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161.
Identification and classification of chromosomal aberrations in human induced pluripotent stem cells 总被引:2,自引:0,他引:2
Mayshar Y Ben-David U Lavon N Biancotti JC Yakir B Clark AT Plath K Lowry WE Benvenisty N 《Cell Stem Cell》2010,7(4):521-531
Because of their somatic cell origin, human induced pluripotent stem cells (HiPSCs) are assumed to carry a normal diploid genome, and adaptive chromosomal aberrations have not been fully evaluated. Here, we analyzed the chromosomal integrity of 66 HiPSC and 38 human embryonic stem cell (HESC) samples from 18 different studies by global gene expression meta-analysis. We report identification of a substantial number of cell lines carrying full and partial chromosomal aberrations, half of which were validated at the DNA level. Several aberrations resulted from culture adaptation, and others are suspected to originate from the parent somatic cell. Our classification revealed a third type of aneuploidy already evident in early passage HiPSCs, suggesting considerable selective pressure during the reprogramming process. The analysis indicated high incidence of chromosome 12 duplications, resulting in significant enrichment for cell cycle-related genes. Such aneuploidy may limit the differentiation capacity and increase the tumorigenicity of HiPSCs. 相似文献
162.
Rosângela V Andrade Hugo C Paes André M Nicola Maria José A de Carvalho Ana Lúcia Fachin Renato S Cardoso Simoneide S Silva Larissa Fernandes Silvana P Silva Eduardo A Donadi Elza T Sakamoto-Hojo Geraldo AS Passos Célia MA Soares Marcelo M Brígido Maria Sueli S Felipe 《BMC genomics》2006,7(1):1-13
Background
Bread wheat (Triticum aestivum) is an important staple food. However, wheat gluten proteins cause celiac disease (CD) in 0.5 to 1% of the general population. Among these proteins, the α-gliadins contain several peptides that are associated to the disease.Results
We obtained 230 distinct α-gliadin gene sequences from severaldiploid wheat species representing the ancestral A, B, and D genomes of the hexaploid bread wheat. The large majority of these sequences (87%) contained an internal stop codon. All α-gliadin sequences could be distinguished according to the genome of origin on the basis of sequence similarity, of the average length of the polyglutamine repeats, and of the differences in the presence of four peptides that have been identified as T cell stimulatory epitopes in CD patients through binding to HLA-DQ2/8. By sequence similarity, α-gliadins from the public database of hexaploid T. aestivum could be assigned directly to chromosome 6A, 6B, or 6D. T. monococcum (A genome) sequences, as well as those from chromosome 6A of bread wheat, almost invariably contained epitope glia-α9 and glia-α20, but never the intact epitopes glia-α and glia-α2. A number of sequences from T. speltoides, as well as a number of sequences fromchromosome 6B of bread wheat, did not contain any of the four T cell epitopes screened for. The sequences from T. tauschii (D genome), as well as those from chromosome 6D of bread wheat, were found to contain all of these T cell epitopes in variable combinations per gene. The differences in epitope composition resulted mainly from point mutations. These substitutions appeared to be genome specific.Conclusion
Our analysis shows that α-gliadin sequences from the three genomes of bread wheat form distinct groups. The four known T cell stimulatory epitopes are distributed non-randomly across the sequences, indicating that the three genomes contribute differently to epitope content. A systematic analysis of all known epitopes in gliadins and glutenins will lead to better understanding of the differences in toxiCity among wheat varieties. On the basis of such insight, breeding strategies can be designed to generate less toxic varieties of wheat which may be tolerated by at least part of the CD patient population. 相似文献163.
Efficient method to generate single-copy transgenic mice by site-specific integration in embryonic stem cells 总被引:5,自引:0,他引:5
Transgenic and gene-targeted mutant mice provide powerful tools for analysis of the cellular processes involved in early development and in the pathogenesis of many diseases. Here we describe a transgene integration strategy mediated by site-specific recombination that allows establishment of multiple embryonic stem (ES) cell lines carrying tetracycline-inducible genes targeted to a specific locus to assure predictable temporal and spatial expression in ES cells and mice. Using homologous recombination we inserted an frt homing site into which tetracycline-inducible transgenes can be integrated efficiently in the presence of FLPe recombinase. This strategy and the vectors described here are generally applicable to any locus in ES cells and should allow for the rapid production of mice with transgenes efficiently targeted to a defined site. 相似文献
164.
165.
Chu F Nusinow DA Chalkley RJ Plath K Panning B Burlingame AL 《Molecular & cellular proteomics : MCP》2006,5(1):194-203
Post-translational histone modifications modulate chromatin-templated processes and therefore affect cellular proliferation, growth, and development. Although post-translational modifications on the core histones have been under intense investigation for several years, the modifications on variant histones are poorly understood. We used tandem mass spectrometry to identify covalent modifications on a histone H2A variant, macroH2A1.2. MacroH2A1.2 can be monoubiquitinated; however, the site of monoubiquitination has not been documented. In this study we used green fluorescent protein-tagged macroH2A1.2 to determine that Lys(115) is a site of ubiquitination. In addition, we found that this variant H2A is methylated on the epsilon amino group of lysine residues Lys(17), Lys(122), and Lys(238) and phosphorylated on Thr(128). Three of these modifications were also found to be present in the endogenous protein by mass spectrometric analysis. These results provide the first direct evidence that multiple post-translational modifications are imposed on macroH2A1.2, suggesting that, like canonical H2A, this variant H2A is subject to regulation by combinatorial use of covalent modifications. 相似文献
166.
I. TORRECILLA F. LEGANÉS I. BONILLA & F. FERNÁNDEZ-PIÑAS 《Plant, cell & environment》2004,27(7):810-819
Light‐to‐dark transitions represent one of the most crucial environmental stresses that photosynthetic organisms must cope with, since substantial metabolism adaptations are required in order to utilize alternative energy and carbon sources. Although signal transduction systems for changing light regimes are not sufficiently understood, calcium has been implicated in plants as a second messenger in light‐on and light‐off events. Much less is known about light signalling in cyanobacteria, but it has been shown that calcium probably performs similar signalling roles in these organisms and other prokaryotes. Herein it is reported that light‐to‐dark transitions trigger a calcium transient in aequorin expressing Anabaena sp. PCC7120. The magnitude of this transient depends on the fluence rate previously irradiated and can reach a peak height over 2 µm free calcium when the fluence rate of light is around 400 µmol photons s?1 m?2. The use of increasing calcium concentration, ethylene glycol‐bis (β‐aminoethylether) N,N,N′,N′‐tetraacetic acid (EGTA), verapamil and trifluoperazine indicated that these transients are originated by a calcium influx probably through verapamil‐sensitive Ca2+ channels and are probably modulated by calcium‐binding proteins. Experiments with different light spectral qualities and the photosynthetic inhibitors 3‐(3,4 dichlorophenyl)1,1,dimelthylurea (DCMU) and 3,5‐dibromo‐3‐methyl‐b‐isopropyl‐p‐benzoquinone (DBMIB) indicate that the calcium transient triggered by the light‐to‐dark transition is not coupled to a specific photoreceptor but rather to changes in the redox state of photosynthetic electron transport chain components other than the plastoquinone pool. 相似文献
167.
168.
Tobler M Dewitt TJ Schlupp I García de León FJ Herrmann R Feulner PG Tiedemann R Plath M 《Evolution; international journal of organic evolution》2008,62(10):2643-2659
Divergent natural selection drives evolutionary diversification. It creates phenotypic diversity by favoring developmental plasticity within populations or genetic differentiation and local adaptation among populations. We investigated phenotypic and genetic divergence in the livebearing fish Poecilia mexicana along two abiotic environmental gradients. These fish typically inhabit nonsulfidic surface rivers, but also colonized sulfidic and cave habitats. We assessed phenotypic variation among a factorial combination of habitat types using geometric and traditional morphometrics, and genetic divergence using quantitative and molecular genetic analyses. Fish in caves (sulfidic or not) exhibited reduced eyes and slender bodies. Fish from sulfidic habitats (surface or cave) exhibited larger heads and longer gill filaments. Common-garden rearing suggested that these morphological differences are partly heritable. Population genetic analyses using microsatellites as well as cytochrome b gene sequences indicate high population differentiation over small spatial scale and very low rates of gene flow, especially among different habitat types. This suggests that divergent environmental conditions constitute barriers to gene flow. Strong molecular divergence over short distances as well as phenotypic and quantitative genetic divergence across habitats in directions classic to fish ecomorphology suggest that divergent selection is structuring phenotypic variation in this system. 相似文献
169.
Considering the high costs of sexual reproduction (e.g., the production of males), its maintenance and predominance throughout
the Animal Kingdom remain elusive. Especially the mechanisms allowing for a stable coexistence of closely related sexual and
asexual species are still subject to a lively debate. Asexuals should rapidly outnumber sexuals due to higher population growth
rates, unless they face some disadvantages. Here, we investigate potential differences in feeding behavior in a system of
sexual (sailfin mollies, Poecilia latipinna) and coexisting gynogenetic fishes (Amazon mollies, Poecilia formosa). In two different experiments, we tested for differences in behavioral traits associated with boldness. Bold individuals
take higher risks for gains in resources, so shyer individuals should be less competitive. Our study was motivated by the
recent finding that P. formosa are less likely to be preyed upon by piscine predators than P. latipinna. We asked whether this result is indicative of low boldness in P. formosa. However, no differences between the two species were detectible in our behavioral experiments measuring (a) time to emerge
from shelter to explore a novel environment, (b) latency time until feeding in a novel environment, and (c) recovery time
until feeding restarted after a simulated predator attack. Furthermore, different boldness measures were not correlated with
each other within individuals. 相似文献
170.