Answer:
The aminoacyl Trp tRNA would not be produced.
Explanation:
Aminoacyl tRNA synthetase is the enzyme which bonds aminoacids to tRNA by binding the tRNA bindng site. This bond requires energy from cleavage of ATP which is very unstable and it can release amino acid at the ribosome easily.
As a mutation in the trp aminoacyl trna synthetase occurs resulting in eliminatio of tRNA binding site, the aminoacyl TRP tRNA would not be produced.
Well there isnt any graph soo...we cant help you.
The solution surrounding the cell would be termed "hypotonic," in which the osmolarity, or concentration of small particles, is less that the osmolarity of the solution of reference (cytosol). This relative "lack of solids" outside as compared to inside, will lead to water diffusion to where there are more water molecules per solids, or less concentration of water. Osmosis is this driving force that occurs from the diffusion of water from a greater concentration of water (lesser solutes) to a lesser concentration of water (greater solutes). This phenomenon is crucial towards maintaining life and homeostasis within organisms.
Note: the term "osmolarity" refers to the concentration of solid dissolvable particles (solutes or osmolytes) as compared to the concentration of the solvent (water). Therefore it is similar to molarity, where the higher the osmolarity, then the more particles are present per volume of water; and likewise the lower the osmolarity, the more diluted a solution is. It's name comes from the very fact that differences in neighboring osmolarities contribute to osmosis, or the net movement of water.
B I pretty sure sorry if I’m wrong