7,406 research outputs found
Cell wall modifications during fruit ripening: when a fruit is not the fruit
Textural changes that lead to softening of fruits are accompanied
by loss of neutral sugars, solubilisation and depolymerisation
of the polysaccharides of the cell wall, and
rearrangements of their associations, as the result of the combined
action of several cell wall-modifying enzymes, acting in
both pectic and hemicellulosic fractions. Recent studies on the
structure of the plant cell wall have disclosed a large number
and type of biochemical linkages between the components.
Such linkages are potential targets for enzymatic action and
draw attention to the putative involvement of several members
of enzymes able to act and modify its structure in a developmental
and coordinated way. Extensive work on fruit ripening
has been done using tomato (Solanum lycopersicum [Lycopersicon
esculentum Mill.]) as a plant model and the information
concerning fruits other than model species is fragmented and
incomplete. However, recent data from the literature had disclosed
that differences exist between fruits, and even between
cultivars of the same fruit species. These differences exist in the
type and extent of the modification of the polysaccharides of
the cell wall and in the expression and regulation of cell
wall-modifying enzymes. In addition, genetic manipulation
of cell wall-modifying genes re-opened the discussion about
the real effect of these enzymes in the cell wall and their
role in fruit softening. Moreover, the function of each enzyme
has been proposed based on its homology with other annotated sequences, but, in most cases, confirmation of activity
in planta and substrate specificity remains to be investigated.
This aspect and recognized limitations of the in vitro
enzymatic activity assays also need to be considered when discussing
their role. This paper provides a critical review on the
current knowledge concerning these differences and emphasises
the need of using other species and more accurate methodologies
to investigate general mechanisms and fruit specificities
of softening among different fleshy fruits
How to survive earthquakes: the example of Norcia
Trabalho apresentado em International Conference on Earthquake Engineering and Structural Dynamics, 12-14 June 2017, Reykyjavik, IcelandN/
Cloning, characterisation and expression analysis of cDNA clones encoding cell wall-modifying enzymes isolated from ripe apples
Fruit softening is accompanied by modifications of the cell wall pectic and hemicellulosic fractions, as the result of the combined action
of several cell wall-modifying enzymes. The objective of this work was to clone specific cDNAs that encode isoforms of cell wall-modifying
enzymes, which are expressed during the final stages of apple softening, and to establish a temporal sequence of their accumulation. A cDNA
library enriched with mRNA isolated from over-ripe fruit was constructed and screened. A pectin methylesterase (MdPME1), a pectate lyase
(MdPL1), an -l-arabinofuranosidase (MdAF1) an endo-1,4- -glucanase (MdEG1), two xyloglucan endotransglucosylase/hydrolases (Md-XTH1
and Md-XTH2), and an alpha-expansin (MdEXPA3) specific cDNAs were identified by homology-based cloning, and their mRNA accumulation
was examined during fruit growth and ripening. The expression of an apple -galactosidase ( -Gal; pABG1) and a polygalacturonase (PG;
pGDPG-1) mRNA previously reported was also investigated using the same biological material. Transcripts of all enzymes, except MdPME1,
could be unambiguously detected by semi-quantitative RT-PCR in fruit during ripening. However, transcripts of MdEG1 were more abundant
at fruit set and MdPL1 exhibited higher expression before commercial maturity. The strongest RT-PCR signals in over-ripe fruit were observed
for PG, -Gal and Md-XTH1 clones. Two XTHs were detected in over-ripe fruit. While Md-XTH1 acts constitutively during fruit development,
Md-XTH2 showed a ripening-related pattern. The Md-XTH2-encoded protein was heterologously expressed in Saccharomyces cerevisiae and
showed both transglycosylase and hydrolase activities. Expression analyses conducted in flowers, peduncles, young and expanded leaves, and
petioles of senescent leaves revealed that none of the cloned cDNAs is fruit specifi
Evidence for deuterium astration in the planetary nebula Sh2-216?
We present FUSE observations of the line of sight to WD0439+466 (LS V +46
21), the central star of the old planetary nebula Sh2-216. The FUSE data shows
absorption by many interstellar and stellar lines, in particular D I, H2 (J = 0
- 9), HD (J = 0 - 1), and CO. Many other stellar and ISM lines are detected in
the STIS E140M HST spectra of this sightline, which we use to determine N(HI).
We derive, for the neutral gas, D/H=(0.76 +0.12 -0.11)E-5, O/H = (0.89 +0.15
-0.11)E-4 and N/H = (3.24 +0.61-0.55)E-5. We argue that most of the gas along
this sightline is associated with the planetary nebula. The low D/H ratio is
likely the result of this gas being processed through the star (astrated) but
not mixed with the ISM. This would be the first time that the D/H ratio has
been measured in predominantly astrated gas. The O/H and N/H ratios derived
here are lower than typical values measured in other planetary nebulae likely
due to unaccounted for ionization corrections.Comment: Accepted for publication is ApJ
Sequestração geológica de dióxido de carbono: notas sobre o estado-da-arte
Após uma breve introdução sobre os conceitos de (i) Alterações climáticas vs Alterações
globais e de (ii) Gases de efeito de estufa, os autores apresentam o estado-da-arte sobre os
principais problemas relacionados com a redução do dióxido de carbono e sua sequestração
geológica. Por fim, fazem referência aos projectos existentes neste domínio no “Grupo
de Investigação em Energia” do Centro de Investigação em Alterações Globais, Energia,
Ambiente e Bioengenharia - CIAGEB da Universidade Fernando Pessoa.
After a short introduction regarding concepts such as (i) Climate change vs Global changes,
and (ii) Greenhouse gases effect, the authors present the state-of-the-art regarding
problems related with Carbon dioxide abatement and geological sequestration. Finally, the
authors refer to the current projects on this particular issue being developed by the “Energy
Research Group” of the Global Change, Energy, Environment and Bioengineering RDID&D
Unit – CIAGEB of Universidade Fernando Pessoa
Electrochemical evaluation of total antioxidant capacity of beverages using a purine-biosensor
In this paper, it was evaluated the total antioxidant capacity (TAC) of beverages using an electrochemical
biosensor. The biosensor consisted on the purine base (guanine or adenine) electro-immobilization on a
glassy carbon electrode surface (GCE). Purine base damage was induced by the hydroxyl radical generated
by Fenton-type reaction. Five antioxidants were applied to counteract the deleterious effects of
the hydroxyl radical. The antioxidants used were ascorbic acid, gallic acid, caffeic acid, coumaric acid
and resveratrol. These antioxidants have the ability to scavenger the hydroxyl radical and protect the
guanine and adenine immobilized on the GCE surface. The interaction carried out between the purinebase
immobilized and the free radical in the absence and presence of antioxidants was evaluated by
means of changes in the guanine and adenine anodic peak obtained by square wave voltammetry
(SWV). The results demonstrated that the purine-biosensors are suitable for rapid assessment of TAC
in beverages
Electrochemical DNA-sensor for evaluation of total antioxidant capacity of flavours and flavoured waters using superoxide radical damage
In this paper, a biosensor based on a glassy carbon electrode (GCE) was used for the evaluation of the total
antioxidant capacity (TAC) of flavours and flavoured waters. This biosensor was constructed by immobilising
purine bases, guanine and adenine, on a GCE. Square wave voltammetry (SWV) was selected for
the development of this methodology. Damage caused by the reactive oxygen species (ROS), superoxide
radical (O2·−), generated by the xanthine/xanthine oxidase (XOD) system on the DNA-biosensor was
evaluated. DNA-biosensor encountered with oxidative lesion when it was in contact with the O2·−. There
was less oxidative damage when reactive antioxidants were added. The antioxidants used in this work
were ascorbic acid, gallic acid, caffeic acid, coumaric acid and resveratrol. These antioxidants are capable
of scavenging the superoxide radical and therefore protect the purine bases immobilized on the GCE
surface. The results demonstrated that the DNA-based biosensor is suitable for the rapid assess of TAC in
beverages
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