(c) 2013 Elsevier Inc All rights reserved “
“Studies of the

(c) 2013 Elsevier Inc. All rights reserved.”
“Studies of the possibility of regulating the regenerative and reparative processes in pathologically modified tissues are reviewed. A ready cell system providing the realization of reparative and regenerative processes in all organs (cell sources of regeneration) exists in all organisms. The authors

suggest that active bioregulators presented in this paper are involved in the mechanisms of tissue regeneration by modulating the cell sources of regeneration.”
“A rearrangement of genera and subgenera in the water mite family Mideopsidae is proposed, resulting in the following see more changes: Mideopsellinae Lundblad, 1937 and Phreatomideopsinae Schwoerbel, 1986 are synonymized with Mideopsidae Koenike, 1910; Djeboa K. Viets, 1911, Mideopsides Lundblad, 1943, Neoxystonotus Lundblad, 1927, Octomideopsis K. Viets, 1931 and Xystonotus Wolcott, 1900 are redefined and proposed as distinct genera. A global key for the genera of the family is given.\n\nNew records of water mites of the genus Djeboa K. Viets, 1911, Xystonotus Wolcott, 1900 and Mideopsellides K.O. Viets, 1962 (Acari: Hydrachnidia, Mideopsidae) from the Afrotropical region are presented. Twenty species new to science are described, i.e., Staurosporine Djeboa amendano (Madagascar), D. amethystica (Madagascar), D. angulipalpis (Madagascar), D. coelestinica

(Madagascar), D. crocodilorum (South Africa), D. curtipalpis (Ghana), Djeboa depressa(Cote d’Ivoire), D. dinosaurophila (South Africa), D. elephantina (Cote d’Ivoire), D. ghanaensis (Ghana), D. gledhilli (Cote d’Ivoire, Ghana), D. globulipalpis (South Africa, Ghana), D. granatica (Madagascar),

D. mandena AZD9291 order (Madagascar), D. maromandia (Madagascar), D. nzia (Cote d’Ivoire), D. turmalinica (Madagascar), D. vanilla (Madagascar), D. wondergemi (Ghana) and Xystonotus madagascariensis (Madagascar); a first description of the male is given for Djeboa bimaculata (Cook, 1966). A key for all species of the Djeboa is presented.”
“Calcium carbonate mineralization is significantly influenced by organic matrices in vivo. The effect mainly relies on functional groups in proteins. In order to study the influence of functional groups on calcium carbonate mineralization, -OH, -NH(2) and -COOH groups were grafted onto single crystal silicon chips, and such modified chips were used as substrates in in vitro mineralization experiments. An x-ray photoelectron spectroscopy (XPS) test was conducted to examine the grafting efficiency, and the three groups were successfully grafted. Calcium carbonate mineralization on a modified silicon substrate was examined by a scanning electron microscope (SEM) and x-ray diffraction (XRD), and the results showed that the effects of -OH, -NH2 and -COOH groups were quite different.

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