Plant chitinase as a possible biocontrol agent for use instead of chemical fungicides

被引:81
作者
Karasuda, S
Tanaka, S
Kajihara, H
Yamamoto, Y
Koga, D [1 ]
机构
[1] Yamaguchi Univ, Fac Agr, Yamaguchi 7538515, Japan
[2] Yamaguchi Agr Expt Stn, Yamaguchi 7530214, Japan
来源
BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY | 2003年 / 67卷 / 01期
关键词
biocontrol agent; class IV chitinase; family; 19; chitinase; powdery mildew; yam;
D O I
10.1271/bbb.67.221
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
We investigated whether a plant chitinase can be used as a biocontrol agent instead of chemical fungicides by spraying chitinase E (family 19; class IV) from a yam (Dioscorea opposita Thunb) alone or together with beta-1,3-glucanase directly onto the surface of a powdery mildew infecting strawberry berries and leaves. Results were observed by eye and with a scanning electron microscope. The powdery mildew infecting the strawberries was degraded, mainly by the chitinase, and the disease did not appear again for more than 2 weeks. These results indicated that this kind of plant chitinase might be safe and biodegradable biocontrol agent for use instead of conventional fungicides.
引用
收藏
页码:221 / 224
页数:4
相关论文
共 10 条
[1]   Comparison of chitinase isozymes from yam tuber - Enzymatic factor controlling the lytic activity of chitinases [J].
Arakane, Y ;
Hoshika, H ;
Kawashima, N ;
Fujiya-Tsujimoto, C ;
Sasaki, Y ;
Koga, D .
BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY, 2000, 64 (04) :723-730
[2]  
Asao H., 1997, Plant Biotechnol, V14, P145, DOI [10.1007/s11248-005-2543-6, DOI 10.1007/S11248-005-2543-6]
[3]   TRANSGENIC PLANTS WITH ENHANCED RESISTANCE TO THE FUNGAL PATHOGEN RHIZOCTONIA-SOLANI [J].
BROGLIE, K ;
CHET, I ;
HOLLIDAY, M ;
CRESSMAN, R ;
BIDDLE, P ;
KNOWLTON, S ;
MAUVAIS, CJ ;
BROGLIE, R .
SCIENCE, 1991, 254 (5035) :1194-1197
[4]   PLANT CHITINASES [J].
COLLINGE, DB ;
KRAGH, KM ;
MIKKELSEN, JD ;
NIELSEN, KK ;
RASMUSSEN, U ;
VAD, K .
PLANT JOURNAL, 1993, 3 (01) :31-40
[5]   Insect resistance of transgenic tobacco expressing an insect chitinase gene [J].
Ding, XF ;
Gopalakrishnan, B ;
Johnson, LB ;
White, FF ;
Wang, XR ;
Morgan, TD ;
Kramer, KJ ;
Muthukrishnan, S .
TRANSGENIC RESEARCH, 1998, 7 (02) :77-84
[6]   NEW FAMILIES IN THE CLASSIFICATION OF GLYCOSYL HYDROLASES BASED ON AMINO-ACID-SEQUENCE SIMILARITIES [J].
HENRISSAT, B ;
BAIROCH, A .
BIOCHEMICAL JOURNAL, 1993, 293 :781-788
[7]   INDUCTION-PATTERNS OF CHITINASES IN YAM CALLUS BY INOCULATION WITH AUTOCLAVED FUSARIUM-OXYSPORUM, ETHYLENE, AND CHITIN AND CHITOSAN OLIGOSACCHARIDES [J].
KOGA, D ;
HIRATA, T ;
SUESHIGE, N ;
TANAKA, S ;
IDE, A .
BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY, 1992, 56 (02) :280-285
[8]   PLANT PATHOGENESIS-RELATED PROTEINS AND THEIR ROLE IN DEFENSE AGAINST PATHOGENS [J].
STINTZI, A ;
HEITZ, T ;
PRASAD, V ;
WIEDEMANNMERDINOGLU, S ;
KAUFFMANN, S ;
GEOFFROY, P ;
LEGRAND, M ;
FRITIG, B .
BIOCHIMIE, 1993, 75 (08) :687-706
[9]   Transgenic cucumber plants harboring a rice chitinase gene exhibit enhanced resistance to gray mold (Botrytis cinerea) [J].
Tabei, Y ;
Kitade, S ;
Nishizawa, Y ;
Kikuchi, N ;
Kayano, T ;
Hibi, T ;
Akutsu, K .
PLANT CELL REPORTS, 1998, 17 (03) :159-164
[10]   Transgenic grapevine plants expressing a rice chitinase with enhanced resistance to fungal pathogens [J].
Yamamoto, T ;
Iketani, H ;
Ieki, H ;
Nishizawa, Y ;
Notsuka, K ;
Hibi, T ;
Hayashi, T ;
Matsuta, N .
PLANT CELL REPORTS, 2000, 19 (07) :639-646
1