When our bodies are under attack from foreign organisms,such as bacteria and viruses,our immune system orchestrates a complex fight-back involving many separate parts.One important component of this response is a type of cell called the B-lymphocyte–it is this cell that is at the forefront of
Transfer RNA plays a fundamental role in the protein biosynthesis as an adaptor molecule by functioning as a biological link between the genetic nucleotide sequence in the mRNA and the amino acid sequence in the protein.To perform its role in protein biosynthesis,it has to be accurately recognized by aminoacyl-tRNA synthetases(aaRSs)to generate aminoacyl-tRNAs(aa-tRNAs).The correct pairing between an amino acid with its cognate tRNA is crucial for translational quality control.Production and utilization of mis-charged tRNAs are usually detrimental for all the species,resulting in cellular dysfunctions.Correct aa-tRNAs formation is collectively controlled by aaRSs with distinct mechanisms and/or other trans-factors.However,in very limited instances,mis-charged tRNAs are intermediate for specific pathways or essential components for the translational machinery.Here,from the point of accuracy in tRNA charging,we review our understanding about the mechanism ensuring correct aa-tRNA generation.In addition,some unique mis-charged tRNA species necessary for the organism are also briefly described.
