Biomedical Engineering Reference
In-Depth Information
Eyal, Z. 1999. The Septoria tritici and Stagonospora nodorum blotch diseases of
wheat European. J. of Plant Pathol . 105: 629-641.
Chomczynski, P. and N. Sacchi. 1987. Single-step method of RNA isolation by
acid guanidinium thiocyanate-phenol-chloroform extraction. Anal. Biochem .
162: 156-159.
Cooley, R.N. and C.E. Catten. 1993. Molecular analysis of the Septoria nodorum
β-tubulin gene and characterization of a benomyl-resistance mutation. Mol.
Gen. Genet . 237: 58-64.
Deising, H. and J. Siegrist. 2006. Chitin deacetylase activity of the rust Uromyces
viciae - fabae is controlled by fungal morphogenesis. FEMS. Microbiology Letters .
127: 207-211.
El Gueddari, N.E., U. Rauchhaus, B.M. Moerschbacher and H.B. Deising. 2002.
Developmentally regulated conversion of surface-exposed chitin to chitosan
in cell walls of plant pathogenic fungi. New Phytologist. 156: 103-112.
Graham, D.E. 1978. The isolation of high molecular weight DNA from whole
organisms or large tissue masses. Anal. Biochem . 85: 609-613.
Gubis, J., M. Hudcovicova, S. Slikova and B. Vanco. 2005. Molecular detection of
Stagonospora nodorum and Septoria tritici —casual agent of septoria leaf spot
diseases in wheat. Biologia. Bratislava. 60: 681-684.
Hu, G., R. Linning, B. McCallum, T. Banks, S. Cloutier, Y. Butterfi eld, J. Liu and
R. Kirkpatrick, J. Stott, Yang G.D. Smailus, S. Jones, M. Marra, J. Schein and
B. Guus. 2007. Generation of wheat leaf rust, Puccinia triticina , EST database
from stage-specifi c cDNA libraries. Mol. Plant Pathol . 8: 451-467.
Feofi lova, E.P. 2002. Chitin fungi: Distribution, biosynthesis and physico-chemical
properties and prospects of research. pp. 100-112. In: K.G. Scriabin and
G.A. Vikhoreva and V.P. Varlamov (eds.). Chitin and Chitosan: Preparation,
Properties and Applications. Nauka. Moscow.
Fraaije, B.A., D.J Lovell, E.A Rohell and D.W. Hollomon. 1999. Rapid detection
and diagnostic of Septoria tritici epidemic in wheat using polymerase chain
reaction assay. Appl. Microbiol . 86: 701-708.
Fraaije, B.A., D.J. Lovell and S. Baldwin. 2002. Septoria epidemics on wheat:
combined use of visual assessment and PCR-based diagnostics of identify
mechanisms of disease escape. Plant Protect. Sci . 38: 421-424.
Kolesov, D.A., P.G. Chmyr and L. Kolombet. 2004. Diagnosis of infection of crops
phytopathogens, a necessary condition for optimizing the use of modern
fungicides. Agrochemistry (Russian). 11: 87-93.
Lievens, B and M. Brouwer, A.C.R. Vanachter, B.P.A Cammue and B.P.H.J.
Thomma. 2006. Real-time PCR for detection and quantifi cation of fungal
and oomycete tomato pathogens in plant and soil samples. Plant science .
171: 155-165.
Manuku, G.S. 2004. A simple extraction method suitable for 3CK-based analysis
of plant, fungal and bacterial DNA. Plant Molecular Biology Reporter . 22: 71-81.
Oliver, R.P., K. Rybak, M. Shankar, R. Loughman, N. Harry and P.S. Solomon.
2008. Quantitative disease resistance assessment by real-time PCR using the
Stagonospora nodorum -wheat pathosystem as a model. Plant Pathol . 57: 527-532.
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