Open AccessRaman Spectra of Isotope-substituted Mitochondria of Living Budding Yeast Cells: Possible Origin of the “Raman Spectroscopic Signature of Life”
Author(s) -
Chikao Onogi,
Hajime Torii,
Hiroo Hamaguchi
Publication year - 2009
Publication title -
chemistry letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.492
H-Index - 114
eISSN - 1348-0715
pISSN - 0366-7022
DOI - 10.1246/cl.2009.898
Subject(s) - chemistry , raman spectroscopy , mitochondrion , yeast , isotope , photochemistry , budding yeast , saccharomyces cerevisiae , biochemistry , physics , quantum mechanics , optics
The 13 C and 2 H isotope substitution effects have been examined for the "Raman spectroscopic signature of life," a mitochondrial Raman band at 1602cm -1 that sharply reflects the metabolic activity of living yeast cells. The band shifts to 1542 cm -1 with 13 C substitution and to 1599 cm -1 with 2 H substitution. Normal mode analysis based on a DFT calculation suggests that it originates from a C=C double bond having no hydrogen atoms attached to the carbon atoms. The in-phase C=C stretch mode of ubisemiquinone radicals (CoQ and/or CoQH˙) emerges as a strong candidate for the origin of the 1602 cm -1 band.
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