@article{MikhailyukLoksteinRazjivin2005,
  author    = {Mikhailyuk, Igor K. and Lokstein, Heiko and Razjivin, Andrei P.},
  title     = {A method of spectral subband decomposition by simultaneous fitting the initial spectrum and a set of its derivatives},
  year      = {2005},
  abstract  = {An improved method for spectral subband decomposition based on simultaneous fitting of the initial spectrum and a set of its derivatives is introduced. Additionally, it procedure for finding an optimal smoothing filter to obtain undistorted derivatives IS Suggested. The proposed method is demonstrated with a model spectrum as well its with experimental absorption spectra of the photosynthetic antenna complexes, peridinin-chlorophyll a-protein (PCP) and the main light-harvesting complex of higher plants (LHC II). (c) 2005 Elsevier B.V. All rights reserved},
  language  = {en}
}
@article{MikhailyukKnoxPaschenkoetal.2006,
  author    = {Mikhailyuk, Igor K. and Knox, Peter P. and Paschenko, Vladimir Z. and Razjivin, Andrej P. and Lokstein, Heiko},
  title     = {Analysis of absorption spectra of purple bacterial reaction centers in the near infrared region by higher order derivative spectroscopy},
  doi       = {10.1016/j.bpc.2006.02.002},
  year      = {2006},
  abstract  = {Reaction centers (RCs) of purple bacteria are uniquely suited objects to study the mechanisms of the photosynthetic conversion of light energy into chemical energy. A recently introduced method of higher order derivative spectroscopy [I.K. Mikhailyuk, H. Lokstein, A.P. Razjivin, A method of spectral subband decomposition by simultaneous fitting the initial spectrum and a set of its derivatives, J. Biochem. Biophys. Methods 63 (2005) 10-23] was used to analyze the NIR absorption spectra of RC preparations from Rhodobacter (R.) sphaeroides strain 2R and Blastochloris (B.) viridis strain KH, containing bacteriochlorophyll (BChl) a and b, respectively. Q(y) bands of individual RC porphyrin components (BChls and bacteriopheophytins, BPheo) were identified. The results indicate that the upper exciton level Py+ of the photo-active BChl dimer in RCs of R. sphaeroides has an absorption maximum of 810nm. The blue shift of a complex integral band at approximately 800nm upon oxidation of the RC is caused primarily by bleaching of Py+, rather than by an electrochromic shift of the absorption band(s) of the monomeric BChls. Likewise, the disappearance of a band peaking at 842 nm upon oxidation of RCs from B. viridis indicates that this band has to be assigned to Py+, A blue shift of an absorption band at approximately 830nm upon oxidation of RCs of B. viridis is also essentially caused by the disappearance of Py+, rather than by an electrochromic shift of the absorption bands of monomeric BChls. Absorption maxima of the monomeric BCHls, B-B and B-A are at 802 and 797nm, respectively, in RCs of R. sphaeroides at room temperature. BPheo co-factors H-B and HA peak at 748 and 758 nm, respectively, at room temperature. For B. viridis RCs the spectral positions of HB and HA were found to be 796 and 816nm, respectively, at room temperature.},
  language  = {en}
}