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.
why does the body need protein synthesis while the also synthesis protein?
Ribosomes are site of protein synthesis .
No, protein synthesis is endergonic.
Ribosomes are the site of protein synthesis
Ribosomes are directly involved in protein synthesis
Peptidation is a protein synthesis inhibitor. Peptidation is a model based off of RNA selection in the cells of all multicellular organisms.
A protein synthesis inhibitor stops or slows cell growth by stopping the process that leads to the development of new proteins. The inhibitors work through various stages of the prokaryotic translation into proteins. These stages are elongation (which includes proofreading), initiation and termination.
why does the body need protein synthesis while the also synthesis protein?
A protein. That's what protein synthesis means.
Ribosomes are site of protein synthesis .
No, protein synthesis is endergonic.
most of the antibiotics kill or inactivate bacteria by inhibitting the protein synthesis... protein synthesis consists of 'transcription' and 'translation'.. the translation process requiers mRNA and ribosomes.Human(eukaryotic) ribosome is different from bacterial(prokaryotic) ribosome... Antibiotics inhibit the protein synthesis by altering the ribosomal constitution.Since human ribosomes are different from bacterial ribosome,the substances which are harmful to bacterial ribosome doesn't harm human ribosomes.. Thus human cells are immune to antibiotics..
a prostaglandin (PGE2) synthesis inhibitor
it hold the protein synthesis in the ribosomes
Ribosomes, are responsible for protein synthesis.
Ribosomes are the site of protein synthesis
Ribosomes play important role in the protein synthesis.