Fabrication of CuO nanoparticles composite e-polylysine-alginate nanogel for high-efficiency management of Alternaria alternate

Although e-poly -L-lysine (e-PL) has a good potential as a green fungicide, high concentration is usually required during its controlling of plant disease. On the other hand, same problems also appeared in the study of CuONP based nano pesticides. In this manuscript, a new composite alginate nanogel (ALGNP) that containing CuONP and e-PL was fabricated via in situ reduction of CuONP in nanogel and e-PL surface coating. Based on the che-lation of amide bond of e-PL and Cu2+ released by CuONP, the synergy effect between Cu2+ and e-PL layer of the nanogel make the nanogel (CuONP@ALGNP@PL) performed high anti-fungal activity under low Cu2+ and e-PL concentration (Cu concentration was 40.09 mu g/mL, e-PL concentration was 11.90 mu g/mL). Study showed that the nanogel could more significantly destroy the fungal cell membrane than CuONP@ALGNP and ALGNP@PL, also better than commercial fungicide CuCaSO4 (Cu concentration was 120 mu g/mL). Furthermore, CuON-P@ALGNP@PL could seriously affect the spore production, spore germination rate and bud tube elongation length of Alternaria alternate. Moreover, CuONP@ALGNP@PL also inhibit Botrytis cinerea, Phytophthora, Tha-natephorus cucumeris and Fusarium graminearum. These results showed that composite of CuONP and e-PL based on nanogel can decrease the raw materials application amount, and achieve a high disease controlling ability, which provides a new perspective for preventing fungal diseases.

Automated summary

A new composite alginate nanogel (ALGNP) was developed, which contained CuONP and e-PL, and showed high anti-fungal activity at low concentrations. The nanogel could significantly destroy fungal cell membrane and inhibit the growth of various fungal pathogens.