Describe the three mechanisms via which the transport of a solute against its fr
ID: 199575 • Letter: D
Question
Describe the three mechanisms via which the transport of a solute against its free energy gradient can be coupled to a source of energy (identify the source of energy in each case). Explain the difference between direct (primary) and indirect (secondary) active transport and discuss how these two processes are "connected" to each other in cells. Think about how the effect of Na+/K+ ATPase (Na+/K+ pump) on the intracellular concentration (and electrochemical potential) of Na+ can be used to drive the transport of other solutes against their free energy gradient. Explain the major similarities and differences between P-type pumps, V-type pumps, F-type pumps, and ABC transporters in terms of: Type of solute transported Source of energy for transport Transport mechanism (is the pump phosphorylated as part of the transport process) General localization in the cell (obviously, there are exceptions, but in general, where are these different types of pumps located in the cell). Describe the three mechanisms via which the transport of a solute against its free energy gradient can be coupled to a source of energy (identify the source of energy in each case). Explain the difference between direct (primary) and indirect (secondary) active transport and discuss how these two processes are "connected" to each other in cells. Think about how the effect of Na+/K+ ATPase (Na+/K+ pump) on the intracellular concentration (and electrochemical potential) of Na+ can be used to drive the transport of other solutes against their free energy gradient. Explain the major similarities and differences between P-type pumps, V-type pumps, F-type pumps, and ABC transporters in terms of: Type of solute transported Source of energy for transport Transport mechanism (is the pump phosphorylated as part of the transport process) General localization in the cell (obviously, there are exceptions, but in general, where are these different types of pumps located in the cell). Describe the three mechanisms via which the transport of a solute against its free energy gradient can be coupled to a source of energy (identify the source of energy in each case). Explain the difference between direct (primary) and indirect (secondary) active transport and discuss how these two processes are "connected" to each other in cells. Think about how the effect of Na+/K+ ATPase (Na+/K+ pump) on the intracellular concentration (and electrochemical potential) of Na+ can be used to drive the transport of other solutes against their free energy gradient. Explain the major similarities and differences between P-type pumps, V-type pumps, F-type pumps, and ABC transporters in terms of: Type of solute transported Source of energy for transport Transport mechanism (is the pump phosphorylated as part of the transport process) General localization in the cell (obviously, there are exceptions, but in general, where are these different types of pumps located in the cell).Explanation / Answer
Three mechanism that works for solute to move against its gradiend include:
1.ATPase/ v-type pump that uses ATP as the energy source
2. Secondary active transport that employes coupling with a molecule that has enough energy to move itself across the membrane
3. Facultative transport in which a membrane protein that is an integral protein is used to move the solute across it
It uses ATP directly for the transport
It plays a direct role in cellular metabolism
it uses ATP indirectly
It plays an indirect role in cellular metabolisms
These two processes are connected to each other in the cell as they transport solute against the gradient and the hydrolysis of the ATP makes it efficient and specific in nature
Primary active transport secondary active transportIt uses ATP directly for the transport
It plays a direct role in cellular metabolism
it uses ATP indirectly
It plays an indirect role in cellular metabolisms
Related Questions
drjack9650@gmail.com
Navigate
Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.