Microtubules are the largest elements of the cytoskeleton, which are composed of protein polymers that are intrinsically polar and assembled by the regulated polymerization of α- and β-tubulin heterodimers.
Microtubules are highly dynamic, which means that they are continuously being generated and broken down. This process is referred to as dynamic instability.
Dynamic instability is a mechanism that explains the dynamic behaviour of microtubules. The term dynamic instability is a description of the way in which microtubules change shape over time.
It means that microtubules are constantly shifting and changing shape, breaking down and reforming in a process that is dependent on the activity of the microtubule network.
Microtubules are able to undergo dynamic instability because of their unique composition. Each microtubule is made up of multiple tubulin subunits that are arranged in a spiral pattern.
This arrangement creates a structure that is both strong and flexible, allowing the microtubules to bend and twist in response to changes in the cell environment.
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4. Describe DNA synthesis in: a) Prokaryotes b) Eukaryotes Include in your discussion DNA initiation, elongation and termination. 5. Describe the key stages in homologous recombination. 6. Discuss the different types of the DNA damage and how they are repaired. 7. Provide a detailed outline of DNA-dependent RNA synthesis in prokaryotes. 8. Discuss the main differences between DNA polymerase and RNA polymerase. 9. Discuss the main modifications that a newly synthesized pre-mRNA molecule will undergo before it can be referred to as a mature mRNA? 10. With reference to translation, short notes on the following: a) Protein post-translational modification b) The role of rRNA during translation c) tRNA structure
4. DNA synthesis in Prokaryotes and Eukaryotes:
a) Prokaryotes:
- DNA initiation: In prokaryotes, DNA synthesis is initiated at a specific site called the origin of replication (ori). Initiator proteins bind to the ori and recruit other proteins, including helicase, which unwinds the double-stranded DNA to create a replication fork.
- DNA elongation: DNA polymerase III, the main enzyme involved in DNA replication in prokaryotes, adds nucleotides to the growing DNA strand in a 5' to 3' direction. One strand, called the leading strand, is synthesized continuously, while the other strand, called the lagging strand, is synthesized discontinuously in short fragments called Okazaki fragments.
- Termination: The termination of DNA synthesis in prokaryotes involves the termination site, which is recognized by specific proteins. These proteins disrupt the replication complex and lead to the dissociation of the DNA polymerase from the DNA template.
b) Eukaryotes:
- DNA initiation: In eukaryotes, DNA replication occurs at multiple origins of replication scattered throughout the genome. Initiator proteins, along with other factors, bind to the origins and initiate the unwinding of DNA to form replication forks.
- DNA elongation: DNA polymerases α, δ, and ε are involved in DNA replication in eukaryotes. DNA polymerase α initiates DNA synthesis by adding a short RNA primer, which is later replaced by DNA synthesized by DNA polymerase δ and ε. The leading and lagging strands are synthesized as in prokaryotes.
- Termination: The termination of DNA replication in eukaryotes is a complex process that involves replication forks from adjacent replication origins merging together and the completion of DNA synthesis by DNA polymerases. Telomeres, the protective caps at the ends of chromosomes, also play a role in termination.
5. Key stages in homologous recombination:
- DNA double-strand break formation: A double-strand break occurs in one of the DNA molecules, usually caused by external factors or replication errors.
- Resection: The broken DNA ends are processed to generate single-stranded DNA (ssDNA) tails.
- Strand invasion: The ssDNA tails invade the intact DNA molecule with homologous sequences, forming a displacement loop (D-loop) structure.
- DNA synthesis and branch migration: DNA synthesis occurs, using the intact DNA molecule as a template. This results in the exchange of genetic information between the two DNA molecules. Branch migration refers to the movement of the D-loop along the DNA molecule.
6. Types of DNA damage and repair:
- Base excision repair (BER): Repairs damaged or abnormal bases, such as those modified by oxidation or methylation. A specific DNA glycosylase recognizes the damaged base and removes it, followed by the action of other enzymes to complete the repair process.
- Nucleotide excision repair (NER): Repairs a wide range of DNA lesions, including UV-induced pyrimidine dimers and bulky chemical adducts. It involves the recognition and removal of a segment of damaged DNA, followed by DNA synthesis and ligation to restore the original DNA sequence.
- Mismatch repair (MMR): Corrects errors that occur during DNA replication, such as mismatches and small insertions/deletions. MMR detects and removes the mismatched base, and the gap is filled by DNA synthesis and ligation.
- Homologous recombination repair (HRR): Repairs double-str
and breaks using the undamaged sister chromatid as a template. It involves the stages mentioned earlier, including strand invasion, DNA synthesis, and resolution of the Holliday junction.
7. DNA-dependent RNA synthesis in prokaryotes:
In prokaryotes, DNA-dependent RNA synthesis, or transcription, involves the following steps:
- Initiation: The RNA polymerase binds to the promoter region of the DNA, forming a closed complex. It then unwinds the DNA to form an open complex, allowing the template strand to be exposed.
- Elongation: The RNA polymerase moves along the DNA template strand in a 3' to 5' direction, synthesizing an RNA molecule in a complementary 5' to 3' direction. The DNA double helix re-forms behind the RNA polymerase.
8. Differences between DNA polymerase and RNA polymerase:
- Substrate specificity: DNA polymerase uses deoxyribonucleotide triphosphates (dNTPs) as substrates to synthesize DNA, while RNA polymerase uses ribonucleotide triphosphates (NTPs) to synthesize RNA.
- Template recognition: DNA polymerase requires a DNA template for synthesis, while RNA polymerase requires a DNA template for transcription.
- Proofreading activity: DNA polymerase has proofreading activity and can correct errors during DNA synthesis, while RNA polymerase lacks proofreading activity, leading to a higher error rate in RNA synthesis.
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Question 2: To study the therapeutic impact of pet ownership on heart attack recovery, physicians determined which heart-attack patients had a pet, then looked at their one survival. 85% with pets were still alive, compared to 63% of those without pets.
Is this an experimental or observational study?
Is there a true comparison group?
Were there other possible confounding variables?
What would be the most accurate way to run this experiment?
This is an observational study. The comparison group consists of heart attack patients without pets. Possible confounding variables include age, overall health, and access to healthcare.
The most accurate way to run this experiment would be to randomly assign heart attack patients to either a pet ownership group or a non-pet ownership group, ensuring that both groups are similar in terms of confounding variables, and then comparing their survival rates.
This study is an observational study because the researchers did not actively intervene or manipulate variables. They observed and compared the outcomes of heart attack patients based on whether they owned a pet or not. The comparison group in this study consists of heart attack patients without pets.
There could be other confounding variables that could influence the results, such as age, overall health, and access to healthcare. These factors may be related to both pet ownership and survival rates, making it difficult to determine if pet ownership alone is the cause of the higher survival rate.
To conduct a more accurate experiment, researchers could use a randomized controlled trial (RCT) approach. They could randomly assign heart attack patients to two groups: one with pet ownership and one without. By randomizing the assignment, the groups would be more likely to be similar in terms of confounding variables. Then, they can compare the survival rates of the two groups, providing stronger evidence for the impact of pet ownership on heart attack recovery.
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what is virus host interaction ? i dont find clear info. i have assingment ant i dont know what i write please helppppp
Virus-host interaction refers to the relationship and interactions between a virus and its host organism. It involves the complex interplay between the virus and the host's cells, tissues, and immune system.
During virus-host interaction, viruses infect host cells and hijack their cellular machinery to replicate and produce new virus particles. The virus enters the host's cells, releases its genetic material (DNA or RNA), and takes control of the cellular processes to produce viral proteins and replicate its genetic material.
This can lead to various consequences for the host, ranging from mild symptoms to severe diseases.
The host organism's immune system plays a crucial role in the virus-host interaction. It detects the presence of viruses and mounts an immune response to eliminate the infection.
The interaction between the virus and the host's immune system can result in a dynamic battle, with the virus trying to evade the immune response and the immune system attempting to control and eliminate the virus.
The outcome of virus-host interaction can vary depending on factors such as the virulence of the virus, the host's immune response, and the specific mechanisms employed by the virus to evade or manipulate the host's defenses.
Understanding virus-host interactions is essential for developing strategies to prevent and control viral infections.
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One way of identifying a drug target in a complex cellular extract is to use an affinity approach, i.e. fix the drug to a resin (agarose etc) and use it to "pull down "" the target from the extract. What potential problems do you think may be encountered with attempting this approach?
One way of identifying a drug target in a complex cellular extract is by using an affinity approach which involves fixing the drug to a resin such as agarose. The target is then "pulled down" from the extract.
However, this approach may encounter some potential problems such as:
Non-specific binding: The drug resin could bind to other molecules that are unrelated to the target protein, leading to inaccurate results.Difficulty in obtaining a pure sample: Even though the target molecule could bind to the drug resin, other proteins and molecules can also bind which makes it challenging to obtain a pure sample.Low Abundance Targets: In a complex cellular extract, the target molecule may exist in low abundance and the signal might not be strong enough to detect, making it difficult to pull down.Biochemical Incompatibility: The drug and the resin may not be compatible with the target, thus it may not bind or bind weakly which means the target protein might not be able to be pulled down.Therefore, while the affinity approach is a very useful and important method for drug target identification, it also has its limitations and potential problems that need to be considered.
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rDNA O when 2 different DNA from two different species are joined together
O example human insulin gene placed in a bacterial cell O DNA is copied along with bacterial DNA O Proteins are then made known as recombinant proteins. O All of the above •
All of the statements mentioned about DNA and recombinant DNA are correct.
The correct answer is: All of the above.
What occurs in the DNA combination?When two different DNA from two different species are joined together, several processes occur:
The human insulin gene, for example, can be placed in a bacterial cell. This is achieved through genetic engineering techniques such as gene cloning or recombinant DNA technology.
The DNA containing the human insulin gene is copied along with the bacterial DNA through DNA replication. This ensures that the foreign DNA is replicated along with the host DNA during cell division.
Once the recombinant DNA is present in the bacterial cell, the cell's machinery translates the genetic information into proteins. In the case of the human insulin gene, the bacterial cell will produce insulin proteins using the instructions provided by the inserted gene. These proteins are known as recombinant proteins.
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Question 47 Not yet graded / 7 pts Part C about the topic of nitrogen. The nucleotides are also nitrogenous. What parts of them are nitrogenous? What are the two classes of these parts? And, what are
Nitrogenous refers to the presence of nitrogen in a molecule. Nucleotides are also nitrogenous.
Nucleotides have three parts: nitrogenous base, sugar, and phosphate. The nitrogenous base of a nucleotide is nitrogenous.
The two classes of these nitrogenous bases in nucleotides are purines and pyrimidines.
Purines are nitrogenous bases that contain two rings.
Adenine (A) and guanine (G) are examples of purines.
Pyrimidines are nitrogenous bases that contain one ring.
Cytosine (C), thymine (T), and uracil (U) are examples of pyrimidines.
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1 pts Arrange the following correct sequence of events during exhalation: 1. Air (gases) flows out of lungs down its pressure gradient until intrapulmonary pressure is 0 (equal to atmospheric pressure
Air flows out of the lungs during bin the following correct sequence of events:
1. Contraction of the diaphragm and external intercostal muscles reduces intrapleural pressure.
2. Decreased intrapleural pressure causes the lungs to recoil, compressing the air within the alveoli.
3. The compressed air flows out of the lungs down its pressure gradient until intrapulmonary pressure is 0, equal to atmospheric pressure.
During exhalation, the primary muscles involved are the diaphragm and the external intercostal muscles. These muscles contract, causing the volume of the thoracic cavity to decrease. As a result, the intrapleural pressure within the pleural cavity decreases. The decreased intrapleural pressure leads to the recoil of the elastic lung tissue, which compresses the air within the alveoli.
As the volume of the thoracic cavity decreases, the pressure within the alveoli increases. This increased pressure creates a pressure gradient between the lungs and the atmosphere. The air naturally flows from an area of higher pressure (within the lungs) to an area of lower pressure (outside the body) until the pressures equalize. This process continues until the intrapulmonary pressure reaches 0, which is equal to atmospheric pressure.
Overall, the sequence of events during exhalation involves the contraction of the diaphragm and external intercostal muscles, the recoil of the lungs, and the resulting flow of air out of the lungs down its pressure gradient until the intrapulmonary pressure matches the atmospheric pressure.
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Write down the sentences. Make all necessary corrections. ► 1. Han said Please bring me a glass of Alka-Seltzer. ►2. The trouble with school said Muriel is the classes. ►3. I know what I'm going
1. Han requested a glass of Alka-Seltzer, while Muriel pointed out that the classes were the trouble with school. 2. Confident in their plans, the speaker expressed their knowledge of what they were about to do. 3. The speaker asserted their awareness of their forthcoming actions.
1. Han said, "Please bring me a glass of Alka-Seltzer."
2. "The trouble with school," said Muriel, "is the classes."
3. "I know what I'm going to do."
In sentence 1, I added quotation marks to indicate that Han's words are being directly quoted. Additionally, "Alka-Seltzer" should be capitalized since it is a proper noun.
In sentence 2, I placed the dialogue tag "said Muriel" inside the quotation marks to indicate that Muriel is the one speaking.
The word "said" should be lowercase, and the comma should be placed before the closing quotation mark.
In sentence 3, I corrected the capitalization of "I'm" to "I'm" since it is a contraction of "I am." The sentence should end with a period since it is a complete statement.
Overall, these corrections ensure proper punctuation, capitalization, and formatting for the given sentences.
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A species has been transplanted to a region of the world where historically it did not exist. It spreads rapidly and is highly detrimental to native species and to human economies. This is known as a(n) introduced species. exotic species. invasive species. non-native species. 0/1 point Plant alkaloids act as chemical defense against herbivory because they are toxic to herbivores. are difficult for herbivores to digest. make the plant unpalatable. are difficult to consume. 0/1 point
The correct term for a species that has been transplanted to a region where it historically did not exist and spreads rapidly, causing harm to native species and human economies, is an invasive species.
As for the question about plant alkaloids, they act as chemical defense against herbivory because they are toxic to herbivores. Plant alkaloids are secondary metabolites produced by plants to deter herbivores from feeding on them.
They can be toxic or poisonous to herbivores, causing physiological effects or even death. This toxicity serves as a defense mechanism, deterring herbivores from consuming the plant and reducing the damage inflicted upon it.
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In some insect species the males are haploid. What process (meiosis or mitosis) is used to produce gametes in these males?
Wiskott-Aldrich Syndrome (WAS) is an X-linked disorder characterized by low platelet counts, eczema, and recurrent infections that usually kill the child by mid childhood. A woman with one copy of the mutant gene has normal phenotype but a woman with two copies will have WAS. Select all that apply: WAS shows the following
Pleiotropy
Overdominance
Incomplete dominance
Dominance/Recessiveness
Epistasis
In some insect species, the males are haploid, and mitosis is used to produce gametes in these males. Wiskott-Aldrich Syndrome (WAS) shows Dominance/Recessiveness.
In some insect species, the males are haploid. Mitosis is used to produce gametes in these males. This is because mitosis is the type of cell division that occurs in somatic cells. It results in the production of two identical daughter cells with the same chromosome number as the parent cell. Meiosis, on the other hand, is the type of cell division that occurs in germ cells. It results in the production of four genetically diverse daughter cells with half the chromosome number of the parent cell.Therefore, mitosis is used to produce gametes in male haploid insect species.
.Wiskott-Aldrich Syndrome (WAS) shows the Dominance/Recessiveness. Dominant alleles are those that determine a phenotype in a heterozygous (Aa) or homozygous (AA) state. Recessive alleles determine a phenotype only when homozygous (aa). In the case of WAS, a woman with one copy of the mutant gene has a normal phenotype because the normal gene can mask the effect of the mutant gene. However, a woman with two copies of the mutant gene will have WAS because the mutant gene is now in a homozygous state. Therefore, the mutant allele is recessive to the normal allele.
In some insect species, the males are haploid, and mitosis is used to produce gametes in these males. Wiskott-Aldrich Syndrome (WAS) shows Dominance/Recessiveness.
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36. Which film composer is considered to be a pioneer in the use
of digital synthesizers, electronic keyboards, and the latest
computer technology?
Hugo Blowdorn
Harry Lovelog
Elmer Earplug
Manny Fli
Hans Zimmer is considered to be a pioneer in the use of digital synthesizers, electronic keyboards, and the latest computer technology in film composition. Throughout his career, Zimmer has pushed the boundaries of music production by incorporating innovative and cutting-edge technologies into his work.
Zimmer's use of digital synthesizers and electronic keyboards brought a fresh and distinctive sound to the world of film scores. He embraced the capabilities of these instruments, exploring new sonic possibilities and creating unique textures and atmospheres that added depth and emotion to his compositions. Furthermore, Zimmer's expertise in harnessing the power of computer technology revolutionized film scoring.
He integrated computer-based music production techniques, allowing for precise control over orchestral arrangements, sound manipulation, and the creation of complex musical layers. His pioneering work in films such as "Blade Runner 2049," "Inception," and "The Dark Knight" demonstrated the immense creative potential of these technologies and cemented Zimmer's reputation as a trailblazer in the industry.
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Restylem Plants and animals both respire. Compare and contrast the pathway of oxygen (O2) through the organism from the outside air to the cell in which it is being used trace thatpathione animal of your choice and in one plant
Respiration is a biological process in which the body acquires energy through the oxidation of glucose or nutrients, resulting in the production of carbon dioxide and water as by-products.
Respiration occurs in both animals and plants. Oxygen (O2) from the air is required for respiration to occur. Oxygen is used by organisms to convert food into energy that can be used to power all of their physiological activities, including cellular respiration.Animals and plants both respire, but they have different respiratory systems and mechanisms for obtaining oxygen.
Here are the different paths that oxygen takes through an animal and a plant:Path of oxygen in an animal:In animals, oxygen is inhaled through the nose or mouth. The oxygen travels down the trachea (windpipe), which is then divided into bronchi and bronchioles that transport air to the lungs.
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What is the major constraint of using the body surface for external exchange? A. Using the body surface for respiration prevents the animal being camouflaged
B. As animals get bigger their surface area to volume ratio gets smaller C. It is impossible to keep the body surface moist D.Using the body surface for respiration requires special hemoglobin E. Animals that use their body surface to respire must move quickly to ensure sufficient gas exchange
The major constraint of using the body surface for external exchange is that, as animals get bigger, their surface area to volume ratio gets smaller.
As the size of an animal increases, the ratio of surface area to volume decreases. This is because volume increases more quickly than surface area. As a result, larger animals have less surface area relative to their size than smaller animals. The body surface is the outer covering of an organism, which is responsible for the exchange of gases and nutrients with the surrounding environment.
The body surface is a common site of gas exchange in many animals, including insects, earthworms, and fish. Animals that respire through their body surface are known as cutaneous respirators.
The correct answer is B. As animals get bigger, their surface area to volume ratio gets smaller.
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QUESTION 22 Which of these statements is false? Physical activity increases the risk of adverse events, Exercise-related injuries are preventable. Risk of sudden cardiac death is higher among habitually inactive people than among active people. Exercise increases the risk of sudden cardiac death ole Injury
The false statement among the following choices is Exercise increases the risk of sudden cardiac death. Sudden cardiac death is an unexpected loss of heart function, breathing, and consciousness caused by an electrical disturbance in the heart.
It happens unexpectedly and almost immediately, so the person can't get medical attention.Physical activity is very beneficial for the human body. Physical activity is related to a decreased risk of cardiovascular disease, diabetes, colon cancer, and breast cancer. Exercise-related injuries are preventable if people take appropriate precautions.Exercise-related injuries, such as ankle sprains, blisters, and muscle strains, can be avoided by wearing appropriate shoes and clothes, being aware of surroundings, warming up before exercise, and cooling down after exercise. It is essential to follow safety guidelines to avoid injuries or accidents.Inactive individuals have a higher risk of sudden cardiac death than active people. Habitually inactive individuals are at higher risk of heart disease than those who are active. Exercise decreases the risk of sudden cardiac death and heart disease.Exercise increases the strength of the heart and improves circulation, reducing the risk of heart disease and sudden cardiac death.
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Transmembrane movement of a substance down a concentration gradient with no involvement of membrane protein a.belongs to passive transport
b. is called facilitated diffusion c.belongs to active transport d.is called simple diffusion
Transmembrane movement of a substance down a concentration gradient with no involvement of membrane protein is called simple diffusion. Simple diffusion is a type of passive transport that occurs without the involvement of membrane proteins.
Passive transport, also known as passive diffusion, does not require energy input from the cell, and substances move down their concentration gradient. It includes simple diffusion and facilitated diffusion.In simple diffusion, molecules move directly through the lipid bilayer of the plasma membrane from high concentration to low concentration. Small molecules such as oxygen, carbon dioxide, and water can move across the membrane through simple diffusion. Facilitated diffusion, on the other hand, requires the involvement of membrane proteins to transport molecules across the membrane.
The membrane protein creates a channel or a carrier for the solute to cross the membrane, but the movement still goes down the concentration gradient.The movement of molecules in active transport is opposite to that of passive transport, moving from an area of low concentration to an area of high concentration. Active transport requires the use of energy, usually in the form of ATP, to pump molecules across the membrane against the concentration gradient. Therefore, we can conclude that the correct option is d. is called simple diffusion.
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The two strands of a DNA molecule are held together by what type of bonds?
a. carbon
b. hydrogen
c. nitrogen
d. none of the above
The correct answer is b. hydrogen bonds. The DNA molecule consists of two strands that are twisted around each other in a double helix structure.
The hydrogen bonds are formed between the nitrogenous bases of the nucleotides. The nitrogenous bases in DNA include adenine (A), thymine (T), cytosine (C), and guanine (G). Adenine forms three hydrogen bonds with thymine, and cytosine forms two hydrogen bonds with guanine.
Specifically, adenine and thymine are connected by two hydrogen bonds, while cytosine and guanine are connected by three hydrogen bonds. It is important to note that the backbone of the DNA molecule is formed by sugar-phosphate bonds, which run along the outside of the double helix structure and provide structural support.
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Meet the Rat Lung Worm - Video Clip "Rat Lung Worm"
Disease / Medical condition:
How do humans contract this disease (i.e. how is it transmitted)?
Signs and symptoms of disease:
Describe the course of the disease:
Are humans a normal part for the rat lung worm’s life cycle?
How can rat lung worm infections be prevented in humans?
Type of parasite (bacteria, protozoan, fungus, helminth, insect, virus):
Scientific name of parasite (properly formatted):
Angiostrongyliasis, commonly known as rat lungworm disease, is transmitted to humans through the ingestion of raw or undercooked snails, slugs, or contaminated produce.
Once inside the body, the larvae of the rat lungworm migrate to the central nervous system, leading to various symptoms such as headaches, nausea, and neurological complications. Humans are accidental hosts in the life cycle of the rat lungworm, as the adult worms primarily reside in the pulmonary arteries of rats and other rodents.
To prevent infections, it is crucial to thoroughly wash raw produce, especially leafy greens, and avoid consuming snails or slugs that may carry the parasite.
Therefore, the type of parasite is Helminth and the Scientific name of the parasite is Angiostrongylus cantonensis.
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Describe how mutations in oncogenes can induce genome instability, and contrast with genome instability induced by mutations in tumour suppressor genes.
Mutations in oncogenes and tumor suppressor genes can cause genomic instability, leading to the development of cancer. Mutations in oncogenes and tumor suppressor genes can lead to genome instability by affecting cellular pathways responsible for DNA damage repair, cell cycle control, and apoptosis.
Mutations in oncogenes and tumor suppressor genes can cause genomic instability, leading to the development of cancer. Mutations in oncogenes and tumor suppressor genes can lead to genome instability by affecting cellular pathways responsible for DNA damage repair, cell cycle control, and apoptosis. Mutations in oncogenes are genes that are capable of initiating the development of cancer in normal cells. Their mutations increase the activity of a protein encoded by the oncogene, leading to an uncontrolled cell growth and division, which can lead to cancer. However, when mutated, oncogenes can also activate DNA damage repair mechanisms that cause genomic instability, such as DNA replication and cell division that can lead to gene amplification and gene rearrangements.
On the other hand, tumor suppressor genes act to prevent the development of cancer by regulating cell proliferation, DNA repair, and apoptosis. Their mutations, on the other hand, lead to genomic instability, which can cause the loss of critical genes, uncontrolled cell growth, and the development of cancer. When tumor suppressor genes are mutated, they fail to control the cellular mechanisms responsible for DNA damage repair, cell cycle control, and apoptosis, which can cause genomic instability and the development of cancer.
Therefore, mutations in oncogenes can induce genomic instability by affecting cellular pathways that regulate DNA repair, cell cycle control, and apoptosis, while mutations in tumor suppressor genes can induce genomic instability by disrupting the same cellular pathways responsible for the regulation of DNA repair, cell cycle control, and apoptosis.
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Pedigrees and Mendelian inheritance
In Labrador retrievers, coat color is controlled by two genes, one that determines whether pigment is deposited in the hair and one that controls the color of the pigment. The first gene has two alleles, one for black pigment and one for brown (chocolate) pigment. The black allele is dominant. The alleles at the second gene determine if the pigment is deposited in the fur of the animal. If the dog has two recessive alleles at this locus, no pigment will be deposited in the fur and the dog will be a yellow lab. If the dog has at least one dominant allele at this locus and at least one black pigment allele, they will be a black lab. If the dog has two brown alleles and at least one dominant allele at the second locus, they will be a chocolate lab.
Take a deep breath. You’ve got this. The information you have in the problem is:
The structure of the pedigree through the naming of individuals (the pedigree is already drawn for you)
How the inheritance of coat color works in Labrador retrievers
The phenotype of the individuals in the pedigree
The steps you need to take to solve it:
Assign phenotypes to every dog Figure out the genotype for the color deposition locus – use D/d to indicate whether the color is deposited/not deposited
Figure out the genotype for the pigment locus – use B/b to indicate Black allele/brown allele
Using the pedigree below, fill in the genotypes and phenotypes in the table following the pedigree for the family of Labrador retrievers. Mom and Dad are indicated for you. If a genotype is indeterminate, use a dash (-). Once you have done that, use that information to answer the questions below.
Family: Leia, the mom, is a black lab. Han, the dad, is a brown lab. Leia’s father is a black lab, and her mother is a black lab, both heterozygous for the color deposition locus and the pigmentation locus. Han’s father is a yellow lab from a homozygous black father and brown mother. Han’s mother is a brown lab from two brown labs that are homozygous for the color deposition gene. Leia and Han have three puppies: one female brown lab named Jaina, one male black lab called Jacen, and one male yellow lab named Ben.
Phenotypes of all the dogs were identified and genotypes of the color deposition locus and pigmentation locus of each dog were assigned. With the help of this information, the genotypes and phenotypes of Leia and Han’s puppies were found.
Phenotypes of all the dogs were identified and genotypes of the color deposition locus and pigmentation locus of each dog were assigned. In the color deposition locus, D/d was used to indicate whether the color is deposited/not deposited. In the pigmentation locus, B/b was used to indicate Black allele/brown allele. With the help of this information, the genotypes and phenotypes of Leia and Han’s puppies were found. The genotypes and phenotypes of the puppies are as follows:Jaina, the female brown lab: bbD/-Jacen, the male black lab: BbD/-Ben, the male yellow lab: bbdd.
Therefore, the conclusions that can be drawn from the given information are that Leia and Han are heterozygous for the color deposition and pigmentation locus. Their puppies have different genotypes and phenotypes for the color deposition and pigmentation locus. The brown puppy has the genotype bbD/-, black puppy has BbD/-, and the yellow puppy has the genotype bbdd.
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Question 13 0.05 pts Which of the following mechanisms produces the MOST diversity in T cell receptors? imprecise joining of VDJ segments O having multiple V region segments from which to choose somatic hypermutation having multiple C region gene segments from which to choose Question 17 0.05 pts Which statement BEST DESCRIBES the function of the C3 component of complement? It forms part of a convertase on the bacteria and is recognized by neutrophils through the receptor CR1. It binds to antibody Fc that are bound to the surface of the bacteria. It initiates the end-stage of complement to form part of the Membrane Attack Complex (MAC). O It initiates the extrinsic pathway of coagulation
13. Imprecise joining of VDJ segments. The answer 1 is correct.
20. IgE and mast cells. The option 4 is correct.
17. It initiates the end-stage of complement to form part of the Membrane Attack Complex (MAC). The option 3 is correct.
Question 13: The mechanism that produces the MOST diversity in T cell receptors is the "imprecise joining of VDJ segments." This process involves the rearrangement of variable (V), diversity (D), and joining (J) gene segments during T cell development.
Question 20: An inflammatory response that occurs immediately upon exposure to antigen is MOST LIKELY to be mediated by "IgE and mast cells." IgE antibodies are specialized immunoglobulins that are involved in allergic and immediate hypersensitivity reactions.
Upon exposure to an antigen, IgE antibodies bind to mast cells, which are present in tissues throughout the body.
Question 17: The function of the C3 component of complement is BEST DESCRIBED by the statement "It initiates the end-stage of complement to form part of the Membrane Attack Complex (MAC)." The complement system is a part of the innate immune response and plays a crucial role in host defense against pathogens.
C3 is a central component of the complement cascade. Activation of C3 leads to the formation of C3 convertase, which cleaves C3 into C3a and C3b.
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Which of the following three
conditions contribute to the Hardy-Weinberg Equilibrium?
a.
No selection of one individual over
another, stable environment, non-random mating
b.
No select
Thus, option (d) is the correct choice While non-random mating can disturb the Hardy-Weinberg equilibrium, it is not one of the three conditions that contribute to the equilibrium.
The model provides a theoretical foundation for studying genetic variation in a population.
These are random mating, no mutation, no gene flow (immigration or emigration), large population size, and no selection. The three conditions that contribute to the Hardy-Weinberg Equilibrium are no selection of one individual over another, no migration, and stable environment.
Thus, option (d) is the correct choice While non-random mating can disturb the Hardy-Weinberg equilibrium, it is not one of the three conditions that contribute to the equilibrium.
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A woman and her husband both show the normal phenotype for pigmentation, but each had one parent who was an albino. Albinism is an autosomal recessive trait. If their first two children have normal pigmentation, what is the probability that their third child will be an albino?
The given information states that both the husband and the wife are phenotypically normal but they each had one albino parent.
we can assume that both parents are phenotypically carriers for the recessive trait of albinism.
A dominant trait is the one that masks the effects of the other gene whereas, the recessive trait is the one that remains masked in the presence of the dominant trait.
Thus, to inherit an autosomal recessive trait, both the parents must be carriers or must be affected by the trait.
Using a Punnett square, let us determine the genotypes of the parents.
Let A denote the dominant allele for normal pigmentation and for the recessive allele of albinism.
Wife's genotype:
Aa (phenotypically normal)
Husband's genotype:
Aa (phenotypically normal)
In this case, the Punnett square will look like the following:
[tex]AA| Aa |Aa Aa| Aa |aa[/tex]
The probability that the third child will be an albino is 25% or 1/4.
the probability that their third child will be an albino is 1/4 or 25%.
Hence, the required probability is 25%.
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Elongation continues in translation until a STOP codon is reached on the mRNA. a) True b) False
a) True.
During translation, elongation refers to the process of adding amino acids to the growing polypeptide chain. It continues until a STOP codon is encountered on the .
The presence of a STOP codon signals the termination of protein synthesis and the release of the completed polypeptide chain from the ribosome.
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Which statement regarding the absorption of lipid is true? triglyceride are absorbed into the circulatory system directly from the small intestine fatty acid and glycerol enter the intestinal cell in the form of chylomicron lipids are absorbed only in the ileum of the small intestine bile help transport lipids into the blood stream fatty acid and glycerol enter the intestinal cells in the form of micelle
The statement "fatty acid and glycerol enter the intestinal cells in the form of micelle" is true.
During lipid absorption, the breakdown products of triglycerides (fatty acids and glycerol) are absorbed by the small intestine. However, due to their hydrophobic nature, they cannot dissolve freely in the watery environment of the intestine. To facilitate their absorption, they combine with bile salts to form micelles. Bile salts are produced by the liver and stored in the gallbladder, and they aid in the digestion and absorption of dietary fats.
These micelles, consisting of fatty acids, glycerol, and bile salts, help solubilize the lipids and transport them to the surface of the intestinal cells (enterocytes). The fatty acids and glycerol then diffuse across the cell membrane and enter the enterocytes. Once inside the enterocytes, they are reassembled into triglycerides.
After reassembly, the triglycerides combine with other lipids and proteins to form chylomicrons. Chylomicrons are large lipoprotein particles that transport the dietary lipids through the lymphatic system and eventually into the bloodstream, where they can be utilized by various tissues in the body.
Therefore, it is correct to say that fatty acids and glycerol enter the intestinal cells in the form of micelles during lipid absorption.
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Chi square test. A cross is made to study the following in the Drosophila fly: black body color (b) and vermilion eye color (v). A heterozygous red-eyed, black-bodied female was crossed with a red-eyed, heterozygous male for cream body color. From the crossing the following progeny was obtained in the filial generation 1 (F1):
F1 Generation:
130 females red eyes and cream colored body
125 females red eyes and black body
70 males red eyes and cream body
55 males red eyes and black body
60 males vermilion eyes and cream body
65 males vermilion eyes and black body
The statistical test hypothesis would be that there is no difference between the observed and expected phenotypic frequencies.
a) Using the information provided, how is eye color characteristic inherited? why?
b) How is the characteristic of skin color inherited?
a. Eye color is inherited as sex-linked inheritance, with vermilion eye color being a sex-linked trait.
b. Skin color is inherited through autosomal inheritance, with black and cream body coloration being determined by alleles on autosomal chromosomes.
a. Eye color characteristic in the Drosophila flies is inherited as sex-linked inheritance. In this case, vermilion eye color is a sex-linked trait, with the genes that determine eye color located on the X chromosome. Males only have one X chromosome, so if they receive the X-linked allele for vermilion eye color from their mother, they will express that trait.
This is because they lack a second X chromosome to mask the expression of the allele. On the other hand, females have two X chromosomes and can inherit two alleles, one from each parent. If a female receives even one copy of the vermilion allele, she will express that trait.
b. The characteristic of skin color, specifically body color, in the Drosophila flies is inherited through autosomal inheritance. In this case, black body color is a recessive trait, while cream body color is dominant. Both black and cream body coloration requires the presence of the respective allele on the two homologous autosomal chromosomes.
In the given cross, both the male and female flies are heterozygous for the genes that determine skin color. This indicates that the trait for body color is inherited through autosomal inheritance, where the presence of the dominant allele (cream body color) masks the expression of the recessive allele (black body color).
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Relate Gibbs free energy to the direction of a reaction in a cell
assisted by enzyme how can a cell control the direction of a
reaction?
Gibbs free energy is a measure of the amount of energy in a system that is available to do useful work, such as driving a chemical reaction. In the context of a cell, enzymes are proteins that catalyze, or speed up, chemical reactions.
These reactions are essential for cellular processes such as metabolism, energy production, and DNA replication .The direction of a reaction in a cell is determined by the Gibbs free energy change (ΔG) of the reaction. If ΔG is negative, the reaction is exergonic, meaning it releases energy and proceeds spontaneously in the forward direction. If ΔG is positive, the reaction is endergonic, meaning it requires an input of energy and proceeds spontaneously in the reverse direction. However, the direction of a reaction in a cell is not solely determined by the thermodynamics of the reaction.
Enzymes can also influence the direction of a reaction by lowering the activation energy required for the reaction to occur. This can allow a thermodynamically unfavorable reaction to proceed by reducing the energy barrier that the reactants must overcome. To control the direction of a reaction, cells can regulate the activity of enzymes. This can be done by controlling the expression of genes that encode for enzymes or by post-transcriptional or post-translational modifications of the enzymes themselves. Additionally, cells can control the concentration of reactants and products in the cell to shift the equilibrium of the reaction in the desired direction. Overall, the direction of a reaction in a cell is determined by both the thermodynamics of the reaction and the activity of enzymes.
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If excess metabolic fuel is taken in over time, metabolic fuel is stored for the long term. In what form(s) is metabolic fuel stored for the long term? What tissue(s) is it stored in? And how is this storage impacted by the form(s) in which the excess metabolic fuel is taken in as?
When excess metabolic fuel is taken in over time, metabolic fuel is stored for the long term in adipose tissue. Adipose tissue is the primary site of storage for metabolic fuel in the body. The fuel is stored in the form of triglycerides (i.e., three fatty acids attached to a glycerol molecule).
Excess metabolic fuel is taken in when energy intake exceeds energy expenditure. This excess fuel is converted to fat and stored in adipose tissue for the long term. Adipose tissue is present throughout the body and serves as an energy reserve for times of low energy availability.
The form(s) in which the excess metabolic fuel is taken in can impact this storage in various ways. For example, if the excess fuel is taken in the form of carbohydrates, the body will first store this excess glucose in the liver and muscles in the form of glycogen.
However, once these storage sites are full, the excess glucose is converted to fat and stored in adipose tissue. If the excess fuel is taken in the form of dietary fat, the body can readily store this fat directly in adipose tissue without first converting it to another form.
However, it's worth noting that the types of dietary fat consumed can impact the storage and metabolism of this fuel. For example, saturated and trans fats tend to be more readily stored as fat in adipose tissue than unsaturated fats.
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Traits such as height and skin colour are controlled by than one gene. In polygenic inheritance, several genes play a role in the expression of a trait. A couple (Black male and White female) came together and had children. They carried the following alleles, male (AABB) and female (aabb). Question 11: With a Punnet square, work out the phenotypic and genotypic ratios F1 generation of this cross (Click picture icon and upload) Phenotype ratio: Click or tap here to enter text. Genotype ratio: Click or tap here to enter text. Question 12: Take two individuals from F1 generation and let them cross. Work out the phenotypic and genotypic ratios of the F2 generation by making use of a Punnet square (Click picture icon and upload)
Given A black male (AABB) and a white female (aabb) came together and had children. The question is to work out the phenotypic and genotypic ratios of F1 and F2 generations using Punnet square.
Working:
F1 generation:Given:A black male (AABB) and a white female (aabb) had children and each child carried two alleles from each parent.Hence, the gametes produced by the Black male are AB and the gametes produced by White female are ab.Using the Punnet square method, we get:F1 generationAB Ab aB abAB AABB AABb AaBB AaBbAb AABb Aabb AaBb AabbF1 generation genotypic ratio: 1:2:1:2:4 (AABB:AABb:AaBB:AaBb:aabb)F1 generation phenotypic ratio: 1:2:1 (Black:African American:White)Hence, the phenotypic ratio is 1:2:1 and the genotypic ratio is 1:2:1:2:4 (AABB:AABb:AaBB:AaBb:aabb).F2 generation:
Given: Two individuals from F1 generation (AABb) are crossed and the gametes produced are AB, Ab, aB and ab.Using the Punnet square method, we get:F2 generationA aB Ab abA AA Aa Aa aaB Aa BB Bb bbA Aa Bb AB AbF2 generation genotypic ratio: 1:2:1:2:4:2:4:2:1F2 generation phenotypic ratio: 9:3:4 (Black:African American:White)Hence, the phenotypic ratio is 9:3:4 and the genotypic ratio is 1:2:1:2:4:2:4:2:1.About GenotypicGenotypic is a term used to describe the genetic state of an individual or a group of individuals in a population. Genotype can refer to the genetic state of a locus or the entire genetic material carried by chromosomes. The genotype can be either homozygous or heterozygous.
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7. A small section of bacterial enzyme has the amino acid sequence arginine, threonine, alanine, and isoleucine. The tRNA anticodons for the amino acid sequence shown above is A. GCA UGA CGA UAC B. UCU UGG CGC UAU C. UCG UGU CGU UAG D. GCG UGC CCC UAA
The answer to the given question is option B. Bacteria are microscopic organisms that have various shapes, sizes, and physiological characteristics. Bacterial enzymes are proteins that catalyze biochemical reactions in bacteria.
The amino acid sequence of bacterial enzymes can be determined using various methods such as X-ray crystallography, nuclear magnetic resonance spectroscopy, and mass spectrometry.The tRNA anticodons for the amino acid sequence shown above is UCU UGG CGC UAU. The tRNA anticodons are complementary to the mRNA codons, and they carry the amino acids to the ribosomes during translation.Main answer in 3 lines: The tRNA anticodons for the amino acid sequence shown above is UCU UGG CGC UAU. The amino acid sequence of bacterial enzymes can be determined using various methods such as X-ray crystallography, nuclear magnetic resonance spectroscopy, and mass spectrometry. Bacterial enzymes are proteins that catalyze biochemical reactions in bacteria.
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For many medical conditions, adult stem cells are not suitable for treatment so researchers aim to use embryonic stem cells. Compare and contrast the advantages and disadvantages of both adult and embryonic stem cells in cell- based regenerative therapies. Your answer should demonstrate a detailed knowledge of both embryonic and adult stem cell sources, their isolation and characterisation. Your answer should also address the potential ethical and political issues related to stem cell research. (10 marks)
Embroynic and adult stem cells both have advantages and disadvantages in the cell-based regenerative therapies.
Below are some of the comparisons and contrasts:
Embryonic stem cells :Embryonic stem cells are derived from the inner cell mass of blastocysts that have been fertilized by in vitro fertilization (IVF) procedures or cloned by somatic cell nuclear transfer (SCNT).
Advantages: Embryonic stem cells have a high potential to differentiate into any type of cells in the human body and they can divide indefinitely, therefore, can be used to develop any type of cell to regenerate tissues for therapeutic use.
Disadvantages: One of the major disadvantages of embryonic stem cells is their potential to form tumors when transplanted in the human body. They require the administration of immunosuppressive drugs to reduce the risk of rejection. Adult stem cells are present in various organs, tissues, and blood of the human body. They can be isolated from bone marrow, blood, adipose tissue, and other organs.
Advantages: Adult stem cells are present in an already developed organ so they do not require the destruction of an embryo, hence there are no ethical issues involved in their usage. They can be obtained from the patient's own body, therefore, there are no issues of immune rejection. They also have a low risk of tumor formation when used for therapeutic purposes.
Disadvantages: Adult stem cells have limited differentiation potential. they can differentiate only into a limited number of cell types. Also, the number of adult stem cells in the human body decreases with age, which can limit their potential to be used in regenerative therapies. The ethical and political issues relating to stem cell research are complex and require a careful consideration of the interests of patients, scientists, and society as a whole.
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