Total synthesis of a gene
Author(s)
Khorana, H. Gobind
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The method developed for the total synthesis of a given DNA containing biologically specific sequences consists of the following. The DNA in the double-stranded form is carefully divided into short single-stranded segments with suitable overlaps in the complementary strands. All the segments are chemically synthesized starting with protected nucleosides and mono-nucleotides. The 5′-OH ends of the appropriate oligonucleotides are then phosphorylated with the use of [γ-32P]ATP and polynucleotide kinase. A few to several neighboring oligonucleotides are then allowed to form bihelical complexes in aqueous solution, and the latter are joined end to end by polynucleotide ligase to form covalently linked duplexes. Subsequent head-to-tail joining of the short duplexes leads to the total DNA. The methods are described for the construction of a biologically functional suppressor transfer RNA gene. The total work involved (i) the synthesis of a 126-nucleotide-long bihelical DNA corresponding to a known precursor to the tyrosine suppressor transfer RNA, (ii) the sequencing of the promoter region and the distal region adjoining the C-C-A end, which contained a signal for the processing of the RNA transcript, (iii) total synthesis of the 207 base-pair-long DNA, which included the control elements, as well as the Eco R1 restriction endonu-clease specific sequences at the two ends, and (iv) full characterization by transcription in vitro and amber suppressor activity in vivo of the synthetic gene.
Date issued
2012-12Department
Massachusetts Institute of Technology. Department of Biology; Massachusetts Institute of Technology. Department of ChemistryJournal
Resonance
Publisher
Springer-Verlag
Citation
Khorana, H. G. “Total Synthesis of a Gene.” Reson 17, no. 12 (December 2012): 1174–1197.
Version: Author's final manuscript
ISSN
0971-8044
0973-712X