Chemistry: molecular biology and microbiology – Micro-organism – per se ; compositions thereof; proces of... – Fungi
Reexamination Certificate
2001-06-15
2008-08-05
Marx, Irene (Department: 1651)
Chemistry: molecular biology and microbiology
Micro-organism, per se ; compositions thereof; proces of...
Fungi
C424S093500, C424S093300, C435S252400, C504S117000
Reexamination Certificate
active
07407794
ABSTRACT:
The present invention relates to the use ofUlocladium oudemansiias a biological control agent. Processes and compositions for the biological control ofBotrytisspecies usingUlocladium oudemansiiare also provided.
REFERENCES:
Kohl et al.Plant Dis. 84:569-573.
Chong et al. (New Zealand Journal of Botany, 1982, vol. 20 : 187-189).
http://www.atcc.org, accessed Aug. 18, 2006.
Levinskaite et al, Biologija, No. 3-4, 1995, pp. 150-153, Effect of chromium on soil fungi.
Peciulyte et al, Biologija, No. 3-4, 1995, pp. 154-158, Studies on accumulation of chromium by fungal biomass.
Fisher et al, Trans of the British Mycological Soc, 89(2), pp. 246-249, 1987, Location of fungal endophytes in tissues . . . .
Papavassiliou et al, Mycopathologia, 57(1), pp. 31-34, 1975, The atmospheric fungal flora of the Athens metropolitan area.
Walter et al, Proc of the NZ Plant Protection Conf, 49thIssue, p. 316, Saprophytic suppression ofBotrytis cinerea. . . .
Hill et al, Biol Act Nat Prod: Agrochem (Symp 214th), 1999, pp. 201-210, Practical natural solutions for plant disease control.
Boyd-Wilson et al, Proc 51stNZ Plant Protection Conf., 1998, pp. 96-101, Persistence and survival of saprophytic fungi . . . .
Elad et al, Euro Jour of Plant Pathology, 100(5), 1994, pp. 315-336, Control of infection and sporulation ofBotrytis. . . .
Kohl et al, Phytopathology, 88(6), 1998, pp. 568-575, Biological control ofBotrytis cinereain cyclamen with . . . .
Elmer et al, Euro Jour of Plant Pathology, 104(5), 1998, pp. 435-447, The survival and saprophytic competitive ability of . . . .
Boff, Epidemiology and Biological Control of Grey Mould in Annual Strawberry Crops, 2000, 128 pgs., The Netherlands.
Butler et al, Pl. Path. 28, 1979, pp. 96-97, Leaf spot on cumcumber caused byUlocladium actrum.
Domsch et al, Copendium of Soil Fungi, vol. 1, p. 825, 1980,UlocladiumPreuss 1851.
Eden et al, Plant Pathology 45, 1996, pp. 276-284, Biological control ofBotrytisstem infection of greenhouse tomatoes.
Elmer et al, European Journal of Plant Pathology, 1995, Abstract page, Progress Towards Biological Control ofBotrytis cinerea. . . .
Hill et al, NZ Wine Grower Ann Res Suppl 1996/97, Proj No. 13, New Methods for Controlling Botrytis in Grapes.
Köhl et al, Phytopathology, vol. 85, No. 4, 1995, pp. 393-401, Effect ofUlocladium atrumand Other Antagonists on . . . .
Köhl et al, European Journal of Plant Pathology 101, pp. 627-637, 1995, Effect of interrupted leaf wetness periods on . . . .
Köhl et al, Phytopathology, vol. 88, No. 6, pp. 568-575, 1998, Biological Control ofBotrytis cinereain Cyclamen with . . . .
Lennartz et al, Med Fac Landouww Univ Gent, 63/3b, 1998, pp. 963-970, Biocontrol ofBotrytis Cinereaon Grapevine and . . . .
Michailides et al, Plant Disease, vol. 84, No. 3, pp. 208-221, 2000, Botrytis Gray Mold of Kiwifruit Caused byBotrytis. . . .
Mimbela-Leyva et al, Trop. Sci. 17(2), 1975, pp. 61-74, Quality problems of South America honeydew melons imported into Britain.
Nair et al, Mycological Research 97(8), pp. 1012-1014, 1993, Infection of grape flowers and berries byBotrytis cinerea. . . .
Newhook, NZ Journal of Science & Technology, vol. 38, Sec. A, Feb. 1957, pp. 473-481, The Relationship of Saprophytic . . . .
Reglinski et al, NZ Wine Grower Ann Res Supp 1996/97, p. 7, New Methods for Suppressing Powdery Mildew in Viticulture.
Reglinski et al, Proc of the 5thAnnual Romeo Bragato Conf, 1999 7 pgs., Botrytis: Can we control it?
Reglinski et al, Durable Disease Resistance Syposium, 2000, Abstract SP42, Integrated use of an elicitor and a fungal . . . .
Schoene et al, Modern Fungicides & Antifungal Compounds II, 1998 Fungicide Sensitivity of Fungi used for Biocontrol of . . . .
Simmons, Mycologia, vol. 59, 1967, pp. 67-92, Typification of Alternaria, Stemphylium, and Ulocladium.
Vanneste et al, Intl Symp Buio Control Agents in Crop & Animal Protection, 1999, 2 pgs. Biological control of economically . . . .
Walter et al, Proc 11thIntl Botrytis Symp, 1996, p. 89, Selection of antagonistic saprophytes for suppression of . . . .
Wood, Annals Applied Biology 38, 1951, pp. 203-216, The Control of Diseases of Lettuc by the Use Antagonistic Organisms.
Zitter et al, Plant Disease, vol. 74, No. 10, 1990, pp. 824-827 A Leaf Spot of Cucumber Caused byUlocladium cucurbitaein . . . .
Reglinski et al., New Zealand Wine Grower Ann. Res. Suppl., 1996/97, p. 7, Integrated use of an elicitor and a fungal antagonist to control Botrytis in grape.
Walter et al., 49thProc. Of the New Zealand Pl. Prot. Conf., 1996, p. 316, Saprophytic suppression ofBotrytis cinereasporulation on kiwifruit leaf tissue.
Elmer Philip George
Hill Robert Anthony
Reglinski Tony
Jacobson & Holman PLLC
Marx Irene
The Horticulture and Food Research Institute of New Zealand Limi
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