With the growing global demands on sustainable food production, one of the biggest challenges to agriculture is associated with crop losses due to parasitic nematodes. While chemical pesticides have been quite successful in crop protection and mitigation of damage from parasites, their potential harm to humans and environment, as well as the emergence of nematode resistance, have necessitated the development of viable alternatives to chemical pesticides. One of the most promising and targeted approaches to biocontrol of parasitic nematodes in crops is that of RNA interference (RNAi). In this study we explore the possibility of using biostimulants obtained from metabolites of soil streptomycetes to protect wheat (
Triticum aestivum
L.) against the cereal cyst nematode
Heterodera avenae
by means of inducing RNAi in wheat plants. Theoretical models of uptake of organic compounds by plants, and within-plant RNAi dynamics, have provided us with useful insights regarding the choice of routes for delivery of RNAi-inducing
biostimulants
into plants. We then conducted
in planta
experiments with several streptomycete-derived biostimulants, which have demonstrated the efficiency of these biostimulants at improving plant growth and development, as well as in providing resistance against the cereal cyst nematode. Using dot blot hybridization we demonstrate that biostimulants trigger a significant increase of the production in plant cells of si/miRNA complementary with plant and nematode mRNA. Wheat germ cell-free experiments show that these si/miRNAs are indeed very effective at silencing the translation of nematode mRNA having complementary sequences, thus reducing the level of nematode infestation and improving plant resistance to nematodes. Thus, we conclude that natural biostimulants produced from metabolites of soil streptomycetes provide an effective tool for biocontrol of wheat nematode.
Background:
Plant parasitic nematodes are dangerous pests that damage various agricultural
crops and decrease their productivity.
Objective:
The resistance of new lines of wheat (Triticum aestivum L.) plants obtained under in vitro
conditions on MS media containing microbial bioregulators to plant parasitic nematodes was studied
under in vitro and greenhouse conditions.
Methods:
Here we conducted physiological and molecular-genetic studies of resistance of wheat plants
to nematodes.
Results:
In vitro experiments showed that wheat plants grown on MS media with microbial
bioregulators had 20-37 % of infestation with cereal cyst nematode Heterodera avenae, significantly
lower when compared with 73 % of infestation of the control plants grown without bioregulators. Bioregulators
increased morphometric parameters of the wheat plants obtained under in vitro conditions on
MS media and further grown under greenhouse conditions on the natural invasive background: stem
height increased 13.6-37.5 %, flag leaf length 18.0-19.3 %, ear length 6.8-24.6 %, and ear weight 27.0-
54.5 %, when compared with control wheat plants. The difference in the degree of hybridizated molecules
mRNA and si/miRNA from control and experimental wheat plants increased: 15-39 % in plants
grown under in vitro conditions on the invasive background created by H. avenae and 33-56 % in seeds
of plants grown under greenhouse conditions on the natural invasive background. The silencing activity
of si/miRNA from wheat plants grown on MS media with bioregulators increased: 20-51 % in plants
grown under in vitro conditions on the invasive background created by H. avenae or 38-64 % in plants
grown under greenhouse conditions on the natural invasive background.
Conclusion:
Our studies confirm the RNAi-mediated resistance to plant nematodes of wheat plants obtained
on media with microbial bioregulators and grown under in vitro and greenhouse conditions.
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