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Main Index >> Protein Synthesis - History
* Protein Synthesis - History
* Nobel Prize Winners in Protein Synthesis
* Central Dogma of Protein Synthesis
* Outline of Protein Synthesis
* Transcription
* Chain Elongation
* Chain Termination
* Comparison of the Components of the Protein Synthesis Systems of Prokaryotes and Eukaryotes
* Components of the Transcription Machinery
* Role of RNA Polymerase
* Recognition, Binding and Initiation Sites on DNA
* Cryptic Initiation Sites in Eukaryotic mRNAs
* Unwinding of DNA Double Helix
* RNA Chains Starts with pppG or pppA
* Elongation of RNA Chain
* RNA Chain Termination
* RNA Polymerases in Prokaryotes
* RNA Polymerases in Eukaryotes
* Components of RNA Polymerases of Escherichia coli and Bacillus Subtilis
* DNA Dependent RNA Polymerases of Eukaryotes
* Characteristics of Subunits of Different RNA Polymerases of Calf Thymus
* Functions of eukaryote RNA Polymerases
* Translation
* Activation of Amino Acids
* Transfer of Amino Acids to tRNA
* Initiation Factors
* Nomenclature of Prokaryotic and Eukaryotic Initiation Factors
* Formylation of Methionine
* Starting Amino Acids, Initiation tRNAs and Amino acid tRNA Complexes of Eukaryotes and Prokaryotes
 

Protein Synthesis - History


Protein Synthesis - History

1941. Caspersson and Brachet showed that nucleic acids are connected with protein synthesis.

1952. Porter described the endoplasmic reticulum.

1953. Palade described the ribosome.

1954. Gamow suggested a minimum genetic code of three nucleotides.

1955. Grunberg-Manago and Ochoa isolated the enzyme which links  RNA nucleotides, to from RNA in vitro.

1956. Kornberg reported that in vitro synthesis an enzyme is necessary for DNA synthesis.

1956. Hoagland and co workers showed that separate enzymes catalyse the activation of different amino acids

1957. Hoagland and others reported the presence of tRNA, and showed that it combines with amino acids before protein synthesis

1957. Kornberg and co-workers isolated DNA polymerase enzyme of E. coli that could be used for in vitro synthesis of DNA.

1958. Tissieres and Watson isolated 70S E. coli ribosomes and showed that they consist of two subunits, 50S and 30S

1958. Crick proposed the central dogma of molecular biology, that DNA determines the sequence of amino acids in a polypeptide.

1961. Nirenberg and Mathei demonstrated that a particular RNA sequence produces a particular amino acid sequence.

1961. Jacob and Monod postulated the presence and function of mRNA in protein synthesis, and proposed the operon concept.

1961. Brenner, Jacob, and Meselson demonstrated the function of mRNA in protein synthesis.

1961. Crick and others produced direct evidence that the genetic code  is a triplet code.

1961. Hall and Spiegelman obtained direct evidence that the mRNA molecule is formed on one DNA template strand.

1963. Temin reported that in certain tumour viruses RNA synthesizes DNA, which in turn codes for proteins (Teminism).

1964. Holley described the nucleotide sequence of alanine tRNA mole cule of yeast.

1964. Nirenberg and Leder showed that tRNA binding on the ribosome depends on mRNA.

1966. Spiegelman and colleagues successfully replicated biologically      active viral RNA in test tube.

1967. Kornberg and Sinsheimer synthesized single stranded DNA in ØX174 bacteriophage

1967. Khorana and others showed that DNA ligase is capable of joining short lengths of DNA.

1970. Khorana synthesized an artificial gene from DNA nucleotides.
* Formation of the 30S Initiation Complex
* Formation of the mRNA-30S Subunit Complex
* Binding of fMet-tRNA with mRNA-30S Complex
* Elongation Factors
* Binding of Aminoacyl tRNA to the A Site
* Peptide Bond Formation
* Translocation
* Role of Ribosomal Proteins
* Translocation Reactions
* Movement of mRNA
* Release of Deacylated tRNA
* Hydrolysis of GTP
* Locking and Unlocking Ribosome Model
* Inchworn Theory
* Conformational Changes
* Recognition of the Termination Signal
* Release of the Polypeptide Chain
* Prokaryote and Eukaryote Release Factors
* Processing Polypeptide Chain
* Rate of Protein Synthesis
* Signal Hypothesis
* Prokaryote and Eukaryote Protein Synthesis
* Teminism
 
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