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[Termination of prokaryotic and eukaryotic translation]. 2007

Jan Kutner
Department of Genetics, Institute of Biochemistry and Biophysics, Polish Academy of Science, 5A Pawinskiego St., 02-106 Warsaw, Poland. janek@ibb.waw.pl

In prokaryotic and eukaryotic organisms termination of translation differs in many aspects. In the first step of termination the release factors recognize stop codons in A site of the ribosome. These factors are responsible for hydrolysis of peptide-tRNA bond and release of newly synthesized peptide. There is only one factor in eukaryotic cells, called eRF1, whereas in prokaryotic cells there are two factors called RF1 and RF2. In termination of translation in mitochondria, process similar to prokaryotes termination, there is only one factor known, called mitochondrial release factor 1 (mRF1). The research in all these systems has revealed important domains in release factors, which are involved in complicated process of termination of translation. This work summarizes new mechanistic aspects of termination of translation and shows some attempts of visualization of this process in many structural studies.

UI MeSH Term Description Entries
D010454 Peptide Termination Factors Proteins that are involved in the peptide chain termination reaction (PEPTIDE CHAIN TERMINATION, TRANSLATIONAL) on RIBOSOMES. They include codon-specific class-I release factors, which recognize stop signals (TERMINATOR CODON) in the MESSENGER RNA; and codon-nonspecific class-II release factors. Termination Release Factor,Factor, Termination Release,Factors, Peptide Termination,Release Factor, Termination,Termination Factors, Peptide
D011387 Prokaryotic Cells Cells lacking a nuclear membrane so that the nuclear material is either scattered in the cytoplasm or collected in a nucleoid region. Cell, Prokaryotic,Cells, Prokaryotic,Prokaryotic Cell
D005057 Eukaryotic Cells Cells of the higher organisms, containing a true nucleus bounded by a nuclear membrane. Cell, Eukaryotic,Cells, Eukaryotic,Eukaryotic Cell
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D012343 RNA, Transfer The small RNA molecules, 73-80 nucleotides long, that function during translation (TRANSLATION, GENETIC) to align AMINO ACIDS at the RIBOSOMES in a sequence determined by the mRNA (RNA, MESSENGER). There are about 30 different transfer RNAs. Each recognizes a specific CODON set on the mRNA through its own ANTICODON and as aminoacyl tRNAs (RNA, TRANSFER, AMINO ACYL), each carries a specific amino acid to the ribosome to add to the elongating peptide chains. Suppressor Transfer RNA,Transfer RNA,tRNA,RNA, Transfer, Suppressor,Transfer RNA, Suppressor,RNA, Suppressor Transfer
D013489 Suppression, Genetic Mutation process that restores the wild-type PHENOTYPE in an organism possessing a mutationally altered GENOTYPE. The second "suppressor" mutation may be on a different gene, on the same gene but located at a distance from the site of the primary mutation, or in extrachromosomal genes (EXTRACHROMOSOMAL INHERITANCE). Suppressor Mutation,Genetic Suppression,Genetic Suppressions,Mutation, Suppressor,Mutations, Suppressor,Suppressions, Genetic,Suppressor Mutations
D014176 Protein Biosynthesis The biosynthesis of PEPTIDES and PROTEINS on RIBOSOMES, directed by MESSENGER RNA, via TRANSFER RNA that is charged with standard proteinogenic AMINO ACIDS. Genetic Translation,Peptide Biosynthesis, Ribosomal,Protein Translation,Translation, Genetic,Protein Biosynthesis, Ribosomal,Protein Synthesis, Ribosomal,Ribosomal Peptide Biosynthesis,mRNA Translation,Biosynthesis, Protein,Biosynthesis, Ribosomal Peptide,Biosynthesis, Ribosomal Protein,Genetic Translations,Ribosomal Protein Biosynthesis,Ribosomal Protein Synthesis,Synthesis, Ribosomal Protein,Translation, Protein,Translation, mRNA,mRNA Translations
D018388 Codon, Terminator Any codon that signals the termination of genetic translation (TRANSLATION, GENETIC). PEPTIDE TERMINATION FACTORS bind to the stop codon and trigger the hydrolysis of the aminoacyl bond connecting the completed polypeptide to the tRNA. Terminator codons do not specify amino acids. Amber Stop Codon,Codon, Amber Stop,Codon, Ochre Stop,Codon, Opal Stop,Codon, Stop,Stop Codon,Terminator Codon,Amber Codon,Amber Terminator Codon,Codon, Termination,Ochre Codon,Ochre Stop Codon,Opal Codon,Opal Stop Codon,Stop Codon UAA,Stop Codon UAG,Stop Codon UGA,Stop Signal, Translation,TAA Codon,TAG Codon,TGA Codon,UAA Codon,UAA Stop Codon,UAG Codon,UAG Stop Codon,UGA Codon,UGA Stop Codon,Amber Codons,Amber Stop Codons,Amber Terminator Codons,Codon UAA, Stop,Codon UAG, Stop,Codon UGA, Stop,Codon, Amber,Codon, Amber Terminator,Codon, Ochre,Codon, Opal,Codon, TAA,Codon, TAG,Codon, TGA,Codon, UAA,Codon, UAA Stop,Codon, UAG,Codon, UAG Stop,Codon, UGA,Codon, UGA Stop,Codons, Amber,Codons, Amber Stop,Codons, Amber Terminator,Codons, Ochre,Codons, Ochre Stop,Codons, Opal,Codons, Opal Stop,Codons, Stop,Codons, TAA,Codons, TAG,Codons, TGA,Codons, Termination,Codons, Terminator,Codons, UAA,Codons, UAA Stop,Codons, UAG,Codons, UAG Stop,Codons, UGA,Codons, UGA Stop,Ochre Codons,Ochre Stop Codons,Opal Codons,Opal Stop Codons,Stop Codon UGAs,Stop Codon, Amber,Stop Codon, Ochre,Stop Codon, Opal,Stop Codon, UAA,Stop Codon, UAG,Stop Codon, UGA,Stop Codons,Stop Codons, Amber,Stop Codons, Ochre,Stop Codons, Opal,Stop Codons, UAA,Stop Codons, UAG,Stop Codons, UGA,Stop Signals, Translation,TAA Codons,TAG Codons,TGA Codons,Termination Codon,Termination Codons,Terminator Codon, Amber,Terminator Codons,Terminator Codons, Amber,Translation Stop Signal,Translation Stop Signals,UAA Codons,UAA Stop Codons,UAA, Stop Codon,UAG Codons,UAG Stop Codons,UAG, Stop Codon,UGA Codons,UGA Stop Codons,UGA, Stop Codon
D024101 Mitochondrial Proteins Proteins encoded by the mitochondrial genome or proteins encoded by the nuclear genome that are imported to and resident in the MITOCHONDRIA. Proteins, Mitochondrial,Mitochondrial Protein,Protein, Mitochondrial
D029701 Saccharomyces cerevisiae Proteins Proteins obtained from the species SACCHAROMYCES CEREVISIAE. The function of specific proteins from this organism are the subject of intense scientific interest and have been used to derive basic understanding of the functioning similar proteins in higher eukaryotes. Baker's Yeast Proteins,S cerevisiae Proteins

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