<span>1. Movement 2. Flexibility 3. Protection 4. Support</span>
Answer:
At the "Elongation" or "middle stage" of the translation, the peptide bond is formed.
Explanation:
We know that there are three steps or stages of the translation process. Among these 3, in the elongation stage, amino acids are carried to the ribosome by tRNAs, and then they become linked together to form a chain.
In this stage, at first, methionine-carrying tRNA starts in the middle slot of the ribosome, called the P site. Next to it, a new codon is opened in another slot, called the A site. The A site will be used for the "landing site" for the next tRNA. Once the matching tRNA has arrived in the A site, the formation of the peptide bond happens. This peptide bond connects one amino acid to another. This step transfers the methionine from the first tRNA onto the amino acid of the second tRNA in the A site.
In the left hand side, it shows the time taken for cobalt chloride paper to turn pink in how many minutes. If you look at the graph, you can immediately notice that the bar labeled 'lower surface' in plant X section has the shortest bar. The taller the bar is, the quicker it took for cobalf chloeide paper to turn pink in an increasingly shorter amount of time.
The lower surface in plant X took only one minute for cobalt chloride to turn pink, while others took longer. This is the answer.
B. plant X, lower surface.
Answer: it belong to the kingdom fungi.
Explanation: they are classified based on their spore producing structures.
