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Literature DB >> 189802

Synthesis and template-directed polymerization of adenylyl(3'-5')adenosine cyclic 2', 3'-phosphate.

Abstract

Adenylyl(3'-5')adenosine cyclic 2',3'-phosphate (A-A greater than p) was synthesized and its polymerization was attempted under various conditions inthe presence of poly(uridylic acid) and1,3-propanediamine. Reaction at -20 degrees C for 16 days gave polymerized products (up to the 8-mer) in 15% yield and was proved to be dependent on the template. Reaction at 0 degrees C for 16 days gave more extensive (up to the 10-mer) and more efficient (35%) polymerization. The newly formed phosphodiester linkage was exclusively 2'-5'. These results are discussed in comparison with the monomer-condensation reaction.

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Year: 1977 PMID： 189802 DOI： 10.1021/bi00622a024

Source DB: PubMed Journal: Biochemistry ISSN： 0006-2960 Impact factor: 3.162

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Cited

6 in total

1. Nonenzymatic template-dependent ligation of 2',3'-cyclic phosphate-containing oligonucleotides catalyzed by metal ions.

Authors: A V Lutay; E L Chernolovskaya; M A Zenkova; V V Vlasov
Journal: Dokl Biochem Biophys Date: 2005 Mar-Apr Impact factor: 0.788

2. A neutral theory of biogenesis.

Authors: A Ferracin
Journal: Orig Life Date: 1981-12

3. Helical structure formation between complementary oligonucleotides. Minimum chain length required for the template-directed synthesis of oligonucleotides.

Authors: H Sawai; S Totuka; K Yamamoto
Journal: Orig Life Evol Biosph Date: 1997-12 Impact factor: 1.950

Synthesis and template-directed polymerization of adenylyl(3'-5')adenosine cyclic 2', 3'-phosphate.

1. Nonenzymatic template-dependent ligation of 2',3'-cyclic phosphate-containing oligonucleotides catalyzed by metal ions.

2. A neutral theory of biogenesis.

3. Helical structure formation between complementary oligonucleotides. Minimum chain length required for the template-directed synthesis of oligonucleotides.

4. The prebiotic chemistry of nucleotides.

5. Heteropolynucleotides as templates for non-enzymatic polymerizations.

6. Ligation of 2', 3'-cyclic phosphate RNAs for the identification of microRNA binding sites.