@misc{pedras_alavi_abdoli_2021, 
  title={Phytoalexins and Signalling Metabolites Produced in the Wild Crucifer Neslia Paniculata: Camalexins and Arabidopsides}, 
  DOI={10.26434/chemrxiv.14166866}, 
  abstractNote={<jats:p>The metabolites produced in elicited leaves of the
wild crucifer &lt;i&gt;Neslia paniculata&lt;/i&gt; (L.)
Desv. were investigated in
abiotically stressed plants. Herein the phytoalexins camalexin,
7-methoxycamalexin and 6,7-dimethoxycamalexin together with the signalling
metabolites arabidopsides A and D are reported. This is the first report of occurrence
of 7-methoxy and 6,7-dimethoxycamalexins &lt;i&gt;in planta&lt;/i&gt; and
the third example of
synchronized biosynthesis of phytoalexins and galacto-oxylipins. It is
suggested that arabidopsides and structurally similar metabolites functioning as signalling molecules are likely to occur in a much larger number of plant
species than originally hypothesized. &lt;i&gt;N. paniculata&lt;/i&gt; is potentially useful to generate hybrid plants
resistant to blackleg disease caused by &lt;i&gt;Leptosphaeria maculans.&lt;/i&gt;</jats:p>}, 
  publisher={American Chemical Society (ACS)}, 
  author={Pedras, M. Soledade C. and Alavi, Mahla and Abdoli, Abbas}, 
  year={2021}, 
  month={Mar}
  }