original person's genotype. Finding out whether a dominant phenotype is homozygous or heterozygous for a certain characteristic can be helped by a test cross.
The creature that expresses the dominant phenotype and has an unknown genotype crosses with a homozygous recessive person who is known to have that genotype. This page discusses the test cross, the person who found it, and several examples of it. The distinction between homozygous and heterozygous was also explained. We have seen examples of homozygous and heterozygous traits and comprehended the distinction between dominant and recessive traits.
To know more about phenotype, click here:
https://brainly.com/app/ask
#SPJ4
when an injury or invasion takes place, leukocytes are summoned to the affected area through a release of leukocyte-attracting chemicals in a process called what?
They achieve this by the diapedesis process, in which the leukocyte travels in an ameboid fashion through closely spaced endothelial borders (paracellular transmigration), and occasionally even through the endothelial cell itself (transcellular migration).
Endothelial cells send signals during TEM that draw and direct leukocytes to areas of tissue injury. Leukocytes respond by adhering to these locations and indicating that they are prepared to return to endothelial cells. Neutrophils are the body's first line of defense and make up 50% to 70% of circulating leukocytes. They participate in the phagocytic clearance of the bacteria and the initial inflammatory response to bacterial infection. They are also the cells that arrive at the location of an injury or illness in the greatest number.
To know more about Endothelial cells, click here:
https://brainly.com/question/13142593
#SPJ4
Which one of the following metals can be used to make the needle of except steel a magnetic compass?
Iron can be magnetized, so it can be used to make the needle of a magnetic compass. Thus, the correct answer is option A.
A magnetic compass is a navigational instrument that uses a magnetized needle to indicate the direction of the magnetic north. The needle is typically suspended in a fluid or mounted on a pivot point, allowing it to rotate freely and align itself with the earth's magnetic field. Since the Earth's magnetic field is strongest at the poles, the needle will always point towards the magnetic north pole.
Iron is a good choice for making the needle of a magnetic compass because it is a ferromagnetic material, meaning it can be magnetized and will retain its magnetism. Steel is also commonly used, as it is an alloy of iron and carbon. Copper, silver and gold are not magnetic and therefore cannot be used to make a needle for a magnetic compass.
To learn more about Metals,
https://brainly.com/question/28931986
The complete question is -
Which one of the following metals can be used to make the needle except steel a magnetic compass?
A. Iron
B. Copper
C. Silver
D. Gold
eutrophication can cause too many algae to grow in a freshwater ecosystem. what can humans do to prevent eutrophication?
Humans can keep wastes from hog farms out of the water supply to prevent eutrophication.
What is eutrophication?Eutrophication is the gradual enrichment of a whole body of water, or sections of it, with minerals and nutrients, typically nitrogen and phosphorus. It has also been characterized as "nutrient-induced increase in phytoplankton production". Eutrophication, which happens when the environment gets enriched with nutrients, increases the quantity of plant and algae development in estuaries and coastal waterways, causes harmful algal blooms, dead zones, and fish deaths. Dystrophic and hypertrophic conditions are other terms for advanced eutrophication. Eutrophication can have an impact on both freshwater and saltwater systems. Excess phosphorus is nearly often the culprit in freshwater environments.
Here,
To prevent eutrophication, humans can keep hog farm excrement out of the water source.
To know more about eutrophication,
https://brainly.com/question/26451414
#SPJ4
As a traveling salesman, which of the following does Gregor feel is impossible to defend himself against
Gregor believes it is hard for him to defend himself against rampant rumours, coincidences, and baseless accusations as a traveling salesman.
a person whose job it is to visit to various locations and solicit orders from customers while also trying to sell their company's products: As a traveling salesman on the road, he earned his living. The salesperson wants to travel as little as possible while also minimising travel expenses. TSP, which focuses on optimization, is frequently applied in computer science to determine the most effective path for data to take when travelling between different nodes. Applications may involve locating hardware or network optimization techniques. There is a list of cities that must all be visited, each of which must only be done once, and the distances between each city are known.
learn more about traveling salesman here:
https://brainly.com/question/29991807
#SPJ4
shown below are representation of some cells .they are all at the same magnification .which of the following statements about these cell is mat likely to be true ?
Answer:
Explanation:
do you have the answer all ready or you still need it
According to the graph above, what is the relationship between Helper T Cells and HIV levels
in the body over the course of the infection? Provide an explanation for this trend.
The relationship between Helper T Cells and HIV levels in the body over the course of the infection is based on the fact that the rise in immune T cells may cause an increase in the amount of HIV viruses because HIV binds to the surface of T-cells in order to reproduce inside these cells.
What is the relationship between Helper T Cells and HIV levels?The relationship between Helper T Cells and HIV levels is based on the fact this retrovirus binds to surface receptors in T cells in order to replicate during initial infection.
Therefore, with this data, we can see that the relationship between Helper T Cells and HIV levels leads to an increase of both (disease progression) in the first place and then HIV decrease.
Learn more about T Cells and HIV here:
https://brainly.com/question/4185907
#SPJ1
Which is a reason to genetically modify
an organism?
A. to make it react to pesticides
B. to make it more attractive to pests
C. to make it produce less yield per acre
D. to make it resistant to insects
Answer: D. to make it resistant to insects
Explanation:
Genetic modification is a powerful tool that can help us modify organisms to suit our needs. It is used in many different fields, such as medicine and agriculture, and has the potential to improve our lives in many ways. For example, it can be used to create new medicines or crops that are more resistant to diseases or pests.
1. which dragonflies undergo the change from yellow to red, and when in their life cycle does it occur? (4 points) 2. what types of in vivo experiments did the researchers perform, and what were the results? (7 points)
When gyndandromorphic dragonflies mature sexually, their pigmentation changes. The in vivo experiment revealed that the color or pigmentation change from red to yellow occurred only locally and had a significant impact on the dragonfly, causing it to die very quickly.
A dragonfly is a flying insect in the order Odonata's infraorder Anisoptera. There are approximately 3,000 known species of true dragonflies. The majority are tropical, with only a few species found in temperate regions. Wetland habitat loss threatens dragonfly populations worldwide. Adult dragonflies have two pairs of strong, transparent wings with colored patches and an elongated body. Many dragonflies have brilliant iridescent or metallic colors caused by structural coloration, which makes them stand out in flight. The compound eyes of an adult dragonfly have nearly 24,000 ommatidia each.
learn more about dragonfly here
https://brainly.com/question/13432752
#SPJ4
A woman who sought genetic counseling is found to be heterozygous for a chromosomal rearrangement between the second and third chromosomes. Her chromosomes, compared to those in a normal karyotype, are diagrammed to the right.
(a) What kind of chromosomal aberration is shown?
(b) Using a drawing, demonstrate how these chromosomes would pair during meiosis. Be sure to label the different segments of the chromosomes.
(c) This woman is phenotypically normal. Does this surprise you? Why or why not? Under what circumstances might you expect a phenotypic effect of such a rearrangement?
The chromosomal aberration shown in the diagram is a translocation. A translocation is a type of chromosomal rearrangement in which a piece of one chromosome breaks off and attaches to another chromosome. In this case, it appears that a segment of chromosome 2 has broken off and attached to chromosome 3.
During meiosis, these chromosomes would pair as follows [Diagram of chromosomes pairing during meiosis showing a normal chromosome 2 and a normal chromosome 3, along with a translocated chromosome 2 and a translocated chromosome 3.
The normal chromosomes show the segments labeled 2A, 2B, 3A, and 3B, while the translocated chromosomes show the segments labeled 2A, 2B, 3C, and 3D. The chromosomes pair as normal chromosome 2 with translocated chromosome 2 and normal chromosome 3 with translocated chromosome 3.]
It is not surprising that the woman is phenotypically normal, even though she is heterozygous for a translocation. Many translocations are balanced, meaning that the total amount of genetic material is the same as in a normal karyotype, and therefore does not result in any observable effects.
However, it is possible that this translocation might cause issues if it disrupts a gene that is important for growth or development, or if it causes an abnormal amount of genetic material to be present in certain cells which can lead to different chromosomal disorders.
To learn more about chromosomal aberration
https://brainly.com/question/29763276
#SPJ4
which of the following structures is not included in the biologic width? group of answer choices a) sulcular epithelium b) gingival connective tissue fibers c) junctional epithelium d) both a and b
Sulcular epithelium is not included in the biologic width.
BIOLOGIC WIDTH ANATOMYIn the human body, ectodermal tissue serves to protect against invasion from bacteria and other foreign materials. However, both teeth and dental implants must penetrate this defensive barrier. The natural seal that develops around both, protecting the alveolar bone from infection and disease, is known as the biologic width.
The biological width is defined as the dimension of the soft tissue, which is attached to the portion of the tooth coronal to the crest of the alveolar bone. This term was based on the work of Gargiulo et al., who described the dimensions and relationship of the dentogingival junction in humans.
Measurements made from the dentogingival components of 287 individual teeth from 30 autopsy specimens established that there is a definite proportional relationship between the alveolar crest, the connective tissue attachment, the epithelial attachment, and the sulcus depth.
They reported the following mean dimensions: A sulcus depth of 0.69 mm, an epithelial attachment of 0.97 mm, and a connective tissue attachment of 1.07 mm. Based on this work, the biologic width is commonly stated to be 2.04 mm, which represents the sum of the epithelial and connective tissue measurements. In 1977, Ingber et al. described “Biologic Width” and credited D.Walter Cohen for first coining the term.
Learn more about biologic width at https://brainly.com/question/13490810.
#SPJ4
a scientist is examining a human cell and attempting to determine whether the individual is a genetic male or a genetic female. what evidence about the cell, if true, would be most relevant to this question?
The evidence about the cell is the nucleus contains 46 chromsomes in 23 pairs.
Sex is determined by particular chromosomes in humans and many other animal species. There is a long and fascinating history of research into the chromosomes that contain the genes responsible for sexual traits. The presence of these chromosomes was detected by researchers before they knew what these structures were, as is frequently the case during such a protracted process of discovery.
German biologist Hermann Henking's 1891 tests provided the first indication that sex chromosomes were distinct from all other chromosomes. By this period, light microscopy was widely used to see mitotic cell division.
know more about chromosomes here
https://brainly.com/question/1596925#
#SPJ4
genes a, b and c are located on the same chromosome. testcrosses show that the recombination frequency between a and b is 28% and between a and c is 12%. can you determine the linear order of the genes?
In this case, the recombination frequency between A and B is 28%, and between A and C is 12%. This suggests that the genes are arranged in the following linear order: A, B, C.
This is because the 28% recombination frequency between A and B indicates that they are further apart than the 12% recombination frequency between A and C. Genes A, B and C are located on the same chromosome, which means they are linked. Testcrosses are a genetics experiment used to determine the genetic linkage and recombination frequencies between two genes.
The testcrosses in this question show that the recombination frequency between A and B is 28% and between A and C is 12%. This data can be used to determine the linear order of the genes.
Recombination frequencies are determined by the number of crossover events that occur between two genes on a chromosome. If two genes are close together on a chromosome, it is more likely that there will be fewer crossover events between them, resulting in a lower recombination frequency. The closer the two genes are together, the lower the recombination frequency.
Learn more about recombination frequency at : https://brainly.com/question/7299933
#SPJ4
what specific component of the kidney does the dialysis tubing represent? what is the function of this component?
The ureters, which are two small tubes in the body, are the specific anatomical portion that the dialysis tubing symbolizes. The ureters' job is to assist in moving urine from the kidneys to the bladder.
What occurs to a dialysis patient?Hemodialysis involves removing blood from your body, cleaning it in a dialyzer, and reintroducing it to your body. This three to five-hour procedure could happen in a hospital or a dialysis facility.
Is having dialysis painful?Dialysis is uncomfortable: When the needles are inserted into your fistula or graft while you are receiving hemodialysis, you can experience some discomfort, but the majority of patients typically have no other issues. Dialysis itself causes little discomfort.
To know more about Dailysis visit:
https://brainly.com/question/29526384
#SPJ4
A muscle produces its highest tension when in complete O recovery. O tetanus. O aerobic metabolism. O wave summation. O treppe.
When in full tetanus, a muscular contraction its maximum tension.
The most tension is produced by what kind of muscular contraction?As a result of the high external load during an eccentric contraction, the muscle is forced to lengthen. This is because the external force acting on the muscle is larger than the force it can generate. Muscles produce the most force at their maximum capacity, but they also use the least amount of energy.
What transpires if a muscle has tetanus to the fullest extent?The most powerful contractional single-unit twitch is a fused tetanic contraction. Tetanization causes the muscle to contract with a steady state tension that is constant. The greatest contraction that can be achieved is this. The length of the muscles during tetanic contractions might change, stay the same, or shorten.
To know more about muscle contraction visit:
https://brainly.com/question/28446332
#SPJ4
Develop a document that reflects the diversity of resource conservation in Tennessee compared to any other area in the country.
The document that reflects the diversity of resource conservation in Tennessee compared to any other area in the country is Works Progress Administration.
What is Work Progress Administration?The Work Progress Administration which has been also known as the WPA, which was one of the most famous government agencies that has been operating in the period just after the great depression.
The focus of the WPA was the main national artistic production and it has been just through it that has several musicians, writers, painters, actors, disegners, art directors, among other artists were financed, increasing artistic production in the country.
Therefore, The document that reflects the diversity of resource conservation in Tennessee compared to any other area in the country is Works Progress Administration.
Learn more about diversity on:
https://brainly.com/question/7063191
#SPJ1
This apparent path of the Sun was observed on the first day of
This apparent path of the sun can be observed on the first day of winter rather than on spring, summer or fall.
How does the Earth move?The Earth rotates around the sun in 365-day cycle; moreover, it should be considered the Earth rotates following its axis in a 24-hour cycle and the Earth is slighly tilted. Together these movements lead to different seasons characterized not only by weather patterns but also by apparent paths of the sun.
How do the apparent paths of the sun change over the year?The general path of the sun has the same direction as the sun rises East and sets West; however, the angle or inclination slighly changes:
Winter: The angle is 26°, which means it seems the sun is closer to the surface.Autumn and spring: The angle is 50°.Summer: The angle is 70°, this means taht during this season at midway the sun will seem to be farther than in other seasons.Based on this, it can be concluded the image shows the path for winter as the sun is very close to the surface.
Learn more about apparent path of the Sun in: https://brainly.com/question/2598631
#SPJ1
what is the order of magnitude of the number of microorganisms in the human intestinal tract? a typical bacterial length scale is m. estimate the intestinal volume and assume of it is occupied by bacteria. (b) does the number of bacteria suggest whether the bacteria are beneficial, dangerous, or neutral for the human body? what functions could they serve?
A Goo-gle search yields the following dimensions of the intestinal tract: small intestine:
Length ≅20 ft ≅ 6 m, diameter ≅ 1.5 in ≅ 4 cm.Large intestine: length ≅5 ft ≅1.5 mdiameter ≅2.5 in ≅6 cm.Treating the intestines as two cylinders, the volume of a cylinder of dia-meter d and length L is:
[tex]V= \frac{\pi }{4} d^{2} L[/tex].The volume of the intestinal tract is:
[tex]V= Vsmall_ + V large_[/tex][tex]V= \frac{\pi }{4} (0.04m)^{2} (6m) + \frac{\pi }{4} (0.06)^{2} (1.5m) = 0.0117m^{3}[/tex]Assuming that 1% of this volume is occupied by bacteria, the volume of bacteria is:
[tex]V_{bac} = (10^{-2} m^{3})(0.01) = 10^{-4} m^{3}[/tex]Treating a bacterium as a cube of side L=10 , the number of bacteria in the intestinal tract is about:
[tex](10^{-4}m^{3}) (\frac{1bacterium}{10^{-18}m^{3} } ) = 10^{14} bacteria.[/tex]
It appears that the large numbers of bacteria present in the human body are beneficial, as the body has not developed any methods to reduce their numbers. This suggests that the bacteria must be performing useful functions, such as aiding in digestion and preventing the growth of dangerous bacteria in the intestines. Certain types of bacteria in the intestinal tract are known to be beneficial for these reasons.
Learn more about benefits of bacteria:
https://brainly.com/question/27821938
#SPJ4
Which of the following is a possible mechanism of inheritance for the disorder presented in the pedigree? Select all that apply.
autosomal dominant
X-linked dominant
X-linked recessive
autosomal recessive
X-linked recessive and autosomal recessive inheritance patterns are potential mechanisms of inheritance for the condition seen in the pedigree.
It's likely that the feature in question in this pedigree was inherited via an X-linked recessive or autosomal recessive mechanism.
An individual needs two mutant alleles and no normal allele in order to manifest an autosomal recessive trait. This can happen in one of three ways: if two unaffected carriers mate, there is a 25% chance that the result will be an affected child; if a carrier mates with an affected person, there is a 50% chance that the result will be an affected child; or if two affected people mate, there is a 100% chance that the result will be an affected child.
Males with an X-linked recessive mutation will exhibit that trait, however females must be homozygous for the mutation to exhibit the phenotype. 50% of daughters and 50% of boys will be impacted if an afflicted man mates with a carrier female.
Learn more about Order here:
https://brainly.com/question/30156628
#SPJ4
Does the offspring of two parents obtains a single copy of every gene from each parent?
Yes, The offspring of two parents obtains a single copy of every gene from each parent.
A single creature can create offspring or, in the event of sexual reproduction, two organisms can produce offspring. Offspring are the young creation of existing organisms. A brood or progeny is a more broad term for a group of offspring.
Chromosome pairs break apart and distributed among gametes during meiosis. Every chromosome is present in a single copy in each gamete, and every gene is present on a single allele on each chromosome. As a result, every allele for a particular gene is contained in a unique gamete.
The two alleles for each gene are physically segregated as they are packaged into gametes, and each parent randomly donates one allele for each gene to its offspring, according to the segregation principle.
To know more about offspring
brainly.com/question/26287597
#SPJ4
A student use colored balls and sticks to make a model of the compound ammonia. Below is a picture of the model. What kind of model did the student make?a) Conceptualb) Mathematicalc) Miniature'
A student created a replica of the chemical ammonia using colorful balls and sticks. The student created a physical model or miniature model.
A miniature model depicts a physical construct whose properties are similar to those of the modeled system. A three-dimensional rendering of a potential sewage treatment facility could serve as an example of a physical model in the larger context of ecotoxicology. Physical models frequently support and direct the work of environmental engineers, hydrologists, foresters, or agricultural scientists, whose focus is on land use and water use, or in creating artificial environments related to such purposes as using natural resources for energy development or agricultural use. In contrast, a biologist or an ecologist considers the same system as something to manage for the benefit of fish and wildlife under the auspices of habitat.
To know more about ammonia
brainly.com/question/4836803
#SPJ4
Question 24 (2 points) Forms of the Ras protein found in tumors usually cause which of the following? Cell-to-cell adhesion to be nonfunctional DNA replication to stop Excessive cell division DNA replication to be hyperactive Cell division to cease
The Ras protein is a small G protein that plays an important role in cell signaling and regulation of cell growth and division.
Forms of the Ras protein found in tumors, known as oncogenic Ras, are usually associated with excessive cell division and uncontrolled cell growth.Oncogenic Ras proteins are mutations in the Ras gene that result in a change in the protein's structure or function.
These mutations are usually found in the GTP-binding domain of the protein, and they cause the Ras protein to be constantly active, even in the absence of a signal. This results in the downstream signaling pathways being activated, leading to the uncontrolled cell growth and division.
One of the main signaling pathways activated by oncogenic Ras is the MAPK pathway, which is responsible for controlling cell growth and division. The MAPK pathway is activated when the Ras protein binds to the GTP, and this results in the activation of downstream molecules, such as the mitogen-activated protein kinase (MAPK) and extracellular signal-regulated kinase (ERK). This activation results in the cell entering the cell cycle and dividing uncontrollably, which can lead to the formation of a tumor.
Learn more about Ras protein at : https://brainly.com/question/29698900
#SPJ4
a type of vesicle that stores water, nutrients, and other chemicals.
Answer:
Vacuole – a type of vesicle that stores water, nutrients, and other chemicals. The large vacuole found in plant cells helps the cells maintain their shape. Vesicle – small, sac-like package of nutrients, proteins, or water created by the Golgi apparatus. Types of vesicles include vacuoles and lysosomes.
