Whether or whether they have live young is the defining trait between a skate and a ray that sets them apart from a shark. Both skates and rays are cartilaginous fish with similar body types, including flattened bodies and heads with fused pectoral fins.
Sharks can be oviparous, viviparous, or ovoviviparous (eggs hatch inside the body and "live" young are born), whereas skates and rays are oviparous, which means they lay eggs. Since sharks are not the only animals that can bear live offspring, skates and rays can be distinguished by their ability to do so. The use of spiracles for respiration does not make skates, rays, or sharks distinct from one another. Each of the three groups has a gill slit.They draw air out of the water. Some species of skates, rays, and sharks have spiracles, modified gill slits, whereas others have not. Therefore, skates cannot be distinguished from rays or sharks based on whether they have spiracles or not.
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Which of the following lack jaws? O Sarcopterygii O Chondrichthyes O Acanthodia Actinopterygii Petromyzontida Question 78 1.5 pts Which of the following lack jaws? O Actinopterygii O Amphibia Petromyzontida Chondrichthyes Sarcopterygii
Among the given options, Petromyzontida do not contain jaws. The correct option is option e.
Petromyzontida are basically referred to as the lampreys, which are a group which consists of jawless fish. Lampreys lack any true jaws and are basically characterized by a circular, jawless mouth with teeth like structures which are used for attaching to as well as feeding on other kinds of fish.
The other options that are listed, basically include Sarcopterygii, Chondrichthyes, Acanthodia, and Actinopterygii which are basically categorised as the jawed fishes, having mouths consisting of a true jaw.
Hence, the correct option is option e.
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Why it is very important to control contamination? Explain what will happen if the source had
been contaminated from the beginning. Find reviews about 2008 - Heparin Linked Death in
United States, which suspected from China’s unhygienic and un-aseptic procedures of
handling pig intestines and also 2012 – Fungal Menigitis Outbreak due to contaminated
steroid which came from India. Write summary about these events and give your opinion on
how biopharmaceutical product sources should be handled to avoid this from happening.
It is extremely important to control contaminated biopharmaceutical products because contamination can lead to serious consequences including health risks, product recalls, financial losses, and reputational damage for companies.
If the source of a biopharmaceutical product had been contaminated from the beginning, the resulting product could be ineffective, toxic, or harmful to the patients, and can even result in fatalities.
The 2008 - Heparin Linked Death in the United States was caused by contaminated heparin produced in China that led to more than 80 deaths and hundreds of allergic reactions in patients. It was found that the contaminant was a modified form of chondroitin sulfate, a cheaper drug that was used to mimic heparin. This was a result of China's unhygienic and un-aseptic procedures of handling pig intestines. The incident highlighted the importance of strict quality control measures and the need for monitoring the entire supply chain to ensure the safety and effectiveness of biopharmaceutical products.
The 2012 – Fungal Menigitis Outbreak was caused by contaminated steroid injections produced by a compounding pharmacy in the US that were distributed across the country, resulting in more than 750 cases and over 60 deaths. The contaminated steroids were found to contain a fungus that caused meningitis in patients. Investigations found that the contamination was a result of unhygienic and un-aseptic procedures in the compounding pharmacy. This incident underscored the need for stricter regulations and oversight of compounding pharmacies.
To avoid such incidents, biopharmaceutical product sources should be handled with utmost care and strict quality control measures should be implemented throughout the entire supply chain. Biopharmaceutical companies should ensure that their suppliers follow good manufacturing practices, and regular inspections should be conducted to ensure compliance. Moreover, proper training of employees, strict protocols for handling raw materials, and a robust quality control system should be put in place. In addition, regulatory authorities should enforce strict standards and perform rigorous inspections to ensure compliance with good manufacturing practices and quality control measures.
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Catabolic processes include which of the following? Chewing food, and breaking it into smaller pieces during digestion Using glycogen stores as a fuel source during exercise Using energy to synthesize
The correct options for catabolic processes are: Chewing food and breaking it into smaller pieces during digestion, Using glycogen stores as a fuel source during exercise, Breaking down molecules to release energy The correct options are B , C , F.
Catabolic processes include the following:
Chewing food and breaking it into smaller pieces during digestion: This is a mechanical process that breaks down larger food particles into smaller ones, increasing the surface area for chemical digestion.Using glycogen stores as a fuel source during exercise: Glycogen is a storage form of glucose in the body. During intense physical activity or exercise, glycogen stored in muscles and liver is broken down into glucose to provide energy for muscle contractions.Breaking down molecules to release energy: Catabolic processes involve the breakdown of larger molecules, such as carbohydrates, fats, and proteins, to release energy. This energy is then used by cells for various metabolic activities.Learn more about catabolic processes
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Full Question ;
Catabolic processes include which of the following?
Chewing food, and breaking it into smaller pieces during digestion
Using glycogen stores as a fuel source during exercise
Using energy to synthesize proteins to repair damaged tissues
Creating stores of glycogen from glucose monomers
Breaking down starch in the intestines
Match the best term for the following descriptions: Two versions of the same gene [A] One chromosome contributed by each parent in a diploid organism [B] A human gamete is [C] An inactivated X chromosome appears as a [D] The degree to which a phenotype is manifested [E] Blood types are an example of [F] Correct! [A] Alleles You Answered [B] Sister chromatids v Correct Answer Homolog
The correct term to match the given descriptions are:
A) Alleles
B) Homolog
C) Haploid
D) Barr body
E) Penetrance
F) Multiple alleles
Alleles are the term used for two versions of the same gene. One chromosome contributed by each parent in a diploid organism is called Homolog. Haploid is the term used for human gamete.
An inactivated X chromosome appears as a Barr body. The degree to which a phenotype is manifested is called Penetrance.Blood types are an example of Multiple alleles.
Hence, the correct terms are:
A) Alleles
B) Homolog
C) Haploid
D) Barr body
E) Penetrance
F) Multiple alleles
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1. Here is how to start. You have to show the derived characteristic for each phylum (red) on top of the branch. Next trait is cephalization and the next animal phylum is Platyhelmintes. Next complete
Derived characteristic for each phylum is listed below:- Porifera: It has a cellular level of organization with specialized cells. They have a pore-bearing body with no true tissue organization.
The animal's body is asymmetrical.- Cnidaria: The phylum Cnidaria is characterized by the presence of tentacles. They have a sac-like body shape with radial symmetry. They have two cell layers, the outer epidermis, and the inner gastrodermis. The gastrovascular cavity serves both as a digestive and a circulatory cavity.- Platyhelminthes: The body is flattened and the organs are located in the mesoderm. They have a bilateral symmetry body with no body cavity. Platyhelminthes have cephalization; they have a head region where the sensory organs are concentrated. They have a primitive nervous system consisting of a simple brain, two longitudinal nerve cords, and transverse nerves.
Porifera, Cnidaria, and Platyhelminthes are animal phyla that have different derived characteristics. Porifera is characterized by a cellular level of organization. Cnidaria is characterized by the presence of tentacles and a sac-like body shape with radial symmetry.
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Which of the following is a fluorescent agent used to stain DNA for visualization following agarose gel electrophoresis? a. GelRed O b. GFP Oc Fluorescein O d. Methylene blue
The answer is a. GelRed. GelRed is a commonly used fluorescent dye that binds to DNA and allows for its visualization after agarose gel electrophoresis.
It is commonly used as an alternative to ethidium bromide, another DNA stain, due to its safer and more environmentally friendly properties. GelRed emits red fluorescence when bound to DNA, making it easier to detect and analyze DNA fragments in the gel.
GelRed is a fluorescent nucleic acid stain commonly used in molecular biology research for visualizing DNA during agarose gel electrophoresis. Here are some additional details about GelRed:
Staining Mechanism: GelRed is a high-affinity nucleic acid stain that binds to DNA by intercalating between the base pairs. It has a high specificity for DNA and shows minimal binding to RNA or proteins.
Fluorescence Excitation and Emission: GelRed has a wide excitation range, typically spanning from UV to blue light wavelengths. It can be excited using a UV transilluminator or blue LED light source. The emitted fluorescence is in the visible range, with a peak around 590 nm.
Safety and Environmental Considerations: GelRed is considered safer to use compared to traditional DNA stains like ethidium bromide. It is non-toxic and non-mutagenic, making it more user-friendly and environmentally friendly.
Sensitivity and Detection: GelRed provides excellent sensitivity for detecting DNA bands in agarose gels. It can detect low concentrations of DNA and is suitable for both small and large DNA fragments.
Compatibility with Downstream Applications: GelRed-stained DNA is compatible with various downstream applications such as DNA sequencing, restriction enzyme digestion, PCR, and cloning. The stain does not interfere with these processes and can be easily removed from the DNA if required.
It is important to note that GelRed is just one of several DNA stains available for agarose gel electrophoresis. Researchers can choose the appropriate stain based on their specific requirements and available equipment.
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Lichen or Fungi? (20 points) Take a habit photograph of 1 suspected lichen and 1 suspected fungi. Using a magnifying lens or zoom feature of your phone, identify as many parts as you can which will help in concluding if samples are lichen or fungi. Summarize data in a table and submit via LMS. Fungi or Lichen Habit STRING Images of Distinct Parts NO 2000 Lichen or Fungi Lichen Reason/Defense Fungi
Lichens are composite organisms that are formed by a symbiotic relationship between a photosynthetic partner and a fungal partner, while fungi are a group of organisms that include yeasts, molds, and mushrooms.
Lichens are often found in environments that are unfavorable to other organisms, such as deserts, rocky areas, and Arctic tundra. Fungi are found in a wide variety of habitats, including soil, water, and decaying matter.
A magnifying lens or zoom feature of a phone can help in identifying the distinctive parts of a lichen or fungi sample. For example, lichens can have a crust-like, leafy, or shrubby appearance, while fungi can have fruiting bodies such as mushrooms or puffballs.
The table below summarizes some distinctive characteristics of lichens and fungi: Lichen Fungi
Photosynthetic partner (algae or cyanobacteria) and fungal partner
Hyphae (thread-like structures)Cell walls composed of chitin No cell walls
Cell walls composed of cellulose or chitin Reproduce by spores Reproduce by spores or budding
Can grow in harsh environments
Found in a variety of habitats, including soil and decaying matter
In conclusion, a careful examination of the distinctive parts of a sample using a magnifying lens or zoom feature of a phone can help in identifying whether it is a lichen or a fungi.
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What is NOT a complication of burns? Loss of bodily fluids Infection Decrease funftion of immune system Circulatory shock
Blood vessels in the epidermis will dilate increasing blood flow through the
Among the given options, option c- "Decrease function of the immune system" is NOT a complication of burns.
Burns are injuries that occur when the skin is damaged due to heat, chemicals, electricity, or radiation. The severity of burns is determined by the depth of the burn and the amount of skin surface area that has been burned.
Complications of burns are:
Loss of bodily fluidsInfectionCirculatory shockThe blood vessels in the epidermis will dilate increasing blood flow through the skin, which results in redness and warmth. The dermis is the layer of skin that contains most of the sweat glands, hair follicles, blood vessels, and nerve endings. The subcutaneous tissue, which is beneath the dermis, is made up of fat and connective tissue. Therefore, "Decrease function of the immune system" is NOT a complication of burns.
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After tissue damage tissue repair itself by mysterious mechanisms nothing happens, damage tissue evaporates, disappears out of the picture M2-type macrophage play a very important role in repairing th
Tissue repair is a complex process that involves various mechanisms aimed at restoring damaged tissues. One important player in tissue repair is the M2-type macrophage. These macrophages play a crucial role in the repair process, contributing to the resolution of inflammation and promoting tissue regeneration.
When tissues are damaged, a series of events is initiated to initiate the repair process. One of the key components involved in tissue repair is the activation of macrophages, which are immune cells capable of engulfing and eliminating debris and pathogens. Macrophages can be divided into different types based on their functional properties, and the M2-type macrophages are particularly involved in tissue repair.
M2-type macrophages have anti-inflammatory properties and are responsible for promoting tissue regeneration. They secrete various growth factors and cytokines that stimulate the proliferation and migration of cells involved in tissue repair. Additionally, M2-type macrophages help to remodel the extracellular matrix, which is necessary for proper tissue healing.
By their involvement in the resolution of inflammation and promotion of tissue regeneration, M2-type macrophages contribute to the overall repair process. Their presence and activity are essential for successful tissue repair and restoration of tissue function.
It is important to note that tissue repair is a complex and dynamic process involving various cell types and signaling pathways. While M2-type macrophages play a critical role, they work in conjunction with other immune cells, fibroblasts, and factors involved in tissue healing to achieve effective repair.
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The amount of DNA in a sample is measured for the purpose of
A. determining if the DNA is single source or a mixture
B. wasting sample
C. determining if the person is a shedder
D. knowing how much blood was left at the crime scene
E. optimizing the input DNA on the genetic analyzer
The amount of DNA in a sample is measured for the purpose of optimizing the input DNA on the genetic analyzer. Optimizing the input DNA on the genetic analyzer is an important part of DNA testing.
It is important that the appropriate amount of DNA is used for testing. If there is not enough DNA, then the results may be inconclusive. On the other hand, if there is too much DNA, then there may be problems with the genetic analyzer. Therefore, it is important to optimize the amount of DNA that is used in DNA testing.
The genetic analyzer can only handle a certain amount of DNA. Therefore, it is important to ensure that the appropriate amount of DNA is used in testing. This can be done by measuring the amount of DNA in a sample. Once the amount of DNA has been measured
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What are some ethical, medical, economic, and societal issues
with in vitro transcription/ translation (NOT IVF (in vitro
fertilization))? Include your references please!
In vitro transcription/ translation refers to the technology that makes it possible to synthesize proteins using cell-free methods, which can be used for a range of medical purposes. Although this technique has opened up new possibilities for medical treatments, it has raised ethical, medical, economic, and societal issues that need to be addressed.
The following are some of the issues associated with in vitro transcription/ translation:
Ethical issues: Some ethical concerns are related to the application of in vitro transcription/ translation technology to create novel proteins or engineer cells for the treatment of human diseases. Such interventions may be considered ethically questionable if they involve the creation of genetically modified organisms that may have unintended consequences.
Medical issues: In vitro transcription/ translation technology also raises medical issues. These issues include the possibility of producing toxic or allergenic proteins, which could cause harm to humans. Also, there is a risk of immunological rejection of the synthetic proteins. Additionally, the use of this technology to produce proteins for medical purposes may be expensive, which could limit access to the therapy by patients.
Economic issues: The economic impact of in vitro transcription/ translation technology is another issue to consider. The technology has the potential to generate significant economic benefits, such as creating new jobs, but it may also lead to job losses in traditional industries. Furthermore, there is a risk that the technology could lead to monopolies in the biotechnology sector.
Societal issues: In vitro transcription/ translation technology also has societal implications. These implications relate to the way the technology is developed, used, and regulated. For example, there is a need to ensure that the technology is developed in a socially responsible manner, taking into account the interests of all stakeholders. Moreover, the regulation of the technology must be carefully balanced to ensure that it does not stifle innovation or create unnecessary barriers to entry.
In conclusion, in vitro transcription/ translation technology has significant potential to revolutionize medicine and industry. However, it also raises ethical, medical, economic, and societal issues that need to be addressed. To ensure that the technology is developed and used responsibly, there is a need for careful consideration of these issues, as well as transparent and effective regulation.
References:1. Mauro, V., Shekhawat, S. S., & Kumar, P. (2018). In vitro transcription/translation system: a rapid and efficient method for protein production. In: Advances in genome science (pp. 155-171). Springer, Cham.2. Matsumoto, M., & Sakabe, N. (2019). In vitro transcription/translation systems for protein production: a current review. Bioscience, biotechnology, and biochemistry, 83(7), 1213-1222.3. Walsh, D. J., & Chang, Y. H. (2018). In vitro protein synthesis systems for functional and structural studies. Current opinion in structural biology, 51, 116-122.
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QUESTION 1
Which type of radiation uses shorter wavelengths?
ionizing
nonionizing
1 points QUESTION 2
Ionizing Radiation Damages DNA by
forming tyhmine dimers
prod
QUESTION 1: Ionizing radiation uses shorter wavelengths compared to nonionizing radiation.
Ionizing radiation includes types such as gamma rays, X-rays, and high-energy ultraviolet (UV) radiation. QUESTION 2: Ionizing radiation damages DNA by causing various types of DNA damage, including the formation of thymine dimers. Thymine dimers occur when two adjacent thymine bases in the DNA strand become covalently linked due to exposure to ionizing radiation. This damages the DNA structure and can lead to genetic mutations or cell death. Radiation refers to the emission and propagation of energy in the form of electromagnetic waves or particles. It can be categorized into two main types: ionizing radiation and non-ionizing radiation. Ionizing Radiation: Ionizing radiation has higher energy and shorter wavelengths than non-ionizing radiation. It carries enough energy to remove tightly bound electrons from atoms, leading to the formation of charged particles (ions) and causing chemical changes in matter.
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When you have determined your protein sequence, previously characterized sequences can be a source of tremendous insight into its evolutionary relatives, structure, and function. How would you perform an extensive sequence comparison?
Select one alternative:
1- Perform a database search for homologous sequences after introducing several modifications to my sequence to make a better fit
2- I would combine a strategy based on all the three other statements
3- Perform a database search for homologous sequences by using resourses like Blosum-62
4- Perform a database search for homologous sequences by using resourses like Basic Local Alignment Search Tool (BLAST)
When you have determined your protein sequence, a good way d. to perform an extensive sequence comparison is to perform a database search for homologous sequences by using resources like Basic Local Alignment Search Tool (BLAST).
The Basic Local Alignment Search Tool (BLAST) is a program used to identify related sequences in databases by comparing the nucleotide or protein sequences to sequences in a database. BLAST software was developed to determine the sequence similarity between two or more different sequences, allowing for functional and evolutionary relationships to be established.
In brief, the main aim of the database search for homologous sequences is to identify similar proteins or sequences from databases like NCBI or PDB and compare them with the target protein, then to analyze the output data and find out the evolutionary relatives, structure, and function of the target protein. And BLAST is one of the widely used tools for performing a database search for homologous sequences.
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Explain, using at least one example, how microclimates affect your ecology (i.e., the ecology of an individual human!). (3 marks)
Microclimates can affect the ecology of an individual human by influencing local temperature, precipitation, and vegetation patterns, leading to variations in available resources and potential health impacts.
Microclimates refer to small-scale variations in climate within a larger region. These variations can arise due to factors such as topography, elevation, proximity to bodies of water, and the presence of urban areas. Microclimates can have a significant impact on the ecology of an individual human, affecting their daily experiences and overall well-being.
One example of how microclimates can influence human ecology is the phenomenon of urban heat islands. In densely populated urban areas, the abundance of concrete and asphalt absorbs and retains heat, resulting in higher temperatures compared to surrounding rural areas. This creates a microclimate characterized by elevated temperatures and reduced vegetation cover. Individuals residing in such areas may experience higher heat stress, increased energy consumption for cooling, and reduced air quality due to the trapping of pollutants. These factors can have implications for human health, including heat-related illnesses, respiratory issues, and compromised overall comfort.
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Asexual reproduction passes on 100% of the parent's genes but it is relatively rare What are the advantages of sexual vs asexual reproduction? In some cases,species are hermaphrodites to reduce the difficulty in finding mates. What is the difference between simultaneous and sequential hermaphrodites?Why is"selfing"relatively rare?
Advantages of sexual and asexual reproduction:
Sexual reproduction is an essential process for organisms as it has many advantages over asexual reproduction. Some of them include producing a diverse offspring population, increasing resistance to disease, and adaptation to changing environments.
Asexual reproduction, on the other hand, passes on 100% of the parent's genes, which can be an advantage in some cases. Organisms that reproduce asexually can reproduce much faster, and there is no need to find a mate. Furthermore, asexual reproduction is less complex than sexual reproduction. However, asexual reproduction has a significant disadvantage that it produces offspring that are genetically identical to the parent. Therefore, these offspring have the same weaknesses and strengths as the parent organism, which means they are vulnerable to the same diseases and environmental factors.
Hermaphrodites: Hermaphrodites are organisms that possess both male and female reproductive organs. Hermaphroditism is a reproductive strategy that can increase an organism's chances of finding a mate and reproducing.
Simultaneous hermaphrodites: Simultaneous hermaphrodites are organisms that possess both male and female reproductive organs at the same time.
Sequential hermaphrodites: Sequential hermaphrodites, on the other hand, are organisms that change sex over time.
Selfing: Selfing is a process where hermaphrodites can fertilize their own eggs using their own sperm. Selfing is relatively rare because it can lead to a lack of genetic diversity in the offspring population. Lack of genetic diversity makes the offspring vulnerable to environmental factors and diseases, which can limit their ability to adapt and survive in changing environments.
Therefore, the majority of hermaphrodites avoid selfing to ensure genetic diversity and produce healthy offspring.
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Describe the concepts of innate and acquired resistance for bacteria AND give examples of each type of resistance. What are some of the beta-lactam antibiotics that CAN work despite beta-lactamases being present?
Bacteria has two major types of resistance: innate and acquired. Innate resistance is due to the bacterial species’ natural properties, while acquired resistance is obtained by acquiring genes from other bacteria.
Let's take a closer look at both: Innate Resistance: Innate resistance is a natural property of bacterial species. It depends on the bacterial cell structure, which may include an impenetrable lipid membrane or the capacity to prevent drug accumulation inside the cell.
Penicillin, for example, is only effective against gram-positive bacteria because it is unable to penetrate the thick layer of peptidoglycan in gram-negative bacteria.
Acquired Resistance: Acquired resistance happens when a bacterium obtains genes that can counteract antibiotics. Horizontal gene transfer can pass these resistance genes between bacterial species, allowing bacteria to become resistant to antibiotics they have never encountered before.
Beta-lactam antibiotics that can work despite beta-lactamases being present are Ampicillin, Oxacillin, and Methicillin. An example of each type of resistance is given below:
Innate resistance- Klebsiella pneumoniae is naturally resistant to many antibiotics because of its impermeable cell wall and efflux pumps.
Acquired resistance- Methicillin-resistant Staphylococcus aureus (MRSA) is an example of acquired resistance because it has acquired a gene that alters the target site of methicillin, making it ineffective.
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Prompts Submitted Answers Choose a match A encodes a mutant RNA that is able to respond to a termination codon and insert an amino acid at that site Gr Choose a match А encodes a tRNA that has been mutated to recognize a different codon. By inserting a different amino acid at a mutant codon the tRNA suppresses the effect of the original mutation Choose a match ERNA synthetases use to correct insertion of an incorrect amino acid after the addition reaction has been completed Chemical proofreading A mechanism that depends on incorrect events proceeding more slowly than correct events so that incorrect events are reversed before a subunit is added to a polymeric chain The reduced specificity at the wobble position of a codon A decreases the effects of a mutation at this position. B increases the effects of a mutation at this position. has no impact on a mutation's effect at this position.
A decreases the effects of a mutation at the position.
The correct matches are: Encodes a mutant RNA that is able to respond to a termination codon and insert an amino acid at that site: A mechanism that depends on incorrect events proceeding slowly than correct events so that incorrect events are reversed before a subunit is added to a polymeric chain. Encodes a tRNA that has been mutated to recognize a different codon.
By inserting a different amino acid at a mutant codon the tRNA suppresses the effect of the original mutation: Chemical proofreading. ERNA synthetases use to correct insertion of an incorrect amino acid after the addition reaction has been allready completed: decreases the effects of a mutation at this position. Reduced specificity at the wobble position of a codon decreases the effects of a mutation at this position.
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pleas define three fundamental rules of replication. 31. what is the defference between Fischer mechanism and kosland mechanism ?
Three fundamental rules of replication are mentioned below: 1. Replication should be semi-conservative: This rule states that the DNA strand should replicate such that the newly formed DNA strands contain one original strand and one new strand. It was proven by Matthew Meselson and Franklin Stahl in 1958.2. Replication should be bidirectional: It means that the replication of DNA should happen in both directions from the origin.
This is possible due to the opening of a replication bubble that allows DNA polymerases to synthesize in both directions simultaneously. 3. Replication should be accurate: It implies that the replication should happen with a minimum number of errors. DNA polymerases have a proofreading function to ensure the accurate replication of the genome.Now let's look at the differences between the Fischer and Kosland mechanisms:Fischer Mechanism: It is a process of glycoside hydrolysis.
The carbohydrate is broken down into simple sugar by the hydrolysis of the glycoside bond present in the molecule. Kosland Mechanism: It is a process of epimerization. In this mechanism, the stereochemistry of an asymmetric carbon atom is reversed resulting in the production of an isomer.In summary, the Fischer mechanism is involved in the hydrolysis of glycosidic bonds, while the Kosland mechanism is responsible for epimerization.
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please l need help asap thank you god bless u
A patient at a memory care unit has difficulty with short-term memory. When the PTA attempts to do therapy with the patient, he often states that he does not want to.
1. What strategies can the PTA use to encourage the patient to participate in therapy?
2. What types of nonverbal communication skills will work best with a patient with dementia?
The outpatient clinic’s policy is to charge $20 to patients who do not show up for their appointments. The patient is upset by this policy and is refusing to pay. She is insisting on continuing with her PT treatments.
1. What verbal and nonverbal skills should be employed with this patient?
2. What elements of the therapeutic relationship will help to diffuse this situation?
3. What are the possible outcomes of this scenario?
1. Strategies to encourage participation: Provide clear instructions, use positive reinforcement, break tasks into manageable steps, incorporate familiar activities, and create a supportive environment.
2. Effective nonverbal communication skills: Maintain eye contact, use gentle touch, display facial expressions that convey empathy and understanding, and use a calm and reassuring tone of voice.
When a patient with memory difficulties refuses therapy, the PTA can employ various strategies to encourage participation.
Firstly, it's important to provide clear instructions and explain the purpose and benefits of therapy in simple terms. Using positive reinforcement, such as praising the patient's efforts and progress, can motivate them to engage. Breaking tasks into smaller, achievable steps helps prevent overwhelming the patient and increases their likelihood of participation.
Incorporating familiar activities that the patient enjoys or has experience with can also enhance their willingness to participate. Additionally, creating a supportive and comfortable environment, free from distractions, can foster a sense of trust and cooperation. Nonverbal communication plays a crucial role in effectively interacting with a patient with dementia.
Maintaining eye contact when speaking to the patient helps establish a connection and shows attentiveness. Gentle touch, such as holding their hand or providing a comforting pat on the back, can convey warmth and reassurance. Displaying facial expressions that reflect empathy, understanding, and patience can help the patient feel supported and understood.
Using a calm and soothing tone of voice, speaking slowly and clearly, and using simple language can aid comprehension and make the patient feel more at ease. When dealing with a patient who refuses to pay for missed appointments, it is important to employ both verbal and nonverbal skills. Verbal skills should include active listening, empathetic responses, and clear communication about the clinic's policies and the patient's financial responsibilities.
It is crucial to listen attentively to the patient's concerns and validate their emotions to establish rapport and build trust. While explaining the clinic's policy, using a calm and respectful tone can help defuse tension and prevent further escalation. The therapeutic relationship can play a key role in diffusing the situation. Building a strong therapeutic alliance based on trust, empathy, and mutual respect can help address the patient's concerns and find a resolution.
Being patient-centered and acknowledging the patient's autonomy and preferences can promote a sense of collaboration and shared decision-making. Taking the time to understand the patient's perspective and finding common ground can facilitate a positive resolution to the conflict.
Possible outcomes of this scenario can vary. If effective communication strategies are employed and a mutual understanding is reached, the patient may choose to comply with the clinic's policy and continue with their PT treatments. Alternatively, if the patient remains adamant about not paying, further discussions or negotiations may be needed, involving clinic administrators or supervisors.
In some cases, compromises or alternative solutions, such as a payment plan or financial assistance options, could be explored. It's important to approach the situation with patience, respect, and a willingness to find a solution that meets the needs of both the patient and the clinic.
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1) Which is not a part of a stereotypical prokaryote operon ? a) Operator b) Promotor c) Structural Genes d) Repressor 2) If expression of a gene continuous regardless of the environment a cell is experiencing, we would describe this as : a) Inducible expression. b) Constitutive expression. c) Repressible expression. d) Positive repressible expression.
1) Repressor is not a part of a stereotypical prokaryote operon. So, option D is accurate.
2) If expression of a gene continuous regardless of the environment a cell is experiencing, we would describe this as Constitutive expression. So, option B is accurate.
1) In a stereotypical prokaryote operon, the operator, promotor, and structural genes are essential components. The operator is a DNA sequence that acts as a binding site for a repressor protein. The promotor is a DNA sequence that initiates transcription of the structural genes. The structural genes contain the coding sequences for proteins or functional RNA molecules. However, a repressor is not a part of the operon itself. It is a regulatory protein that can bind to the operator and inhibit gene expression by blocking RNA polymerase's access to the promotor.
2) Constitutive expression refers to the continuous expression of a gene regardless of the environmental conditions a cell is experiencing. In such cases, the gene is transcribed and translated at a constant, baseline level without regulation or control. The gene is constitutively active and produces its corresponding protein or RNA molecule constantly. This type of expression is in contrast to inducible expression, which is upregulated in response to specific environmental cues, and repressible expression, which can be downregulated under certain conditions. Positive repressible expression is not a commonly used term and does not describe a specific gene expression pattern.
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Question 45 Isotopes have the same number of [a], but a different number of [b]. % Specified Answer for a proton Specified Answer for: b electron Question 46 In what two ways are components of the endomembrane system linked? (One word answer each.) (way) [way2] X Specified Answer for way1 [None Given) Specified Answer for:way2 [None Given)
Isotopes have the same number of a) protons but a different number of b) neutrons. Two ways in which components of the endomembrane system are linked are: Directly or via transport vesicles.
Isotopes are atoms of an element that have the same number of protons, but a different number of neutrons. Neutrons are important because they are what give the atomic nucleus its mass. Because isotopes have different numbers of neutrons, they have different atomic masses.
2. Two ways in which components of the endomembrane system are linked are: Directly or via transport vesicles. The endomembrane system consists of organelles like the nuclear envelope, endoplasmic reticulum, Golgi apparatus, lysosomes, vacuoles, and plasma membrane. These organelles are structurally and functionally linked, and they help in the movement of materials within the cell.
The components of the endomembrane system are linked in two ways:
directly: Components are linked through continuous physical connection
via transport vesicles: A transport vesicle is a small sac that moves molecules between the organelles of the endomembrane system.
Molecules are moved in vesicles, which are small, spherical sacs with a lipid bilayer. Vesicles move materials between the organelles of the endomembrane system, and they also help in the movement of materials between the cell and the extracellular environment.
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• Sort the cells below into the categories based on the order in which they become involved in the immune response • Some cells may not be involved in the immune response & will not be sorted into
In the immune response, there are different cells that are involved, and they function in specific orders. Here are the cells that become involved in the immune response sorted according to the order in which they become involved:
T-cells: These cells are involved in the early stages of the immune response. They detect antigens, which are protein molecules on the surface of foreign substances such as viruses or bacteria, and present them to other immune cells. This helps to activate other immune cells and initiate the immune response.
B-cells: These cells are activated by T-cells and produce antibodies in response to antigens. Antibodies are proteins that bind to antigens and mark them for destruction by other immune cells, such as phagocytes and natural killer cells. B-cells also produce memory cells, which provide long-term immunity to specific pathogens.
Phagocytes: These cells are involved in the later stages of the immune response. They engulf and destroy foreign substances and dead or damaged cells. There are two main types of phagocytes: macrophages, which are large cells that reside in tissues, and neutrophils, which are small cells that circulate in the bloodstream.
They detect and destroy infected cells and tumor cells by releasing chemicals that cause them to undergo programmed cell death (apoptosis). These cells are part of the innate immune system, which provides immediate defense against a wide range of pathogens.
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Activity: Indicate whether each statement about long-time physical effort is: true of false. T. F Regular exercise is much more profitable for the body than occasional exercise. Cardiac output is lower in peopie who exerose reguarly than in people who exercise occasionally Cells of trained people are able to consumn fes: oxygen than celle of untrained ndividuats. Museces of bpoitrmen can use aeroble rajations aluia tonger that in the rasel of untrained paple. The.condition achieved by requar plyzirs activity
Regular exercise is much more profitable for the body than occasional exercise. (True)
Cardiac output is lower in people who exercise regularly than in people who exercise occasionally. (False)
Cells of trained people are able to consume less oxygen than cells of untrained individuals. (False)
Muscles of trained people can use aerobic respiration longer than those of untrained people. (True)
Cardiac output refers to the amount of blood pumped by the heart per unit of time, usually measured in liters per minute. During exercise, cardiac output typically increases as the demand for oxygen and nutrients in the body's tissues increases. Regular exercise can lead to improvements in cardiovascular fitness and efficiency, resulting in a more effective cardiac output at rest and during physical activity.
Aerobic respiration is a highly efficient process that produces a total of 36-38 molecules of ATP per molecule of glucose. It is the main energy source for many organisms, including humans, and allows for sustained physical activity by efficiently utilizing oxygen to generate ATP.
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Step 1: Targeting
First, the Cas9-RNA complex recognizes and binds to a three-nucleotide sequence called PAM, which stands for "proto-spacer adjacent motif." PAM sequences are abundant throughout the genome and can occur on either strand of DNA. Every PAM sequence has the form 5'-NGG-3', where the "N" can be any DNA nucleotide (A, C, G, or T).
The partial gene (DNA) sequence below contains multiple PAM sequences. Identify the PAM sequences in the top (5’ to 3’) strand.
5'-GCACGGCGGAGCGGTTCTTGGCAGCGGCCGCACGATCTCGTTGCCGCCGG-3'
3'-CGTGCCGCCTCGCCAAGAACCGTCGCCGGCGTGCTAGAGCAACGGCGGCC-5'
Once Cas9 binds to a PAM sequence, it unwinds the DNA. If the guide RNA matches the DNA sequence next to the PAM, the guide RNA will bind to the complementary DNA strand. If not, the DNA will zip back together and Cas9 will keep binding to other PAM sequences until it finds the matching target DNA.
Below is a partial sequence of a guide RNA. The underlined section of the RNA is designed to match a specific target DNA sequence.
5'-GGCGGAGCGGUUCUUGGCAGGUUUUAGAGCUAGAAAUAGC-3'
Review the partial gene sequence reshown below. It contains a target DNA sequence that matches the guide RNA above. Highlight the one PAM sequence in the top (5’ to 3’) strand that is next to this target DNA sequence. (The sequence upstream, toward the 5’ end, of this PAM should match the underlined sequence in the guide RNA, which makes the opposite DNA strand complementary to the underlined sequence. Remember that U’s in RNA are equivalent to T’s in DNA.)
5'-GCACGGCGGAGCGGTTCTTGGCAGCGGCCGCACGATCTCGTTGCCGCCGG-3'
3'-CGTGCCGCCTCGCCAAGAACCGTCGCCGGCGTGCTAGAGCAACGGCGGCC-5'
Step 2: Binding
Once Cas9 binds to the correct PAM, the guide RNA binds to the complement of the target DNA sequence.
Write down the guide RNA sequence that binds to the DNA, and the DNA sequence that it binds to (the complement of the target DNA). Label the 5' and 3' ends for both the RNA and DNA strands.
RESPONSE (Hint: copy and paste from the sequences above and modify as necessary):
Step 3: Cleaving
Once the guide RNA binds to the complement of the target DNA sequence, it activates the nuclease activity (DNA-cutting ability) of the Cas9 enzyme. Cutting DNA is also called "cleaving." Cas9 always cleaves both strands of DNA. It cleaves both the target DNA and its complement three nucleotides upstream (toward the 5’ end) of the PAM sequence.
Rewrite the target DNA sequence and its complement below, indicating where Cas9 would cut both strands of DNA with a large space or vertical line ( | ).
RESPONSE:
Step 4: DNA Repair
After Cas9 cleaves the DNA, cellular enzymes will attempt to repair the break. Most of the time, these enzymes repair the DNA without errors. However, Cas9 will keep cutting the DNA at the same location until an error is made.
Question: DNA repair errors include losing or inserting random nucleotides at the cut site. Using a specific example, explain how these changes might inactivate a gene.
DNA repair errors include losing or inserting random nucleotides at the cut site. The frameshift mutation is the name given to this type of mutation. A deletion or addition of a nucleotide may cause a frameshift mutation.
A shift occurs in the nucleotide triplet reading frame, which causes a completely different sequence of amino acids to be formed. When a gene's reading frame is thrown off, the protein it encodes may be disrupted or truncated, resulting in a loss of gene function.
This is because the ribosomes will read the nucleotides in groups of three, which is called codons. These codons code for amino acids, which are put together to form proteins. If a nucleotide is deleted or inserted, the codons may shift, causing the amino acid sequence to be incorrect. As a result, the protein may not fold into its correct structure or may not have the correct function, leading to a loss of gene function. The result of these DNA repair errors is gene inactivation.
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A 31-month-old girl was admitted to the hospital because of fever, headache. drowsiness, and vomiting. She had been well until 12 hours before admission, when she developed a runny nose, fever, and loss of appetite. The child's birth and development were normal, but her routine immunizations had been neglected. On examination, her temperature was 40∘C(104∘F). her neck was stiff, and she did not respond to verbal commands. There was no history of head trauma. The child's white blood cell count was elevated and showed a marked increase in the percentage of neutrophils. Her blood sugar was in the normal range. A spinal tap revealed eloudy CSF containing 18,000 white blood cells per microliter (normally, there are few or none), a markedly elevated protein level, and a markedly low glucose level. Gram stain of the fluid showed tiny. Gram-negative coccubacilli. What was the diagnesis, and what was the causative agent? a. Listeriosis. caused by Listena monocytogenies: b. Meningitis, caused by Haentephitus meningitidis sefotype b. c. Meningltis: caused by Neisserta mentingitidis palle, caused by believirus: Enceshalitis, d. Eaused by Neissefia meningitidis.
The diagnosis, in this case, is meningitis, and it is caused by Neisseria meningitidis.
The clinical presentation of fever, headache, drowsiness, vomiting, and a stiff neck, along with the findings of elevated white blood cell count and marked abnormalities in the cerebrospinal fluid (CSF), indicate a diagnosis of meningitis. Meningitis is an inflammation of the protective membranes covering the brain and spinal cord.
The causative agent, in this case, is identified as Neisseria meningitides, a Gram-negative coccobacillus bacterium. Neisseria meningitidis is a leading cause of bacterial meningitis, particularly in infants and young children. It is transmitted through respiratory droplets and can lead to severe illness characterized by rapid onset and potentially fatal complications if not promptly treated.
The cloudy appearance of the CSF, along with the elevated white blood cell count and abnormal protein and glucose levels, further support the diagnosis of bacterial meningitis. Gram staining of the CSF revealed the presence of tiny, Gram-negative coccobacilli, which is consistent with Neisseria meningitidis.
Prompt medical intervention, including antibiotic treatment and supportive care, is crucial in cases of bacterial meningitis to prevent complications and reduce the risk of long-term neurological damage or mortality.
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>M12-LCMT-F_D02.ab1AGGGGTCCCTTGACCAC-------- >M13-LCMT-F_E02.ab1AGGGGTCCCTTGACCAC. >M14-LCMT-F_Fe2.ab1AGGAGTCCCTTGACCAC >M15-LCMT-F_Ge2.ab1AGGGGTCCCTTGACCAC- >M12-LCMT-F De2.ab1---- >M16-LCMT F_H02.ab1AGGGGTCCCTTGACCACNNCCNTTC >M13-LCMT-F_E02.ab1-. >M14-LCMT-F_F02.ab1--- >M15-LCMT-F_G02.ab1
>M16-LCMT-F_H02.ab1CTCA T T 1 EE -400 425 >M12-LCMT-F_D02.ab1AGGGGTCCCTTGACCAC-------- >M13-LCMT-F_E02.ab1AGGGGTCCCTTGACCAC. >M14-LCMT-F_Fe2.ab1AGGAGTCCCTTGACCAC >M15-LCMT-F_Ge2.ab1AGGGGTCCCTTGACCAC- >M12-LCMT-F De2.ab1---- >M16-LCMT F_H02.ab1AGGGGTCCCTTGACCACNNCCNTTC >M13-LCMT-F_E02.ab1-.
>M14-LCMT-F_F02.ab1--- >M15-LCMT-F_G02.ab1 >M16-LCMT-F_H02.ab1CTCA T T 1 EE -400 425 >M12-LCMT-F_D02.ab1AGGGGTCCCTTGACCAC-------- >M13-LCMT-F_E02.ab1AGGGGTCCCTTGACCAC. >M14-LCMT-F_Fe2.ab1AGGAGTCCCTTGACCAC >M15-LCMT-F_Ge2.ab1AGGGGTCCCTTGACCAC- >M12-LCMT-F De2.ab1---- >M16-LCMT-F_H02.ab1AGGGGTCCCTTGACCACNNCCNTTC >M13-LCMT-F_E02.ab1-.
>M14-LCMT-F_F02.ab1--- >M15-LCMT-F_G02.ab1 >M16-LCMT-F_H02.ab1CTCA T T 1 EE -400 425 >M12-LCMT-F_D02.ab1AGGGGTCCCTTGACCAC-------- >M13-LCMT-F_E02.ab1AGGGGTCCCTTGACCAC. >M14-LCMT-F_Fe2.ab1AGGAGTCCCTTGACCAC >M15-LCMT-F_Ge2.ab1AGGGGTCCCTTGACCAC- >M12-LCMT-F De2.ab1----
>M16-LCMT-F_H02.ab1AGGGGTCCCTTGACCACNNCCNTTC >M13-LCMT-F_E02.ab1-.
>M14-LCMT-F_F02.ab1---
>M15-LCMT-F_G02.ab1 >M16-LCMT-F_H02.ab1CTCA T T 1 EE -400 425
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please write down the differences between the five DNA sequences in each of these images. Explain, compare and contrast. Explain polymorphism, insertion, deletion, addition between these sequences and also explain the yellow parts in the images. Write about each image in a separate paragraph
The five DNA sequences provided show variations in terms of polymorphism, insertions, deletions, and additions. The yellow parts in the images represent the regions where these variations occur.
In the given DNA sequences, each represented by an image, there are differences observed in terms of polymorphism, insertions, deletions, and additions. These variations can be identified by comparing the sequences.
Polymorphism refers to the occurrence of multiple forms or variations of a particular DNA sequence in a population. In the provided sequences, there may be differences in nucleotide bases at specific positions, resulting in polymorphic sites. By comparing the sequences, one can identify the positions where nucleotide differences occur.
Insertions, deletions, and additions are types of genetic mutations that involve changes in the DNA sequence length. Insertions occur when one or more nucleotides are added to the sequence, while deletions involve the removal of one or more nucleotides. Additions, on the other hand, may refer to the presence of additional sequences or segments in the DNA.
The yellow parts in the images represent the regions where these variations occur. They highlight the specific locations where polymorphisms, insertions, deletions, or additions are present in each DNA sequence.
By carefully comparing and contrasting the DNA sequences, one can analyze the differences and similarities between them, identifying the specific variations that contribute to the observed distinctions in the sequences.
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match the following for the
descriptions provided
Inducer III Catabolite activator protein interacts with CAMP to upregulate gene expression by binding to DNA and stretching it open. III Repressor An assortment of three linked genes controlled by a s
The correct matches for the provided descriptions are as follows: Inducer III: An assortment of three linked genes controlled by a single operator. Catabolite activator protein interacts with CAMP to upregulate gene expression by binding to DNA and stretching it open.
The correct matches for the provided descriptions are as follows: Inducer III: An assortment of three linked genes controlled by a single operator. Catabolite activator protein interacts with CAMP to upregulate gene expression by binding to DNA and stretching it open. III Repressor: Binds to the operator and prevents RNA polymerase from transcribing the genes that follow it. Here, it's essential to understand the different protein interactions, genes, and the effects they have on the gene expression.
In genetics, gene expression is the process in which genes provide a genetic code for the synthesis of functional gene products such as proteins, which is a key building block of life. Proteins are the basic unit of cell function, and genes are the sections of DNA that provide instructions to build proteins, among other things. Catabolite activator protein (CAP) is a protein that interacts with the cyclic AMP (CAMP) in gene regulation and DNA stretching to allow RNA polymerase to initiate transcription. In contrast, the repressor protein prevents transcription. Hence, understanding gene expression mechanisms is crucial to understanding how the proteins interact with the genes to influence the phenotype.
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Which immune cell is responsible for clearing HBV infections
T hyper lymphocyte
Neutrophil
Cytotoxic lymphocyte
Macrophage
B lymphocyte
HIV primarily infects:
All B and T lymphocytes
B lymphocytes
T cytotoxic lymphocytes
Liver cells
T helper lymphocytes
Which cells are the usual site of replication of HIV?
T hyper lymphocytes
Hepatocytes
Vascular endothelium
Respiratory epithelium
The effective treatment of tuberculosis requires:
A short course of multiple anti-mycobacterial antibiotics
A long course of single antibiotic selected after sensitivity testing
A lifelong course of multiple anti-mycobacterial antibiotics
A short course of a single antibiotic selected after sensitivity testing
A long course of multiple anti-mycobacterial antibiotics
What proportion of the total global human population are estimated to be infected with Mycobacterium tuberculosis
<1%
11-20%
1-10%
>20%
When caring for a client with hepatitis B, the nurse should monitor closely for the development of which finding associated with a worsening decrease in hepatic function?
Fatigue during ambulation
Jaundice
Pruritus of the arms and legs
Irritability and drowsiness
What is the approximate risk of transmission of HIV infection from a man with untreated from a man with untreated HIV infection, to a women, during vaginal intercourse without a condom?
6-10%
1-5%
<1%
>10%
HBV is cleared from the blood by Cytotoxic lymphocyte. This is an important feature for the body's immune system, and this immune cell is responsible for clearing HBV infections. Most of the B lymphocytes in HIV are affected, and HIV primarily infects T helper lymphocytes which plays an important role in the immune system by stimulating the activity of other immune cells.
The primary sites of replication of HIV are the T lymphocytes. HIV is primarily transmitted through unprotected sexual contact or intravenous drug use, in which HIV-infected blood or bodily fluids are shared. In the effective treatment of tuberculosis, a long course of multiple anti-mycobacterial antibiotics is required, which means that a patient with tuberculosis needs to take antibiotics for a period of time that can range from six months to one year and even more depending on the severity of the illness.
Globally, about one-third of the total human population is estimated to be infected with Mycobacterium tuberculosis. Jaundice is the finding associated with a worsening decrease in hepatic function that the nurse should monitor closely for in clients with hepatitis B. The approximate risk of transmission of HIV infection from a man with untreated HIV infection to a woman during vaginal intercourse without a condom is 6-10%.
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3 Under what conditions does a typical plant undergo photosynthesis and when does cellular respiration take place? Can these processes occur simultaneously? Explain. 4. Predict what will happen to oxygen and carbon dioxide concentrations in light and dark conditions in a closed container with a plant. Explain why: Light: Dark: 5. Draw a model in this space to explain your predictions for the previous question. Focus your model on what is happening at the cellular level.
Photosynthesis is a process that occurs in a typical plant when it has access to sunlight, water, and carbon dioxide. The primary conditions for photosynthesis are water, sunlight, and carbon dioxide. It produces glucose and oxygen as end products.
In contrast, cellular respiration occurs in the absence of sunlight, meaning in the dark. Glucose is used to break down oxygen to produce energy. These two processes cannot occur simultaneously in a typical plant. The leaves of a plant undergo photosynthesis during the day and switch to cellular respiration at night. This is because photosynthesis requires sunlight, and there is no sunlight at night. Cellular respiration requires the plant to use the products created from photosynthesis, namely oxygen and glucose, to produce energy.
The oxygen concentrations in light conditions in a closed container with a plant will increase because it is released by the plant during photosynthesis. Carbon dioxide, on the other hand, will decrease due to the plant's uptake for photosynthesis. In dark conditions, the oxygen concentration in a closed container with a plant will decrease because the plant will consume oxygen to produce energy through cellular respiration. Carbon dioxide will increase because cellular respiration releases carbon dioxide as a byproduct.
Thus, these concentrations will vary depending on the light conditions. The model of a plant cell: 150px In light conditions, the plant undergoes photosynthesis, which converts carbon dioxide, water, and light energy into glucose and oxygen. Oxygen is then released back into the environment. In dark conditions, the plant undergoes cellular respiration. The mitochondria of the plant cells use oxygen and glucose to produce energy in the form of ATP. Carbon dioxide is released back into the environment as a byproduct.
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What functional assays did Kazutoshi Takahasi and Shinya Yamanaka use to show that induced pluripotent stem (IPS) cells function similarly to embryonic stem (ES) cells? Name 2. Question 6. Cancer is a genetic disease in that it can be traced to alterations within specific genes, but, in most cases, it is not an inherited disease. Why is that the case? Question 7. Under the same cell culture conditions that lead cultured normal cells to reduce their growth rates, what happens to malignant cells? Question 8. What current method for cancer treatment attempts to involve the body's immune system to fight cancer?
5. The functional assays used by Kazutoshi Takahashi and Shinya Yamanaka to demonstrate that induced pluripotent stem (IPS) cells function similarly to embryonic stem (ES) cells are:
Alkaline phosphatase activity: alkaline phosphatase activity was tested to determine the capability of the pluripotent cells. ES cells are known to show significant alkaline phosphatase activity.
Teratoma formation: Teratomas are tumors that arise from pluripotent cells and contain derivatives of all three embryonic germ layers.
6. Most cases of cancer are not inherited because most cancers are caused by acquired mutations in genes rather than mutations that are inherited. Gene mutations can be caused by a variety of factors, including environmental factors such as exposure to radiation or harmful chemicals.
7. Unlike normal cells, malignant cells continue to grow and divide even under the same cell culture conditions that cause cultured normal cells to reduce their growth rates. Malignant cells, on the other hand, continue to proliferate.
8. The current method for treating cancer that tries to engage the body's immune system to fight cancer is immunotherapy. It involves the use of drugs that help the immune system recognize and destroy cancer cells.
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