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551.
Sol-gel treatments have been performed on cotton fabrics in order to promote the formation of a surface silica insulating barrier, able to enhance their thermo-oxidative stability and flame retardancy. In particular, the role of several silica precursors, which differ as far as their structure (number and type of hydrolysable groups, presence of aromatic rings) is concerned, has been thoroughly investigated. The level of silica distribution and dispersion on and within the fabrics was found to depend on the type of precursor employed, as revealed by scanning electron microscopy and elemental analysis. All the precursors were able to favour the char formation in air below 360 °C, as stated by thermogravimetric analysis: in particular, the highest thermal stability was achieved in the presence of precursors bearing aromatic rings. Indeed, both flammability resistance and combustion behaviour of the treated fabrics were remarkably enhanced. 相似文献
552.
Among inherited cardiac conditions,a special place is kept by cardiomyopathies(CMPs)and channelopathies(CNPs),which pose a substantial healthcare burden due to the complexity of the therapeutic management and cause early mortality.Like other inherited cardiac conditions,genetic CMPs and CNPs exhibit incomplete penetrance and variable expressivity even within carriers of the same pathogenic deoxyribonucleic acid variant,challenging our understanding of the underlying pathogenic mechanisms.Until recently,the lack of accurate physiological preclinical models hindered the investigation of fundamental cellular and molecular mechanisms.The advent of induced pluripotent stem cell(iPSC)technology,along with advances in gene editing,offered unprecedented opportunities to explore hereditary CMPs and CNPs.Hallmark features of iPSCs include the ability to differentiate into unlimited numbers of cells from any of the three germ layers,genetic identity with the subject from whom they were derived,and ease of gene editing,all of which were used to generate“disease-in-a-dish”models of monogenic cardiac conditions.Functionally,iPSC-derived cardiomyocytes that faithfully recapitulate the patient-specific phenotype,allowed the study of disease mechanisms in an individual-/allele-specific manner,as well as the customization of therapeutic regimen.This review provides a synopsis of the most important iPSC-based models of CMPs and CNPs and the potential use for modeling disease mechanisms,personalized therapy and deoxyribonucleic acid variant functional annotation. 相似文献
553.
The mechanisms translating genetic to phenotypic variation determine the distribution of heritable phenotypic variance available
to selection. Pleiotropy is an aspect of this structure that limits independent variation of characters. Modularization of
pleiotropy has been suggested to promote evolvability by restricting genetic covariance among unrelated characters and reducing
constraints due to correlated response. However, modularity may also reduce total genetic variation of characters. We study
the properties of genotype-phenotype maps that maximize average conditional evolvability, measured as the amount of unconstrained
genetic variation in random directions of phenotypic space. In general, maximal evolvability occurs by maximizing genetic
variance and minimizing genetic covariance. This does not necessarily require modularity, only patterns of pleiotropy that
cancel on average. The detailed structure of the most evolvable genotype-phenotype maps depends on the distribution of molecular
variance. When molecular variance is determined by mutation-selection equilibrium either highly pleiotropic or highly modular
genotype-phenotype maps can be optimal, depending on the mutation rate and the relative strengths of stabilizing selection
on the characters. 相似文献
554.
555.
Anca Roseanu Paula E. Florian Magdalena Moisei Livia E. Sima Robert W. Evans Mihaela Trif 《Biometals》2010,23(3):485-492
A number of studies have reported the anti-tumoral activity of lactoferrin, a property mediated by a variety of mechanisms
such as inhibitory effects on tumor cell growth, NK cell activation, and enhancement of apoptosis. Liposomes are known to
be an efficient drug delivery system which can enhance the therapeutic potential of the encapsulated compounds. We have used
positively charged liposomes composed of phosphatidylcholine (PC), dioleoylphosphatidylethanolamine (DOPE), cholesterol (Chol)
and stearylamine (SA) (6:1:2:1 M ratio) as a carrier system for bovine iron-free Lf (ApoBLf), and compared the in vitro effect
of free and liposome-entrapped ApoBLf on the growth and morphology of murine melanoma B16-F10 cells. Liposomal formulation
of ApoBLf was found to enhance the capacity of the protein to inhibit the cell proliferation by affecting cell cycle progression.
The effect appeared to be due to the capacity of liposomes to increase the uptake of the protein and its accumulation into
cells and probably to protect it from degradation, as revealed by fluorescence microscopy and flow cytometry. Our results demonstrate the ability of liposomes to improve the anti-tumor activity of Lf and suggest that liposomal protein
may have a potential therapeutic use in the prevention and/or treatment of cancer diseases. 相似文献
556.
557.
Underground adventitious buds of leafy spurge (Euphorbia esula) undergo three well-defined phases of dormancy, para-, endo-, and ecodormancy. In this study, relationships among genes involved in carbohydrate metabolism and bud dormancy were examined after paradormancy release (growth induction) by decapitation and in response to seasonal signals. Real-time PCR was used to determine the expression levels of carbohydrate metabolism genes at different phases of bud dormancy. Among differentially-regulated genes, expression of a specific Euphorbia esula β-amylase gene (Ee-BAM1) increased 100-fold after growth induction and 16,000-fold from July (paradormancy) to December (ecodormancy). Sequence data analysis indicated that two genes, Ee-BAM1 and Ee-BAM2, could encode this β-amylase. However, real-time PCR using gene-specific primer pairs only amplified Ee-BAM1, indicating that Ee-BAM2 is either specific to other organs or not abundant. The deduced amino acid sequences of these two genes are very similar at the N-terminal but differ at the C-terminal. Both contain a nearly identical, predicted 48-amino acid plastid transit peptide. Immunoblot analyses identified a 29 kD (mature Ee-BAM1 after cleavage of the transit peptide) and a 35 kD (unprocessed EeBAM1) protein. Both 35 and 29 kD proteins were constitutively expressed in growth-induced and seasonal samples. Immunolocalization indicated that Ee-BAM1 is in the cytosol of cells at the shoot tip of the bud. Ee-BAM1 also surrounds the amyloplasts in mature cells toward the base of the bud. These observations suggests that Ee-BAM1 may have dual functions; serving as reserve protein in the cytosol and as a degrading enzyme at the surface of amyloplasts. 相似文献
558.
Theresa Dutschei Irena Beidler Daniel Bartosik Julia-Maria Seeßelberg Michelle Teune Marcus Bäumgen Soraia Querido Ferreira Julia Heldmann Felix Nagel Joris Krull Leona Berndt Karen Methling Martin Hein Dörte Becher Peter Langer Mihaela Delcea Michael Lalk Michael Lammers Matthias Höhne Jan-Hendrik Hehemann Thomas Schweder Uwe T. Bornscheuer 《Environmental microbiology》2023,25(9):1713-1727
Marine Bacteroidetes that degrade polysaccharides contribute to carbon cycling in the ocean. Organic matter, including glycans from terrestrial plants, might enter the oceans through rivers. Whether marine bacteria degrade structurally related glycans from diverse sources including terrestrial plants and marine algae was previously unknown. We show that the marine bacterium Flavimarina sp. Hel_I_48 encodes two polysaccharide utilization loci (PULs) which degrade xylans from terrestrial plants and marine algae. Biochemical experiments revealed activity and specificity of the encoded xylanases and associated enzymes of these PULs. Proteomics indicated that these genomic regions respond to glucuronoxylans and arabinoxylans. Substrate specificities of key enzymes suggest dedicated metabolic pathways for xylan utilization. Some of the xylanases were active on different xylans with the conserved β-1,4-linked xylose main chain. Enzyme activity was consistent with growth curves showing Flavimarina sp. Hel_I_48 uses structurally different xylans. The observed abundance of related xylan-degrading enzyme repertoires in genomes of other marine Bacteroidetes indicates similar activities are common in the ocean. The here presented data show that certain marine bacteria are genetically and biochemically variable enough to access parts of structurally diverse xylans from terrestrial plants as well as from marine algal sources. 相似文献
559.
560.
Eric J. Horstick Diana C. Jordan Sadie A. Bergeron Kathryn M. Tabor Mihaela Serpe Benjamin Feldman Harold A. Burgess 《Nucleic acids research》2015,43(7):e48
Many genetic manipulations are limited by difficulty in obtaining adequate levels of protein expression. Bioinformatic and experimental studies have identified nucleotide sequence features that may increase expression, however it is difficult to assess the relative influence of these features. Zebrafish embryos are rapidly injected with calibrated doses of mRNA, enabling the effects of multiple sequence changes to be compared in vivo. Using RNAseq and microarray data, we identified a set of genes that are highly expressed in zebrafish embryos and systematically analyzed for enrichment of sequence features correlated with levels of protein expression. We then tested enriched features by embryo microinjection and functional tests of multiple protein reporters. Codon selection, releasing factor recognition sequence and specific introns and 3′ untranslated regions each increased protein expression between 1.5- and 3-fold. These results suggested principles for increasing protein yield in zebrafish through biomolecular engineering. We implemented these principles for rational gene design in software for codon selection (CodonZ) and plasmid vectors incorporating the most active non-coding elements. Rational gene design thus significantly boosts expression in zebrafish, and a similar approach will likely elevate expression in other animal models. 相似文献