3,813 research outputs found
Determinantal ideals and monomial curves in the three-dimensional space
We show that the defining ideal of every monomial curve in the affine or
projective three-dimensional space can be set-theoretically defined by three
binomial equations, two of which set-theoretically define a determinantal ideal
generated by the 2-minors of a matrix with monomial entries
Exploitation of proteomics strategies in protein structure-function studies
Mass spectrometry plays a central role in structural proteomics, particularly in highly intensive structural genomics projects. This review paper reports some examples taken from recent work from the authors' laboratory and is aimed at showing that modem proteomics strategies are instrumental in the integration of structural genomic projects in fields such as: (i) protein-protein interactions, (ii) protein-DNA interactions, (iii) protein-ligand interactions, and (iv) protein-folding intermediates
Borel Degenerations of Arithmetically Cohen-Macaulay curves in P^3
We investigate Borel ideals on the Hilbert scheme components of
arithmetically Cohen-Macaulay (ACM) codimension two schemes in P^n. We give a
basic necessary criterion for a Borel ideal to be on such a component. Then
considering ACM curves in P^3 on a quadric we compute in several examples all
the Borel ideals on their Hilbert scheme component. Based on this we conjecture
which Borel ideals are on such a component, and for a range of Borel ideals we
prove that they are on the component.Comment: 20 pages, shorter and more effective versio
Effects of Single-Dose Prucalopride on Intestinal Hypomotility in Horses: Preliminary Observations
Abnormalities of gastrointestinal motility are often a challenge in horses; however, the use of prokinetic drugs in such conditions must be firmly established yet. For this reason we carried out a preliminary study on the effects of prucalopride on intestinal motor activity of horses with gut hypomotility.
The effect of prucalopride per os by oral dose syringe (2 mg/100 kg body weight) was assessed by abdominal ultrasound (evaluating duodenal, cecal, and colonic motor activity) in six horses with gut hypomotility. After administration of prucalopride, a significant increase of contractile activity was found in the duodenum at 30 minutes (p = 0.0005), 60 minutes (p = 0.01) and 90 minutes (p = 0.01), whereas in the cecum and in the left colon the increase was only present at 60 minutes (p = 0.03, and
p = 0.02, respectively). No changes from baseline heart and respiratory rate or behavior side effects were observed after administration of the drug and throughout the observation period. Prucalopride may be a useful adjunct to the therapeutic armamentary for treating hypomotile upper gut conditions of horses. Dosing information is however needed to establish its actual clinical efficacy and its proper effects on the large bowel in these animals
Effect of different pastures on CLA content in milk and sheep cheese
It is known that milk composition included conjugated linoleic acid (CLA) is affected by animal feeding system (Cabiddu et al., 2001). In Sardinia dairy sheep feeding is mainly based on pastures. Most of them are characterised by self-regenerating species, like annual ryegrass (Lolium rigidum Gaudin) and burr medic (Medicago polymorpha L.). Non conventional species belonging to the Compositae family such as (Chrysanthemum coronarium L.) seem interesting for sheep feeding when other herbages decrease in quality (late spring- early summer). It was observed that C. coronarium establishes rapidly, can be grazed early in the growing season and persist where other pasture species
may disappear; for these reasons it can be considered a valuable source of food. Moreover a preliminary
study with dairy sheep fed fresh forage of C. coronarium showed relatively high levels of CLA in milk
(Molle G. pers. com.) The aim of the present work was to study the influence of different pastures on milk composition, with particular reference to CLA and its precursors
Tomato ionomic approach for food fortification and safety.
Food fortification is an issue of paramount of importance for people living both in developed
and in developing countries. Among substances listed as "nutriceuticals", essential minerals have
been recognised for their involvement in several healthy issues, involving all ages. In this frame,
food plants are playing a pivotal role since their capability to compartmentalise ions and proteinmetal
complexes in edible organs. Conversely, the accumulation of high metal levels in those
organs may lead to safety problems. In the recent years, thanks to the availability of new and
improved analytical apparatus in both ionic and genomic/transcrittomics areas, it is became feasible
to couple data coming from plant physiology and genetics. Ionomics is the discipline that studies
the cross-analysis of both data sets. Our group, in the frame of GenoPom project granted by MiUR,
is interested to study the ionomics of tomatoes cultivars derived by breeding programmes in which
wild relatives have been used to transfer several useful traits, such as resistance to biotic or abiotic
stresses, fruit composition and textiture, etc. The introgression of the wild genome into the
cultivated one produces new gene combinations. They might lead to the expression of some traits,
such as increased or reduced adsorption of some metals and their exclusion or loading into edible
organs, thus strongly involving the nutritional food value. Our final goal is to put together data
coming from ions homeostasis and gene expression analyses, thus obtaining an ionomic tomato
map related to ions absorption, translocation and accumulation in various plant organs, fruits
included. To follow our hypothesis, we are studying the ionome of Solanum lycopersicum cv. M82
along with 76 Introgression Lines (ILs) produced by interspecific crosses between this cultivar and
the wild species S. pennellii. These ILs are homozygous for small portions of the wild species
genome introgressed into the domesticated M82 one. They are used as a useful tool for mapping
QTL associated with many traits of interest. It is worthy to note that, until now, little information is
available on QTL for ions accumulation in tomato. Moreover, as our knowledge, effects of new
gene combinations in introgressed lines on ions uptake related to food safety have not been
extensively studied. In this presentation we show results coming from the ionome analysis, carried
out on S . lycopersicum M82 and several ILs. Plants were grown in pots in a greenhouse and
watered with deionised water Thirty day-old plants were left to grow for 15 days in the presence of
non-toxic concentration of Cd, Pb, As, Cr and Zn given combined. Leaves of all plants were then
harvested and stored at -80°C for ionome and gene expression analyses. Preliminary results of
ionome analysis of S. lycopersicum M82 and several ILs, carried out using an ICP-MS, showed that
traits correlated to toxic metals and micronutrients accumulation in apical leaves were significantly
modified in response to specific genetic backgrounds. Those results are perhaps due to the
introgression of traits linked to uptake, translocation and accumulation of useful and/or toxic metal
into plant apical leaves and to interactions of the wild type introgressed genomic regions with the
cultivated genome. Also, data are shown on the identification and isolation of Solanum gene
sequences related to ions uptake, translocation and accumulation, useful for further real-time gene
expression evaluation in both cultivated and ILs during the treatments with the above-mentioned
metals
The coherent dynamics of photoexcited green fluorescent proteins
The coherent dynamics of vibronic wave packets in the green fluorescent
protein is reported. At room temperature the non-stationary dynamics following
impulsive photoexcitation displays an oscillating optical transmissivity
pattern with components at 67 fs (497 cm-1) and 59 fs (593 cm-1). Our results
are complemented by ab initio calculations of the vibrational spectrum of the
chromophore. This analysis shows the interplay between the dynamics of the
aminoacidic structure and the electronic excitation in the primary optical
events of green fluorescent proteins.Comment: accepted for publication in Physical Review Letter
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