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991.
Elizabeth E. Palmer Seungbeom Hong Fatema Al Zahrani Mais O. Hashem Fajr A. Aleisa Heba M. Jalal Ahmed Tejaswi Kandula Rebecca Macintosh Andre E. Minoche Clare Puttick Velimir Gayevskiy Alexander P. Drew Mark J. Cowley Marcel Dinger Jill A. Rosenfeld Rui Xiao Megan T. Cho Suliat F. Yakubu Stefan T. Arold 《American journal of human genetics》2019,104(3):542-552
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Natural variation,differentiation, and genetic trade‐offs of ecophysiological traits in response to water limitation in Brachypodium distachyon and its descendent allotetraploid B. hybridum (Poaceae) 下载免费PDF全文
Antonio J. Manzaneda Pedro J. Rey Jill T. Anderson Evan Raskin Christopher Weiss‐Lehman Thomas Mitchell‐Olds 《Evolution; international journal of organic evolution》2015,69(10):2689-2704
Differences in tolerance to water stress may underlie ecological divergence of closely related ploidy lineages. However, the mechanistic basis of physiological variation governing ecogeographical cytotype segregation is not well understood. Here, using Brachypodium distachyon and its derived allotetraploid B. hybridum as model, we test the hypothesis that, for heteroploid annuals, ecological divergence of polyploids in drier environments is based on trait differentiation enabling drought escape. We demonstrate that under water limitation allotetraploids maintain higher photosynthesis and stomatal conductance and show earlier flowering than diploids, concordant with a drought‐escape strategy to cope with water stress. Increased heterozygosity and greater genetic variability and plasticity of polyploids could confer a superior adaptive capability. Consistent with these predictions, we document (1) greater standing within‐population genetic variation in water‐use efficiency (WUE) and flowering time in allotetraploids, and (2) the existence of (nonlinear) environmental clines in physiology across allotetraploid populations. Increased gas exchange and diminished WUE occurred at the driest end of the gradient, consistent with a drought‐escape strategy. Finally, we found that allotetraploids showed weaker genetic correlations than diploids congruous with the expectation of relaxed pleiotropic constraints in polyploids. Our results suggest evolutionary divergence of ecophysiological traits in each ploidy lineage. 相似文献
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Jill C. Gregory Jennifer A. Buffa Elin Org Zeneng Wang Bruce S. Levison Weifei Zhu Matthew A. Wagner Brian J. Bennett Lin Li Joseph A. DiDonato Aldons J. Lusis Stanley L. Hazen 《The Journal of biological chemistry》2015,290(9):5647-5660
Recent studies indicate both clinical and mechanistic links between atherosclerotic heart disease and intestinal microbial metabolism of certain dietary nutrients producing trimethylamine N-oxide (TMAO). Here we test the hypothesis that gut microbial transplantation can transmit choline diet-induced TMAO production and atherosclerosis susceptibility. First, a strong association was noted between atherosclerotic plaque and plasma TMAO levels in a mouse diversity panel (n = 22 strains, r = 0.38; p = 0.0001). An atherosclerosis-prone and high TMAO-producing strain, C57BL/6J, and an atherosclerosis-resistant and low TMAO-producing strain, NZW/LacJ, were selected as donors for cecal microbial transplantation into apolipoprotein e null mice in which resident intestinal microbes were first suppressed with antibiotics. Trimethylamine (TMA) and TMAO levels were initially higher in recipients on choline diet that received cecal microbes from C57BL/6J inbred mice; however, durability of choline diet-dependent differences in TMA/TMAO levels was not maintained to the end of the study. Mice receiving C57BL/6J cecal microbes demonstrated choline diet-dependent enhancement in atherosclerotic plaque burden as compared with recipients of NZW/LacJ microbes. Microbial DNA analyses in feces and cecum revealed transplantation of donor microbial community features into recipients with differences in taxa proportions between donor strains that were transmissible to recipients and that tended to show coincident proportions with TMAO levels. Proportions of specific taxa were also identified that correlated with plasma TMAO levels in donors and recipients and with atherosclerotic lesion area in recipients. Atherosclerosis susceptibility may be transmitted via transplantation of gut microbiota. Gut microbes may thus represent a novel therapeutic target for modulating atherosclerosis susceptibility. 相似文献
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Muhammad?Sajid Hussain Agatino Battaglia Sandra Szczepanski Emrah Kaygusuz Mohammad?Reza Toliat Shin-ichi Sakakibara Janine Altmüller Holger Thiele Gudrun Nürnberg Shahida Moosa G?khan Yigit Filippo Beleggia Sigrid Tinschert Jill Clayton-Smith Pradeep Vasudevan Jill?E. Urquhart Dian Donnai Alan Fryer Ferda Percin Francesco Brancati Angus Dobbie Robert ?migiel Gabriele Gillessen-Kaesbach Bernd Wollnik Angelika?Anna Noegel William?G. Newman Peter Nürnberg 《American journal of human genetics》2014,95(5):622-632
Filippi syndrome is a rare, presumably autosomal-recessive disorder characterized by microcephaly, pre- and postnatal growth failure, syndactyly, and distinctive facial features, including a broad nasal bridge and underdeveloped alae nasi. Some affected individuals have intellectual disability, seizures, undescended testicles in males, and teeth and hair abnormalities. We performed homozygosity mapping and whole-exome sequencing in a Sardinian family with two affected children and identified a homozygous frameshift mutation, c.571dupA (p.Ile191Asnfs∗6), in CKAP2L, encoding the protein cytoskeleton-associated protein 2-like (CKAP2L). The function of this protein was unknown until it was rediscovered in mice as Radmis (radial fiber and mitotic spindle) and shown to play a pivotal role in cell division of neural progenitors. Sanger sequencing of CKAP2L in a further eight unrelated individuals with clinical features consistent with Filippi syndrome revealed biallelic mutations in four subjects. In contrast to wild-type lymphoblastoid cell lines (LCLs), dividing LCLs established from the individuals homozygous for the c.571dupA mutation did not show CKAP2L at the spindle poles. Furthermore, in cells from the affected individuals, we observed an increase in the number of disorganized spindle microtubules owing to multipolar configurations and defects in chromosome segregation. The observed cellular phenotypes are in keeping with data from in vitro and in vivo knockdown studies performed in human cells and mice, respectively. Our findings show that loss-of-function mutations in CKAP2L are a major cause of Filippi syndrome. 相似文献