Answer:
The process of Transcription occurs in the __nucleus_ and involves the copying of ___genome__. This copied information will then be ___translated__ in the cytoplasm to create a _protein____, which is composed of smaller building blocks called __aminoacids___. During translation, individual _amino acids___are attached to one another via __covalent bond___. As the protein strand gets larger and leaves the ribosome, it begins to fold into the first phase of its 3 dimensional structure (secondary structure). __Hydrogen bond___ give rise to the protein's secondary structure. In the tertiary/quaternary structure of a protein, ___hydrophobic__ amino acids are typically found towards the center of the structure, while _hydrophilic___are found towards the outside of the protein, facing the watery environment of the cell.
Explanation:
The process of transcription occurs in the nucleus and involves copying the entire genome. The copied information is transcribed again in the cytoplasm to create an mRNA strand composed of nucleotides. Translation then occurs, where amino acids are attached to one another via covalent bonds and the protein structure begins to fold.
Explanation:The process of transcription occurs in the nucleus and involves the copying of the entire genome. This copied information will then be transcribed again in the cytoplasm to create a mRNA strand, which is composed of smaller building blocks called nucleotides. During translation, individual amino acids are attached to one another via covalent bonds. As the protein strand gets larger and leaves the ribosome, it begins to fold into the first phase of its 3 dimensional structure (secondary structure). Hydrogen bonds give rise to the protein's secondary structure. In the tertiary/quaternary structure of a protein, hydrophobic amino acids are typically found towards the center of the structure, while hydrophilic amino acids are found towards the outside of the protein, facing the watery environment of the cell.
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13.Certain species of whiptail lizards have only female individuals and no males. These lizards
reproduce asexually. What is one disadvantage of asexual reproduction for these lizards?
A new population can be established by a single individual in a relatively short period of
time.
B.All the members of a population are genetically very similar and less able to survive
environmental changes.
C.They are smaller than lizards that reproduce sexually.
D.They are more likely to develop a variety of tail lengths.
Answer:
The answer is B, All the members of a population are genetically very similar and less able to survive environmental changes.
Explanation:
The study of a living being is called biology.
The Correct Answer is B.
The production of new offspring from the single parent is called asexual reproduction.
The factor affecting asexual reproduction is that it is made from a single parent and there is not an exchange of genes which leads to the form offspring totally similar to the parent and having less chance to evolve in the environment.
Hence, the correct answer is B that is All the members of a population are genetically very similar and less able to survive
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What is the relationship between mutation, the cell cycle, and cancer? Select all statements that apply.
Primary succession occurs A. After a disturbance that removes an entire community leaving a sterile environment B. After a disturbance that disrupts a community but leaves a seed bank in the soil C. Right before the secondary succession D. After a severe drought in southwest US which kills all trees and crops
Answer:
Primary succession is one of two types of biological and ecological succession of plant life, occurring in an environment in which new substrate devoid of vegetation and other organisms usually lacking soil, such as a lava flow or area left from retreated glacier, is deposited.
2 Points
The graph below shows how natural processes and human activities affect
climate
Which
claim
Thermal disruption (W/m)
NON
Agents of Climate Change
Natural Human
processes activities Halocarbons
Ozone
со,
Net change Greenhouse gases
Net change
in energy
Total aerosols due to human
from Sun
activities
Warming effect Cooling effect
supported by the data?
O
A. Natural processes have a larger impact on climate change,
O
B. Human activity has a larger impact on climate change.
O
C. Natural weather patterns are evidence against climate change.
O
D. There is no reason to believe humans are causing climate change.
Answer:B human activity
Explanation:
I just did it :)
Climate change is occurring at a very fast pace and human interventions are leading to a rise in global warming. Human actions are contributing to thermal disturbances as well.
The statement that supports the data is:
Option B. Human actions have a larger effect on climate change.
This statement can be supported by:
Human actions like the burning of fossil fuels including petrol, coal and diesel adversely affect climatic factors.Humans cut an enormous amount of plantations and clears lands for building dams and industries that result in soil erosion and flooding.Disproportionate use of fertilizers comprising toxic compounds deteriorates soil quality and emits nitrogen-containing compounds.Thus, humans are the main reason for climate change.
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You are performing an in vitro experiment in which you will expose a material you are considering for a medical device to synovial fluid, which contains the proteins albumin, transferrin, and IgM at concentrations of 5, 0.5, and 0.05 mg/ml, respectively. Each of these components has a particular affinity for your material, with IgM being the highest and albumin being the lowest.
Explanation:
Due to the Vroman effect, albumin will initially attach and eventually be replaced by the IgM, which has a higher affinity for the material
The higher concentration of the albumin results in a greater initial surface concentration via diffusion, but it will eventually be displaced by the proteins with greater surface affinity (first the transferrin, and finally the IgM)
If more addition of albumin occurs, which has less affinity for the material surface, will have minimal effect if IgM is already adsorbed to material surface
Which of the statements are true of both first- and second-division nondisjunction? Select all that apply. Sister chromatids fail to separate. Half of the gametes produced are wild-type, whereas half are mutated. Gametes are produced with extra chromosomes. Homologous chromosomes fail to separate. Gametes are produced with missing chromosomes.
Answer:
Gametes are produced with extra chromosomes. Gametes are produced with missing chromosomes.Explanation:
Non-disjunction is a genetic phenomenon that results in a failure in the segregation of sister chromatids. Non-disjunction can be classified as first or second division, however both result in genetic anomalies, because both cause excessive gamete production, or failure in gamete production, in addition to causing cells to be created with fewer chromosomes than they should It has.
For this reason, we can consider that the correct answer to your question is:
Gametes are produced with extra chromosomes. Gametes are produced with missing chromosomes.The statements "gametes are produced with extra chromosomes" and "gametes are produced with missing chromosomes" are TRUE.
Meiosis is a cell division by which a parent cell divides twice and duplicates its genetic material to produce four daughter cells (gametes) having half of the genetic material.These successive rounds of cell division are called Meiosis I and Meiosis II.Non-disjunction refers to either the faulty separation of either homo-logous chromosomes or sister chromatids during Meiosis I or Meiosis II.In conclusion, the statements "gametes are produced with extra chromosomes" and "gametes are produced with missing chromosomes" are TRUE.
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Under starvation conditions cells deaminate amino acids to produce carbon skeletons that enter the glycolytic pathway and the citric acid cycle to generate ATP. Nucleotides, on the other hand, are not broken down to yield energy. Select the statements that describe how cells metabolize nucleotides. a.Free bases released from nucleotide degradation are often reused for nucleotide synthesis. b.Nucleotides are hydrolyzed into ribose and nitrogenous bases. c.Purines are further metabolized to uric acid and pyrimidine degradation produces urea. d.Free bases from hydrolysis of nucleotides are further degraded into their amino acid precursors, glycine and aspartate. e.Although nucleotides can be hydrolyzed to release purine or pyrimidine bases, most organisms lack the enzymes to further degrade the free bases. Instead, free purine and pyrimidine bases are secreted into the bloodstream. During de novo synthesis of nucleotides, free bases released from degradation of nucleotides are attached to ribose.
Cells metabolize nucleotides by often reusing the free bases via salvage pathways, hydrolyzing nucleotides into ribose and nitrogenous bases, and breaking down purines into uric acid and pyrimidines into components that lead to urea.
Under starvation conditions, cells deaminate amino acids to produce carbon skeletons that enter the glycolytic pathway and the citric acid cycle to generate ATP. However, nucleotides, unlike amino acids, are not typically broken down for energy yield. The reasons behind this involve how cells metabolize nucleotides.
a. Free bases released from nucleotide degradation are often reused for nucleotide synthesis, a process known as the salvage pathway.
b. Nucleotides are hydrolyzed into ribose and nitrogenous bases, and the breakdown of purine nucleotides can lead to products such as uric acid.
c. During pyrimidine catabolism, uracil, and thymine can be further degraded into molecules that eventually lead to urea.
Notably, the multi-component structure of nucleotides (base, sugar, phosphate) allows for the reuse of these components. The phosphate is recycled into the phosphate pool of the cell, while the bases might undergo salvage or be built into nucleic acids.
Regarding the options given in the question, options a, b, and c accurately describe the metabolic fate of nucleotides, while options d and e are incorrect as cells do use enzymes capable of further degrading free bases, and free bases are often not secreted but salvaged.
Corn smut and wheat rust are crop diseases caused by_____fungi.
Answer:
Club Fungi
Explanation:
Club Fungi: with a simple or branched often club-shaped sporophore.
Answer:
Club fungi
Explanation:
Club Fungi: with a simple or branched often club-shaped sporophore.
Experiments by Charles Yanofsky in the 1950s and 1960s helped characterize the nature of tryptophan synthesis in E.coli. In one of Yanofsky's experiments, he identified glycine (gly) as the wild-type amino acid in position 211 of tryptophan synthetase, the product of the trpA gene. He identified two independent missense mutants with defective tryptophan synthetase at these positions that resulted from base-pair substitutions. One mutant encoded arginine (arg) and another encoded glutamic acid (glu). At position 235, wild-type tryptophan synthetase contains serine (ser), but a base-pair substitution mutant encodes leucine (leu). At position 243, the wild-type polypeptide contains glutamine, and a base-pair substitution mutant encodes a stop codon.
The most likely wild-type codon for position 235 is AGT/C. Identify the most likely wild-type codon(s) for position 235 and 243.
Answer:
Charles yanofsky established gene sequence and protein sequences are collinear in bacteria. He explains changes in DNA sequence can capable to produce changes in protein sequence at corresponding positions of bacteria.
The most likely wild-type codon for position 235 is AGT/C
The most likely wild-type codon(s) for position 211 is GGA/G
The most likely wild-type codon(s) for position 235 is UCA/G
The most likely wild-type codon(s) for position 243 is CAA/G
Suppose a researcher introduces a mutation into the glucosidase domain of the mammalian glycogen debranching enzyme. The mutation inhibits the activity of the glucosidase but does not affect the other functions of the enzyme. The researcher then introduces the mutated enzyme into mammalian cells that do not express wild type glycogen debranching enzyme. Predict the effect of the mutation on glycogen metabolism. a. linear glycogen chains with minimal branching b. glycogen molecules with branches containing five or more glucose residues c. glycogen molecules with branches containing a single glucose residue d. glycogen molecules with branches containing four glucose residues
Answer:
c. glycogen molecules with branches containing a single glucose residue
Explanation:
The mutation inhibits the activity of the glucosidase but does not affect the other functions of the enzyme. The researcher then introduces the mutated enzyme into mammalian cells that do not express wild type glycogen debranching enzyme because glycogen molecules with branches containing a single glucose residue (single glucose molecule linked by alpha 1,6 linkage due to mutation in glucosidase activity of debranching enzyme).
Final answer:
Option c is the correct answer. The mutation in the glucosidase domain of the glycogen debranching enzyme leads to glycogen molecules with branches containing a single glucose residue, due to the inability to remove these residues at the branch points.
Explanation:
The question is relating to the effects of a mutation in the glucosidase domain of a mammalian glycogen debranching enzyme, specifically how this mutation affects glycogen metabolism when the mutated enzyme is introduced into mammalian cells. The glycogen debranching enzyme plays a critical role in glycogen breakdown, mainly by transferring a trisaccharide from an alpha-1,6 branch onto an adjacent alpha-1,4 branch and then hydrolyzing the remaining single glucose residue at the alpha-1,6 branch point. Since the mutation inhibits the glucosidase activity but does not affect other functions, this means the enzyme cannot properly process the remaining single glucose at the branch point.
The correct option is (c) glycogen molecules with branches containing a single glucose residue. This is because, with the inhibition of glucosidase activity, the debranching enzyme can no longer remove the single glucose residues at the branch points, leading to the accumulation of these residues in the glycogen structure.
Which of the following is not true of a drug?
a) it may change anyone's mood
b) it may help someone cope with life.
c) they may be prescribed by a doctor
d) they may be bought over a chemist's counter
e) some drugs are completely harmless
Answer:
B)t may help someone cope with life.
Explanation:
Not a long term fix
The nucleus ______________________ during prophase II. In Metaphase II the chromosomes line up single file down the __________________ of the cell. In ___________________ the sister chromatids split up.
Answer:
The nucleus is dissolved during prophase II. In metaphase II the chromosomes line up single file down the metaphase plate of the cell. In anaphase II, the sister chromatids split up.
Explanation:
After meiosis I, meiosis II happens, which is like mitosis in the fact that sister chromatids are separated and migrate towards different daughter cells, resulting in four daughter cells with an haploid number of chromosomes.
The cell division process in which the chromosome number and the ploidy reduce after division is called meiosis. It exclusively occurs in the reproductive cells of organisms.
The blanks are condensed, metaphase plate and anaphase II.
The steps of meiosis II can be explained as:Prophase II - It is the first step of meiosis II in which the genetic material condenses and the nuclear membrane dissolves. It is a similar process to that of mitosis.Metaphase II - the second step of meiosis in which the chromosomes line up at the middle of the cell at the metaphase plate for equal separation.Anaphase II - the sister chromatids of the chromosomes separate and move towards the opposite poles to form two equal cells.Therefore the correct blanks are condensed, metaphase plate and anaphase II.
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After a skeletal muscle fiber is treated with a membrane permeable drug that speeds up the action of the SR Ca+2-ATPase, how would contraction differ after multiple and frequent action potentials? fused tetanus would be reached in the same amount of time as an untreated fiber fused tetanus would be reached sooner than an untreated fiber the maximal tension would be increased compared to an untreated fiber
Answer:
The correct Answer is "Fused tetanus would be reached sooner than an untreated fiber"
Explanation:
Muscle has a pair of stages - reduction and moderation. Reduction is trailed by a obstinate section once no reduction will occur upon inspiration. This can be the section once the sr ca2+ ATPases are vigorous and are driving the calcium back to the sarcoplasmic reticulum. Once this the forces decrease. If the inspiration are common enough to remove the relief amount, then it's known as a amalgamate tetanus. The quicker the sr ca2+ drives effort, the smaller are the biological time and therefore the faster amalgamate tetanus would be extended.
When treated with a drug that speeds up SR Ca2+-ATPase, skeletal muscle fibers reach fused tetanus more quickly due to faster calcium ion re-sequestration, allowing for rapid relaxation and preparation for successive contractions.
After a skeletal muscle fiber is treated with a membrane-permeable drug that accelerates the action of the SR Ca2+-ATPase, the contraction would differ after multiple and frequent action potentials because fused tetanus would be reached sooner than in an untreated fiber. The SR Ca2+-ATPase is responsible for pumping calcium ions back into the sarcoplasmic reticulum (SR), which helps in ending the muscle contraction and allowing the muscle to relax. If the action of this pump is sped up, calcium ions are cleared from the sarcoplasm more quickly, resulting in a faster relaxation phase.
In a rapid succession of action potentials, this accelerated relaxation allows the muscle fiber to be ready for the next contraction more promptly. Therefore, when stimuli are frequent and consecutive, the muscle can achieve fused tetanus – a state of continuous, maximal contraction – at a faster rate as the calcium ions needed for contraction are rapidly re-sequestered, allowing for a quick and efficient response to successive stimuli. However, the maximal tension generated would not be increased beyond the capability of an untreated muscle fiber since this is dependent on other factors such as muscle fiber type and cross-sectional area.
According to embryology, why do fish and birds have a common ancestor?
They both have embryos with gill slits and tails.
They both have embryos with traits that eventually disappear.
They both have embryos that develop into adults.
They both have embryos that form from a fertilized egg.
Answer:
A
Explanation:
Cancer cells exhibit a variety of differences from normal cells in cell adhesion, cell junctions, and cell effects on the extracellular matrix, some of which facilitate metastasis. Explain three changes found in some cancer cells related to these aspects of cell structure and function.
Answer:
In cancer, cells loss their adhesion because protein expression involved in this process is dysregulated
Studies suggest that cell junctions are critical for cancer progression and metastasis
Finally, cancer cells modify the extracellular matrix since this matrix may act as a barrier for the migration of cancer cells
How does earths magnetic field provide evidence for seafloor spreading
Answer: A ;)
Explanation: DON'T WORRY BOUT IT SWEET HEART
The Earth's magnetic field provides the evidence for seafloor spreading by creating a pattern of alternating rock stripes on both sides of a mid-ocean ridge. Thus, the correct option is A.
What is Seafloor spreading?
Seafloor spreading is a process which occurs at the mid-ocean ridges where the new oceanic crust is formed by the volcanic activity and afterwards this gradually moves away from the ridge of the ocean.
During a seafloor spreading, a rift in the ocean can spill out the partially melted subducted rock present in the ocean. However, when the magma cools down, there is a change in the magnetic variation of rocks which were formed by the series of volcano that has occurred underwater.
The variation of rocks shows younger rocks closer to the mid-oceanic ridge in the process.
Therefore, the correct option is A.
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Your question is incomplete, most probably the complete question is:
How does Earth’s magnetic field provide evidence for seafloor spreading?
a. It creates a pattern of alternating rock stripes on both sides of a mid-ocean ridge.
b. It allows scientists to determine the age of drilling samples.
c. It causes magma to harden quickly underwater.
d. It shows that younger rocks are located deeper underwater than older rocks.
what genotype does a person with AB have
Answer:
if talking about AB blood type then a person with blood type AB has the genotype AB.
Explanation:
Generally, in an infection caused by a DNA-containing virus, the host animal cell supplies all of the following EXCEPT Generally, in an infection caused by a DNA-containing virus, the host animal cell supplies all of the following EXCEPT
a. tRNA.
b. DNA polymerase.
c. nucleotides.
d. RNA polymerase.
e. None of the answers are correct;
f. all of these are supplied by the host animal
Answer:
B- DNA polymerase
Explanation:
In an infection caused by a DNA-containing virus, the host supplies tRNA, nucleotides and RNA polymerase but with all this being supplied, then; we need to understand that DNA Virus has a large sum of plant viruses. What am simply trying to explain to us is that, this can bring about tumors, they usually occur not presently active infections in a host while Herpesviridae is one of the big DNA Viruses group that bring about disease in animal.
Explain why individuals are not typically heterozygous with respect to mitochondrial genes
It should be noted that mitochondrial genes aren't typically heterozygous because the DNA are inherited exclusively from the mothers.
Mitochondrial genes typically contain genome and they instruct cells to produce subunits of the enzyme.
Individuals are not typically heterozygous with respect to mitochondrial genes. Mutation can only lead to a state of heteroplasmy.
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Four genes (A, B, C, D) are known to be located on the same chromosome. A series of crosses was completed to determine the recombination frequencies: A-B 50% A-C 18% A-D 31% B-C 39% B-D 50% C-D 49% Based on these numbers, what is the map distance between A and B
Answer:
50 cM or more far apart .Explanation:
1. The largest possible map distance is 50, it represents that two genes are found at opposite ends of a chromosome or are 50 cM apart from each other or they are found on different chromosomes .
2. Genes found at opposite ends of a chromosome behave as if they are on different chromosomes.
3. As given A-B 50%, means that recombination frequency is 50%.
The recombination frequency(RF), 50% means that either two genes are located on different chromosomes inheriting independently or when they are widely separated on the same chromosome with far distance.
4. As given here, four genes named A, B, C, and D are known to be located on the same chromosome. so A-B are 50 cM or more far apart from each other.
In which kind of solution is the concentration of solutes the same inside and outside of the cell?
Explanation: if im correct it should be isotonic solution because isotonic is when two solutions have the same osmotic pressure across a semipermeable membrane which allows for free movement of water across the membrane without changing the concentration of solutes on either side.
Hope this helps
Answer:
A.) isotonic
Explanation:
yes.
What are the medical uses of Interferon beta-1a?
Answer:
nterferon beta-1a is used to treat relapsing multiple sclerosis (MS) in adults. interferon beta-1a will not cure MS, it will only decrease the frequency of relapse symptoms. Interferon beta-1a may also be used for purposes not listed in this medication guide.
A natural disaster wipes out most of a population. The allele frequencies of the surviving population may not be the same as the allele frequencies of the original population. This form of genetic drift is called
Answer:
Bottleneck effect
Explanation:
In bottle neck effect, the amount of genetic variation of a population reduces in lieu to its inability to adapt to new selection pressure such as climatic change, natural disaster etc. thereby reducing the size of the population by at least one generation.
For example –
The genetic variation of Northern elephant seals is caused by the human inflicted bottleneck i.e excessive hunting
Enzymes work in biological systems by _________. View Available Hint(s) Enzymes work in biological systems by _________. decreasing the equilibrium constant lowering the activation energy of a reaction increasing the equilibrium constant increasing the activation energy of a reaction g
The complete sentence should be, 'Enzymes work in biological systems by lowering the activation energy of a reaction.'
This is essential because the activation energy is the minimum amount of energy needed for a chemical reaction to occur. By reducing this energy threshold, enzymes make it easier for reactions to happen, thus speeding up biochemical processes.For example, without enzymes, many metabolic reactions in our bodies would proceed too slowly to sustain life. Enzymes achieve this by binding to the reactants and stabilizing the transition state, which ultimately reduces the energy needed to reach it.please answer quick Carbon dioxide (CO2) is a greenhouse gas. It traps the heat in the atmosphere. Humans have used fossil fuels for only the last few hundred years. When burned, fossil fuels release CO2 into the atmosphere. Why do you think our fossil fuel use is a concern for environmental scientists?
Answer:
Because its destroying our Ozone layer, we will die of UV light overdose
Explanation:
Answer:
Burning fossil fuels increases the amount of CO2 in the atmosphere. A high level of CO2 throws the carbon cycle out of balance. With more CO2 in the atmosphere, the temperature on Earth increases.
Explanation:
edmentum sample answer change it up a bit so you don't get caught
The ends of the linear chromosomes of eukaryotes cannot be replicated by DNA polymerase. This problem is overcome through the use of telomerase, an enzyme implicated in aging and cell lifespan. Telomerase contains a noncoding RNA that acts as a moving template to add a repetitive DNA sequence at the chromosome tip, preventing the loss of essential DNA. In mammals, the ends of the chromosomes fold back to form a circular structure called a T‑loop.
Select the answers that correctly describe telomeres and the actions of telomerase.
a. Telomerase is a specialized reverse transcriptase and its presence within eukaryotic cells indicates that an early eukaryote was infected by a retrovirus.
b. Inappropriate activation of telomerase can result in cellular immortality, one of the cellular changes implicated in the development of cancer.
c. Telomerase activity is turned off in most human cells, causing the telomeres to gradually shorten as the individual ages.
d. The T-loop protects the chromosome ends from degradation by nucleases and double strand break repair enzymes.
e. Telomerase activity results in a telomere that is completely double-stranded with no single stranded region that would be susceptible to nucleases.
Answer:
B,C, D
Explanation:
Telemerase is a reverse transcriptase enzyme, which adds repetitive nucleotide sequences to the telomere ends of chromosomes.
This enable the telomere to protect the end of chromosomes from degenerating, and also prevent it from fusing with other adjacent chromosomes. Telomere shelved the gene ahead of it on the chromosomes from been truncated as its shorten with each division, It is in turn protected by protein shelterin
With each cell division, the shortened telomere length is replenished by the telomerase enzyme. Therefore, the telomerase maintains the stability of the telomeres.
Consequently the turning off of these enzymes shorten ages, in most human cells because, the telomere length is shortened , and cells failed to undergo cell division which leads to death of cells. Ageing. if this enzyme is over activated, cells undergo uninterrupted division,and multiplication which may lead to tumor.
Telomerase is a specialized enzyme that fills the gap left by DNA polymerase in the replication of the ends of chromosomes, known as telomeres. Its activity can influence processes related to aging and cancer development. The 'T-loop' at the end of chromosomes serves a protective function.
Explanation:The ends of eukaryotic chromosomes, known as telomeres, cannot be replicated by the DNA polymerase enzyme that is crucial in DNA replication. This gap is filled by a specialized enzyme called telomerase. This enzyme has an inbuilt RNA sequence that it uses as a movable template to append a recurring sequence that is DNA to the ends of chromosomes. This helps prevent significant DNA loss.
A few points help define telomeres and telomerase activity:
Telomerase is an exceptional reverse transcriptase. Suggesting that an early eukaryote was infected with a retrovirus is speculative.Uncontrolled activation of telomerase can result in cellular immortality, which is associated with the development of cancer.The activity of telomerase is usually switched off in most human cells, causing gradual shortening of telomeres with aging.The T-loop provides protection to the chromosome ends against disintegration by nucleases or double strand break repair enzymes.Telomerase activity results in a complete double-stranded telomere with no single stranded regions susceptible to degradation by nucleases.Learn more about Telomerase and Telomeres here:https://brainly.com/question/34616854
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The chemical equation below summarizes cellular respiration.
602 + C6H1206 = 6CO2 + 6H2O + energy
The energy that is released by cellular respiration is in the form of
dark energy.
solar energy.
nuclear energy.
chemical energy.
O
Answer:
The correct answer is chemical energy.
Explanation:
The phenomenon by which the chemical energy present in the molecules of food gets discharged and is captivated partially in the form of ATP or energy is known as cellular respiration. The nutrients, that is, proteins, carbohydrates, or fats can all be utilized as fuels in the process of cellular respiration, however, to examine or illustrate the process, glucose is most commonly used.
Glucose, that is, the six-carbon sugar in the process of glycolysis gets dissociated into two molecules of a three-carbon compound known as pyruvate. In the process, two molecules of ATP along with two molecules of NADH are gained. For the process of cellular respiration, the glucose needed is generated by plants by the process called photosynthesis.
2. Which statement best describes the process of evolution?*
1p
a. Populations can survive in different locations on earth
b. Environmental conditions limit the number of species on Earth
O
c. Populations grow when resources are abundant
d. The traits of a species can change over time
Answer
. Populations grow when resources are abundant
The statement that best describes the process of evolution is that traits of a species can change over time.
What is evolution?Evolution refers to the transformation of living organisms into different forms due to a change in genetic composition by the accumulation of changes over successive generations.
Natural selection leads to the evolutionary process in organisms, which can cause the traits of a species to change over time.
Therefore, the statement that best describes the process of evolution is that traits of a species can change over time.
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A healthy radish plant growing in a greenhouse is covered with a screen box that blocks sunlight. After 10 days, the mass of the plants has ___________ because the rate of cellular respiration is _________ the rate of photosynthesis.
Answer:
A healthy radish plant growing in a greenhouse is covered with a screen box that blocks sunlight. After 10 days, the mass of the plants has decreased because the rate of cellular respiration is higher than the rate of photosynthesis.
Explanation:
If a healthy plant would be covered with a screen box for a period of 10 days, the rate of photosynthesis would be decreased significantly. We know that a plant essentialy needs sunlight to perform photosynthesis. Further, when the photosynthesis is already stopped, the cellular respiration would continue and the plant would loss most of its water content. Ultimately, after a few days, the plant biomass would start decreasing as well. The period of 10 days is sufficient enough to see the loss of plant biomass and decrease in photosynthesis rate. Normally, results are evident after 24 hours.
Immune privileged sites, such as the brain, the eye, and the testis, are often the targets of autoimmune attack. Thus, once effector T cells are generated that have specificity for autoantigens expressed in these tissues, the effector cells can gain entry to the tissue and cause tissue damage. However, under normal circumstances, the priming and differentiation of effector cells specific for antigens found in the brain, for example, is generally prevented. This is because ‘immune privileged’ sites:
Answer:
express the cytokine, TGF-beta
Explanation:
An autoimmune disease is a condition in which your immune system attacks your body mistakenly. The immune system protects our body against germs including bacteria and viruses. It sends out an army of fighter cells to attack them.
Immune privileged sites, such as the brain, the eye, and the testis, are often the targets of autoimmune attack but the priming and differentiation of effector cells specific for antigens found in the brain, for example, is generally prevented as immune-privileged sites express the cytokine, TGF-beta.