Unusual nonterrestrial <scp>l</scp>‐proteinogenic amino acid excesses in the Tagish Lake meteorite

Glavin, Daniel P.; Elsila, Jamie E.; Burton, Aaron S.; Callahan, Michael P.; Dworkin, Jason P.; Hilts, Robert W.; Herd, Christopher D. K.

doi:10.1111/j.1945-5100.2012.01400.x

Cited by 117 publications

(182 citation statements)

References 59 publications

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“…Its mineralogical and chemical properties are between those of CM and CI meteorites, and its high microporosity (∼40%) makes it a good candidate material for the composition of low bulk density primitive asteroids (e.g., Brown et al 2000;Hildebrand et al 2006). Moreover, nonterrestrial L-proteinogenic amino acid excesses have been detected in this meteorite, strengthening the hypothesis that primitive minor bodies could have delivered enantiomerically enriched amino acids to the early Earth that could have triggered the emergence of life (Glavin et al 2012). If confirmed, a link with the Tagish Lake meteorite would be fascinating, and would confirm the very primitive nature of 1996 FG3, in agreement with the results by Rivkin et al (2013).…”

Section: Spectral Analysis and Discussionmentioning

confidence: 53%

Ultraviolet to near-infrared spectroscopy of the potentially hazardous, low delta-V asteroid (175706) 1996 FG3

Perna

Dotto

Barucci

et al. 2013

A&A

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Context. Primitive near-Earth asteroids (NEAs) are important subjects of study for current planetary research. Their investigation can provide crucial information on topics such as the formation of the solar system, the emergence of life, and the mitigation of the risk of asteroid impact. Sample return missions from primitive asteroids have been scheduled or are being studied by space agencies, including the MarcoPolo-R mission selected for the assessment study phase of ESA M3 missions. Aims. We want to improve our knowledge of the surface composition and physical nature of the potentially hazardous, low delta-V asteroid (175706) 1996 FG3, backup target of MarcoPolo-R. This intriguing object shows an as-yet unexplained spectral variability. Methods. We performed spectroscopic observations of 1996 FG3 using the visible spectrograph DOLORES at the Telescopio Nazionale Galileo (TNG), and the UV-to-NIR X-Shooter instrument at the ESO Very Large Telescope (VLT). Results. We find featureless spectra and we classify 1996 FG3 as a primitive Xc-type in the Bus-DeMeo taxonomy. Based on literature comparison, we confirm the spectral variability of this object at near-infrared (NIR) wavelengths, and find that spectral variations exist also for the visible spectral region. Phase reddening cannot explain such variations. Obtained with the same observational conditions for the whole 0.3-2.2 µm range, our X-Shooter spectrum allowed a proper comparison with the RELAB meteorite database. A very good fit is obtained with the very primitive C2 Tagish Lake carbonaceous chondrite (pressed powder), confirming 1996 FG3 as a suitable target for a sample return mission from primitive NEAs. Conclusions. We hypothesize a compacted/cemented surface for 1996 FG3, like that observed by the Hayabusa mission on (25143) Itokawa, with the possible presence of regions showing different degrees of surface roughness. This variegation could be related to the binary nature of 1996 FG3, but to check this hypothesis further observations are necessary.

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Section: Spectral Analysis and Discussionmentioning

confidence: 53%

Ultraviolet to near-infrared spectroscopy of the potentially hazardous, low delta-V asteroid (175706) 1996 FG3

Perna

Dotto

Barucci

et al. 2013

A&A

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“…B. Lit. [2][3][4][5]). Unabhängig davon besteht wachsendes Interesse an der Erzeugung reiner Enantiomere in den Bereichen der Life Sciences, wie der Lebensmittel-und der agrochemischen Industrie sowie insbesondere in der pharmazeutischen Industrie.…”

Section: Introductionunclassified

Verfahren zur Enantiomerentrennung

Lorenz

Seidel‐Morgenstern

2014

Angewandte Chemie

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Die Verfügbarkeit reiner Enantiomere ist von steigender Bedeutung für die pharmazeutische Industrie sowie auch für die Agrochemie und Biotechnologie. Generell gibt es zwei konkurrierende Ansätze zur Gewinnung von reinen Enantiomeren. Der “chirale” Ansatz basiert auf der Entwicklung einer asymmetrischen Synthese, die selektiv eines der Enantiomere liefert. Der “racemische” Ansatz basiert auf der Trennung eines Gemischs der beiden Enantiomere, wobei hier in den letzten Jahren bemerkenswerte Fortschritte erzielt werden konnten. Dieser Aufsatz fokussiert insbesondere auf enantioselektive Kristallisationsprozesse und präparative Chromatographie, einschließlich hybrider Trennprozesse und der zusätzlichen Integration von Racemisierungsschritten. Zur Illustration dienen mehrere in unserem Arbeitskreis untersuchte Trennungen.

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“…There is ample evidence that many of these materials are truly extraterrestrial, and not terrestrial contamination. For example, the extraterrestrial nature of the many amino acids detected in meteorites is supported by the presence of (i) amino acids not used by biological systems on Earth, (ii) amino acids that are largely (but not entirely) racemic, and (iii) amino acids having non-terrestrial isotopic ratios (Engel and Macko 1997;Pizzarello 1997, 1999;Pizzarello and Huang 2003;Martins et al 2007;Glavin et al 2012;Callahan et al 2013). …”

Section: 22mentioning

confidence: 99%

Photosynthesis and Photo-Stability of Nucleic Acids in Prebiotic Extraterrestrial Environments

Sandford

Bera

Lee

et al. 2014

Topics in Current Chemistry

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Laboratory experiments have shown that the UV photo-irradiation of low-temperature ices of astrophysical interest leads to the formation of organic molecules, including molecules important for biology such as amino acids, quinones, and amphiphiles. When pyrimidine is introduced in these ices, the products of irradiation include the nucleobases uracil, cytosine, and thymine, the informational sub-units of DNA and RNA, as well as some of their isomers. The formation of these compounds, which has been studied both experimentally and theoretically, requires a succession of additions of OH, NH 2 , and CH 3 groups to pyrimidine. Results show that H 2 O ice plays key roles in the formation of the nucleobases, as an oxidant, as a matrix in which reactions can take place, and as a catalyst that assists proton abstraction from intermiediate compounds. As H 2 O is also the most abundant icy component in most cold astrophysical environments, it probably plays the same roles in space for the formation of biologically relevant compounds. Results also show that although the formation of uracil and cytosine from pyrimidine in ices is fairly straightforward, the formation of thymine is not. This is mostly due to the fact that methylation is a limiting step for its formation, particularly in H 2 O-rich ices, where methylation must competes with oxidation. The relative inefficiency of the abiotic formation of thymine to that of uracil and cytosine, coupled with the fact that thymine has not been detected in meteorites are not inconsistent with the RNA world hypothesis. Indeed, a lack of abiotically produced thymine delivered to the early Earth may have forced the choice for an RNA world, in which only uracil and cytosine are needed, but not thymine.

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Unusual nonterrestrial l‐proteinogenic amino acid excesses in the Tagish Lake meteorite

Cited by 117 publications

References 59 publications

Ultraviolet to near-infrared spectroscopy of the potentially hazardous, low delta-V asteroid (175706) 1996 FG3

Ultraviolet to near-infrared spectroscopy of the potentially hazardous, low delta-V asteroid (175706) 1996 FG3

Verfahren zur Enantiomerentrennung

Photosynthesis and Photo-Stability of Nucleic Acids in Prebiotic Extraterrestrial Environments

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