Beatrice Lace scite author profile

SUMMARY 12Plant growth promoting fungi include strains of Trichoderma species that are used in biocontrol, 13 and arbuscular mycorrhizal (AM) fungi, that enhance plant nutrition and stress resistance. The 14 concurrent interaction of plants with these two groups of fungi affects crop performance, but has 15 only been occasionally studied so far. Using in vivo imaging of GFP-tagged lines, we investigated 16 the cellular interactions occurring between Trichoderma atroviride PKI1, Medicago truncatula and 17 two Gigaspora species under in vitro culture conditions. T. atroviride did not activate symbiotic-18 like responses in the plant cells, such as nuclear calcium spiking or cytoplasmic aggregations at 19 hyphal contact sites. Furthermore, T. atroviride parasitized G. gigantea and G. margarita hyphae 20 through localized wall breaking and degradation -although this was not associated with significant 21 chitin lysis nor the upregulation of two major chitinase genes. T. atroviride colonized broad areas of 22 the root epidermis, in association with localized cell death. The infection of both symbionts was 23

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Shaping Small Bioactive Molecules to Untangle Their Biological Function: A Focus on Fluorescent Plant Hormones

Lace

Prandi

2016

Molecular Plant

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Modern biology overlaps with chemistry in explaining the structure and function of all cellular processes at the molecular level. Plant hormone research is perfectly located at the interface between these two disciplines, taking advantage of synthetic and computational chemistry as a tool to decipher the complex biological mechanisms regulating the action of plant hormones. These small signaling molecules regulate a wide range of developmental processes, adapting plant growth to ever changing environmental conditions. The synthesis of small bioactive molecules mimicking the activity of endogenous hormones allows us to unveil many molecular features of their functioning, giving rise to a new field, plant chemical biology. In this framework, fluorescence labeling of plant hormones is emerging as a successful strategy to track the fate of these challenging molecules inside living organisms. Thanks to the increasing availability of new fluorescent probes as well as advanced and innovative imaging technologies, we are now in a position to investigate many of the dynamic mechanisms through which plant hormones exert their action. Such a deep and detailed comprehension is mandatory for the development of new green technologies for practical applications. In this review, we summarize the results obtained so far concerning the fluorescent labeling of plant hormones, highlighting the basic steps leading to the design and synthesis of these compelling molecular tools and their applications.

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Heck functionalization of an asymmetric aza-BODIPY core: synthesis of far-red infrared probes for bioimaging applications

et al. 2017

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As part of our ongoing work on the synthesis of a new class of plant hormones named Strigolactones (SLs) and their analogues, we became interested in tracing bioactive molecules with red emitting BODIPY fluorophores in order to unravel signaling and distribution of SLs in plants. In this paper we report on an unprecedented Heck functionalization of azadipyrromethenes (aza-DIPY) which allows for the introduction of suitable functional groups to convert aza-BODIPY in bioconjugate complexes useful for untangling biological processes.

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Structure–activity relationships of strigolactones via a novel, quantitative in planta bioassay

Sanchez

Artuso

Lombardi

et al. 2018

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Beatrice Lace

New substituted imidazo[1,5-a]pyridine and imidazo[5,1-a]isoquinoline derivatives and their application in fluorescence cell imaging

Gate crashing arbuscular mycorrhizas: in vivo imaging shows the extensive colonization of both symbionts by Trichoderma atroviride

Shaping Small Bioactive Molecules to Untangle Their Biological Function: A Focus on Fluorescent Plant Hormones

Heck functionalization of an asymmetric aza-BODIPY core: synthesis of far-red infrared probes for bioimaging applications

Structure–activity relationships of strigolactones via a novel, quantitative in planta bioassay

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