Answer:
The correct answer to your question: What step in protein synthesis is most likely inhibited by the antibiotic? Would be: Ribosomal translocation.
Explanation:
During the process of translation of mRNA into a protein chain, a series of other molecules, like tRNA, which are present in the ribosomal subunits, must attach to it and begin the process of translating the codes. Once a starting codon (like in this case AUG) which when translated into tRNA will code for the amino acid fMet, is recognized by the ribosome, the full process of protein formation begins properly. However, in order for it to continue and be completed, there is a process known as ribosomal translocation which is essentially the way that a ribosome, given certain signals from the mRNA, will start sliding down the strand to continue the process of coding for the complementary tRNA sequence and the amino acids that can be coded for by that tRNA sequence. With the use of this antibiotic, the process of translocation was stopped at the point in which the synthesis of protein reached two polypetides fMet-Phe.
Answer:
Active transport
Explanation:
Active transport is the transfer of molecules from a region of high concentration to a region of low concentration using energy.
Unless it has specific about a particular part of the cycle I would say the answer would be the cell cycle.
The correct option is A.
Behavioral genetic is the scientific study of the relationship between gene and the environment; variations among individuals are separated into environment and genetic components. Research in behavioral genetic usually make use of families, twins and adopted individuals in order to determine variations among individuals.