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1

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Molecular replication (1986)

Orgel, L. E.

In: CASI

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Publication Date: 2006-02-14

Description: The object of our research program is to understand how polynucleotide replication originated on the primitive Earth. This is a central issue in studies of the origins of life, since a process similar to modern DNA and RNA synthesis is likely to have formed the basis for the most primitive system of genetic information transfer. The major conclusion of studies so far is that a preformed polynucleotide template under many different experimental conditions will facilitate the synthesis of a new oligonucleotide with a sequence complementary to that of the template. It has been shown, for example, that poly(C) facilitates the synthesis of long oligo(G)s and that the short template CCGCC facilities the synthesis of its complement GGCGG. Very recently we have shown that template-directed synthesis is not limited to the standard oligonucleotide substrates. Nucleic acid-like molecules with a pyrophosphate group replacing the phosphate of the standard nucleic acid backbone are readily synthesized from deoxynucleotide 3'-5'-diphosphates on appropriate templates.

Keywords: SPACE BIOLOGY

Type: NASA, Washington Second Symposium on Chemical Evolution and the Origin and Evolution of Life; p 72

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2

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Prebiotic chemistry and nucleic acid replication (1974)

Lohrmann, R. ; Orgel, L. E.

In: Other Sources

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Publication Date: 2011-08-16

Description: Recent work is reviewed on some reactions that could have occurred on the primitive earth and that could have played a part in the evolution of a self-replicating system. The transition from the primitive atmosphere to the simplest replicating molecules is considered in four stages: (1) the formation of a 'prebiotic soup' of organic precursors, including the purine and pyrimidine bases and the pentose sugars; (2) the condensation of these precursors and inorganic phosphate to form monomeric nucleotides and activated nucleotide derivatives; (3) the polymerization of nucleotide derivatives to oligonucleotides; and (4) the complementary replication of oligonucleotides in a template-directed process that depends on Watson-Crick base pairing.

Keywords: SPACE BIOLOGY

Type: Accounts of Chemical Research; 7; 1974

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3

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Template polymerization of nucleotide analogues (1991)

Orgel, L. E.

In: CASI

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Publication Date: 2013-08-31

Description: Recent work on the template-directed reactions of the natural D-nucleotides has made it clear that l-nucleotides and nucleotide-like derivatives of other sugars would strongly inhibit the formation of long oligonucleotides. Consequently, attention is focusing on molecules simpler than nucleotides that might have acted as monomers of an information transfer system. We have begun a general exploration of the template directed reactions of diverse peptide analogues. I will present work by Dr. Taifeng Wu on oxidative oligomerization of phosphorothioates and of Dr. Mary Tohidi on the cyclic polymerization of nucleoside and related cyclic pyrophosphates.

Keywords: SPACE BIOLOGY

Type: NASA, Washington, Fourth Symposium on Chemical Evolution and the Origin and Evolution of Life; p 50

Format: application/pdf

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Overview

4

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Chiral selection in poly(C)-directed synthesis of oligo(G) (1984)

Visser, G. M. ; Van Boom, J. H. ; Joyce, G. F. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: An experimental study is reported which shows that poly(C)-directed oligomerization of activated guanosine mononucleotides proceeds readily if the monomers are of the same optical handedness as the template, and is far less efficient if the monomers are of the opposite handedness. However, in template-directed reactions with a racemic mixture, monomers of the opposite handedness to the template are incorporated as chain terminators at the 2'(3') end of the products. This inhibition raises an important problem for many theories of the origin of life.

Keywords: SPACE BIOLOGY

Type: Nature (ISSN 0028-0836); 310; 602-604

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5

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Template-directed polynucleotide synthesis on mineral surfaces (1985)

Orgel, L. E. ; Schwartz, A. W.

In: Other Sources

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Publication Date: 2019-06-28

Description: Ferric hydroxide, a plausible prebiotic material, strongly adsorbs polynucleotides. It is shown that adsorption on ferric hydroxide and on several other minerals has no effect, under the conditions studied, on the template-directed oligomerization of guanylic acid on polycytidylic acid.

Keywords: SPACE BIOLOGY

Type: Journal of Molecular Evolution (ISSN 0022-2844); 21; 3 19; 299

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6

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Template-directed synthesis of novel, nucleic acid-like structures (1985)

Schwartz, A. W. ; Orgel, L. E.

In: Other Sources

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Publication Date: 2019-06-28

Description: In studying the origins of life, it is important to examine reactions of substrate mixtures that could plausibly have accumulated on the primitive earth. Nucleoside diphosphates would probably have been synthesized along with the standard nucleotides under prebiotic conditions. For these reasons, the template-directed reactions of activated derivatives of these diphosphates, alone or mixed with activated nucleotides, were investigated. An activated derivative of deoxyguanosine 3',5'-didphosphate condensed efficiently on a polycytidylate template to give oligonucleotide analogous in which each 3,5'ophosphodiester bond was replaced by a pyrophosphate linkage. Oligomers were formed even in the absence of a template, but much more slowly. Template-directed condensation occurred also with an analogous deoxadenosine derivative on polyuridylic acid and with an analogous acycloguanosine derivative on polycytidylic acid.

Keywords: SPACE BIOLOGY

Type: Science (ISSN 0036-8075); 228; 585-587

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7

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Template-directed synthesis and selective adsorption of oligoadenylates in hydroxyapatite (1980)

Lohrmann, R. ; Gibbs, D. ; Orgel, L. E.

In: Other Sources

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Publication Date: 2019-06-27

Description: Polyuridylic acid is adsorbed completely from aqueous solution by hydroxyapatite under conditions that permit template-directed synthesis of oligoadenylates in free solution. The yield of oligoadenylates is enhanced to almost the same extent by poly(U) in the presence or the absence of hydroxyapatite. Under very similar conditions small quantities of hydroxyapatite adsorb higher-molecular-weight oligoadenylates selectively from a mixture of oligomers. On the basis of these results a mechanism for prebiotic oligonucleotide formation is proposed in which selective adsorption on hydroxyapatite or some other immobilized anion-exchanging material plays a major role. Monomers are released from the surface for reactivation, while oligomers are retained in a protected environment by adsorption to the apatite surface.

Keywords: SPACE BIOLOGY

Type: Journal of Molecular Evolution; 15; Aug. 198

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8

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Template-directed synthesis of oligoguanylic acids - Metal ion catalysis (1981)

Lohrmann, R. ; Fakhrai, H. ; Bridson, P. K. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The effects of Zn(2+), Pb(2+) and other metal ions on the efficiency and stereo-selectivity of the template-directed oligomerization of guanosine 5'-phosphorimidazolide are investigated. Reactions were run in the presence of a polyC template in a 2,6-lutidine buffer, and products analyzed by high-performance liquid chromatography on an RPC-5 column. The presence of the Pb(2+) ion is found to lead to the formation of 2'-5' linked oligomers up to the 40-mer, while Zn(2+) favors the formation of predominantly 3'-5' linked oligomers up to the 35-mer. When amounts of uracil, cytidine or adenosine 5'-phosphorimidazole equal to those of the guanosine derivative are included in the reaction mixture, the incorrect base is incorporated into the oligomer about 10% of the time with a Pb(2+) catalyst, but less than 0.5% of the time with Zn(2+). The Sn(2+), Sb(3+) and Bi(3+) ions are also found to promote the formation of 2'-5' oligomers, although not as effectively as Pb(2+), while no metal ions other than Zn(2+) promote the formation of the 3'-5' oligomers. The results may be important for the understanding of the evolution of nucleic acid replication in the absence of enzymes.

Keywords: SPACE BIOLOGY

Type: Origin of life; Jun 22, 1980 - Jun 27, 1980; Jerusalem; Israel

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