Диссертация (1145858), страница 34
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Biophys. – 1978. – No.11. – P.577–602Daims H., Bruhl A., Amann R., Schleifer K.H., Wagner M. The domain– specific probeEUB338 is insufficient for the detection of all Bacteria: development and evaluation of amore comprehensive probe set // Syst. appl. microbiol. – 1999. – Vol.22. – P.434–444.Daniels R.E., Eddy A. Handbook of european Sphagna. Aberystwyth: Institute of TerrestrialEcology, 1985. – 257 p.Datta M., Banish S., Dupta R.K.
Studies on the efficacy of a phytohormone producingphosphate solubilizing Bacillus firmus in augmenting paddy yield in acid soils of Nagaland// Plant Soil. – 1982. – No.69. – P.365–373.de Bruijn I., de Kock M.J.D., Yang M., de Waard P., van Beek T.A., Raaijmakers J.M.Genome– based discovery, structure prediction and functional analysis of cyclic lipopeptideantibiotics in Pseudomonas species // Mol. Microbiol.
– 2007. – No.63. – P.417–428.de Souza J.T., Arnould C., Deulvot C., Lemanceau P., Gianinaz– zi– Pearson V., RaaijmakersJ.M. Effect of 2,4– dia– cetylphloroglucinol on Pythium: Cellular responses and variation insensitivity among propagules and species // Phytopathology.
– 2003. – No.93. – P.966–975.Dedysh S.N., Panikov N.S., Tiedje J.M. Acidophilic methanotrophic communities fromSphagnum peat bogs // Appl. Environ. Microbiol. – 1998. – No.64. – P.922–929.Dedysh S.N. Cultivating uncultured bacteria from northern wetlands: knowledge gained andremaining gaps // Frontiers in Microbiology. 2. – 2011. – No.184. – P.1–15.Dedysh S.N.
Exploring methanotroph diversity in acidic northern wetlands: molecular andcultivation– based studies // Microbiology. – 2009. – No.78. – P.655–669.Dedysh S.N., Derakshani M., Liesack W. Detection and enumeration of methanotrophs inacidicSphagnumpeat by 16S rRNA fluorescence in situ hybridization, including theuseofnewlydeveloped oligonucleotide probes forMethylo– cella palustris // Appl.
Environ.Microbiol. – 2001. – No.67. – P.4850–4857.Dedysh S.N., Liesack W., Khmelenina V.N., Suzina N.E., Trotsenko Y.A., Semrau J.D.,Bares A.M., Panikov N.S., Tiedje J.M. Methylocella palustris gen. nov., sp. nov., a new154114.115.116.117.118.119.120.121.122.123.124.125.126.127.128.129.methane– oxidizing acidophilic bacterium from peat bogs representing a novel subtype ofserine pathway methanotrophs // Int.
J. Syst. Evol. Microbiol. – 2000. – No.50. – P.955–969.Dedysh S.N., Panikov N.S., LiesackW., Großkopf R., Zhou J., Tiedje J.M. Isolation ofacidophilic methane– oxidizing bacteria from northern peat wetlands // Science. – 1998. –No. 282. – P.281–284.Dedysh S.N., Pankratov T.A., Belova S.E., Kulichevskaya I.S., Liesack W. Phylogeneticanalysis and in situ identification of bacteria community composition in an acidic Sphagnumpeat bog // Appl. Environ. Microbiol.
– 2006. – No.72. – P.2110–2117.DeLong E.F., Pace N.R. Environmental diversity of Bacteria and Archaea // Syst. Biol. –2001. – No.50. – P.470–478.Deppenmeier U. The unique biochemistry of methanogenesis // Prog. Nucleic. Acid. Res.Mol. Biol. – 2002. – No.71. – P.223–283.Dickson L.G. Constraints tonitrogen fixation by cryptogamic crusts in a polar desertecosystem, Devon Island, N.W.T. // Canada Arc. Antarc. Alp. Res. – 2000.
– No.32. – P.40–45.Dijkhuizen L., Levering P.R., de Vries G. E. The physiology and biochemistry of aerobicmethanol– utilizing gram– negative and grampositive bacteria. In: Methane and methanoloxidizers / Murrell J. C., Dalton H.(ed.). – New York: Plenum Press, 1992. – P.149–181.Din N., Gilkes R.N., Tekant B., Miller R.C. Jr., Warren R.A.J., Kilburn D.G. Non– hydrolyticdisruption of cellulose fibers by the binding domain of a bacterial cellulose //BioTechnology.
– 1991. – No.9. – P.1096–1099.Ding S.Y., Xu Q., Crowley M., Zeng Y., Nimlos M., Lamed R., Bayer E.A., Himmel M. Abiophysical perspective on the cellulosome: newopportunities for biomass conversion //Curr. Opin. Biotechnol. – 2008. – No.19. – P.218–227.Distel D.L., Cavanaugh C.M. Independent phylogenetic origins of methanotrophic andchemoautotrophic bacterial endosymbionts in marine bivalves // J.
Bacteriol. – 1994. –No.176. – P.1932–1938.Dobbelaere S., Croonenborghs A., Thys A., Ptacek D. Responses of agronomically importantcrops to inoculation with Azospirillum // Aust. J. Plant. Physiol. – 2001. – No.28. – P.871–879.Dodds W.K., Gudder D.A., Mollenhauer D. The ecology of Nostoc // J. Phycol. – 1995. –No.31. – P.2–18.Doi R.H., Tamaru Y. The Clostridium cellulovorans cellulosome: an enzyme complex withplant cell wall degrading activity // Chem.
Rec. – 2001. – No.1. – P.24–32.Domenech J., Ramos S.B., Probanza A., Lucas G.J.A., Gutierrez M.F.J. Elicitation ofsystemic resistance and growth promotion of Arabidopsis thaliana by PGPRs from Nicotianaglauca: a study of the putative induction path–way // Plant Soil. – 2007. – No.290. – P.43–50.Dong Z., McCully M.E., Canny M.J. Does Acetobacter diazotrophicus live and move in thexylem of sugarcane stems? Anatomical and physiological data // Ann. Bot.
– 1997. – No.80.– P.147–158.Dowding E.S. Ecology of Endogone // Trans. Br. Mycol. Soc. – 1959. – No.42. – P.449–457.Dror T.W., Rolider A., Bayer E.A., Lamed R., Shoham Y. Regulation of major cellulosomalendoglucanases of Clostridium thermocellum differs from that of a prominent cellulosomalxylanase // J. Bacteriol. – 2005. – No.187. – P.2261– 2266.155130. Dwivedi D., Johri B.N.
Antifungals from fluorescent pseudomonads: biosynthesis andregulation // Curr. Sci. – 2003. – No.12. – P.1693–1703.131. Erturk Y., Ercisli S., Haznedar A., Cakmakci R. Effects of plant growth promotingrhizobacteria (PGPR) on rooting and root growth of kiwifruit (Actinidia deliciosa) stemcuttings // Biol.
Res. – 2010. – No.43. – P.91–98.132. Esitken A., Karlidag H., Ercisli S., Turan M., Sahin F. The effect of spraying a growthpromoting bacterium on the yield, growth and nutrient element composition of leaves ofapricot (Prunus armeniaca L. cv. Hacihaliloglu) // Aust. J.
Agric. Res. – 2003. – Vol.54. –No.4. – P.377–380.133. Fernández H.M., Carpena A.O., Cadakia L.C. Evaluacion de la solubilizacion del fósforomineral en suelos calizos por Bacillus cereus. Ensayos de invernadero // Anal. Edaf.Agrobiol. – 1984. – No.43. – P.235–245.134. Fields M.W., Mallik S., Russell J.B. Fibrobacter succinogenes S85 ferments ball–milledcellulose as fast as cellobiose untilcellulose surface area is limiting // Appl. Microbiol.Biotechnol.
– 2000. – No.54. – P.570–574.135. Fisher C.R., Brooks J.M., Vodenichar J.S., Zande J.M., Childress J.J., Burke R.A. Thecooccurrence of methanotrophic and chemo–autotrophic sulfur–oxidizing bacterialsymbionts in a deep– sea mussel // Mar.
Ecol. – 1993. – No.114. – P.277–289136. Fisk, M., Ruether, K., Yavitt, J. Microbial activity and functional composition amongnorthern peatland ecosystems // Soil Biology & Biochemistry. – 2003. – No.35. – P.591–602.137. Forney L.J., Zhou X., Brown C.J. Molecular microbial ecology: land of the one–eyed king //Curr. Opin. Microbiol. – 2004. – No.7. – P.210–220.138. Franzmann P.D., Liu Y., Balkwill D.L., Aldrich H.C., Conway de Macario E., Boone D.R.Methanogenium frigidum sp.
nov., a psychrophilic, H2– using methanogen from Ace Lake,Antarctica // Int. J. Syst. Bacteriol. – 1997. – No.47. – P.1068–1072.139. Fumanti B., Cavacini P., Alfinito S. Benthic algae mats of some lakes of Inexpressible Island(Northern Victoria Land, Antarctica) // Polar Biol. – 1997. – 7.
– P.97–113.140. Galand P.E., Fritze H., Yrjälä K. Microsite–dependent changes in methanogenic populationsin a boreal oligotrophic fen // Environ. Microbiol. – 2003. – No.5. – 1133–1143.141. Galand P.E., Saarnio S., Fritze H., Yrjälä K. Depth related diversity of methanogen Archaeain Finnish oligotrophic fen // FEMS Microbiol Ecol. – 2002. – No.42. – P.441–449.142. Garcia J.L., Patel B.K.C., Ollivier B. Taxonomic, phylogenetic and ecological diversity ofmethanogenic Archaea // Anaerobe.
– 2000. – No.6. – P.205–226.143. Gaur A.C., Ostwal K.P. Influence of phosphate dissolving Bacilli on yield and phosphateuptake of wheat crop // Indian J. Exp. Biol. – 1972. – No.10. – P.393–394.144. Gaur A.C., Ostwal K.P. Influence of phosphate dissolving Bacilli on yield and phosphateuptake of wheat crop // Indian J. Exp.
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