Homework Answers
The ion channel is a pore forming membrane protein that allows the passage of specific ions through the pore of the channel. The ion channels have high affinity for specific ions and on binding they undergo conformation change to move the ion across the membrane. The primary active transporter is membrane protein such as Na+/K+ pump that moves ions against electrochemical graident aross the membrane by hydrolysis of ATP. An antiporter is an exchanger or co-transport integral membrane protein that utilizes the electrochemical gradient established by primary active transport to move the ions or exchange of ions. For example, the Na+/ Ca2+ exchanger is involved in secondary transport and removes the cytoplasmic calcium with exchange of one calcium ion for three sodium ions. The symporter is an integral membrane protein that can transport two or more molecules simultaneously and is also known as a cotransporter. The H+/K+ pump is a symporter. In the above given scenario, the addition of ATP does notincrease calcium concentration outside the cell but addition of calcium to cell interior increases the calcium concentration outside the cell. This means, the transporter is an antiporter like Na+/ Ca2+ exchanger. Therefore, the option 3 is correct.
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You are studying a particular kind of Ca2+ transport protein in a purified system (the protein...
You are studying a particular kind of Ca2+ transport protein in a purified system (the protein...
You are studying a particular kind of Ca2+ transport protein in a purified system (the protein is the only transporter in the membrane). You find that if you add ATP to the interior of the membrane system, there is a net flux of Ca2+ out into the buffer (i.e., out of the 'cell'). Based on this result, what kind of transporter do you think you are studying? Electrogenic lon channel Active Transporter Coupled Active Transporter • Facilitated Diffusion Uniporter
You create an artificial vesicle containing a transport protein in its membrane. The transport protein uses...
You create an artificial vesicle containing a transport protein in its membrane. The transport protein uses ATP to pump one Mg2+ ion into the cell for every Na+ ion it pumps out. At the starting point of the experiment, the concentration of Mg2+, Na+, and ATP are the same inside and outside the vesicle. a) After 1 hour, which ion(s) will be at a higher concentration inside the vesicle? b) After 1 hour, which ion(s) will be...
NH HO HO Man Protein HO HO- Man or What type of membrane protein is shown...
NH HO HO Man Protein HO HO- Man or What type of membrane protein is shown below? Glycoprotein Man HO- HNo HO OR OH OM o0 wtracedular cell membrane eytesel Integral membrane protein GPI-anchored protein Peripheral membrane protein membrane proteins are bound primarily by electrostatic and hydrogen-bond interactions with the head groups of lipids. Peripheral membrane protein O Integral membrane protein GPI-anchored protein An antiporter and a symporter are examples of: passive diffusion Osecondary active transport O primary active transporters...
You have isolated the Na/K-ATPase in a semi-purified membrane system. Given higher concentrations of Na' out...
You have isolated the Na/K-ATPase in a semi-purified membrane system. Given higher concentrations of Na' out and higher K inside, addition of ATP to the inside leads to increases of Nat olutside and Kt inside as expected. If instead, you add the ATP to the outside of the membrane, you don't see any change in the ion levels. Why? • ATP acts as an irreversible inhibitor of the Na/K-ATPase if it binds on the exterior side. The active site for...
How does facilitated diffusion differ from simple diffusion? Facilitated diffusion requires ATP Facilitated diffusion requires a...
How does facilitated diffusion differ from simple diffusion? Facilitated diffusion requires ATP Facilitated diffusion requires a solute-specific protein carrier Facilitated diffusion transports solute against its’ concentration gradient Which of the following is TRUE about primary active cell membrane transport? It is a form of transport that requires a protein “pump” It is a form of transport that transports ions and/or solute against their concentration gradient It is a transport mechanism that requires energy released from the splitting of ATP by...
In secondary active transport, the sodium iodide transporter moves iodide into the thyroid gland from the...
In secondary active transport, the sodium iodide transporter moves iodide into the thyroid gland from the blood plasma. It cotransports one I- for every two Na+ ions. In mammals, this protein is found predominantly in the thyroid gland, but also in salivary glands, kidneys, gastric mucose, ovaries, and, importantly, in mammary glands, where it is responsible for uptake of iodide into milk, delivering this important element needed to make thyroid hormones. The point of this process is the ACTIVE transport of iodide. Where...
Pu010 2. You are studying a bacterial protein, Pmp 7, that pumps one potassium (Kt) ion...
Pu010 2. You are studying a bacterial protein, Pmp 7, that pumps one potassium (Kt) ion into the cell for each calcium ion (Ca²+) that is moved out of the cell. Pmp 7 uses energy from light to pump these ions across the membrane. Experiment 1: You make an artificial membrane vesicle that has Pmp7 as the only protein on the membrane. Pmp 7 is orientated on this artificial membrane vesicle as it is oriented in a bacterial cell, and...
1. You are studying an integral plasma membrane protein named LINKER that can interact with the...
1. You are studying an integral plasma membrane protein named LINKER that can interact with the cytoskeletal molecule spectrin to form complex matrices across the surface of membranes. To begin to understand how the LINKER protein population responds to spectrin availability, you perform some fluorescence recovery after photobleaching (FRAP) experiments using a LINKER-GFP fusion protein. The results of a FRAP experiment with the wildtype version of LINKER in which 50% of the protein population is bound to spectrin is shown...
Consider a secondary active transporter that uses symport for two molecules, X and Y. If X...
Consider a secondary active transporter that uses symport for two molecules, X and Y. If X is the molecule being actively pumped and Y is present in higher concentration inside the cell, which of the following is true? (It might be helpful to sketch out the situation to visualize it better.) Xis present at higher concentrations inside the cell. X is being pumped from outside the cell into the cell. Xis present at higher concentrations outside the cell. Y is...
You are testing the rate of glucose transport into vesicles using a Na^+-glucose pump. This transporter...
You are testing the rate of glucose transport into vesicles using a Na^+-glucose pump. This transporter protein transports Na^+ and glucose in the same direction, and is a coupled transporter such that binding of cither Na^+ or glucose increases the affinity of the transporter to bind the other solute. In experiment 1, you create artificial vesicles that have the Na^+-glucose pump in the membrane. These vesicles have glucose but no Na^+ ions inside. You place these vesicles into a series...
You are studying a particular kind of Ca2+ transport protein in a purified system (the protein is the only transporter in the membrane). You find that if you add ATP to the interior of the membrane system, there is a net flux of Ca2+ out into the buffer (i.e., out of the 'cell'). Based on this result, what kind of transporter do you think you are studying? Electrogenic lon channel Active Transporter Coupled Active Transporter • Facilitated Diffusion Uniporter
NH HO HO Man Protein HO HO- Man or What type of membrane protein is shown below? Glycoprotein Man HO- HNo HO OR OH OM o0 wtracedular cell membrane eytesel Integral membrane protein GPI-anchored protein Peripheral membrane protein membrane proteins are bound primarily by electrostatic and hydrogen-bond interactions with the head groups of lipids. Peripheral membrane protein O Integral membrane protein GPI-anchored protein An antiporter and a symporter are examples of: passive diffusion Osecondary active transport O primary active transporters...
You have isolated the Na/K-ATPase in a semi-purified membrane system. Given higher concentrations of Na' out and higher K inside, addition of ATP to the inside leads to increases of Nat olutside and Kt inside as expected. If instead, you add the ATP to the outside of the membrane, you don't see any change in the ion levels. Why? • ATP acts as an irreversible inhibitor of the Na/K-ATPase if it binds on the exterior side. The active site for...
Pu010 2. You are studying a bacterial protein, Pmp 7, that pumps one potassium (Kt) ion into the cell for each calcium ion (Ca²+) that is moved out of the cell. Pmp 7 uses energy from light to pump these ions across the membrane. Experiment 1: You make an artificial membrane vesicle that has Pmp7 as the only protein on the membrane. Pmp 7 is orientated on this artificial membrane vesicle as it is oriented in a bacterial cell, and...
1. You are studying an integral plasma membrane protein named LINKER that can interact with the cytoskeletal molecule spectrin to form complex matrices across the surface of membranes. To begin to understand how the LINKER protein population responds to spectrin availability, you perform some fluorescence recovery after photobleaching (FRAP) experiments using a LINKER-GFP fusion protein. The results of a FRAP experiment with the wildtype version of LINKER in which 50% of the protein population is bound to spectrin is shown...
Consider a secondary active transporter that uses symport for two molecules, X and Y. If X is the molecule being actively pumped and Y is present in higher concentration inside the cell, which of the following is true? (It might be helpful to sketch out the situation to visualize it better.) Xis present at higher concentrations inside the cell. X is being pumped from outside the cell into the cell. Xis present at higher concentrations outside the cell. Y is...
You are testing the rate of glucose transport into vesicles using a Na^+-glucose pump. This transporter protein transports Na^+ and glucose in the same direction, and is a coupled transporter such that binding of cither Na^+ or glucose increases the affinity of the transporter to bind the other solute. In experiment 1, you create artificial vesicles that have the Na^+-glucose pump in the membrane. These vesicles have glucose but no Na^+ ions inside. You place these vesicles into a series...
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