Answer:
exhibit a net movement to the side with lower free water concentration
Explanation:
The correct answer would be that the water will exhibit a net movement to the side with lower free water concentration.
<em>Osmosis is generally defined as the movement of water molecules through semi-permeable membranes from the region of higher water potential or lower solute concentration to the region of lower water potential or higher solute concentration.</em>
From the definition, it becomes obvious that <u>there would be a net movement of water between the two solutions to the side with higher solute concentration or lower free water concentration</u>.
Answer:
Chemical inhibitors likely bind to receptors and interfere with receptor activation or signal-receptor binding.
Explanation:
The signaling pathway requires the generation of a signal, its reception by target cells, signal transduction and cellular response. According to the given information, the inhibitors are the large and non-polar molecules. The cell membranes do not allow free passage of large molecules. Therefore, these inhibitors are most likely to interfere with signal reception by target cells.
For the purpose, the inhibitors may bind to the receptors present on the surface of target cells and thereby, not allowing the binding of the signaling molecule to the receptors and the activation of the receptors. Unless the signaling molecule binds to its receptors present on the surface of target cells, receptors remain inactive and there is no signal transduction.
The answer to this question is replication
"<span>Chelicerae" is the mouth appendage in which these venom glands of the spider are located. The correct option among all the options that are given in the question is the second option or option "B". The other options given in the question are incorrect. I hope that this answer has come to your help.</span>