Question 1. Different types of cells have different types of integral membrane proteins. What would you...
Question 1.
Different types of cells have different types of integral membrane proteins. What would you expect to reside in the plasma membrane of an epithelial cell that might be absent from that of an erythrocyte? How do such differences relate to the activities of these cells?
Question 2.
In an experiment, let us say you plan to use liposomes in an attempt to deliver drugs to fat or muscle cells. Is there a method in which you might be able to construct the liposome to increase its target specificity?
Homework Answers
1) Cells have different types of integral membrane proteins. Integral proteins involved in cell-cell adhesion and cell tocell communication. Epithelial cells form a tightly cohering sheet that requires such proteins, whereas erythroces occur in the body as singlecells. Epithelia would also be expected to have different types of transport proteins than erythrocytes whose primary transport activity is the exchange of bicarbonate and chloride ions...
2)The inability of these drugs to reach their target tissues or by the harmful effects that are caused on healthy tissues and organs. the real idyllic solution would be to create medication that targets specificity only those cells or tissues that are affected by disease . pre-existing methods of drug might be able to construct the liposome to increase its target specificity.
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Question 1.
Different types of cells have different types of integral
membrane proteins. What would you...
In an experiment, let us say you plan to use liposomes in an attempt to deliver...
In an experiment, let us say you plan to use liposomes in an attempt to deliver drugs to fat or muscle cells. Is there a method in which you might be able to construct the liposome to increase its target specificity? explain with reference (15points)
1. Which type of cells below is not known for its extensively developed SER? A. skin...
1. Which type of cells below is not known for its extensively developed SER? A. skin cells B. kidney tubule cells C. skeletal muscle cells D. steroid-producing endocrine cells E. both skeletal muscle cells and kidney tubule cells 2. What determines the function of a cell's smooth endoplasmic reticulum? A. its lipid content B. its polynucleotide content C. its carbohydrate content D. its protein content E. its age 3. What is responsible for recognizing lysosomal enzymes and localizing them to...
You are interested in the mobility of two different unknown integral plasma membrane proteins—protein X and...
You are interested in the mobility of two different unknown integral plasma membrane proteins—protein X and protein Y—in a cell. In one cell, you fluorescently label all the X proteins. In another cell, you label all the Y proteins. When you perform FRAP analysis on both cells, you find that most of the protein X fluorescence has recovered within 3 minutes, but recovery of the protein Y fluorescence is significantly slower. Even after 10 minutes, only 50% of the protein...
Two different membrane preparations have been created from the plasma membrane of red blood cells (1)...
Two different membrane preparations have been created from the plasma membrane of red blood cells (1) right-side-out membrane vesicles (ROVs) and (2) insideout membrane vesicles IOVs) in which the exoplasmic leaflet faces the interior of the vesicles. a. Annexin V is a protein that binds to phosphatidylserine, one of the phospholipids present in cell membranes. Fluorescently labeled annexin V is mixed with each vesicle preparation. The vesicles are washed to remove unbound annexin V and then examined by fluorescence microscopy....
1. You want to immunolabel a low abundance expressed transmembrane receptor in the plasma membrane in...
1. You want to immunolabel a low abundance expressed transmembrane receptor in the plasma membrane in epithelial cells. Describe the process you would do to label by immune-labeling with fluorescence this protein? Be specific in your answer 3 pts 2. Based on your knowledge of fluorophores and reading of the spectra of dyes, answer this question. You immunolabeled two proteins found close together in muscle fiber sarcomeres by immunofluorescence and a toxin conjugated fluorophore. You need to next show the...
QUESTION 8 The following situations (1-4) involve different types of gene regulation in prokaryotic cells as shown. OFF...
QUESTION 8 The following situations (1-4) involve different types of gene regulation in prokaryotic cells as shown. OFF and ON reter to whether the gene is transcribed or not. Draw clearly-labelled regulatory proteins and effector molecules in each diagram to explain how the regulation works in each case. The first one has been done for you as an example a) (6 marks) Type of Regulation Regulatory protein effector molecule 1 DNA X negative inducible OFF ON 2 negative repressible DNA...
please answer all that you can 1. You have genetically engineered green fluorescent protein (GFP) containing...
please answer all that you can 1. You have genetically engineered green fluorescent protein (GFP) containing a KDEL sequence (GFP-KDEL). When GFP-KDEL is expressed in normal human fibroblasts and examined using fluorescence microscopy, the fluorescence appears diffuse across the cytoplasm. How would you explain this observations given that KDEL is supposed to be an ER-specific sorting sequence? A. This engineered GFP would not have a hydrophobic signal sequence to get it into the RER in the first place. B. The...
1. According to the paper, what does lactate dehydrogenase (LDH) do and what does it allow...
1. According to the paper, what does lactate dehydrogenase
(LDH) do and what does it allow to happen within the myofiber? (5
points)
2. According to the paper, what is the major disadvantage of
relying on glycolysis during high-intensity exercise? (5
points)
3. Using Figure 1 in the paper, briefly describe the different
sources of ATP production at 50% versus 90% AND explain whether you
believe this depiction of ATP production applies to a Type IIX
myofiber in a human....
1. A calorie is a measure of the energy content of food. a. True b. False...
1. A calorie is a measure of the energy content of food. a. True b. False 2. Which chemical in the alcohol metabolic pathway is most toxic? a. ethanol b. acetaldehyde c. acetic acid d. none are toxic e. all are equally toxic 3. Which of the following are risks of long term regular use of alcohol. a. Increased cancer rates. b. Infertility and impotence. c. Diabetes. d. Liver disease. e. All of the above. 4. An amino acid is...
Two different membrane preparations have been created from the plasma membrane of red blood cells (1) right-side-out membrane vesicles (ROVs) and (2) insideout membrane vesicles IOVs) in which the exoplasmic leaflet faces the interior of the vesicles. a. Annexin V is a protein that binds to phosphatidylserine, one of the phospholipids present in cell membranes. Fluorescently labeled annexin V is mixed with each vesicle preparation. The vesicles are washed to remove unbound annexin V and then examined by fluorescence microscopy....
QUESTION 8 The following situations (1-4) involve different types of gene regulation in prokaryotic cells as shown. OFF and ON reter to whether the gene is transcribed or not. Draw clearly-labelled regulatory proteins and effector molecules in each diagram to explain how the regulation works in each case. The first one has been done for you as an example a) (6 marks) Type of Regulation Regulatory protein effector molecule 1 DNA X negative inducible OFF ON 2 negative repressible DNA...
1. According to the paper, what does lactate dehydrogenase
(LDH) do and what does it allow to happen within the myofiber? (5
points)
2. According to the paper, what is the major disadvantage of
relying on glycolysis during high-intensity exercise? (5
points)
3. Using Figure 1 in the paper, briefly describe the different
sources of ATP production at 50% versus 90% AND explain whether you
believe this depiction of ATP production applies to a Type IIX
myofiber in a human....
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