194 research outputs found
A Novel Biostimulant, Belonging to Protein Hydrolysates, Mitigates Abiotic Stress Effects on Maize Seedlings Grown in Hydroponics
The main challenge to agriculture worldwide is feeding a rapidly growing human population, developing more sustainable agricultural practices that do not threaten human and ecosystem health. An innovative solution relies on the use of biostimulants, as a tool to enhance nutrient use ef\ufb01ciency and crop performances under sub-optimal conditions. In this work a novel biostimulant(APR\uae,ILSAS.p.A.,ArziganoVI,Italy), belongingtothegroupofproteinhydrolysates, wassuppliedtomaizeseedlingsinhydroponicanditseffectswereassessedincontrolconditionsand in the presence of three different kinds of stresses (hypoxia, salt and nutrient de\ufb01ciency) and of their combination. OurresultsindicatethatAPR\uae issolubleandisabletoin\ufb02uencerootandshootgrowth depending on its concentration. Furthermore, its effectiveness is clearly increased in condition of single or combination of abiotic stresses, thus con\ufb01rming the previously hypothesised action of this substance as enhancer of the response to environmental adversities. Moreover, it also regulates the transcription of a set of genes involved in nitrate transport and ROS metabolism. Further work will be needed to try to transfer this basic knowledge in \ufb01eld experiments
Identification and characterization of the BZR transcription factor family and its expression in response to abiotic stresses in Zea mays L.
Brassinosteroids (BRs) are plant specific steroidal hormones that play diverse roles in regulating a broad spectrum of plant growth and developmental processes, as well as, in responding to various biotic and abiotic stresses. Extensive research over the years has established stress-impact-mitigating role of BRs and associated compounds in different plants exposed to various abiotic and biotic stresses, suggesting the idea that they may act as immunomodulators, thus opening new approaches for plant resistance against hazardous environmental conditions. In this research the characterization of the transcriptional response of 11 transcription factors (TFs) belonging to BRASSINAZOLE-RESISTANT 1 (BZR1) TF family of Zea mays L. was analyzed in seedlings subjected to different stress conditions. Being important regulators of the BR synthesis, BZR TFs might have stress resistance related activities. However, no stress resistance related functional study of BZR TFs has been reported in maize so far. In silico analyses of the selected 11 TFs validated the features of their protein domains, where a highest degree of similarity observed with recognized BZR TFs of rice and Sorghum bicolor. Additionally, we investigated the organ-specific expression of 11 ZmBZR in maize seedlings. Five of them did not show any transcript accumulation, suggesting that ZmBZR expression might be regulated in a manner dependent on plant developmental stage. For the remaining six ZmBZR, their ubiquitous expression in the whole plant indicates they could function as growth regulators during maize development. More importantly, in response to various stress conditions, the spatial transcript accumulation of all ZmBZR varies along the plant. All six ZmBZR showed up-regulation against N starvation, hypoxia and salt stress. On the contrary, heat stress clearly down-regulated gene expression of all ZmBZR analysed. Consistently with the expression results, the distribution of stress-related cis-acting elements in the promoter of these genes inferred that the maize BZR TFs might play some roles in regulating the expression of the corresponding genes in response to multifarious stresses. In conclusion, these data reveal that BZR TFs have stress signaling activity in maize, in addition to their confirmed role in regulating plant physiology and morphology
Protein Profiling of Arabidopsis Roots Treated With Humic Substances: Insights Into the Metabolic and Interactome Networks
Background and Aim: Humic substances (HSs) influence the chemical and physical
properties of the soil, and are also known to affect plant physiology and nutrient uptake.
This study aimed to elucidate plant metabolic pathways and physiological processes
influenced by HS activity.
Methods: Arabidopsis roots were treated with HS for 8 h. Quantitative mass
spectrometry-based proteomics analysis of root proteins was performed using the
iTRAQ (Isobaric Tag for Relative and Absolute Quantification) technique. Out of 902
protein families identified and quantified for HS treated vs. untreated roots, 92 proteins
had different relative content. Bioinformatic tools such as STRING, KEGG, IIS and
Cytoscape were used to interpret the biological function, pathway analysis and
visualization of network amongst the identified proteins.
Results: From this analysis it was possible to evaluate that all of the identified proteins
were functionally classified into several categories, mainly redox homeostasis, response
to inorganic substances, energy metabolism, protein synthesis, cell trafficking, and
division.
Conclusion: In the present study an overview of the metabolic pathways most modified
by HS biological activity is provided. Activation of enzymes of the glycolytic pathway
and up regulation of ribosomal protein indicated a stimulation in energy metabolism and
protein synthesis. Regulation of the enzymes involved in redox homeostasis suggest a
pivotal role of reactive oxygen species in the signaling and modulation of HS-induced
responses
Adamantiades-Behcet disease at the beginning of the Silk Route: North-East Italian experience.
No abstract availabl
Proceedings of CIEC 16 European Inter-regional Conference on Ceramics - Torino, 9-11 September 2018
This e-book collects the extended abstracts of some of the oral and poster presentations, which have enlived the 16th International Inter-Regional European Conference on Ceramics, CIEC 16, held in Torino, Italy, from 9 to 11 September 2018
Sporotrichoid Mycobacterium marinum infection in an elderly woman
We describe the case of an elderly woman who acquired a Mycobacterium marinum infection following skin exposure to the bacteria through a small wound on her right ring finger, obtained while preparing fish. The resultant sporotrichoid nodules of the right hand and the distal forearm, refractory to the initial therapy with doxycycline and rifampicin, were successfully treated with oral regimen of clarithromycin. \ua9 2015 by the article author(s)
Could co-infection with Anaplasma play a role in Borrelia-associated primary cutaneous marginal zone B-cell lymphomas?
6noopenopenBonin, Serena; Stinco, Giuseppe; Patriarca, Maria Martina; Trevisini, Sara; Di Meo, Nicola; Trevisan, GiustoBonin, Serena; Stinco, Giuseppe; Patriarca, Maria Martina; Trevisini, Sara; Di Meo, Nicola; Trevisan, Giust
Sporotrichoid Mycobacterium marinum infection in an elderly woman
We describe the case of an elderly woman who acquired a Mycobacterium marinum infection following skin exposure to the bacteria through a small wound on her right ring finger, obtained while preparing fish. The resultant sporotrichoid nodules of the right hand and the distal forearm, refractory to the initial therapy with doxycycline and rifampicin, were successfully treated with oral regimen of clarithromycin
Nitrate sensing by the maize root apex transition zone: A merged transcriptomic and proteomic survey
Nitrate is an essential nutrient for plants, and crops depend on its availability for growth and development, but its presence in agricultural soils is far from stable. In order to overcome nitrate fluctuations in soil, plants have developed adaptive mechanisms allowing them to grow despite changes in external nitrate availability. Nitrate can act as both nutrient and signal, regulating global gene expression in plants, and the root tip has been proposed as the sensory organ. A set of genome-wide studies has demonstrated several nitrate-regulated genes in the roots of many plants, although only a few studies have been carried out on distinct root zones. To unravel new details of the transcriptomic and proteomic responses to nitrate availability in a major food crop, a double untargeted approach was conducted on a transition zone-enriched root portion of maize seedlings subjected to differing nitrate supplies. The results highlighted a complex transcriptomic and proteomic reprogramming that occurs in response to nitrate, emphasizing the role of this root zone in sensing and transducing nitrate signal. Our findings indicated a relationship of nitrate with biosynthesis and signalling of several phytohormones, such as auxin, strigolactones, and brassinosteroids. Moreover, the already hypothesized involvement of nitric oxide in the early response to nitrate was confirmed with the use of nitric oxide inhibitors. Our results also suggested that cytoskeleton activation and cell wall modification occurred in response to nitrate provision in the transition zone
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