Диссертация (1145858), страница 33
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Ecol. – 1989. – No.77. – P.24–34.Beattie G.A. Plant– associated bacteria: survey, molecular phylogeny, genomics and recentadvances. In: Plant– Associated Bacteria / Gnanama– Nickam S.S. (ed). – Dordrecht:Springer, 2006. – P.1– 56.Beckers G.J.M., Conrath U. Priming for stress resistance: from the lab to the field // CurrentOpin. Plant. Biol.
– 2007. – No.10. – P.425–431.Belova S.E., Pankratov T.A., Dedysh S.N. Bacteria of the genus Burkholderia as a typicalcomponent of the microbial community of Sphagnum peat bogs // Microbiology. – 2006. –No.75. – P.90–96.Belova S.E., Pankratov T.A., Detkova E.N., Kaparullina E.N., Dedysh S.N. Acidisomatundrae gen.
nov. , s p. nov. and Acidisoma sibiricum sp. nov., two novel acidophilic andpsychrotoler ant members of the Alphaproteobacteria from acidic northern wetlands // Int. J.Syst. Evol. Microbiol. – 2009. – No.59. – P.2383–2290.Bent E. Induced systemic resistance mediated by plant growth– promoting rhizobacteria(PGPR) and fungi (PGPF). In: Multigenic and Induced Sys– temic Resistance in Plants /Tuzun S and Bent E (eds). – New York: Springer Science, 2006. – P.225–259.Berg G., Eberl L., Hartmann A.
The rhizosphere as a reservoir for opportunistic humanpathogenic bacteria // Environ Microbiol. – 2005. – Vol.7. – No.11. – P.1673–1685.Bevivino A. Characterization of a free– living maize rhizosphere population of Burkholderiacepacia: effect of seed treatment on disease suppression and growth promotion of maize //FEMS Microbiol. Ecol. – 1998. – Vol.27. – No.3. – P.225–237.Bhat M.K., Bhat S. Cellulose degrading enzymes and their potential industrial applications //Biotechnol. Adv. – 1997 – No.15. – P.583– 620.Black M., Bewley J.D.
Seed technology and its biological basis / Sheffield: SheffieldAcademic Press, 2000. – 428p.Bloemberg G.V., Lugtenberg B.J. Molecular basis of plant growth promotion and biocontrolby rhizobacteria // Curr. Opin. Plant. Biol. – 2001. – No.4. – P.343–350.Blumer– Schuette S.E., Lewis D.L., Kelly R.M. Phylogenetic,microbiological, and glycosidehydrolase diversities within theextremely thermophilic, plant biomass– degrading genusCaldicellulosiruptor //Appl. Environ. Microbiol. – 2010. – No.76.
–P.8084–8092.Bodrossy L., Holmes E., Holmes A., Kovaks K., Murrell J. Analysis of 16S rRNA andmethane monooxygenase gene sequences reveals a novel group of thermotolerant andthermophilic methanotrophs, Methylocaldum gen. nov. // Arch. Microbiol. – 1997. –No.168.
– P.493–503.15162.63.64.65.66.67.68.69.70.71.72.73.74.75.76.77.78.Boiero L., Perrig D., Masciarelli O., Penna C., Cassan F., Luna V. Phytohormone productionby three strains of Bradyrhizobium japonicum and possible physiological and technologicalimplica– tions // Appl.
Microbiol. Biotechnol. – 2007. – No.74. – P.874–880.Boone D.R., Castenholz R.W. Bergey's Manual of Systematic Bacteriology / 2nd edn.NewYork: Springer–Verlag, 2001. – 721 p.Borga, P., Nilsson, M., Tunlid, A., Bacterial communities in peat in relation to botanicalcomposition as revealed by phospholipid fatty– acid analysis // Soil Biology &Biochemistry. – 1994. – No.26. – P.841–848.Boukhalfa H., Crumbliss A.L.
Chemical aspects of siderophore mediated iron transport //BioMetals. – 2002. – No.15. – P.325–339.Bowman J.P., McCammon S., Skerratt J. Methylosphaera hansonii gen. nov., sp. nov., apsychrophilic, group I methanotroph from Antarctic marine– salinity, meromictic lakes //Microbiology. – 1997. – Vol. 143. – Pt.4. – P.1451–1459.Bowman J.P., Sly L.I., Stackebrandt E.
The phylogenetic position of the familyMethylococcaceae // Int. J. Syst. Bacteriol. – 1995. – No.45. – P.182–185.Bowman J.P., Sly L.I., Nichols P.D., Hayward A.C. Revised taxonomy of the methanotrophs:description of Methylobactergen. nov., emendation of Methylococcus, validation ofMethylosinus and Methylocystis species, and a proposal that the familyMethylococcaceaeincludes only the group I methanotrophs // Int. J.
Syst. Bacteriol. 1993. –No.43. – P.735–753.Bragina A., Berg C., Cardinale M., Shcherbakov A., Chebotar V., Berg. G. Sphagnum mossesharbour highly specific bacterial diversity during their whole lifecycle // The ISME Journal.– 2012. – Vol.6. – No.4. – P.802–813.Bratina B.J., Brusseau G.A., Hanson R.S. Use of 16S rRNA analysis to investigate phylogenyof methylotrophic bacteria // Int. J. Syst.
Bacteriol. – 1992.– No.42. – P.645–648.Brauer S.L., Cadillo– Quiroz H., Yashiro E., Yavitt J.B., Zinder S.H. Isolation of a novelacidiphilic methanogen from an acidic peat bog // Nature. – 2006. – No.442. – P.192– 194.Broady P.A. Wind dispersal of terrestrial algae at Signy Island, South Orkney Islands // Br.Antarct. Surv. Bull. – 1979. – No.48. – P.99–102.Broady P.A. A floristic survey of algae at four locations in Northern Victoria Land, N. Z. //Antarct. Rec. – 1987.
– No.7. – P.8–19.Brusseau G.A., Bulygina E., Hanson R. S. Phylogenetic analysis and development of probesfor differentiating methylotrophic bacteria // Appl. Environ. Microbiol. – 1994. – No.60. –P.626–636.Buch A., Archana G., Naresh Kumar G. Heterologous expression of phosphoenolpyruvatecarboxylase enhances the phosphate solubilizing ability of fluorescent pseudomonads byaltering the glucose catabolism to improve biomass yield // Bioresour Technol. – 2010. –Vol.101.
– No.2. – P.679–687.Busato J.G., Lima L.S., Aguiar N.O., Canellas L.P., Olivares F.L. Changes in labilephosphorus forms during maturation of vermicompost enriched with phosphorus–solubilizing and diazotrophic bacteria // Bioresour Technol. – 2012. – No.110. – P.390–395.Butler E.J. The occurrences and systematic position of the vesicular–arbuscular type ofmycorrhizal fungi // Trans.
Br. Mycol. Soc. – 1939. – No.22. – P.274–301.Cadillo– Quiroz H., Bräuer S.L., Yashiro E., Sun C., Yavitt J.B., Zinder S.H. Vertical profilesof methanogenesis and methanogens in two contrasting acidic peatlands in central NewYork State, USA // Environ Microbiol.
– 2006. – No. 8. – P.1428–1440.15279.80.81.82.83.84.85.86.87.88.89.90.91.92.93.94.95.Cadillo–Quiroz H., Yashiro E., Yavitt J.B., Zinder S.H. Archaeal community inaminerotrophic fen and T– RFLP– directed isolation of a novel hydrogenotrophicmethanogen // Appl.
Environ. Microbiol. – 2008. – No.74. – P.2059–2068.Cadillo–Quiroz H.,Yavitt J.B., Zinder S.H. Methanosphaerula palustris gen. nov., sp. nov., ahydrogenotrophic methanogen iso– lated fromaminerotrophic fenpeat– land // Int. J. Syst.Evol. Microbiol. – 2009. – No.59. – P.928–935.Cai T.M., Chen L.W.,Wu S.Z., Qian L.H., Ren Q. Selection of denitrifying phosphorus–removing bacteria and its characteristic // Huan Jing Ke Xue.
– 2010. – Vol.31. – No.10. –P.2487–2492.Cascales E., Buchanan S.K., Duché D., Kleanthous C., Lloubès R., Postle K., Riley M., SlatinS.,Cavard D. Colicin Biology // Microbiol. Mol. Biol. Rev. – 2007. – No.71. – P.158–229.Cavanaugh C. M. Methanotroph– invertebrate symbioses in the marine environment:ultrastructural, biochemical and molecular studies. In: Microbial growth on C1 compounds /Murrell J.C., Kelley D.P. (ed.). – Andover: Intercept Press, Ltd., 1993. – P.315–328.Chaban B., Ng S.Y.M., Jarrell K.F. Archaeal habitats – from the extreme to the ordinary //Can. J. Microbiol.
– 2006. – No.52. – P.73–116.Chabot R., Antoun H., Cescas M.P. Stimulation de la croissance du mais et de la laitueromaine par desmi– croorganismes dissolvant le phosphore inorganique // Can. J. Microbiol.– 1993. – No.39. – P.941–947.Chabot R., Antoun H., Kloepper J.W., Beauchamp C.J. Root colonization of maize andlettuce by bioluminiscent Rhizobium leguminosarum biovar. phaseoli // Appl. Environ.Microbiol. – 1996. – No.62. – P.2767–2772.Chapin D.M., Bledsoe C.S. Nitrogen fixation in arctic plant communities.
In: ArcticEcosystems in a Changing Climate / Chapin F.S., Jefferies R.L., Reynolds J.F., Shaver G.R.,Svoboda J. (eds.). – San Diego: Academic Press Inc., 1992. – P.301–319.Chebotar’ V.K., Makarova N.M., Shaposhnikov A.I., Kravchenko L.V. Antifungal andphytostimulating characteristics of Bacillus subtilis Ch– 13 rhizospheric strain, producer ofbioprepations // Applied Biochemistry and Microbiology. – 2009. – Vol. 45. – No. 4. –P.419–423.Chen S., Wilson D.B.
Proteomic and transcriptomic analysis of extracellular proteins andmRNA levels in Thermobifida fuscagrown on cellobiose and glucose // J. Bacteriol. – 2007.– No.189. – P.6260–6265.Chew K. Georgics / Indianapolis: Hackett Publishing Company, 2002. – 152 p.Chin– A– Woeng TF, Bloemberg G.V., Lugtenberg B.J. Phenazines and their role inbiocontrol by Pseudomonas bacteria // New Phytol.
– 2003. – No.157. – P.503– 523.Chistoserdova L., Vorholt J.A., Thauer R.K., Lidstrom M.E. C1 transfer enzymes andcoenzymes linking methylotrophic bacteria and methanogenic Archaea // Science. – 1998. –No.281. – P.99–102.Choudhary D.K., Johri B.N., Prakash A. Volatiles as priming agent that initiate plant growthand defense responses // Curr. Sci. – 2008. – No.94.
– P.595–604.Choudhary D.K., Prakash A., Johri B.N. Induced systemic resistance (ISR) in plants:mechanism of action // Indian J. Microbiol. – 2007. – No.47. – P.289–297.Clymo R.S. The limits to peat bog growth // Phil. Trans. R. Soc. Bull. – 1984. – No.303. –P.605–654.15396.97.98.99.100.101.102.103.104.105.106.107.108.109.110.111.112.113.Compant S., Duffy B., Nowak J. Use of PGPB for biological control of plant diseases:principles, mechanisms of action and future prospects // Appl. Environ. Microbiol.
– 2005. –Vol.71. – No.9. – P.4951–4959.Compant S., Duffy B., Nowak J. et al. Use of PGPB for biological control of plant diseases:principles, mechanisms of action and future prospects // Appl. Environ. Microbiol. – 2005. –Vol.71. – No.9. – P.4951–4959.Conn V.M., Walker A.R., Franco C.M.M. Endophytic Actinobacteria induce defensepathways in Arabidopsis thaliana // Mol. Plant. Microbe. Inter. – 2008. – No.21. – P.208–218.Conrath U., Beckers G.J.M., Flors V., Garcia– Agustin P., Jakab G., Mauch F., NewmanM.A., Pieterse C.M.J., Poinssot B., Pozo M.J., Pugin A., Schaffrath U. Priming: Gettingready for battle // Mol.
Plant. Microbe. Inter. – 2006. – No.19. – P.1062–1071.Cook R.J. Advances in plant health management in the twentieth century // Annu. Rev.Phytopathol. – 2002. – No.38. P.95–116.Crosa J.H., Walsh C.T. Genetics and assembly line enzymology of siderophore biosynthesisin bacteria // Microbiol. Mol.
Biol. Rev. – 2002. – No.66. – P.223– 249.Crowley D.E. Microbial siderophores in the plant rhizos– pheric. In: Iron Nutrition in Plantsand Rhizospheric Microorganisms / Barton L.L., Abadía J., (eds.). – Dordrecht: Springer,2006. – P.169–198.Dagley S. Determinants of biodegradability // Q. Rev.
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