Antisense oligonucleotides with sequences complementary to a given genetic target can enter cells in sufficient quantities to selectively inhibit gene expression. Thus, they have a potential therapeutic use in preventing undesirable gene expression in diseases such as cancer and AIDS. However, it is remarkable that these molecules, which have high molecular weights and are often charged, gain entry to cells at all. In this article, we review the possible mechanisms by which oligonucleotides enter cells and their subsequent intracellular fates. We also discuss current approaches for improving cellular uptake and delivery of antisense nucleic acids to their intended targets. 相似文献
Biodiversity and Conservation - The vast majority of empirical studies on regional mammal defaunation across the Atlantic Forest biome of South America are concentrated in Southeastern and... 相似文献
Plasma membranes were prepared from cultured Chinese hamster ovary cells utilizing a two-phase polymer system and were characterized by enzymatic and chemical assay, and by electron microscopy. The usual degree of purification of presumptive membrane markers such as Na+-K+ ATPase (ATP phosphohydrolase, EC 3.6.1.3) ranged from three-to eightfold. Gel electrophoresis in SDS revealed several polypeptides and two glycopeptides which were enriched in the plasma membrane fraction. 相似文献
We have evaluated four techniques for labelling the surface proteins of cultured mammalian cells. The techniques are: (a) the lactoperoxide system; (b) the pyridoxal phosphate-[3H]borohydride system; (c) the [3H]4,4′-diisothiocyano-2,2′-dihydrostilbene disulfonate system and (d) the galactose oxidase-[3H]borohydride system. The subcellular distribution of radiolabel produced by these techniques has been evaluated by authoradiography at the light microscope level and by cellular fractionation. We find that while all four systems label the surface membranes in the majority of the cell population, they also heavily label internal sites in a small subpopulation of nonviable cells. The contribution of the internally labelled cells to further biochemical analysis may represent a severe problem in investigations which rely solely on surface labels for the study of plasma membrane organization 相似文献
The cultivated strawberry (Fragaria?×?ananassa Duch.) is a species of temperate origin, and the extension of this crop into tropical regions is dependent on genetic breeding. Breeders in the UNICENTRO’s Strawberry Breeding Program (USBP) selected, from among 2,000 hybrids, 40 hybrids that were adapted to photoperiod and temperature conditions of tropical regions. In this study, we used inter-simple sequence repeat to characterize 40 three-way hybrids developed by USBP and evaluated the genetic relationship of these hybrids with commercial cultivars, heirloom cultivars, and single hybrids. We used nine inter-simple sequence repeat primers to genotype 14 commercial cultivars, five heirloom cultivars, five single hybrids (SH), 20 three-way hybrids with short-day behavior (SDH), and 20 three-way hybrids with photoperiod-insensitive behavior (PIH). The percentage of polymorphism (100%) and both, the Nei genetic diversity (h = 0.34) and the Shannon index (I = 0.51), showed high variability and diversity, respectively, in the evaluated strawberry genotypes. Commercial cultivars showed the highest diversity indices (h = 0.30, I = 0.46), followed by PIH hybrids (h = 0.27, I = 0.41). In the dendrogram, the genotypes were distributed into three groups (commercial cultivars, heirloom cultivars, and single hybrids; SDH and PIH). This clustering was confirmed by principal coordinate analysis and Bayesian inference analysis. The overall analysis of the data revealed the efficacy of USBP in three-way hybrid development with different genetic characteristics compared with those of available commercially cultivars. These hybrids have substantial potential in becoming new strawberry cultivars.
The interaction between plants, soil and microorganisms is considered to be the major driver of ecosystem functions and any modification of plant cover and/or soil properties might affect the microbial structure, which, in turn, will influence ecological processes. Assuming that soil properties are the major drivers of soil bacterial diversity and structure within the same soil type, it can be postulated whether plant cover causes significant shifts in soil bacterial community composition. To address this question, this study used 16S rRNA pyrosequencing to detect differences in diversity, composition and/or relative abundance of bacterial taxa from an area covered by pristine forest, as well as eight-year-old grassland surrounded by the same forest. It was shown that a total of 69% of the operational taxonomic units (OTUs) were shared between environments. Overall, forest and grassland samples presented the same diversity and the clustering analysis did not show the occurrence of very distinctive bacterial communities between environments. However, 11 OTUs were detected in statistically significant higher abundance in the forest samples but in lower abundance in the grassland samples, whereas 12 OTUs occurred in statistically significant higher abundance in the grassland samples but in lower abundance in the forest samples. The results suggested the prevalence of a resilient core microbial community that did not suffer any change related to land use, soil type or edaphic conditions. The results illustrated that the history of land use might influence present-day community structure. 相似文献
