1,721,104 research outputs found
Distinct gene networks drive differential response to abrupt or gradual water deficit in potato
No full textWater-limiting conditions affect dramatically plant growth and development and, ultimately, yield of potato plants (Solanum tuberosum L.). Therefore, understanding the mechanisms underlying the response to water deficit is of paramount interest to obtain drought tolerant potato varieties. Herein, potato 10 K cDNA array slides were used to profile transcriptomic changes of two potato cell populations under abrupt (shocked cells) or gradual exposure (adapted cells) to polyethylene glycol (PEG)-mediated water stress. Data analysis identified > 1000 differentially expressed genes (DEGs) in our experimental conditions. Noteworthy, our microarray study also suggests that distinct gene networks underlie the cellular response to shock or gradual water stress. On the basis of our experimental findings, it is possible to speculate that DEGs identified in shocked cells participate in early protective and sensing mechanisms to environmental insults, while the genes whose expression was modulated in adapted cells are directly involved in the acquisition of a new cellular homeostasis to cope with water stress conditions. To validate microarray data obtained for potato cells, the expression analysis of 21 selected genes of interest was performed by Real-Time Quantitative Reverse Transcription PCR (qRT-PCR). Intriguingly, the expression levels of these transcripts in 4-week old potato plants exposed to long-term water-deficit. qRT-PCR analysis showed that several genes were regulated similarly in potato cells cultures and tissues exposed to drought, thus confirming the efficacy of our simple experimental system to capture important genes involved in osmotic stress response. Highlighting the differences in gene expression between shock-like and adaptive response, our findings could contribute to the discussion on the biological function of distinct gene networks involved in the response to abrupt and gradual adaptation to water deficit. © 2016 Elsevier B.V
Development, evaluation, and validation of new EST-SSR markers in olive (Olea europaea L.)
No full textRapid and effective genotyping is an important goal to discriminate among the numerous olive cultivars and their wild related forms. The largely used di-nucleotide simple sequence repeat (SSR) markers show a high level of polymorphism and have strongly contributed to solve many inconsistencies in varietal identity, but many problems related to difficult discrimination of neighboring alleles and low comparability of data among different labs severely reduce their applicability for large-scale screening. The availability of numerous transcriptome libraries, which were developed from different tissues of several olive varieties, has allowed their intensive screening to search for polynucleotide microsatellite regions with long core repeats, potentially polymorphic among varieties. An accurate screening of all these polymorphisms has allowed to select a set of 25 trinucleotide and one tetranucleotide SSRs, showing a good level of discrimination power with a high allele pattern resolution and repeatability. They were preliminarily tested on a group of cultivated varieties then validated on a wider group of cultivated and wild plants, and related species and subspecies, demonstrating a good transferability within the entire Olea taxon. Furthermore, an in silico functional prediction has allowed to assign each transcribed sequence to their gene functions and biological process categories, highlighting their potential application of these new EST-SSRs as functional markers. © 2016, Springer-Verlag Berlin Heidelberg
Rapporto sull'industria calzaturiera in Campania
No full textAutore del par. 3°, del cap.I e del cap.I
Rapporto sull'industria calzaturiera in Campania
No full textAutore del par. 3°, del cap.I e del cap.I
Purification of intact chloroplasts from marine plant Posidonia oceanica suitable for organelle proteomics
No full textPosidonia oceanica is a marine angiosperm, or seagrass, adapted to grow to the underwater life from shallow waters to 50 m depth. This raises questions of how their photosynthesis adapted to the attenuation of light through the water column and leads to the assumption that biochemistry and metabolism of the chloroplast are the basis of adaptive capacity. In the present study, we described a protocol that was adapted from those optimized for terrestrial plants, to extract chloroplasts from as minimal tissue as possible. We obtained the best balance between tissue amount/intact chloroplasts yield using one leaf from one plant. After isopynic separations, the chloroplasts purity and integrity were evaluated by biochemical assay and using a proteomic approach. Chloroplast proteins were extracted from highly purified organelles and resolved by 1DE SDS-PAGE. Proteins were sequenced by nLC-ESI-IT-MS/MS of 1DE gel bands and identified against NCBInr green plant databases, Dr. Zompo database for seagrasses in a local customized dataset. The curated localization of proteins in sub-plastidial compartments (i.e. envelope, stroma and thylakoids) was retrieved in the AT_CHLORO database. This purification protocol and the validation of compartment markers may serve as basis for sub-cellular proteomics in P. oceanica and other seagrasses. © 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Proteome Regulation during Olea europaea Fruit Development
No full textBackground: Widespread in the Mediterranean basin, Olea europaea trees are gaining worldwide popularity for the nutritional and cancer-protective properties of the oil, mechanically extracted from ripe fruits. Fruit development is a physiological process with remarkable impact on the modulation of the biosynthesis of compounds affecting the quality of the drupes as well as the final composition of the olive oil. Proteomics offers the possibility to dig deeper into the major changes during fruit development, including the important phase of ripening, and to classify temporal patterns of protein accumulation occurring during these complex physiological processes. Methodology/Principal Findings: In this work, we started monitoring the proteome variations associated with olive fruit development by using comparative proteomics coupled to mass spectrometry. Proteins extracted from drupes at three different developmental stages were separated on 2-DE and subjected to image analysis. 247 protein spots were revealed as differentially accumulated. Proteins were identified from a total of 121 spots and discussed in relation to olive drupe metabolic changes occurring during fruit development. In order to evaluate if changes observed at the protein level were consistent with changes of mRNAs, proteomic data produced in the present work were compared with transcriptomic data elaborated during previous studies. Conclusions/Significance: This study identifies a number of proteins responsible for quality traits of cv. Coratina, with particular regard to proteins associated to the metabolism of fatty acids, phenolic and aroma compounds. Proteins involved in fruit photosynthesis have been also identified and their pivotal contribution in oleogenesis has been discussed. To date, this study represents the first characterization of the olive fruit proteome during development, providing new insights into fruit metabolism and oil accumulation process. © 2013 Bianco et al
GNSS Navigation during Lunar Transfers
No full textThe interest to deeply analyze the possible application of satellite navigation in lunar transfer is obvious. As in the case of
HEO and GEO orbits, receiving antennas will be
basically working in a look-down configuration, as
no sources are presently located above a MEO
altitude of about 20000 km. The signal is
represented by the spill-over all around the Earth
figure of the main lobe (beamwidth amplitude for
GPS is about 28°) irradiated by satellites servicing
the opposite hemisphere of the Earth. Additional
signal is provided by secondary lobes of the GNSS
satellites servicing the same Earth hemisphere the
spacecraft is flying over. Low signal level due to the
dependency on the square of the distance of this
available signal, if any, makes the acquisition quite
difficult and spaced out by frequent outage periods.
Even if the acquisition is successful, the quite poor
geometric dilution of precision factor leads to a
coarse solution in terms of accuracy
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