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Isolated sensory neurons in vitro do not contain or synthesize S100, whereas glial cell precursor populations do. These precursor cells, when isolated from other cell types, produce low levels of S100 but never undergo the developmental transition to produce high levels of S100. When glial cell precursors are combined with isolated, live or paraformaldehyde-fixed sensory neurons, the precursor cells do undergo the second transition, and accumulate high levels of S100. Peroxidase-anti-peroxidase immunohistochemical staining for S100 confirms previous conclusions (B. Holton and J. A. Weston, 1982, Develop. Biol.89, 64–71) that only those glial cells which are closely apposed to neurons contain augmented levels of S100. This stimulation appears to be specific to neuronal/glial interactions since live or fixed fibroblasts, when cocultured with glial precursor cells, do not promote accumulation of S100 by the glial cells. 相似文献
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E2 conjugating enzymes play a central role in ubiquitin and ubiquitin-like protein (ublp) transfer cascades: the E2 accepts the ublp from the E1 enzyme and then the E2 often interacts with an E3 enzyme to promote ublp transfer to the target. We report here the crystal structure of a complex between the C-terminal domain from NEDD8's heterodimeric E1 (APPBP1-UBA3) and the catalytic core domain of NEDD8's E2 (Ubc12). The structure and associated mutational analyses reveal molecular details of Ubc12 recruitment by NEDD8's E1. Interestingly, the E1's Ubc12 binding domain resembles ubiquitin and recruits Ubc12 in a manner mimicking ubiquitin's interactions with ubiquitin binding domains. Structural comparison with E2-E3 complexes indicates that the E1 and E3 binding sites on Ubc12 may overlap and raises the possibility that crosstalk between E1 and E3 interacting with an E2 could influence the specificity and processivity of ublp transfer. 相似文献
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The tumor microenvironment is known to play a key role in altering the properties and behavior of nearby cancer cells. Its influence on resistance to endocrine therapy and cancer relapse, however, is poorly understood. Here we investigate the interaction of mammary fibroblasts and estrogen receptor-positive breast cancer cells in three-dimensional culture models in order to characterize gene expression, cellular changes, and the secreted protein factors involved in the cellular cross-talk. We show that fibroblasts, which are the predominant cell type found in the stroma adjacent to the cancer cells in a tumor, induce an epithelial-to-mesenchymal transition in the cancer cells, leading to hormone-independent growth, a more invasive phenotype, and resistance to endocrine therapy. Here, we applied a label-free chemical imaging modality, Fourier transform infrared (FT-IR) spectroscopic imaging, to identify cells that had transitioned to hormone-independent growth. Both the molecular and chemical profiles identified here were translated from cell culture to patient samples: a secreted protein signature was used to stratify patient populations based on gene expression and FT-IR was used to characterize breast tumor patient biopsies. Our findings underscore the role of mammary fibroblasts in promoting aggressiveness and endocrine therapy resistance in ER-positive breast cancers and highlight the utility of FT-IR for the further characterization of breast cancer samples. 相似文献
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Iva Miljkovic Jane A. Cauley Patty Y. Wang Kathleen F. Holton Christine G. Lee Yahtyng Sheu Elizabeth Barrett‐Connor Andrew R. Hoffman Cora B. Lewis Eric S. Orwoll Marcia L. Stefanick Elsa S. Strotmeyer Lynn M. Marshall the Osteoporotic Fractures in Men Research Group 《Obesity (Silver Spring, Md.)》2013,21(10):2118-2125
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Jillian M. Lang Paul Langlois Marian Hanna R. Nguyen Lindsay R. Triplett Laura Purdie Timothy A. Holton Appolinaire Djikeng Casiana M. Vera Cruz Valérie Verdier Jan E. Leach 《Applied and environmental microbiology》2014,80(15):4519-4530
Molecular diagnostics for crop diseases can enhance food security by enabling the rapid identification of threatening pathogens and providing critical information for the deployment of disease management strategies. Loop-mediated isothermal amplification (LAMP) is a PCR-based tool that allows the rapid, highly specific amplification of target DNA sequences at a single temperature and is thus ideal for field-level diagnosis of plant diseases. We developed primers highly specific for two globally important rice pathogens, Xanthomonas oryzae pv. oryzae, the causal agent of bacterial blight (BB) disease, and X. oryzae pv. oryzicola, the causal agent of bacterial leaf streak disease (BLS), for use in reliable, sensitive LAMP assays. In addition to pathovar distinction, two assays that differentiate X. oryzae pv. oryzae by African or Asian lineage were developed. Using these LAMP primer sets, the presence of each pathogen was detected from DNA and bacterial cells, as well as leaf and seed samples. Thresholds of detection for all assays were consistently 104 to 105 CFU ml−1, while genomic DNA thresholds were between 1 pg and 10 fg. Use of the unique sequences combined with the LAMP assay provides a sensitive, accurate, rapid, simple, and inexpensive protocol to detect both BB and BLS pathogens. 相似文献
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