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Total cholesterol in blood is reported as the number of milligrams (mg) of cholesterol per
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Genetic Analysis: An Integrated Approach (3rd Edition)
- Metabolic syndrome is a clustering of various conditions including high blood pressure, high blood sugar, excess body fat, high serum triglycerides, and low high-density lipoproteins. Scientists studying metabolic syndrome cultured fibroblast cells from a metabolic syndrome patient and a healthy volunteer and challenged the cells to 100 nM insulin. Ten minutes after the stimulus was applied, they used a protein immunoblot to measure the amount of phosphorylated insulin receptor in the cultures. Use the passage to answer the question. Insulin, in addition to regulating blood glucose, also promotes satiety. Ghrelin, on the other hand, is a peptide hormone that promotes hunger. Which statement BEST predicts the effect of ghrelin release on the insulin receptor? A. It increases insulin receptor expression. B. It decreases insulin receptor expression. C. It increases insulin receptor phosphorylation. D. It decreases insulin receptor phosphorylation.arrow_forwardMetabolic syndrome is a clustering of various conditions including high blood pressure, high blood sugar, excess body fat, high serum triglycerides, and low high-density lipoproteins. Scientists studying metabolic syndrome cultured fibroblast cells from a metabolic syndrome patient and a healthy volunteer and challenged the cells to 100 nM insulin. Ten minutes after the stimulus was applied, they used a protein immunoblot to measure the amount of phosphorylated insulin receptor in the cultures. Use the passage to answer the question. A scientist hypothesizes that dysregulated insulin signaling is responsible for the development of excess body fat in metabolic syndrome patients. Based on the data, which of these, if true, would BEST support this hypothesis? A. Phosphorylated insulin receptor decreases the use of free energy in fibroblasts. B. Phosphorylated insulin receptor increases the use of free energy in fibroblasts. C. Phosphorylated insulin receptor…arrow_forwardMetabolic syndrome is a clustering of various conditions including high blood pressure, high blood sugar, excess body fat, high serum triglycerides, and low high-density lipoproteins. Scientists studying metabolic syndrome cultured fibroblast cells from a metabolic syndrome patient and a healthy volunteer and challenged the cells to 100 nM insulin. Ten minutes after the stimulus was applied, they used a protein immunoblot to measure the amount of phosphorylated insulin receptor in the cultures. Use the passage to answer the question. The level of insulin in the blood is regulated by negative feedback. Which observation MOST supports this model? A. Insulin secretion increases metabolic syndrome symptoms. B. Insulin secretion decreases metabolic syndrome symptoms. C. Insulin receptor phosphorylation increases insulin secretion. D. Insulin receptor phosphorylation decreases insulin secretion.arrow_forward
- One form of anemia results when individuals have a deficiency in the enzyme phosphatidylinositol glycan A (PIGA). This enzyme is required for the membrane attachment of proteins anchored by glycolipids to the plasma membrane, using what is called a ‘GPI-linkage.’ Included in the group of GPI-linked cell surface proteins is DAF/CD55. These individuals become anemic because: DAF/CD55 prevents the lysis of red blood cells by infecting pathogens. DAF/CD55 normally prevents the spleen from clearing healthy red blood cells from the circulation. In the absence of PIGA, the red blood cell membrane is bare of proteins allowing increased access of complement activating proteins to attach to the cell membrane. DAF/CD55 is a complement inhibitory protein that inactivates any C3 convertase that may form on host cell surfaces. In the absence of PIGA, red blood cells are unable to synthesize high levels of hemoglobin.arrow_forwardHemoglobin is a complex protein that contains four polypeptide chains. The normal hemoglobin found in adults—called adult hemoglobin— consists of two alpha and two beta polypeptide chains, which are encoded by different loci. Sickle-cell hemoglobin, which causes sicklecell anemia, arises from a mutation in the beta chain of adult hemoglobin. Adult hemoglobin and sickle-cell hemoglobin differ in a single amino acid: the sixth amino acid from one end in adult hemoglobin is glutamic acid, whereas sickle-cell hemoglobin has valine at this position. After consulting the genetic code provided in Figure 15.10, indicate the type and location of the mutation that gave rise tosickle-cell anemia.arrow_forwardFamilial hypercholesterolemia (FH) is an inherited disease characterized by high blood levels of cholesterol, xanthomas (lipid-laden nodules that develop under the skin near tendons), and early-onset atherosclerosis (the formation of yellowish plaques within arteries). In the milder form of this disease, patients have half the plasma membrane low-density lipoprotein (LDL) receptors needed for cells to bind to and internalize LDL (a plasma lipoprotein particle that transports cholesterol and other lipids to tissues). These individuals have their first heart attacks in young adulthood. In the severe form of FH, in which affected individuals have no functional LDL receptors, heart attacks begin at about age 8, with death occurring a few years later. Based on what you have learned in this chapter, briefly describe the cellular processes that are defective in FH.arrow_forward
- The ABO blood group antigens are the terminal sugars covalently linked to the end of the glycolipid in the red blood cellmembrane. The H antigen is the precursor of the A and Bantigens. Individuals with type A blood produce a gene thatcodes for an enzyme that adds N-acetylgalactosamine in ana(1,3) linkage to the Gal* residue in the H antigen. Type Bblood requires that an enzyme add a d-a galactose in an a(1,3) linkage to the Gal*. Draw the structures of the A andB antigens.arrow_forwardThe Table below shows the names of proteins whose functions are regulated through the binding of their ligands. Complete this Table by filling in the correct ligands for each of the proteins, the corresponding K, value, the affinity of this protein for its ligand and the source where the protein is found. Example Protein Avidin 1 Insulin receptor 2 Anti-HIV immunoglobulin 3 Nickel binding protein 4 Myoglobin 5 Myosin 6 Acetyl-CoA carboxylase 7 Cannabinoid receptor 1 (CB1) 8 Guanylyl cyclase Ligand Biotin Kd (M) 1 x 10-15 Affinity high Source/Organism Egg whitearrow_forwardA study is conducted to assess the molecular mechanisms of hormone X. A radioactively labeled form of this hormone is incubated with human cells in tissue culture for 30 minutes, and then incubated briefly with a cross-linking agent. The plasma membrane, cytosolic, and nuclear fractions are isolated from the cell lysate, and the subcellular proteins are separated from these fractions by gel electrophoresis. The only protein bound to the labeled hormone is identified in the new clear fraction. Hormone X is most likely which of the following? Epinephrine Glucagon Growth hormone Insulin Thyroxinearrow_forward
- Bence-Jones protein is a protein with a molecular weight of approximately 150 kDa and is found in high concentration in the urine of Multiple Myeloma patients. Multiple Myeloma is a type of cancer in which lymphocytes multiply and break down bone marrow and bone. Which method would you prefer to show the Bence-Jones protein in the urine for the diagnosis of the disease? Explain the principle of your preferred method.arrow_forwardTrue or False: An IgM monomer can bind as many as 10 epitopes?arrow_forwardThe Bence-Jones protein is a protein with a molecular weight of approximately 150 kDa and is found in high concentration in the urine of MulKpl Myeloma patients. MulKpl Myeloma is a type of cancer in which lymphocytes multiply and break down bone marrow and bone. Which method would you prefer to show the Bence-Jones protein in the urine for the diagnosis of the disease? Explain the principle of your preferred method.arrow_forward
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