on the ribosomes in the cytoplasm of the cell
The first step of protein synthesis is transcription which occurs in the cell nucleus.
Th first step of protein synthesis occurs during transcription i.e when the mRNA is produced according to the specific message provided by the codogen on the DNA strand.
nucles
In prokaryotes tetracycline, chloremphenicol can inhibit protein synthesis. Puromycin is an antibiotic that inhibit both prokaryotic and eukaryotic protein synthesis. Each antibiotics has specific mode of action where it inhibits by binding, for example Chloremphenicol block the peptidyl transfer step.
Transcription
Translation
mitochondria
Following the initiation of DNA replication, the first step is the synthesis of a short RNA primer.
I have no idea
It is the first step in creating proteins.
all of the above
denaturation for degradation synthesis: first step is Transcription, The second step is Translation; there are additional steps (post-translational modifications) after that the polypeptide is formed including the formation of 3D conformation
transcription
Transcription
In the body, proteins are synthesized inside organelles known as ribosomes. The first step in protein synthesis is the transcription of mRNA from a gene of DNA. The second step is for protein synthesis to begin and the formation of a protein chain to take place. The third step is for the ribosome to terminate production of the protein, hydrolyze the ingredients that initiated protein production, and then release the protein from the ribosome.
transferring of information from DNA to messenger RNA
there will not be enough amount of amino acids present in the protein deficient food, hence there will not be enough protein synthesis.
The first step of protein synthesis is transcription, where the DNA "unzips" to direct the production of a strand of messenger RNA (mRNA). This carries the instructions for the production of protein to the ribosome. Transcription is further divided into three stages: into 3 stages: initiation, elongation, and termination.
In prokaryotes tetracycline, chloremphenicol can inhibit protein synthesis. Puromycin is an antibiotic that inhibit both prokaryotic and eukaryotic protein synthesis. Each antibiotics has specific mode of action where it inhibits by binding, for example Chloremphenicol block the peptidyl transfer step.
protein synthesis