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521.
The exchange of proteins and lipids between the trans-Golgi network (TGN) and the endosomal system requires multiple cellular machines, whose activities are coordinated in space and time to generate pleomorphic, tubulo-vesicular carriers that deliver their content to their target compartments. These machines and their associated protein networks are recruited and/or activated on specific membrane domains where they select proteins and lipids into carriers, contribute to deform/elongate and partition membrane domains using the mechanical forces generated by actin polymerization or movement along microtubules. The coordinated action of these protein networks contributes to regulate the dynamic state of multiple receptors recycling between the cell surface, endosomes and the TGN, to maintain cell homeostasis as exemplified by the biogenesis of lysosomes and related organelles, and to establish/maintain cell polarity. The dynamic assembly and disassembly of these protein networks mediating the exchange of membrane domains between the TGN and endosomes regulates cell-cell signalling and thus the development of multi-cellular organisms. Somatic mutations in single network components lead to changes in transport dynamics that may contribute to pathological modifications underlying several human diseases such as mental retardation. 相似文献
522.
Effects of Dicer and Argonaute down-regulation on mRNA levels in human HEK293 cells 总被引:14,自引:1,他引:13 下载免费PDF全文
Schmitter D Filkowski J Sewer A Pillai RS Oakeley EJ Zavolan M Svoboda P Filipowicz W 《Nucleic acids research》2006,34(17):4801-4815
523.
Jurdana M Fumagalli G Grubic Z Lorenzon P Mars T Sciancalepore M 《Cellular and molecular neurobiology》2009,29(1):123-131
Recent investigations suggest that the effects of neural agrin might not be limited to neuromuscular junction formation and
maintenance and that other aspects of muscle development might be promoted by agrin. Here we tested the hypothesis that agrin
induces a change in the excitability properties in primary cultures of non-innervated human myotubes. Electrical membrane
properties of human myotubes were recorded using the whole-cell patch-clamp technique. Cell incubation with recombinant chick
neural agrin (1 nM) led to a more negative membrane resting potential. Addition of strophanthidin, a blocker of the Na+/K+ ATPase, depolarized agrin-treated myotubes stronger than control, indicating, in the presence of agrin, a higher contribution
of the Na+/K+ ATPase in establishing the resting membrane potential. Indeed, larger amounts of both the α1 and the α2 isoforms of the Na+/K+ ATPase protein were expressed in agrin-treated cells. A slight but significant down-regulation of functional apamin-sensitive
K+ channels was observed after agrin treatment. These results indicate that neural agrin might act as a trophic factor promoting
the maturation of membrane electrical properties during differentiation, confirming the role of agrin as a general promoter
of muscle development.
Tomaz Mars and Marina Sciancalepore contributed equally to this article.
A preliminary account of our data has been presented in abstract form.
Jurdana M, Mars T, Grubic Z, Sciancalepore M (2006) Agrin promotes the maturation of non-innervated human myotubes. Acta
Physiol 188(Suppl 652):P6. 相似文献
524.
Robert Kreutzer Mihaela Kreutzer Adrian C. Sewell Somporn Techangamsuwan Tosso Leeb Wolfgang Baumgärtner 《生物化学与生物物理学报:疾病的分子基础》2009,1792(10):982-987
β-galactosidase (GLB1) forms a functional lysosomal multienzyme complex with lysosomal protective protein (PPCA) and neuraminidase 1 (NEU1) which is important for its intracellular processing and activity. Mutations in the β-galactosidase gene cause the lysosomal storage disease GM1-gangliosidosis. In order to identify additional molecular changes associated with the presence of β-galactosidase mutations, the expression of canine lysosomal multienzyme complex components in GLB1+/+, GLB1+/? and GLB1?/? fibroblasts was investigated by quantitative RT-PCR, Western blot and enzymatic assays. Quantitative RT-PCR revealed differential regulation of total β-galactosidase, β-galactosidase variants and protective protein for β-galactosidase gene (PPGB) in GLB1+/? and GLB1?/? compared to GLB1+/+ fibroblasts. Furthermore, it was shown that PPGB levels gradually increased with the number of mutant β-galactosidase alleles while no change in the NEU1 expression was observed. This is the first study that simultaneously examine the effect of GLB1+/+, GLB1+/? and GLB1?/? genotypes on the expression of lysosomal multienzyme complex components. The findings reveal a possible adaptive process in GLB1 homozygous mutant and heterozygous individuals that could facilitate the design of efficient therapeutic strategies. 相似文献
525.
Mihaela Matovina Nicole Seah Theron Hamilton David Warren Arthur Landy 《Nucleic acids research》2010,38(18):e175
Supercoiled DNA is the relevant substrate for a large number of DNA transactions and has additionally been found to be a favorable form for delivering DNA and protein-DNA complexes to cells. We report here a facile method for stoichiometrically incorporating several different modifications at multiple, specific, and widely spaced sites in supercoiled DNA. The method is based upon generating an appropriately gapped circular DNA, starting from single-strand circular DNA from two phagemids with oppositely oriented origins of replication. The gapped circular DNA is annealed with labeled and unlabeled synthetic oligonucleotides to make a multiply nicked circle, which is covalently sealed and supercoiled. The method is efficient, robust and can be readily scaled up to produce large quantities of labeled supercoiled DNA for biochemical and structural studies. We have applied this method to generate dye-labeled supercoiled DNA with heteroduplex bubbles for a Förster resonance energy transfer (FRET) analysis of supercoiled Holliday junction intermediates in the λ integrative recombination reaction. We found that a higher-order structure revealed by FRET in the supercoiled Holliday junction intermediate is preserved in the linear recombination product. We suggest that in addition to studies on recombination complexes, these methods will be generally useful in other reactions and systems involving supercoiled DNA. 相似文献
526.
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
527.
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
528.
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
529.
530.
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