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Recent advances in high-throughput gene targeting and conditional mutagenesis are creating new and powerful resources to study the in vivo function of mammalian genes using the mouse as an experimental model. Mutant ES cells and mice are being generated at a rapid rate to study the molecular and phenotypic consequences of genetic mutations, and to correlate these study results with human disease conditions. Likewise, classical genetics approaches to identify mutations in the mouse genome that cause specific phenotypes have become more effective. Here, we describe methods to quickly obtain information on what mutant ES cells and mice are available, including recombinase driver lines for the generation of conditional mutants. Further, we describe means to access genetic and phenotypic data that identify mouse models for specific human diseases. 相似文献
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Auday Maki Salwa Atwan Janan Al-Kaledar Andrew Beaman Robert Skoff 《Biotechnic & histochemistry》1997,72(1):38-44
Technical limitations are associated with conducting successful in situ hybridization. In this study, three cell types including a tumor neuroblastoma cell line (Neuro-2a), an oligodendrocyte primary culture, and a nonneuronal acute lymphoblastic leukemia cell line (Reh) were used to conduct successful nonradioactive in situ hybridization. Two cDNA probes were used. A 1 kb probe was used to identify the expression of proteolipid protein (PLP) mRNA in a primary culture of oligodendrocytes. A 760 bp cDNA was used to identify the expression of ubiquitin C-terminal hydrolase (UCH-L1) mRNA in Neuro-2a and Reh cells. The probes were labeled with digoxigenin-11-dUTP, denatured, and hybridized with cells fixed on coverslips. The efficiency of the labeling was tested using dot blot analysis by comparing the intensity of our labeled probes with known concentration of the probe labeled by the provider. The nonspecific signals were washed off, followed by detection of a signal specific to the gene. The specificity of the probes was determined by treating the cells with RNase A, hybridizing with bacterial Dig-labeled cDNA (pBR322) and hybridizing the tissues in the absence of labeled probe. During the labeling step, we found that addition of co-precipitants, such as tRNA or glycogen, during precipitation of the labeled probe followed by overnight incubation at -20 C is essential for good recovery of labeled cDNA. Dissolving the labeled probe in a buffer solution containing sodium dodecyl sulfate improves the quantity of the labeling. At the cellular level, prehybridization treatments optimize the permeability of the cell and allow efficient penetration of the labeled probe. Fixing with paraformaldehyde or an ethanol-acetic acid mixture can preserve the structure of cultured cells. To increase the signal to noise ratio, cells were treated with 0.2 N HC1 followed by extensive washes using a solution with a high salt concentration and containing dextran sulfate. This treatment significantly improves the signal and reduces the background in cell cultures, but not in tissue sections. The ability to reuse the labeled probe-hybridization mixture is another advantage for using nonradioactive in situ hybridization. 相似文献
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Buchanan JL Newcomb JR Carney DP Chaffee SC Chai L Cupples R Epstein LF Gallant P Gu Y Harmange JC Hodge K Houk BE Huang X Jona J Joseph S Jun HT Kumar R Li C Lu J Menges T Morrison MJ Novak PM van der Plas S Radinsky R Rose PE Sawant S Sun JR Surapaneni S Turci SM Xu K Yanez E Zhao H Zhu X 《Bioorganic & medicinal chemistry letters》2011,21(8):2394-2399
The insulin-like growth factor-1 receptor (IGF-1R) plays an important role in the regulation of cell growth and differentiation, and in protection from apoptosis. IGF-1R has been shown to be an appealing target for the treatment of human cancer. Herein, we report the synthesis, structure-activity relationships (SAR), X-ray cocrystal structure and in vivo tumor study results for a series of 2,4-bis-arylamino-1,3-pyrimidines. 相似文献
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Janan T Eppig 《Current opinion in genetics & development》1996,6(6):723-730
Comparative maps display the chromosomal location of homologous genes in different species and highlight genetic segments that are conserved in evolution. These maps are used to study chromosomal changes that occurred during the divergence of mammalian lineages, to identify candidates for hereditary disease genes, and to facilitate mapping in other species. Recently, physical mapping in regions of known conserved linkage has revealed previously undetected chromosomal changes that may provide clues to understanding chromosomal structure and function and evolutionary processes. The availability of these data in electronically accessible formats is critical to the growth and analysis of comparative maps. 相似文献