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51.
Strigini M 《Journal of neurobiology》2005,64(4):324-333
Morphogens are defined as signaling molecules that are produced locally, yet act directly at a distance to pattern the surrounding field of cells in a concentration-dependent manner. In recent years many laboratories have devoted their attention to how morphogens actually reach distant cells. Several models have been proposed, including diffusion in the extracellular space and planar transcytosis. A combination of genetic, developmental, and cell-biological approaches have been taken to tackle this issue. I will present the models and discuss the types of experiments that have been designed to test them. It stands out that most of the work has been carried out in Drosophila. Morphogens contribute to patterning of the vertebrate nervous system, and the same signaling molecules have recently been shown to play important, possibly instructive, roles in axon guidance. Little, if anything, is known about the movement of morphogens in the context of nervous system development. The long-standing tradition of biophysical studies on diffusion in the brain extracellular space, along with the sophisticated in vitro culture systems developed in neurobiology laboratories, may provide new tools and ideas to test these models in a new context. 相似文献
52.
Peabody RB Peabody DC Tyrrell MG Edenburn-MacQueen E Howdy RP Semelrath KM 《Mycologia》2005,97(4):777-787
Vegetative mycelial cells of Armillaria are expected to have diploid nuclei. Cells from a single mycelium therefore would not be expected to differ from one another for ecologically relevant quantitative traits. We isolated two sets of basidiome cell lines (from spores and stipe cells) and one set of vegetative cell lines (from an attached rhizomorph) from a single contiguous Armillaria gallica mycelium. We isolated a second set of vegetative cell lines from the soil 20 cm from the above basidiome-rhizomorph complex. In all four sets of cell lines in situ DAPI-DNA measurements showed cells are haploid and quantitative-trait analyses of cell lines grown at different water potentials revealed high levels of among-cell-line genetic variation for both growth and phenotypic plasticity. Haploidy and the existence of ecologically relevant genetic variation within vegetative individuals are unexpected and mean that a process similar to evolutionary adaptation could take place within the soma of a genetic individual. We believe this is a key to understanding how large A. gallica mycelia survive exposure to variation in ecological conditions during lives that potentially span several tree (host) generations. 相似文献
53.
Miret JJ Zhang J Min H Lewis K Roth M Charlton M Bauer PH 《Journal of biomolecular screening》2005,10(8):780-787
An early drug discovery approach focusing on gene families can benefit from strategies that exploit common signaling mechanisms to more effectively identify and characterize novel chemical lead structures. Multiplexing, defined as the screening of multiple targets within the same experiment, is an example of this strategy. Here, the authors describe a technique that allows multiplexing of a common assay type used to study G-protein-coupled receptors: changes in intracellular Ca2+ levels as measured by Molecular Device's fluorometric imaging plate reader (FLIPR). The multiplexed FLIPR assays showed the expected pharmacological properties of single assays, with good reproducibility and Z* factors. The authors used them to screen large compound libraries in 2 multiplexed assay designs. The 1st used a single-cell line expressing 2 different receptors and the 2nd a mixture of 2 cell lines of the same type each expressing distinct receptors. Screening using these multiplexed assays produced significant savings in reagents, time, and human resources and allowed the authors to quickly identify specific and selective hits. 相似文献
54.
Xenopus tropicalis offers the potential for genetic analysis in an amphibian. In order to take advantage of this potential, we have been inbreeding strains of frogs for future mutagenesis. While inbreeding a population of Nigerian frogs, we identified three mutations in the genetic background of this strain. These mutations are all recessive embryonic lethals. We show that multigenerational mutant analysis is feasible and demonstrate that mutations can be identified, propagated, and readily characterized using hybrid, dihybrid, and even trihybrid crosses. In addition, we are optimizing conditions to raise frogs rapidly and present our protocols for X. tropicalis husbandry. We find that males mature faster than females (currently 4 versus 6 months to sexual maturity). Here we document our progress in developing X. tropicalis as a genetic model organism and demonstrate the utility of the frog to study the genetics of early vertebrate development. 相似文献
55.
Donohue MJ Satterfield MB Dalluge JJ Welch MJ Girard JE Bunk DM 《Analytical biochemistry》2005,339(2):318-327
Prostate-specific antigen (PSA) is a single-chain glycoprotein that is used as a biomarker for prostate-related diseases. PSA has one known posttranslational modification, a sialylated diantennary N-linked oligosaccharide attached to the asparagine residue N45. In this study capillary electrophoresis (CE) was employed to separate the isoforms of seven commercially available free PSA samples, two of which were specialized: enzymatically active PSA and noncomplexing PSA. The free PSA samples examined migrated as four to nine distinct, highly resolved peaks, indicating the presence of several isoforms differing in their oligosaccharide compositions. Overall, the use of CE provides a rapid, reproducible method for separation of PSA into its individual isoforms. 相似文献
56.
Hypoxia, a decrease in oxygen tension occurring in pathological tissues, has a profound effect on macrophage functions. Here, we provide the first evidence that hypoxia inhibits CCR5 chemokine receptor expression in mouse macrophages. CCR5 was constitutively expressed in macrophages and upregulated by IFNgamma. Hypoxia downregulated both constitutive and IFNgamma-induced CCR5 mRNA and protein. Reoxygenation of hypoxic cells reverted CCR5 inhibition. CCR5 upregulation by IL-10, LPS, and IL-4 was also antagonized by hypoxia. CCR5 inhibition may be a way to retain/concentrate recruited macrophages at hypoxic sites or a feedback mechanism to control the autocrine activation of macrophages which produce CCR5 ligands. 相似文献
57.
To investigate the requirement for pRb in myogenic differentiation, a floxed Rb allele was deleted either in proliferating myoblasts or after differentiation. Myf5-Cre mice, lacking pRb in myoblasts, died immediately at birth and exhibited high numbers of apoptotic nuclei and an almost complete absence of myofibers. In contrast, MCK-Cre mice, lacking pRb in differentiated fibers, were viable and exhibited a normal muscle phenotype and ability to regenerate. Induction of differentiation of Rb-deficient primary myoblasts resulted in high rates of apoptosis and a total inability to form multinucleated myotubes. Upon induction of differentiation, Rb-deficient myoblasts up-regulated myogenin, an immediate early marker of differentiation, but failed to down-regulate Pax7 and exhibited growth in low serum conditions. Primary myoblasts in which Rb was deleted after expression of differentiated MCK-Cre formed normal multinucleated myotubes that did not enter S-phase in response to serum stimulation. Therefore, Rb plays a crucial role in the switch from proliferation to differentiation rather than maintenance of the terminally differentiated state. 相似文献
58.
Proteomic analysis of membrane microdomains derived from both failing and non-failing human hearts 总被引:3,自引:0,他引:3
Banfi C Brioschi M Wait R Begum S Gianazza E Fratto P Polvani G Vitali E Parolari A Mussoni L Tremoli E 《Proteomics》2006,6(6):1976-1988
Eukaryotic cells plasma membranes are organized into microdomains of specialized function such as lipid rafts and caveolae, with a specific lipid composition highly enriched in cholesterol and glycosphingolipids. In addition to their role in regulating signal transduction, multiple functions have been proposed, such as anchorage of receptors, trafficking of cholesterol, and regulation of permeability. However, an extensive understanding of their protein composition in human heart, both in failing and non-failing conditions, is not yet available. Membrane microdomains were isolated from left ventricular tissue of both failing (n = 15) and non-failing (n = 15) human hearts. Protein composition and differential protein expression was explored by comparing series of 2-D maps and subsequent identification by LC-MS/MS analysis. Data indicated that heart membrane microdomains are enriched in chaperones, cytoskeletal-associated proteins, enzymes and protein involved in signal transduction pathway. In addition, differential protein expression profile revealed that 30 proteins were specifically up- or down-regulated in human heart failure membrane microdomains. This study resulted in the identification of human heart membrane microdomain protein composition, which was not previously available. Moreover, it allowed the identification of multiple proteins whose expression is altered in heart failure, thus opening new perspectives to determine which role they may play in this disease. 相似文献
59.
Elasmobranch immune cells as a source of novel tumor cell inhibitors: Implications for public health
Walsh Catherine J.; Luer Carl A.; Bodine A.B.; Smith Clayton A.; Cox Heather L.; Noyes David R.; Gasparetto Maura 《Integrative and comparative biology》2006,46(6):1072-1081
Reports that elasmobranchs (sharks, skates, and rays) may havea low incidence of disease have stimulated interest in understandingthe role of their immune system in this apparent resistance.Although research in this area may potentially translate intoapplications for human health, a basic understanding of theelasmobranch immune system components and how they functionis essential. As in higher vertebrates, elasmobranch fishespossess thymus and spleen, but in the absence of bone marrowand lymph nodes, these fish have evolved unique lymphomyeloidtissues, namely epigonal and Leydig organs. As conditions forshort-term culture of elasmobranch immune cells have becomebetter understood, the opportunity to examine functional activityof cytokine-like factors derived from conditioned culture mediumhas resulted in the identification of growth inhibitory activityagainst a variety of tumor cell lines. Specifically, the mediumenriched by short term culture of bonnethead shark (Sphyrnatiburo) epigonal cells (epigonal conditioned medium, ECM) hasbeen shown to inhibit the growth of mammalian tumor cell lines,including fibrosarcoma (WEHI-164), melanoma (A375.S2), B-celllymphoma (Daudi), T-cell leukemia (Jurkat), pancreatic cancer(PANC-1), ovarian cancer (NIH:OVCAR-3), and three breast carcinomacell lines (MCF7, HCC38, Hs578T). Of the cell lines tested,WEHI-164, A375.S2, Daudi, and Jurkat cells were among the mostsensitive to growth inhibitory activity of ECM whereas PANC-1and NIH:OVCAR-3 cells were among the least sensitive. In addition,ECM demonstrated preferential growth inhibition of malignantcells in assays against two different malignant/non-malignantcell line pairs (HCC38/HCC38 BL and Hs 578T/Hs 578Bst). Separationof protein components of ECM using SDS-PAGE resulted in a veryreproducible pattern of three major bands corresponding to molecularsizes of approximately 4042 kD, 24 kD, and 17 kD. Activityis lost after heating at 75°C for 30 min, and can be diminishedby treatment with proteinase K and protease. Activity is notaffected by treating with trypsin, DNase I or RNase A. 相似文献
60.
Yiwei Liu Maura Porta Jia Qin Jorge Ramos Alma Nani Thomas R. Shannon Michael Fill 《The Journal of general physiology》2010,135(1):15-27
The cardiac type 2 ryanodine receptor (RYR2) is activated by Ca2+-induced Ca2+ release (CICR). The inherent positive feedback of CICR is well controlled in cells, but the nature of this control is debated. Here, we explore how the Ca2+ flux (lumen-to-cytosol) carried by an open RYR2 channel influences its own cytosolic Ca2+ regulatory sites as well as those on a neighboring channel. Both flux-dependent activation and inhibition of single channels were detected when there were super-physiological Ca2+ fluxes (>3 pA). Single-channel results indicate a pore inhibition site distance of 1.2 ± 0.16 nm and that the activation site on an open channel is shielded/protected from its own flux. Our results indicate that the Ca2+ flux mediated by an open RYR2 channel in cells (∼0.5 pA) is too small to substantially regulate (activate or inhibit) the channel carrying it, even though it is sufficient to activate a neighboring RYR2 channel. 相似文献