Kl. Conn et al., RESISTANCE TO RHIZOCTONIA-SOLANI AND PRESENCE OF ANTIMICROBIAL COMPOUNDS IN CAMELINA-SATIVA ROOTS, Journal of Plant Biochemistry and Biotechnology, 3(2), 1994, pp. 125-130
Camelina sativa (L.) Crantz was significantly more resistant to Rhizoc
tonia solani Kuhn than Brassica napus L. cv Westar. Emergence, of C. s
ativa seedlings was 22 to 33% greater than those of Westar in R. solan
i-infested soil. The greater resistance of C. sativa seedlings to R.so
lani appeared to be due to greater amounts of antimicrobial compounds
present in C. sativa roots. These antimicrobial compounds inhibited th
e growth of both weakly virulent and virulent R. sclani isolates to th
e same extent. Four antimicrobial compounds were purified from C. sati
va roots and their structures elucidated. Two were identified as the p
hytoalexins (camalexin and methoxycamalexin) previously described from
C. sativa leaves. This appears to be the first report of elicitation
of phytoalexins from roots of crucifers. Two preformed antimicrobial.
compounds were identified as methyl 1-methylindole-3-carboxylate and l
0-methylsulfinyldecylisothiocyanate.