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  • Question 1 - What is the final product of glycolysis besides ATP? ...

    Correct

    • What is the final product of glycolysis besides ATP?

      Your Answer: Pyruvate

      Explanation:

      Glycolysis: The Energy-Producing Reaction

      Glycolysis is a crucial energy-producing reaction that converts glucose into pyruvate while releasing energy to create ATP and NADH+. It is one of the three major carbohydrate reactions, along with the citric acid cycle and the electron transport chain. The reaction involves ten enzymatic steps that provide entry points to glycolysis, allowing for a variety of starting points. The most common starting point is glucose or glycogen, which produces glucose-6-phosphate.

      Glycolysis occurs in two phases: the preparatory (or investment) phase and the pay-off phase. In the preparatory phase, ATP is consumed to start the reaction, while in the pay-off phase, ATP is produced. Glycolysis can be either aerobic or anaerobic, but it does not require nor consume oxygen.

      Although other molecules are involved in glycolysis at some stage, none of them form its end product. Lactic acid is associated with anaerobic glycolysis. glycolysis is essential for how the body produces energy from carbohydrates.

    • This question is part of the following fields:

      • Basic Sciences
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      Seconds
  • Question 2 - Over the last five years, the total number of patients admitted and deaths...

    Incorrect

    • Over the last five years, the total number of patients admitted and deaths in the East and North Hertfordshire NHS Trust have been recorded. In the year 2010/2011, there were 95,071 patients admitted and 1,912 deaths. What is the crude mortality ratio for this group in that year (per 100 admissions)?

      Your Answer:

      Correct Answer: 2

      Explanation:

      In this scenario, the crude mortality ratio is established by comparing the number of deaths occurring within the hospital in a given year to the total number of admissions, disregarding age or gender-specific mortality rates. For instance, with 1,912 deaths out of 95,071 admissions, the ratio computes to 0.02, or 2.0% when calculated per 100 admissions (1,912/95,071 = 0.02/100= 2.0%. When recalculated per 1,000 admissions, the crude admission rate would be 20 per 1,000.

    • This question is part of the following fields:

      • Basic Sciences
      0
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  • Question 3 - What are the typical clinical manifestations of a deficiency in vitamin B6 (pyridoxine)?...

    Incorrect

    • What are the typical clinical manifestations of a deficiency in vitamin B6 (pyridoxine)?

      Your Answer:

      Correct Answer: Sensory neuropathy

      Explanation:

      The Importance of Pyridoxine in the Body

      Pyridoxine is a group of B-vitamins that are crucial in various bodily functions. They act as essential cofactors in many reactions, particularly in the metabolism of amino acids and neurotransmitters. Pyridoxine also plays a role in regulating gene transcription and controlling steroid hormones.

      The body can produce pyridoxine through bacterial flora in the gut, and it is also present in many dietary sources. However, overheating certain foods can destroy pyridoxine, and some medications can alter its metabolism. Pyridoxine is also used therapeutically to prevent neuropathy in the treatment of tuberculosis.

      Deficiency in pyridoxine can lead to sensory neuropathy, skin changes, and damage to mucous membranes. On the other hand, deficiency in vitamin C can cause gingivitis and increased bleeding, while vitamin K deficiency can also lead to bleeding. Sleep disturbance is rarely attributed to vitamin B3 (niacin) deficiency.

      In summary, pyridoxine is a vital nutrient that plays a crucial role in various bodily functions. Its deficiency can lead to various health problems, highlighting the importance of maintaining adequate levels of this vitamin in the body.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 4 - During which stage of the cell cycle does the replication of DNA occur?...

    Incorrect

    • During which stage of the cell cycle does the replication of DNA occur?

      Your Answer:

      Correct Answer: S phase

      Explanation:

      The Five Phases of the Cell Cycle

      The cell cycle is a complex process that is divided into five main phases, each with its unique cellular events. The first phase is the G0 phase, which is a resting phase where the cell has stopped dividing and is out of the cell cycle. The second phase is the G1 phase, also known as interphase Gap 1, where cells increase in size, and a checkpoint control mechanism prepares the cell for DNA synthesis.

      The third phase is the S phase, where DNA replication occurs. The fourth phase is the G2 phase, also known as Gap 2, which is a gap between DNA synthesis and the onset of mitosis. During this phase, the cell continues to grow until it is ready to enter mitosis. Finally, the fifth phase is the M phase, also known as mitosis, where cell growth stops, and the cell focuses its energy to divide into two daughter cells.

      A checkpoint in the middle of mitosis, known as the metaphase checkpoint, ensures that the cell is prepared to complete division. the five phases of the cell cycle is crucial in how cells divide and grow.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 5 - A 70-year-old male smoker complains of calf pain.

    The GP performs a clinical...

    Incorrect

    • A 70-year-old male smoker complains of calf pain.

      The GP performs a clinical test by raising the patient's legs and observing for the angle at which there is blanching. After one minute, the legs are lowered over the side of the couch so that they are fully dependent with feet on the floor. Reactive hyperaemia is observed.

      Which clinical test does this describe?

      Your Answer:

      Correct Answer: Buerger's test

      Explanation:

      Tests for Assessing Arterial and Venous Circulation, Hip Dysfunction, and Meniscal Tear

      Buerger’s test is a method used to evaluate the arterial circulation of the lower limb. The test involves observing the angle at which blanching occurs, with a lower angle indicating a higher likelihood of arterial insufficiency. Additionally, the degree of reactive hyperaemia on dependency of the limb after one minute is another positive sign of arterial insufficiency during the test.

      Another test used to assess circulation is the Ankle-Brachial Pressure Index (ABPI), which involves using blood pressure cuffs to determine the degree of claudication. McMurray’s test, on the other hand, is used to evaluate for a meniscal tear within the knee joint.

      Perthe’s test is a method used to assess the patency of the deep femoral vein prior to varicose vein surgery. Lastly, Trendelenburg’s test is used to evaluate hip dysfunction. These tests are important in diagnosing and treating various conditions related to circulation and joint function.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 6 - Of which cellular structure is the fibrillar centre a component? ...

    Incorrect

    • Of which cellular structure is the fibrillar centre a component?

      Your Answer:

      Correct Answer: The nucleolus

      Explanation:

      The Fibrillar Centre in the Nucleolus

      The fibrillar centre is a crucial component of the nucleolus, which is found in most metazoan nucleoli, particularly in higher eukaryotes. Along with the dense fibrillar components and the granular component, it forms the three major components of the nucleolus. During the end of mitosis, the fibrillar centre serves as a storage point for nucleolar ribosomal chromatin and associated ribonucleoprotein transcripts. As the nucleolus becomes active, the ribosomal chromatin and ribonucleoprotein transcripts begin to form the dense fibrillar components, which are more peripherally located and surround the fibrillar centres. The transcription zone for multiple copies of the pre-rRNA genes is the border between these two structures. It is important to note that the fibrillar centre is not a component of any of the cell structures mentioned in the incorrect answer options.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 7 - A man in his forties comes in with chest pain resembling a heart...

    Incorrect

    • A man in his forties comes in with chest pain resembling a heart attack and is diagnosed with a myocardial infarction. During his hospitalization, it is discovered that he has familial hypercholesterolemia but his triglyceride levels are normal. What is the underlying biochemical abnormality?

      Your Answer:

      Correct Answer: Defective LDL receptors

      Explanation:

      Lipid Metabolism and Transport in the Body

      The breakdown of triglycerides in the small intestine is facilitated by pancreatic lipase. These triglycerides are then transported to the liver and other parts of the body through chylomicrons.

      Very low-density lipoprotein (VLDL) is responsible for carrying triglycerides from the liver to peripheral tissues. When there is an overproduction of VLDL in the liver, it can lead to high levels of triglycerides in the body.

      Pure hypercholesterolaemia is a condition that arises due to a defect in the process of cholesterol uptake into cells. This process relies on apolipoprotein B-100 binding to LDL receptors and facilitating endocytosis. When this process is disrupted, it can lead to high levels of cholesterol in the body.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 8 - What occurs in eukaryotic prophase? ...

    Incorrect

    • What occurs in eukaryotic prophase?

      Your Answer:

      Correct Answer: Chromatin condenses into chromosomes

      Explanation:

      The Stages of Prophase in Eukaryotic Mitosis

      Prophase is the first stage of eukaryotic mitosis, except for plant cells which have a preprophase stage. During prophase, the cell’s chromatin, which is made up of DNA and associated proteins, condenses into double rod-shaped structures called chromosomes. This process is facilitated by the condensin protein I and/or II complexes. As the chromosomes form, the nuclear membrane and nucleoli disintegrate and disappear, making the chromatin visible.

      Before prophase, the cell’s DNA is replicated during interphase, resulting in identical pairs of chromosomes called chromatids. These chromatids attach to each other at a DNA element called the centromere. DNA and centrosome duplication occur during interphase, while chromosome alignment takes place during metaphase. The nuclear membrane and nucleoli re-form during telophase, and the sister chromatids separate during anaphase.

      In summary, prophase is the initial stage of eukaryotic mitosis where chromatin condenses into chromosomes, and the nuclear membrane and nucleoli disappear. Chromosome alignment, DNA and centrosome duplication, and re-formation of the nuclear membrane and nucleoli occur in subsequent stages.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 9 - What are the defining features of an amino acid? ...

    Incorrect

    • What are the defining features of an amino acid?

      Your Answer:

      Correct Answer: It has the formula H2N - CHR - COOH where R is the variable group

      Explanation:

      The Versatility of Amino Acids and its Applications in Electrophoresis

      Amino acids are the building blocks of proteins and are composed of a basic structure of H2N – CHR – COOH, where R represents the variable group that distinguishes one amino acid from another. The simplest amino acid is glycine, where the R group is just H. Amino acids are capable of forming complex and useful molecules due to their dipolar or amphoteric nature, which makes them simultaneously acidic and basic. In solution, they form zwitterions, which can act as either an acid or a base depending on the pH of the solution. This versatility of amino acids is what allows for the process of electrophoresis, which separates proteins based on their charge in a solution. By using solutions of different pH, different proteins can be assessed, making it a useful tool in the diagnosis of bone marrow malignancies like myeloma.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 10 - What significance do linoleic and alpha-linolenic acids hold? ...

    Incorrect

    • What significance do linoleic and alpha-linolenic acids hold?

      Your Answer:

      Correct Answer: They are essential fatty acids

      Explanation:

      The Importance of Essential Fatty Acids in the Diet

      Essential fatty acids, such as linoleic and alpha-linolenic acids, are crucial components of a healthy diet. Although they are only required in small amounts, they play several important roles in the body. These fatty acids are necessary for the synthesis of phospholipids, which are essential components of cell membranes. They also help regulate cholesterol transport and synthesis, and serve as precursors for omega-3 fatty acids and arachidonic acid. Additionally, essential fatty acids are important for the synthesis of prostaglandins, leukotrienes, and thromboxanes.

      A lack of adequate essential fatty acids in the diet can have negative consequences, particularly for brain growth in infancy. It can also lead to alopecia, dermatitis, and fatty liver. Therefore, it is important to ensure that the diet includes sources of these essential fatty acids, such as certain types of fish, nuts, and seeds. By doing so, individuals can support their overall health and well-being.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 11 - A couple in their early 30s come to your clinic seeking advice. The...

    Incorrect

    • A couple in their early 30s come to your clinic seeking advice. The husband has a history of haemophilia B and they are worried about the possibility of passing it on to their children. Can you determine which of their offspring will be affected by the disease?

      Your Answer:

      Correct Answer: All daughters will be carriers; no sons will be affected

      Explanation:

      The inheritance of Haemophilia A and B is crucial in identifying individuals who are at risk of developing the condition. Haemophilia A and B are genetic disorders that are inherited in an X-linked recessive manner. Haemophilia A is caused by a deficiency in clotting factor VIII, while haemophilia B is caused by a deficiency in clotting factor IX.

      On the other hand, haemophilia C, which is caused by a deficiency in clotting factor XI, is primarily inherited in an autosomal recessive manner. In X-linked recessive conditions like haemophilia B, males are more likely to be affected than females. This is because males only need one abnormal copy of the gene, which is carried on the X chromosome, to be affected.

      Females, on the other hand, can be carriers of the condition if they carry one normal and one abnormal copy of the gene. While carriers can have clotting abnormalities, these are usually milder than those seen in affected individuals. Men cannot pass the condition to their sons, but they will pass on the abnormal X chromosome to all their daughters, who will be carriers.

      Female carriers can pass on the condition to around half their sons, and half their daughters will be carriers. Females can only be affected if they are the offspring of an affected male and a carrier female. In summary, the inheritance of haemophilia A and B is crucial in identifying individuals who are at risk of developing the condition. It also helps in providing appropriate genetic counseling and management for affected individuals and their families.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 12 - What controls the specific stages of the cell cycle? ...

    Incorrect

    • What controls the specific stages of the cell cycle?

      Your Answer:

      Correct Answer: Cyclins and cyclin-dependent kinases

      Explanation:

      Regulation of the Cell Cycle by Cyclins and Cyclin-Dependent Kinases

      The cell cycle is controlled by the activity of proteins known as cyclins and phosphorylating enzymes called cyclin-dependent kinases (CDKs). Cyclins and CDKs combine to form an activated heterodimer, where cyclins act as the regulatory subunits and CDKs act as the catalytic subunits. Neither of these molecules is active on their own. When a cyclin binds to a CDK, the CDK phosphorylates other target proteins, either activating or deactivating them. This coordination leads to the entry into the next phase of the cell cycle. The specific proteins that are activated depend on the different combinations of cyclin-CDK. Additionally, CDKs are always present in cells, while cyclins are produced at specific points in the cell cycle in response to other signaling pathways.

      In summary, the cell cycle is regulated by the interaction between cyclins and CDKs. This interaction leads to the phosphorylation of target proteins, which ultimately controls the progression of the cell cycle.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 13 - A 65-year-old patient with suspected spinal cord compression has been admitted to the...

    Incorrect

    • A 65-year-old patient with suspected spinal cord compression has been admitted to the neurosurgical team for an urgent MRI of the spine. The MRI technique primarily relies on the magnetic properties of which particle?

      Your Answer:

      Correct Answer: Hydrogen ion (proton)

      Explanation:

      How MRI Scanners Use Hydrogen Ions to Create Images

      MRI scanners use the magnetic properties of hydrogen ions, also known as protons, to create images of the human body. These protons have nuclear spin, which means they have magnetic vectors that can be aligned in an electromagnet. The scanner bombards the protons with radiofrequency radiation, causing them to release energy when they return to their resting state. This energy release is recorded and used to construct the MRI image.

      While other nuclei, such as carbon 13, also have net nuclear spin and could be used in MRI imaging, hydrogen ions are much more abundant in human tissues. This makes them the preferred choice for creating images of the body. By using the magnetic properties of hydrogen ions, MRI scanners can create detailed images of internal structures without the use of harmful radiation.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 14 - A 29-year-old woman visits your clinic with concerns about a possible pregnancy.

    Can...

    Incorrect

    • A 29-year-old woman visits your clinic with concerns about a possible pregnancy.

      Can you explain the mechanism behind a urinary pregnancy test?

      Your Answer:

      Correct Answer: ELISA

      Explanation:

      Techniques in Biochemistry

      Over-the-counter urine pregnancy tests use ELISA to detect beta-HCG in a woman’s urine. The test stick contains antibodies that react with beta-HCG, producing a color change that confirms pregnancy. The urinary pregnancy test is a solid-phase ELISA, where the antibody is immobilized on a specialized filter paper. The fluid travels laterally across the paper to bind with the antibody, and if beta-HCG is present, the line turns blue. Electrophoresis characterizes the electrical charge and size of substances, while PCR identifies specific sequences of DNA or RNA. Radioimmunoassay uses radioactivity to identify specific proteins. Enzymatic degradation breaks down large proteins into smaller subunits for which target antibodies may already exist. This method is used to characterize large proteins for which the structure has not yet been described.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 15 - What is a primary function of vitamin A? ...

    Incorrect

    • What is a primary function of vitamin A?

      Your Answer:

      Correct Answer: Vision

      Explanation:

      Vitamin A: Forms, Sources, and Functions

      Vitamin A is a crucial nutrient that exists in various forms in nature. The primary dietary form of vitamin A is retinol, also known as pre-formed vitamin A, which is stored in animal liver tissue as retinyl esters. The body can also produce its own vitamin A from carotenoids, with beta-carotene being the most common precursor molecule.

      The richest sources of vitamin A include liver and fish liver oils, dark green leafy vegetables, carrots, and mangoes. Vitamin A can also be added to certain foods like cereals and margarines.

      Vitamin A plays several essential roles in the body, including supporting vision by being a component of rhodopsin, a pigment required by the rod cells of the retina. It also contributes to the growth and development of various types of tissue, regulates gene transcription, and aids in the synthesis of hydrophobic glycoproteins and parts of the protein kinase enzyme pathways.

      In summary, the different forms and sources of vitamin A and its vital functions in the body is crucial for maintaining optimal health.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 16 - What is the end result of meiosis in a cell? ...

    Incorrect

    • What is the end result of meiosis in a cell?

      Your Answer:

      Correct Answer: 4 haploid cells

      Explanation:

      Meiosis

      Meiosis is a crucial process that occurs in the genetic cells of eukaryotic organisms. Its primary purpose is to recombine genes, which results in genetic variation while also ensuring genetic preservation. Although meiosis shares some similarities with mitosis, it is restricted to genetic cells, also known as gametes, of eukaryotic organisms.

      During meiosis, a gamete duplicates each of its chromosomes and divides into two diploid cells. These cells then divide into four haploid cells by the end of the second stage of meiosis (telophase II and cytokinesis). These haploid cells are either sperm cells (male) or eggs (female) in mammals. When these haploid cells fuse together, they produce a diploid zygote that contains two copies of parental genes.

      In summary, meiosis is a crucial process that ensures genetic variation and preservation in eukaryotic organisms. It involves the duplication and division of genetic cells into haploid cells, which can then fuse together to produce a diploid zygote.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 17 - What stage of cellular respiration is responsible for the production of pyruvic acid?...

    Incorrect

    • What stage of cellular respiration is responsible for the production of pyruvic acid?

      Your Answer:

      Correct Answer: Glycolysis

      Explanation:

      The Versatility of Pyruvic Acid in Cellular Metabolism

      Pyruvic acid is a simple alpha-keto acid that plays a crucial role in several metabolic pathways within the cell. It serves as a central intersection where different pathways converge and diverge. One of the primary ways pyruvic acid is produced is through glycolysis, where glucose is broken down into pyruvic acid. Depending on the cell’s needs, pyruvic acid can be converted back into glucose through gluconeogenesis or used to synthesize fatty acids through the acetyl-CoA pathway. Additionally, pyruvic acid can be used to produce the amino acid alanine.

      Pyruvic acid is also involved in respiration, where it enters the Krebs cycle under aerobic conditions. This cycle produces energy in the form of ATP, which is used by the cell for various functions. Under anaerobic conditions, pyruvic acid can ferment into lactic acid, which is used by some organisms as a source of energy.

      In summary, pyruvic acid is a versatile molecule that plays a critical role in cellular metabolism. Its ability to be converted into different molecules depending on the cell’s needs makes it an essential component of many metabolic pathways.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 18 - Which form of vitamin D is the most active in the human body?...

    Incorrect

    • Which form of vitamin D is the most active in the human body?

      Your Answer:

      Correct Answer: 1, 25 (OH) 2 vitamin D

      Explanation:

      The Process of Vitamin D Production and Activation

      Vitamin D comes in two forms, D2 and D3. D3 can be produced in the skin through a reaction that requires UV light, while D2 cannot. Both forms can also be obtained through diet, with some foods now being supplemented with Vitamin D. However, the production of Vitamin D3 in the skin can be affected by various factors such as seasons, latitude, clothing, sun block, and skin tone, making it difficult for individuals to get adequate levels of Vitamin D through sunlight alone, especially in the UK during winter.

      Once absorbed into the lymph, Vitamin D2 and D3 circulate in the bloodstream and reach the liver. Here, the liver enzyme 25-hydroxylase adds an OH group to the Vitamin D molecule, resulting in 25(OH) Vitamin D. The compound then travels to the kidney, where the enzyme 1-alpha hydroxylase adds another OH group, creating the active form of Vitamin D, 1,25 (OH)2Vitamin D. When there is enough of this active form, an inactive metabolite called 24,25 (OH)2Vitamin D is produced instead. this process is important in ensuring adequate Vitamin D levels for overall health and well-being.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 19 - What is the main role of the Golgi apparatus in eukaryotic cells? ...

    Incorrect

    • What is the main role of the Golgi apparatus in eukaryotic cells?

      Your Answer:

      Correct Answer: Process of proteins

      Explanation:

      The Golgi Apparatus, Cell Division, and Homeostasis

      The Golgi apparatus is a structure found in eukaryotic cells that consists of flattened membrane stacks. Its primary function is to modify proteins that have been synthesized in the rough endoplasmic reticulum, preparing them for secretion or transport within the cell. However, the Golgi apparatus is not directly involved in cell division, which is controlled by the nucleus.

      Cell homeostasis, on the other hand, is primarily maintained by membrane-embedded channels or proteins such as the sodium-potassium pump. This mechanism ensures that the cell’s internal environment remains stable. The sodium-potassium pump is an active transport mechanism that involves the binding of three intracellular sodium ions to the protein. Adenosine triphosphate (ATP) donates a phosphate group to the protein, which causes it to change shape and release the sodium ions out of the cell.

      The protein then accepts two extracellular potassium ions, and the donated phosphate group detaches, causing the protein to revert to its original shape. This allows the potassium ions to enter the cell, increasing the intracellular potassium concentration and decreasing the intracellular sodium concentration. This process is in contrast to the extracellular conditions.

      In summary, the Golgi apparatus modifies proteins for secretion or transport, while cell division is controlled by the nucleus. Cell homeostasis is maintained by membrane-embedded channels or proteins such as the sodium-potassium pump, which actively transports ions to stabilize the cell’s internal environment.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 20 - A 40-year-old male complains of a painful and swollen right calf. The possibility...

    Incorrect

    • A 40-year-old male complains of a painful and swollen right calf. The possibility of deep vein thrombosis (DVT) is being considered. What tests should be conducted to confirm the diagnosis?

      Your Answer:

      Correct Answer: Dopplers of the leg veins

      Explanation:

      Diagnostic Methods for Deep Vein Thrombosis

      When it comes to diagnosing deep vein thrombosis (DVT), there are several methods available. The most common ones are Doppler studies and venography. Doppler studies use B mode ultrasonography to examine the venous system, while venography involves injecting a contrast dye into the veins and taking X-rays. CT scans are not typically used for DVT diagnosis because they require contrast and expose the patient to radiation. D-Dimer concentrations can help rule out DVT if they are negative, but they cannot diagnose it. MRI scans are useful for examining soft tissues and bones, but they are not the best option for visualizing the vasculature. Finally, oxygen saturation of the limbs is not a reliable diagnostic method because tissue perfusion can be the same even if there is arterial disease. Overall, Doppler studies and venography are the most effective methods for diagnosing DVT.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 21 - What are the primary constituents of the cytoskeleton in eukaryotic cells? ...

    Incorrect

    • What are the primary constituents of the cytoskeleton in eukaryotic cells?

      Your Answer:

      Correct Answer: Microfilaments, intermediate filaments and microtubules

      Explanation:

      The Eukaryotic Cytoskeleton: A Structural Support System

      The eukaryotic cytoskeleton is a network of structures that provide structural support to the cell. It helps the cell maintain its shape, protects it from external pressure, and performs intracellular transport. The cytoskeleton is made up of three major structures: microfilaments, intermediate filaments, and microtubules. Microfilaments are thin double helices made up of actin and are involved in pressure resistance and cell motility. Intermediate filaments have a more complex structure and maintain cell shape while bearing tension. Microtubules are hollow cylinders made up of alpha and beta tubulin proteins and are involved in intracellular transport, cell movement, and form the mitotic spindle during cytokinesis.

      Cilia, flagella, and lamellipodia are structures that are not part of the cell’s cytoskeleton but are made up of components of it and perform unique functions such as cell movement and extracellular sensing. Kinesin and dynein are motor proteins that support microtubule function. Microfilaments and alpha/beta microtubules are incorrect because they leave out intermediate filaments. Tubulin and actin are proteins of microtubules and microfilaments, respectively, but myosin is a motility protein involved in muscle contraction. The eukaryotic cytoskeleton is an essential component of the cell that provides structural support and enables various cellular functions.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 22 - What is the composition of enzymes found in lysosomes? ...

    Incorrect

    • What is the composition of enzymes found in lysosomes?

      Your Answer:

      Correct Answer: Acid hydrolases

      Explanation:

      Lysosomes: The Digestive System of the Cell

      Lysosomes are organelles that come from the Golgi apparatus and are enclosed by a membrane. They are responsible for breaking down various biological macromolecules such as proteins, nucleic acids, carbohydrates, and lipids. Lysosomes contain acid hydrolases, which are enzymes that cleave chemical bonds by adding water and function at an acidic pH of around 5. They are involved in digesting foreign agents that are internalized by the cell and breaking down other cellular organelles like mitochondria, allowing for their components to be recycled.

      The acidic pH within lysosomes is maintained by a proton pump in the lysosomal membrane, which imports protons from the cytosol coupled to ATP hydrolysis. This acidic environment is necessary for the activity of the acid hydrolases. D-amino acid oxidases and peroxidases are not found in lysosomes but in peroxisomes. Alcohol dehydrogenases and ATPases are not involved in digestion but in other cellular functions. Alcohol dehydrogenases catalyze the interconversion between alcohols and aldehydes or ketones with the reduction of NAD+ to NADH, while ATPases catalyze the breakdown of ATP into ADP and a phosphate ion, releasing energy for the cell’s functions.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 23 - What is the fundamental meaning of carbohydrate? ...

    Incorrect

    • What is the fundamental meaning of carbohydrate?

      Your Answer:

      Correct Answer: A compound following the formula Cx(H2O)y

      Explanation:

      Carbohydrates: Building Blocks of Energy and Storage

      Carbohydrates are organic compounds made up of carbon, hydrogen, and oxygen, with a general formula of Cx(H2O)y. They can be classified as either aldehydes or ketones and contain multiple hydroxyl groups. Monosaccharides are the simplest form of carbohydrates, consisting of a single unit. They are categorized based on the number of carbon atoms they contain, with trioses having three, pentoses having five, and hexoses having six carbon atoms. These monosaccharides are essential for energy production and building larger carbohydrate structures.

      Disaccharides are formed when two monosaccharides are joined together through a condensation reaction, releasing a water molecule. The most common disaccharides are lactose, maltose, and sucrose. Polysaccharides, on the other hand, are long, branched polymers made up of multiple single units. They serve as convenient storage molecules for energy reserves, such as glycogen in humans and starch in plants.

      In summary, carbohydrates are vital building blocks for energy production and storage in living organisms. Monosaccharides, disaccharides, and polysaccharides all play important roles in maintaining the body’s energy balance and overall health.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 24 - What are the vitamins that are soluble in fat? ...

    Incorrect

    • What are the vitamins that are soluble in fat?

      Your Answer:

      Correct Answer: Vitamins A, D, E and K

      Explanation:

      Absorption of Fat-Soluble Vitamins

      Fat-soluble vitamins, namely A, D, E, and K, have a different absorption process compared to water-soluble vitamins. In the gut, these vitamins are combined with other fat-soluble substances such as monoacylglycerols and cholesterol to form micelles. These micelles are then transported to the lymphatic system and eventually enter the bloodstream through the subclavian vein.

      However, any issues that affect the absorption of fats will also impact the absorption of fat-soluble vitamins. This means that individuals with conditions that affect fat absorption, such as cystic fibrosis or celiac disease, may have difficulty absorbing these vitamins. It is important to ensure adequate intake of fat-soluble vitamins through a balanced diet or supplements to prevent deficiencies and associated health problems.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 25 - What is the most common method of assessing nutritional status in adults? ...

    Incorrect

    • What is the most common method of assessing nutritional status in adults?

      Your Answer:

      Correct Answer: Body mass index

      Explanation:

      The Body Mass Index as a Measure of Nutritional Status

      The measurement and assessment of nutritional status can be challenging, and there is no single test that can provide a complete picture. However, the body mass index (BMI) is a commonly used measurement in clinical practice. The BMI is calculated by dividing a person’s weight in kilograms by their height in meters squared. This measure is used to assess adiposity and nutritional status, and it is simple and quick to calculate and interpret.

      Although the BMI is a convenient measure, it has limitations for assessing obesity in individual patients. It is best used to track trends in an individual patient’s BMI over time. In some cases, the BMI may overestimate fat mass in patients who are very tall or have a high proportion of lean tissue due to an active lifestyle. Additionally, the BMI may not be accurate for athletes and children.

      Other measurements, such as skin fold thickness and weight, can also be useful, but the BMI is generally considered the better option. The ponderal index is used specifically for children. It is important to note that albumin is not a reliable marker of nutritional status, as it can also be affected by inflammation.

      Overall, the BMI is a widely used measure of nutritional status and is recommended by the World Health Organization. However, it is important to consider its limitations and use it in conjunction with other measurements to obtain a more complete picture of a patient’s nutritional status.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 26 - What is the primary role of the nuclear membrane? ...

    Incorrect

    • What is the primary role of the nuclear membrane?

      Your Answer:

      Correct Answer: To regulate transport of molecules in and out of the nucleus

      Explanation:

      The Role of the Nucleus and Nuclear Envelope in Cell Function

      The nucleus is a crucial component of eukaryotic cells, serving as the control centre for the cell. It is characterised by a membrane-enclosed structure that contains the cell’s chromosomes and is heavily involved in regulating gene transcription and protein synthesis. The nuclear envelope, which consists of an outer and inner membrane, plays a critical role in regulating the movement of molecules in and out of the nucleus. This is achieved through nuclear pores on the surface of the envelope, which allow the passage of water-soluble molecules. While the incorrect answer options describe minor roles of the nuclear envelope, its primary function is to act as a regulatory barrier for anything that enters or exits the nucleus. Overall, the nucleus and nuclear envelope are essential components of cell function, playing a critical role in regulating gene expression and maintaining cellular homeostasis.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 27 - What is the term for the process described below in laboratory testing?

    Enzymes...

    Incorrect

    • What is the term for the process described below in laboratory testing?

      Enzymes are immobilised on a solid surface, such as a bead or well, and allowed to come into contact with the sample. After washing, another enzyme is added with a label allowing quantitation of the analyte.

      Your Answer:

      Correct Answer: Enzyme-linked immunosorbent assay

      Explanation:

      ELISA: A Common Immunoassay in Medical Diagnostic Testing

      An enzyme-linked immunosorbent assay (ELISA) is a type of immunoassay that is widely used in medical diagnostic testing. This method uses antibodies to identify and/or quantify the analyte being tested. The ELISA process involves several steps, including coating a plate with the antigen, adding the patient’s sample, washing the plate to remove any unbound material, adding an enzyme-linked antibody, washing the plate again, and adding a substrate to produce a measurable signal.

      Over time, many modifications have been made to the ELISA, making it a versatile tool in the laboratory for measuring various analytes. Some of the substances that can be measured using immunoassays include thyroid hormone, testosterone, oestrogen, troponin, and vitamin D. The ELISA has been around for a long time and is still widely used today due to its accuracy, sensitivity, and specificity.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 28 - What is the conversion of pyruvate before it enters the Krebs cycle? ...

    Incorrect

    • What is the conversion of pyruvate before it enters the Krebs cycle?

      Your Answer:

      Correct Answer: Acetyl-CoA

      Explanation:

      The Krebs cycle occurs in the mitochondrion and involves the conversion of acetyl-CoA to oxaloacetate. This cycle produces six NADH, two FADH, and two ATP for each molecule of glucose. Pyruvate is converted to acetyl-CoA before entering the Krebs cycle, and water and carbon dioxide are end products. Acetic acid itself has no role in the cycle, but its acetyl group is used to form acetyl-CoA. Some anaerobic bacteria can convert sugars to acetic acid directly.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 29 - What are the clinical effects that can occur due to acute or chronic...

    Incorrect

    • What are the clinical effects that can occur due to acute or chronic over-administration of multivitamins leading to Vitamin A toxicity?

      Your Answer:

      Correct Answer: Nausea, vomiting and headaches

      Explanation:

      The Importance and Risks of Vitamin A

      Vitamin A is an essential nutrient that plays a crucial role in various bodily functions such as growth and development, vision, enzyme signalling pathways, and the maintenance of epithelial membranes. However, excessive intake of vitamin A can lead to toxicity, which can cause several adverse effects. These include raised intracranial pressure resulting in headaches, nausea, vomiting, and visual loss, increased bone resorption leading to osteoporosis and hypercalcaemia, liver damage, hair loss, and skin changes. Moreover, there is a possible increased risk of malignancy, particularly among smokers. Pregnant women are also advised to avoid foods rich in vitamin A, such as liver and fish oils, due to the teratogenicity of vitamin A-derived drugs. Therefore, it is crucial to maintain a balanced intake of vitamin A to avoid the risks associated with its toxicity.

    • This question is part of the following fields:

      • Basic Sciences
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  • Question 30 - The Krebs or TCA cycle is a series of metabolic processes beginning with...

    Incorrect

    • The Krebs or TCA cycle is a series of metabolic processes beginning with the synthesis of citrate from acetyl-CoA which results in a number of important metabolic products. Where in the cell does this cycle occur?

      Your Answer:

      Correct Answer: Mitochondria

      Explanation:

      Cellular Processes and Organelles

      Metabolic processes in the cell occur in specific locations. Acetyl-CoA production and the Krebs cycle take place in the mitochondrium, while glycolysis occurs in the cytoplasm. The nucleus is the central structure of the cell that contains DNA and is double membrane-bound. The rough endoplasmic reticulum is responsible for packaging and transporting proteins, while the smooth endoplasmic reticulum performs a similar function but lacks ribosomes.

      It is important to understand where these processes occur in the cell to better understand their functions and how they contribute to the overall functioning of the cell. The mitochondrium is responsible for producing energy in the form of ATP, while the cytoplasm is where glucose is broken down during glycolysis. The nucleus is where genetic information is stored and replicated, and the endoplasmic reticulum is involved in protein synthesis and transport.

      In summary, the cell is a complex system with various organelles that perform specific functions. where these processes occur in the cell is crucial to how they contribute to the overall functioning of the cell.

    • This question is part of the following fields:

      • Basic Sciences
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