2010
DOI: 10.1021/jp911728e
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EPR, ENDOR, and HYSCORE Study of the Structure and the Stability of Vanadyl−Porphyrin Complexes Encapsulated in Silica: Potential Paramagnetic Biomarkers for the Origin of Life

Abstract: The possibility of using vanadyl ions as paramagnetic biomarkers for the identification of traces of primitive life fossilized in silica rocks is studied by cw-EPR, ENDOR, HYSCORE, and DFT calculations. It is well-known that porphyrins, which are common to all living organisms, form vanadyl-porphyrin complexes in sediments deposited in oceans. However, the stability of these complexes over a very long time (more than 3 billion years) is not known. By encapsulating vanadyl-porphyrin complexes in silica synthesi… Show more

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Cited by 39 publications
(51 citation statements)
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“…Figure 2) and the spectroscopic parameters listed in Table 2. The obtained experimental and calculated data are in a good correspondence with those for different vanadyls model systems [24,28,34]. The second signal with g-factor of 2.004 is attributed to stable organic "free" radical(s) [15,35].…”
Section: 3supporting
confidence: 79%
“…Figure 2) and the spectroscopic parameters listed in Table 2. The obtained experimental and calculated data are in a good correspondence with those for different vanadyls model systems [24,28,34]. The second signal with g-factor of 2.004 is attributed to stable organic "free" radical(s) [15,35].…”
Section: 3supporting
confidence: 79%
“…), cw-EPR parameters (g-factor, width, lineshape, magnetism), and pulsed-EPR parameters (intensity and shape of 1 H, 13 C, 31 P resonances) would constitute fingerprints of the origin, age, and evolution of primitive CM. In addition to CM, it is worth noting that EPR can also be used to detect inorganic biosignatures, as for example biogenic vanadyl VO 2 + ions (Gourier et al, 2010) and biogenic MnO 2 mineralizations (Kim et al, 2011).…”
Section: Discussionmentioning
confidence: 99%
“…In addition to a weak Fe 3 + signal at g & 4.2, we always observed E¢-center of quartz (an electron trapped at a dangling sp 3 orbital of SiO 3 À 3 ), and the [AlO 4 /h] 0 center, which is an O -ion adjacent to a substitutional Al 3 + in Si site. In addition to these three paramagnetic defects, the 3.49-billion-year-old Warrawoona chert shows a very weak signal of vanadyl VO 2 + ions, which is an inorganic biosignature (Gourier et al, 2010). Also, the 45-million-year-old Clarno chert exhibits four weak, very narrow lines that are unambiguously attributed to isolated CH 3°r adicals .…”
Section: Cw-epr Of Carbonaceous Mattermentioning
confidence: 92%
“…In all cases, the EPR signal is a more or less symmetrical line at nearly free electron spin g-value. In this field range the signal is often superimposed to signals of defects and impurities of the mineral matrix, such as Fe III , VO II , E′ centres and Al Si° centres in SiO 2 (in Kröger-Vink notation) [22,26]. At room temperature and at X-band, the EPR signal of radicals in IOM is superimposed with the g // component of E′ centre of the chert.…”
Section: Epr Of Iom In the Context Of Origin Of Lifementioning
confidence: 99%
“…It is important to note that EPR in such Astrobiological context is only emerging, so that considerable work remains to be done before reaching an EPR's maturity equivalent to that of Raman spectroscopy. It is worth noticing that EPR of transition metal ions can also be used to search for biosignatures of the origin of life [22,23], however this aspect of EPR is not treated in the present chapter.…”
Section: Introductionmentioning
confidence: 99%