Answer:
As the diagram is not given, hence let's generally describe the movement of molecules along the cell membrane.
Molecules can either pass through the cell without using energy through the process of passive transport. An example includes molecules of oxygen.
Molecules which are large and un-polar cannot move through the cell membrane easily. These molecules will require energy to move through the cell membrane. These molecules might move in with the help of the carrier or facilitated proteins. Examples include molecules of glucose.
Answer:
The interpretation including its particular topic is demonstrated in the following portion on the interpretation.
Explanation:
- After experiments with Guinea Pigs, Palade transitioned to anything in vitro research in which sections of pancreatic tissue had all been subjected to a pulsed radioactive lysine for something like a shorter amount of time. The radiation leucine pulse must have been subsequently adopted with nonradioactive leucine, as well as the pieces have been fixed but instead analyzed besides electron microscopy as well as transmission line during some different points in time.
- Effects from either the radioactive elements with leucine throughout the reflective coating surrounding the tissue fragments formed autoradiographic particles.
- Such granules eventually passed forward towards the Golgi throughout corresponding different points in time, as well as subsequently towards the cell membranes, whereby they seemed equipped for induction as established zymogen granulates.
Answer:
The risk of traumatic brain damage is incredibly high especially when riding a "2 wheeler".
Explanation:
If you are to have a accident most of the impact energy is absorbed by the helmet, rather than your head and brain.
As an enzyme fits into a substrate at the active site it undergoes a slight change to fit into the substrate. This process is denied by a concept known as the Induced Fit Model. The concept believes that the active site and the substrate are a fit for each other just like puzzle pieces that fit together. That is how when an enzyme finds its fit, that is when the chemical reaction can begin. After the reaction is complete, the enzymes detaches itself and finds another active site.