The capacity to emit isoprene, among other stresses, protects plants from drought, but the molecular mechanisms underlying this trait are only partly understood. The Arecaceae (palms) constitute a very interesting model system to test the involvement of isoprene in enhancing drought tolerance, as their high isoprene emissions may have contributed to make them hyperdominant in neotropical dry forests, characterized by recurrent and extended periods of drought stress. In this study we isolated and functionally characterized a novel isoprene synthase, the gene responsible for isoprene biosynthesis, from Copernicia prunifera, a palm from seasonally dry tropical forests. When overexpressed in the non-emitter Arabidopsis thaliana, CprISPS conferred significant levels of isoprene emission, together with enhanced tolerance to water limitation throughout plant growth and development, from germination to maturity. CprISPS overexpressors displayed higher germination, cotyledon/leaf greening, water usage efficiency, and survival than WT Arabidopsis under various types of water limitation. This increased drought tolerance was accompanied by a marked transcriptional up-regulation of both ABA-dependent and ABA-independent key drought response genes. Taken together, these results demonstrate the capacity of CprISPS to enhance drought tolerance in Arabidopsis and suggest that isoprene emission could have evolved in Arecaceae as an adaptive mechanism against drought

Yu, J.; Khomenko, I.; Biasioli, F.; Li, M.; Varotto, C. (2023-10-18). A novel isoprene synthase from the monocot tree Copernicia prunifera (Arecaceae) confers enhanced drought tolerance in transgenic Arabidopsis. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 24 (20): 15329. doi: 10.3390/ijms242015329 handle: https://hdl.handle.net/10449/83555

A novel isoprene synthase from the monocot tree Copernicia prunifera (Arecaceae) confers enhanced drought tolerance in transgenic Arabidopsis

Yu, Jiamei
Primo
;
Khomenko, Iuliia;Biasioli, Franco;Li, Mingai
;
Varotto, Claudio
Ultimo
2023-10-18

Abstract

The capacity to emit isoprene, among other stresses, protects plants from drought, but the molecular mechanisms underlying this trait are only partly understood. The Arecaceae (palms) constitute a very interesting model system to test the involvement of isoprene in enhancing drought tolerance, as their high isoprene emissions may have contributed to make them hyperdominant in neotropical dry forests, characterized by recurrent and extended periods of drought stress. In this study we isolated and functionally characterized a novel isoprene synthase, the gene responsible for isoprene biosynthesis, from Copernicia prunifera, a palm from seasonally dry tropical forests. When overexpressed in the non-emitter Arabidopsis thaliana, CprISPS conferred significant levels of isoprene emission, together with enhanced tolerance to water limitation throughout plant growth and development, from germination to maturity. CprISPS overexpressors displayed higher germination, cotyledon/leaf greening, water usage efficiency, and survival than WT Arabidopsis under various types of water limitation. This increased drought tolerance was accompanied by a marked transcriptional up-regulation of both ABA-dependent and ABA-independent key drought response genes. Taken together, these results demonstrate the capacity of CprISPS to enhance drought tolerance in Arabidopsis and suggest that isoprene emission could have evolved in Arecaceae as an adaptive mechanism against drought
Arecaceae
Drought stress
Drought tolerance
Isoprene emission
Isoprene synthase
Settore AGR/15 - SCIENZE E TECNOLOGIE ALIMENTARI
18-ott-2023
Yu, J.; Khomenko, I.; Biasioli, F.; Li, M.; Varotto, C. (2023-10-18). A novel isoprene synthase from the monocot tree Copernicia prunifera (Arecaceae) confers enhanced drought tolerance in transgenic Arabidopsis. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 24 (20): 15329. doi: 10.3390/ijms242015329 handle: https://hdl.handle.net/10449/83555
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