Michele Bertazzini
Overview
Explore the profile of Michele Bertazzini including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
138
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0
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Recent Articles
1.
Bertazzini M, Sacchi G, Forlani G
J Plant Physiol
. 2018 May;
226:145-153.
PMID: 29758379
Rice is very sensitive to salt stress at the seedling level, with consequent poor crop establishment. A natural variability in susceptibility to moderate saline environments was found in a group...
2.
Ricardo Teixeira R, de Andrade Barros M, Bressan G, Siqueira R, Santos F, Bertazzini M, et al.
Pest Manag Sci
. 2017 May;
73(11):2360-2371.
PMID: 28544262
Background: The photosynthetic apparatus is targeted by various herbicides, including several amides such as diuron and linuron. Considering the need for the discovery of new active ingredients to cope with...
3.
Giberti S, Bertazzini M, Liboni M, Berlicki L, Kafarski P, Forlani G
Pest Manag Sci
. 2016 Apr;
73(2):435-443.
PMID: 27103608
Background: Dual-target inhibitors may contribute to the management of herbicide-resistant weeds and avoid or delay the selection of resistant biotypes. Some aminobisphosphonates inhibit the activity of both glutamine synthetase and...
4.
Bertazzini M, Forlani G
Front Plant Sci
. 2016 Mar;
7:288.
PMID: 27014311
Numerous angiosperms rely on pollinators to ensure efficient flower fertilization, offering a reward consisting of nourishing nectars produced by specialized floral cells, known as nectaries. Nectar components are believed to...
5.
Forlani G, Bertazzini M, Zarattini M, Funck D
Front Plant Sci
. 2015 Aug;
6:591.
PMID: 26300893
While intracellular proline accumulation in response to various stress conditions has been investigated in great detail, the biochemistry and physiological relevance of proline degradation in plants is much less understood....
6.
Forlani G, Makarova K, Ruszkowski M, Bertazzini M, Nocek B
Front Plant Sci
. 2015 Aug;
6:567.
PMID: 26284089
Proline plays a crucial role in cell growth and stress responses, and its accumulation is essential for the tolerance of adverse environmental conditions in plants. Two routes are used to...
7.
Functional properties and structural characterization of rice δ(1)-pyrroline-5-carboxylate reductase
Forlani G, Bertazzini M, Zarattini M, Funck D, Ruszkowski M, Nocek B
Front Plant Sci
. 2015 Aug;
6:565.
PMID: 26284087
The majority of plant species accumulate high intracellular levels of proline to cope with hyperosmotic stress conditions. Proline synthesis from glutamate is tightly regulated at both the transcriptional and the...
8.
Pereira U, Barbosa L, Demuner A, Silva A, Bertazzini M, Forlani G
Chem Biodivers
. 2015 Jul;
12(7):987-1006.
PMID: 26172321
Natural phytotoxins and their synthetic analogs are a potential source of new bioactive compounds for agriculture. Analogs of rubrolides, a class of γ-alkylidene-γ-lactones isolated from different ascidians, have been shown...
9.
Forlani G, Bertazzini M, Barillaro D, Rippka R
New Phytol
. 2014 Sep;
205(1):160-71.
PMID: 25229999
As it represents the target of the successful herbicide glyphosate, great attention has been paid to the shikimate pathway enzyme 5-enol-pyruvyl-shikimate-3-phosphate (EPSP) synthase. However, inconsistent results have been reported concerning...
10.
Demuner A, Almeida Barbosa L, Miranda A, Geraldo G, da Silva C, Giberti S, et al.
J Nat Prod
. 2013 Nov;
76(12):2234-45.
PMID: 24245962
Alternariol and monomethylalternariol are natural phytotoxins produced by some fungal strains, such as Nimbya and Alternaria. These substances confer virulence to phytopathogens, yet no information is available concerning their mode...