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891.
892.
Human parvovirus B19 (B19V) causes a variety of human diseases. Disease outcomes of bone marrow failure in patients with high turnover of red blood cells and immunocompromised conditions, and fetal hydrops in pregnant women are resulted from the targeting and destruction of specifically erythroid progenitors of the human bone marrow by B19V. Although the ex vivo expanded erythroid progenitor cells recently used for studies of B19V infection are highly permissive, they produce progeny viruses inefficiently. In the current study, we aimed to identify the mechanism that underlies productive B19V infection of erythroid progenitor cells cultured in a physiologically relevant environment. Here, we demonstrate an effective reverse genetic system of B19V, and that B19V infection of ex vivo expanded erythroid progenitor cells at 1% O(2) (hypoxia) produces progeny viruses continuously and efficiently at a level of approximately 10 times higher than that seen in the context of normoxia. With regard to mechanism, we show that hypoxia promotes replication of the B19V genome within the nucleus, and that this is independent of the canonical PHD/HIFα pathway, but dependent on STAT5A and MEK/ERK signaling. We further show that simultaneous upregulation of STAT5A signaling and down-regulation of MEK/ERK signaling boosts the level of B19V infection in erythroid progenitor cells under normoxia to that in cells under hypoxia. We conclude that B19V infection of ex vivo expanded erythroid progenitor cells at hypoxia closely mimics native infection of erythroid progenitors in human bone marrow, maintains erythroid progenitors at a stage conducive to efficient production of progeny viruses, and is regulated by the STAT5A and MEK/ERK pathways. 相似文献
893.
Nalls MA Couper DJ Tanaka T van Rooij FJ Chen MH Smith AV Toniolo D Zakai NA Yang Q Greinacher A Wood AR Garcia M Gasparini P Liu Y Lumley T Folsom AR Reiner AP Gieger C Lagou V Felix JF Völzke H Gouskova NA Biffi A Döring A Völker U Chong S Wiggins KL Rendon A Dehghan A Moore M Taylor K Wilson JG Lettre G Hofman A Bis JC Pirastu N Fox CS Meisinger C Sambrook J Arepalli S Nauck M Prokisch H Stephens J Glazer NL Cupples LA Okada Y Takahashi A Kamatani Y Matsuda K Tsunoda T Tanaka T Kubo M 《PLoS genetics》2011,7(6):e1002113
White blood cell (WBC) count is a common clinical measure from complete blood count assays, and it varies widely among healthy individuals. Total WBC count and its constituent subtypes have been shown to be moderately heritable, with the heritability estimates varying across cell types. We studied 19,509 subjects from seven cohorts in a discovery analysis, and 11,823 subjects from ten cohorts for replication analyses, to determine genetic factors influencing variability within the normal hematological range for total WBC count and five WBC subtype measures. Cohort specific data was supplied by the CHARGE, HeamGen, and INGI consortia, as well as independent collaborative studies. We identified and replicated ten associations with total WBC count and five WBC subtypes at seven different genomic loci (total WBC count-6p21 in the HLA region, 17q21 near ORMDL3, and CSF3; neutrophil count-17q21; basophil count- 3p21 near RPN1 and C3orf27; lymphocyte count-6p21, 19p13 at EPS15L1; monocyte count-2q31 at ITGA4, 3q21, 8q24 an intergenic region, 9q31 near EDG2), including three previously reported associations and seven novel associations. To investigate functional relationships among variants contributing to variability in the six WBC traits, we utilized gene expression- and pathways-based analyses. We implemented gene-clustering algorithms to evaluate functional connectivity among implicated loci and showed functional relationships across cell types. Gene expression data from whole blood was utilized to show that significant biological consequences can be extracted from our genome-wide analyses, with effect estimates for significant loci from the meta-analyses being highly corellated with the proximal gene expression. In addition, collaborative efforts between the groups contributing to this study and related studies conducted by the COGENT and RIKEN groups allowed for the examination of effect homogeneity for genome-wide significant associations across populations of diverse ancestral backgrounds. 相似文献
894.
895.
Genomic insights into the origin of parasitism in the emerging plant pathogen Bursaphelenchus xylophilus 总被引:8,自引:0,他引:8
896.
Stelzer AC Frank AT Kratz JD Swanson MD Gonzalez-Hernandez MJ Lee J Andricioaei I Markovitz DM Al-Hashimi HM 《Nature chemical biology》2011,7(8):553-559
Current approaches used to identify protein-binding small molecules are not suited for identifying small molecules that can bind emerging RNA drug targets. By docking small molecules onto an RNA dynamic ensemble constructed by combining NMR spectroscopy and computational molecular dynamics, we virtually screened small molecules that target the entire structure landscape of the transactivation response element (TAR) from HIV type 1 (HIV-1). We quantitatively predict binding energies for small molecules that bind different RNA conformations and report the de novo discovery of six compounds that bind TAR with high affinity and inhibit its interaction with a Tat peptide in vitro (K(i) values of 710 nM-169 μM). One compound binds HIV-1 TAR with marked selectivity and inhibits Tat-mediated activation of the HIV-1 long terminal repeat by 81% in T-cell lines and HIV replication in an HIV-1 indicator cell line (IC(50) ~23.1 μM). 相似文献
897.
Nguyen LK Muñoz-García J Maccario H Ciechanover A Kolch W Kholodenko BN 《PLoS computational biology》2011,7(12):e1002317
In an active, self-ubiquitinated state, the Ring1B ligase monoubiquitinates histone H2A playing a critical role in Polycomb-mediated gene silencing. Following ubiquitination by external ligases, Ring1B is targeted for proteosomal degradation. Using biochemical data and computational modeling, we show that the Ring1B ligase can exhibit abrupt switches, overshoot transitions and self-perpetuating oscillations between its distinct ubiquitination and activity states. These different Ring1B states display canonical or multiply branched, atypical polyubiquitin chains and involve association with the Polycomb-group protein Bmi1. Bistable switches and oscillations may lead to all-or-none histone H2A monoubiquitination rates and result in discrete periods of gene (in)activity. Switches, overshoots and oscillations in Ring1B catalytic activity and proteosomal degradation are controlled by the abundances of Bmi1 and Ring1B, and the activities and abundances of external ligases and deubiquitinases, such as E6-AP and USP7. 相似文献
898.
Seahorses (Hippocampus spp.) are non-sex-role-reversed members of the Syngnathidae family that provide extensive brood care. Previous studies of
seahorses have revealed monogamy within a single brood, but their longer term mating system had not been comprehensively evaluated.
The parental contribution to 29 wild-born broods of Hippocampus guttulatus, sampled from six Portuguese populations with differing seahorse densities and sex ratios, was assessed using microsatellite
DNA markers. To assess the longer term genetic mating system of this species parentage was determined in eleven broods sampled
from a captive population over two breeding seasons. Genetic data suggest that this socially polygamous seahorse is serially
monogamous across breeding seasons, i.e. monogamous within a season but may switch mates between seasons, and that differing
population densities and sex ratios do not affect the mating system. 相似文献
899.
Kincaid’s lupine (Lupinus oreganus), a threatened perennial legume of western Oregon grasslands, is composed of small, fragmented populations that have consistently
low natural seed set, suggesting they may have accumulated high enough levels of genetic load to be candidates for genetic
rescue. We used simple sequence repeat (SSR) loci, both nuclear DNA and chloroplast DNA, to screen populations throughout
the species’ range for evidence of severe inbreeding and recent genetic bottlenecks due to habitat fragmentation. After genotyping
about 40% of the known populations, only one of 24 populations had strong statistical evidence for a recent genetic bottleneck
(H
e > H
eq). Both mean nSSR fixation coefficients and genetic diversity did not statistically differ between very small, small, medium,
and large lupine population size classes. Within population chloroplast DNA haplotype number was high for an animal pollinated
species, ≈4.2 haplotypes/population, and within population haplotype diversity was also relatively evenly distributed. Within
population patterns of nSSR and cpSSR genetic diversity suggest that genetic diversity has not been lost over the last century
of habitat fragmentation. With genet lifespan thought to exceed 100 years, overlap of several to many generations, and substantial
reductions in seed set from inbreeding depression that shifts cohort composition towards those generated by outcrossing events,
Kincaid’s lupine is likely maintain the currently high levels of within population genetic diversity. The case of Kincaid’s
lupine provides an example of how the assumptions of severe inbreeding depression with small population size and habitat fragmentation
can be inaccurate. 相似文献
900.
Paulo Corti Aaron B. A. Shafer David W. Coltman Marco Festa-Bianchet 《Conservation Genetics》2011,12(1):119-128
Small populations in fragmented habitats can lose genetic variation through drift and inbreeding. The huemul (Hippocamelus bisulcus) is an endangered deer endemic to the southern Andes of Chile and Argentina. Huemul numbers have declined by 99% and its
distribution by 50% since European settlement. The total population is estimated at less than 2,000 individuals and is highly
fragmented. At one isolated population in Chilean Patagonia we sampled 56 individuals between 2005 and 2007 and genotyped
them at 14 microsatellite loci. Despite low genetic variability (average 2.071 alleles/locus and average H
O of 0.341), a low inbreeding coefficient (F
IS) of 0.009 suggests nearly random mating. Population genetic bottleneck tests suggest both historical and contemporary reductions
in population size. Simulations indicated that the population must be maintained at 75% of the current size of 120 individuals
to maintain 90% of its current genetic diversity over the next 100 years. Potential management strategies to maintain genetic
variability and limit future inbreeding include the conservation and establishment of habitat corridors to facilitate gene
flow and the enlargement of protected areas to increase effective population size. 相似文献