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1

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The prebiotic synthesis of modified purines and their potential role in the RNA world (1999)

Miller, S. L. ; Levy, M. ; Bada, J. L.

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Publication Date: 2011-08-24

Description: Modified purines are found in all organisms in the tRNA, rRNA, and even DNA, raising the possibility of an early role for these compounds in the evolution of life. These include N6-methyladenine, 1-methyladenine, N6,N6-dimethyladenine, 1-methylhypoxanthine, 1-methylguanine, and N2-methylguanine. We find that these bases as well as a number of nonbiological modified purines can be synthesized from adenine and guanine by the simple reaction of an amine or an amino group with adenine and guanine under the concentrated conditions of the drying-lagoon or drying-beach model of prebiotic synthesis with yields as high as 50%. These compounds are therefore as prebiotic as adenine and guanine and could have played an important role in the RNA world by providing additional functional groups in ribozymes, especially for the construction of hydrophobic binding pockets.

Keywords: Exobiology

Type: Journal of molecular evolution (ISSN 0022-2844); Volume 48; 6; 631-7

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2

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Cleavage of an amide bond by a ribozyme (1995)

De Mesmaeker, A. ; Joyce, G. F. ; Dai, X. ; [et al.]

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Publication Date: 2011-08-24

Description: A variant form of a group I ribozyme, optimized by in vitro evolution for its ability to catalyze magnesium-dependent phosphoester transfer reactions involving DNA substrates, also catalyzes the cleavage of an unactivated alkyl amide when that linkage is presented in the context of an oligodeoxynucleotide analog. Substrates containing an amide bond that joins either two DNA oligos, or a DNA oligo and a short peptide, are cleaved in a magnesium-dependent fashion to generate the expected products. The first-order rate constant, kcat, is 0.1 x 10(-5) min-1 to 1 x 10(-5) min-1 for the DNA-flanked substrates, which corresponds to a rate acceleration of more than 10(3) as compared with the uncatalyzed reaction.

Keywords: Exobiology

Type: Science (ISSN 0036-8075); Volume 267; 5195; 237-40

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3

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Oparin's "Origin of Life": sixty years later (1997)

Schopf, J. W. ; Miller, S. L. ; Lazcano, A.

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Publication Date: 2011-08-24

Description: No abstract available

Keywords: Exobiology

Type: Journal of molecular evolution (ISSN 0022-2844); Volume 44; 4; 351-3

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4

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The stability of the RNA bases: implications for the origin of life (1998)

Levy, M. ; Miller, S. L. ; Bada, J. L.

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Publication Date: 2011-08-24

Description: High-temperature origin-of-life theories require that the components of the first genetic material are stable. We therefore have measured the half-lives for the decomposition of the nucleobases. They have been found to be short on the geologic time scale. At 100 degreesC, the growth temperatures of the hyperthermophiles, the half-lives are too short to allow for the adequate accumulation of these compounds (t1/2 for A and G approximately 1 yr; U = 12 yr; C = 19 days). Therefore, unless the origin of life took place extremely rapidly (〈100 yr), we conclude that a high-temperature origin of life may be possible, but it cannot involve adenine, uracil, guanine, or cytosine. The rates of hydrolysis at 100 degreesC also suggest that an ocean-boiling asteroid impact would reset the prebiotic clock, requiring prebiotic synthetic processes to begin again. At 0 degreesC, A, U, G, and T appear to be sufficiently stable (t1/2 〉/= 10(6) yr) to be involved in a low-temperature origin of life. However, the lack of stability of cytosine at 0 degreesC (t1/2 = 17, 000 yr) raises the possibility that the GC base pair may not have been used in the first genetic material unless life arose quickly (〈10(6) yr) after a sterilization event. A two-letter code or an alternative base pair may have been used instead.

Keywords: Exobiology

Type: Proceedings of the National Academy of Sciences of the United States of America (ISSN 0027-8424); Volume 95; 14; 7933-8

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5

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Amino acid racemization on Mars: implications for the preservation of biomolecules from an extinct martian biota (1995)

Miller, S. L. ; Bada, J. L. ; McDonald, G. D.

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Publication Date: 2011-08-24

Description: Using kinetic data, we have estimated the racemization half-lives and times for total racemization of amino acids under conditions relevant to the surface of Mars. Amino acids from an extinct martian biota maintained in a dry, cold (〈250 K) environment would not have racemized significantly over the lifetime of the planet. Racemization would have taken place in environments where liquid water was present even for time periods of only a few million years following biotic extinction. The best preservation of both amino acid homochirality and nucleic acid genetic information associated with extinct martian life would be in the polar regions.

Keywords: Exobiology

Type: Icarus (ISSN 0019-1035); Volume 114; 139-43

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6

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A possible prebiotic synthesis of pantetheine, a precursor to coenzyme A (1995)

Keefe, A. D. ; Miller, S. L. ; Newton, G. L.

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Publication Date: 2011-08-24

Description: The involvement of coenzyme A in many enzyme reactions suggests that it acted in this capacity very early in the development of life on Earth. Particularly relevant in this regard is its role in the activation of amino acids and hydroxy acids in the biosynthesis of some peptide antibiotics--a mechanism of peptide synthesis that forms the basis for the proposal that a thioester world could have preceded the RNA world. The components of coenzyme A have been shown to be probable prebiotic compounds: beta-alanine, pantoyl lactone and cysteamine and possibly adenosine. We show here that the pantetheine moiety of coenzyme A (which also occurs in a number of enzymes) can be synthesized in yields of several per cent by heating pantoyl lactone, beta-alanine and cysteamine at temperatures as low as 40 degrees C. These components are extremely soluble and so would have been preferentially concentrated in evaporating bodies of water, for example on beaches and at lagoon margins. Our results show that amide bonds can be formed at temperatures as low as 40 degrees C, and provide circumstantial support for the suggestion that pantetheine and coenzyme A were important in the earliest metabolic systems.

Keywords: Exobiology

Type: Nature (ISSN 0028-0836); Volume 373; 6516; 683-5

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7

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The origin and early evolution of life: prebiotic chemistry, the pre-RNA world, and time (1996)

Miller, S. L. ; Lazcano, A.

In: Other Sources

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Publication Date: 2011-08-24

Description: No abstract available

Keywords: Exobiology

Type: Cell (ISSN 0092-8674); Volume 85; 6; 793-8

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8

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Hydrogen consumption by methanogens on the early Earth (1998)

Kral, T. A. ; Miller, S. L. ; McKay, C. P. ; [et al.]

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Publication Date: 2011-08-24

Description: It is possible that the first autotroph used chemical energy rather than light. This could have been the main source of primary production after the initial inventory of abiotic organic material had been depleted. The electron acceptor most readily available for use by this first chemoautotroph would have been CO2. The most abundant electron donor may have been H2 that would have been outgassing from volcanoes at a rate estimated to be as large as 10(12) moles yr-1, as well as from photo-oxidation of Fe+2. We report here that certain methanogens will consume H2 down to partial pressures as low as 4 Pa (4 x 10(-5) atm) with CO2 as the sole carbon source at a rate of 0.7 ng H2 min-1 microgram-1 cell protein. The lower limit of pH2 for growth of methanogens can be understood on the basis that the pH2 needs to be high enough for one ATP to be synthesized per CO2 reduced. The pH2 values needed for growth measured here are consistent with those measured by Stevens and McKinley for growth of methanogens in deep basalt aquifers. H2-consuming autotrophs are likely to have had a profound effect on the chemistry of the early atmosphere and to have been a dominant sink for H2 on the early Earth after life began rather than escape from the Earth's atmosphere to space.

Keywords: Exobiology

Type: Origins of life and evolution of the biosphere : the journal of the International Society for the Study of the Origin of Life (ISSN 0169-6149); Volume 28; 3; 311-9

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9

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Oceanic protection of prebiotic organic compounds from UV radiation (1998)

Miller, S. L. ; Bada, J. L. ; Cleaves, H. J.

In: Other Sources

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Publication Date: 2011-08-24

Description: It is frequently stated that UV light would cause massive destruction of prebiotic organic compounds because of the absence of an ozone layer. The elevated UV flux of the early sun compounds this problem. This applies to organic compounds of both terrestrial and extraterrestrial origin. Attempts to deal with this problem generally involve atmospheric absorbers. We show here that prebiotic organic polymers as well as several inorganic compounds are sufficient to protect oceanic organic molecules from UV degradation. This aqueous protection is in addition to any atmospheric UV absorbers and should be a ubiquitous planetary phenomenon serving to increase the size of planetary habitable zones.

Keywords: Exobiology

Type: Proceedings of the National Academy of Sciences of the United States of America (ISSN 0027-8424); Volume 95; 13; 7260-3

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10

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Attempted prebiotic synthesis of pseudouridine (1997)

Dworkin, J. P. ; Miller, S. L.

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Publication Date: 2011-08-24

Description: Pseudouridine is a modified base found in all tRNA and rRNA. Hence, it is reasonable to think that pseudouridine was important in the early evolution, if not the origin, of life. Since uracil reacts rapidly with formaldehyde and other aldehydes at the C-5 position, it is plausible that pseudouridine could be synthesized in a similar way by the reaction of the C-5 of uracil with the C-1 of ribose. The determining factor is whether the ribose could react with the uracil faster than ribose decomposes. However, both rates are determined by the amount of free aldehyde in the ribose. Various plausible prebiotic reactions were investigated and none showed pseudouridine above the detection limit (〈0.01%). Only unreacted uracil and ribose decomposition products could be observed. Thus the rate of addition of ribose to uracil is much slower than the decomposition of ribose under any reasonable prebiotic conditions. Unless efficient non-biological catalysts for any of these reactions exist, pseudouridine would not have been synthesized to any significant extent without the use of biologically produced enzymes.

Keywords: Exobiology

Type: Origins of life and evolution of the biosphere : the journal of the International Society for the Study of the Origin of Life (ISSN 0169-6149); Volume 27; 4; 345-55

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