For the secondary active transport which relies on Sodium pump( Ca, Glucose, Amino acid, H), what...
Homework Answers
Secondary active transport maintain sodium gradient for transport molecules across plasma membrane; so electrochemical potential difference causes pumping ions (H+) in/out of the cell. The energy derived through this process is used as the energy source. The formation of H+ gradients is important in cellular respiration and moving glucose into cells. Also, calcium pumps use ATP as an energy source to move calcium similar to sodium. In depolarization, sodium channels open, result in more Na+ inside the cells. Na+/K+ ATPase pump is essential for the maintenance of Na+ and K+ concentrations across the membrane. In response to the depolarization, K+ channel opens, allow potassium ions to rapidly diffuse out of the cell. So, Repolarization occurs with close of sodium channel. Under anoxic conditions, depletion of ATP, or pump activity inhibited by cardiac glycosides such as digoxin, Na+ accumulates within the cell and decrease of intracellular K+ . This causes depolarization of the resting membrane potential. Also in case of case Chlorella virus infection, potassium ion release, with rapid depolarization of host membrane.
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the secondary active transport which relies on Sodium pump( Ca,
Glucose, Amino acid, H), what...
Secondary active transport relies on coupling of two transporters and requires energy. What form of energy...
Secondary active transport relies on coupling of two transporters and requires energy. What form of energy is used by each of the coupled transporters in secondary active transport?
47. Active transport of solutes is mediated by and in plant and animal cells, respectively A....
47. Active transport of solutes is mediated by and in plant and animal cells, respectively A. H-pump and Ca-pump B. K-pump and Ca-pump C. Na-pump and H'-pump D. H-pump and Na"-pump E. C & D 48. One is NOT TRUE about integral membrane proteins. A. They can move inside the lipid bilayer B. Their hydrophobic amino acid side chains face the lipid bilayer C. Their hydrophilic amino acids form the hydrophilic pore D. They can easily by separated from the...
During the aerobic metabolism of glucose, glucose is ____________. Reduced to form water Oxidized to form...
During the aerobic metabolism of glucose, glucose is ____________. Reduced to form water Oxidized to form water Reduced to form CO2 Oxidized to form CO2 Which of the following describes the equation: FAD + XH2 à FADH2 + X. FAD is reduced to FADH2 It is a coupled reduction – oxidation reaction XH2 is oxidized to X All of the above Which of the following is FALSE about glycolysis? The initial steps of glycolysis requires energy derived from the splitting...
33) Which of the following is most likely true of a protein that cotransports glucose and...
33) Which of the following is most likely true of a protein that cotransports glucose and sodium ions into the intestinal cells of an animal? A) Sodium and glucose bind to the same site on the cotransporter. B) Transport of glucose against its concentration gradient provides energy for uptake of sodium ions against the electrochemical gradient. C) Sodium ions can be transported whether or not glucose is present outside the cell, but glucose transport requires cotransport of sodium ions. D)...
1. 2. 3. Select all that apply. The sodium-potassium ion pump: hydrolyzes ATP, utilizing the free...
1.
2.
3.
Select all that apply. The sodium-potassium ion pump: hydrolyzes ATP, utilizing the free phosphate ion to temporarily bind to the transport protein. opens a channel through the membrane by phosphorylating one subunit of the transport protein. D is the only known ion pump. D is mediated by one enzyme that both hydrolyzes ATP and transports the ions. can be run in reverse, phosphorylating ADP to ATP Which of the following describes secondary active transport? O The antiport...
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...
V-type proton ATPase (proton pump): a: What type of transport is a V-type proton ATPase (an...
V-type proton ATPase (proton pump): a: What type of transport is a V-type proton ATPase (an integral membrane protein) uses ATP directly to transport protons across the membrane ? (PRIMARY OR SECONDARY) b: With the understanding of sodium-potassium pump, describe how a proton pump would use ATP to move protons against their concentration gradient (out of the cell) ? please do not say energy.
3. Both glucose and amino acid claim to have a special relationship with their respective transport...
3. Both glucose and amino acid claim to have a special relationship with their respective transport proteins. What is the basis for their claims?
O D Side-by-Side The thermodynamics of vesicle loading: Primary and secondary active transport "Vesicle loading is a...
O D Side-by-Side The thermodynamics of vesicle loading: Primary and secondary active transport "Vesicle loading is another interesting application of thermodynamics. Think about it. How do neurons form these highly concentrated vesicles full of, say. Ach? It turns out that neurons use a two-step system. First, neurons use the Gibb's free energy from hydrolyzing ATP to pump H+ ions into the vesicle using an H+/ATPase. Given the provided information, and assuming the vesicular membrane potential is 20 mV (positive inside...
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...
47. Active transport of solutes is mediated by and in plant and animal cells, respectively A. H-pump and Ca-pump B. K-pump and Ca-pump C. Na-pump and H'-pump D. H-pump and Na"-pump E. C & D 48. One is NOT TRUE about integral membrane proteins. A. They can move inside the lipid bilayer B. Their hydrophobic amino acid side chains face the lipid bilayer C. Their hydrophilic amino acids form the hydrophilic pore D. They can easily by separated from the...
33) Which of the following is most likely true of a protein that cotransports glucose and sodium ions into the intestinal cells of an animal? A) Sodium and glucose bind to the same site on the cotransporter. B) Transport of glucose against its concentration gradient provides energy for uptake of sodium ions against the electrochemical gradient. C) Sodium ions can be transported whether or not glucose is present outside the cell, but glucose transport requires cotransport of sodium ions. D)...
1.
2.
3.
Select all that apply. The sodium-potassium ion pump: hydrolyzes ATP, utilizing the free phosphate ion to temporarily bind to the transport protein. opens a channel through the membrane by phosphorylating one subunit of the transport protein. D is the only known ion pump. D is mediated by one enzyme that both hydrolyzes ATP and transports the ions. can be run in reverse, phosphorylating ADP to ATP Which of the following describes secondary active transport? O The antiport...
O D Side-by-Side The thermodynamics of vesicle loading: Primary and secondary active transport "Vesicle loading is another interesting application of thermodynamics. Think about it. How do neurons form these highly concentrated vesicles full of, say. Ach? It turns out that neurons use a two-step system. First, neurons use the Gibb's free energy from hydrolyzing ATP to pump H+ ions into the vesicle using an H+/ATPase. Given the provided information, and assuming the vesicular membrane potential is 20 mV (positive inside...
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