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121.
Wei Wang Amy K. Erbe Mikayla Gallenberger KyungMann Kim Lakeesha Carmichael Dustin Hess Eneida A. Mendonca Yiqiang Song Jacquelyn A. Hank Su-Chun Cheng Sabina Signoretti Michael Atkins Alexander Carlson Jonathan M. Weiss James Mier David Panka David F. McDermott Paul M. Sondel 《Cancer immunology, immunotherapy : CII》2016,65(12):1523-1532
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Suzette N Palmer Sruthi Chappidi Chelsea Pinkham Dustin C Hancks 《Molecular biology and evolution》2021,38(12):5405
Pathogen infection triggers host innate defenses which may result in the activation of regulated cell death (RCD) pathways such as apoptosis. Given a vital role in immunity, apoptotic effectors are often counteracted by pathogen-encoded antagonists. Mounting evidence indicates that programmed necrosis, which is mediated by the RIPK3/MLKL axis and termed necroptosis, evolved as a countermeasure to pathogen-mediated inhibition of apoptosis. Yet, it is unclear whether components of this emerging RCD pathway display signatures associated with pathogen conflict that are rare in combination but common to key host defense factors, namely, rapid evolution, viral homolog (virolog), and cytokine induction. We leveraged evolutionary sequence analysis that examines rates of amino acid replacement, which revealed: 1) strong and recurrent signatures of positive selection for primate and bat RIPK3 and MLKL, and 2) elevated rates of amino acid substitution on multiple RIPK3/MLKL surfaces suggestive of past antagonism with multiple, distinct pathogen-encoded inhibitors. Furthermore, our phylogenomics analysis across poxvirus genomes illuminated volatile patterns of evolution for a recently described MLKL viral homolog. Specifically, poxviral MLKLs have undergone numerous gene replacements mediated by duplication and deletion events. In addition, MLKL protein expression is stimulated by interferons in human and mouse cells. Thus, MLKL displays all three hallmarks of pivotal immune factors of which only a handful of factors like OAS1 exhibit. These data support the hypothesis that over evolutionary time MLKL functions—which may include execution of necroptosis—have served as a major determinant of infection outcomes despite gene loss in some host genomes. 相似文献
123.
Persistence of historical population structure in an endangered species despite near‐complete biome conversion in California's San Joaquin Desert
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Jonathan Q. Richmond Dustin A. Wood Michael F. Westphal Amy G. Vandergast Adam D. Leaché Lawrence R. Saslaw H. Scott Butterfield Robert N. Fisher 《Molecular ecology》2017,26(14):3618-3635
Genomic responses to habitat conversion can be rapid, providing wildlife managers with time‐limited opportunities to enact recovery efforts that use population connectivity information that reflects predisturbance landscapes. Despite near‐complete biome conversion, such opportunities may still exist for the endemic fauna and flora of California's San Joaquin Desert, but comprehensive genetic data sets are lacking for nearly all species in the region. To fill this knowledge gap, we studied the rangewide population structure of the endangered blunt‐nosed leopard lizard Gambelia sila, a San Joaquin Desert endemic, using restriction site‐associated DNA (RAD), microsatellite and mtDNA data to test whether admixture patterns and estimates of effective migration surfaces (EEMS) can identify land areas with high population connectivity prior to the conversion of native xeric habitats. Clustering and phylogenetic analyses indicate a recent shared history between numerous isolated populations and EEMS reveals latent signals of corridors and barriers to gene flow over areas now replaced by agriculture and urbanization. Conflicting histories between the mtDNA and nuclear genomes are consistent with hybridization with the sister species G. wislizenii, raising important questions about where legal protection should end at the southern range limit of G. sila. Comparative analysis of different data sets also adds to a growing list of advantages in using RAD loci for genetic studies of rare species. We demonstrate how the results of this work can serve as an evolutionary guidance tool for managing endemic, arid‐adapted taxa in one of the world's most compromised landscapes. 相似文献
124.
Stephen R. Meier Jarrett L. Lancaster Dustin Fetterhoff Robert A. Kraft Robert E. Hampson Joseph M. Starobin 《Journal of computational neuroscience》2017,42(2):167-175
Spatiotemporal patterns of action potentials are considered to be closely related to information processing in the brain. Auto-generating neurons contributing to these processing tasks are known to cause multifractal behavior in the inter-spike intervals of the output action potentials. In this paper we define a novel relationship between this multifractality and the adaptive Nernst equilibrium in hippocampal neurons. Using this relationship we are able to differentiate between various drugs at varying dosages. Conventional methods limit their ability to account for cellular charge depletion by not including these adaptive Nernst equilibria. Our results provide a new theoretical approach for measuring the effects which drugs have on single-cell dynamics. 相似文献
125.
Zhiqiang Du Dustin Kenneth Goncharoff Xudong Cheng Liming Li 《Molecular microbiology》2017,104(1):105-124
The budding yeast, Saccharomyces cerevisiae, harbors several prions that are transmitted as altered, heritable protein conformations. [SWI+] is one such prion whose determinant is Swi1, a subunit of the evolutionarily conserved chromatin‐remodeling complex SWI/SNF. Despite the importance of Swi1, the molecular events that lead to [SWI+] prionogenesis remain poorly understood. In this study, we have constructed floccullin‐promoter‐based URA3 reporters for [SWI+] identification. Using these reporters, we show that the spontaneous formation frequency of [SWI+] is significantly higher than that of [PSI+] (prion form of Sup35). We also show that preexisting [PSI+] or [PIN+] (prion form of Rnq1), or overproduction of Swi1 prion‐domain (PrD) can considerably promote Swi1 prionogenesis. Moreover, our data suggest a strain‐specific effect of overproduction of Sse1 – a nucleotide exchange factor of the molecular chaperone Hsp70, and its interaction with another molecular chaperone Hsp104 on [SWI+] maintenance. Additionally, we show that Swi1 aggregates are initially ring/ribbon‐like then become dot‐like in mature [SWI+] cells. In the presence of [PSI+] or [PIN+], Swi1 ring/ribbon‐like aggregates predominantly colocalize with the Sup35 or Rnq1 aggregates; without a preexisting prion, however, such colocalizations are rarely seen during Swi1‐PrD overproduction‐promoted Swi1 prionogenesis. We have thus demonstrated a complex interacting mechanism of yeast prionogenesis. 相似文献
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Patricia A. Thompson Edward F. Roseman Kevin M. Keeler Timothy P. O’Brien Dustin A. Bowser 《Environmental Biology of Fishes》2017,100(4):407-419
Monitoring changes in diets of fish is essential to understanding how food web dynamics respond to changes in native prey abundances. In the Great Lakes, Diporeia, a benthic macroinvertebrate and primary food of native benthivores, declined following the introduction of invasive Dreissena mussels and these changes were reflected in fish diets. We examined the diets of deepwater sculpin Myoxocephalus thompsonii collected in bottom trawls during 2010–2014 in the main basin of Lake Huron, and compared these results to an earlier diet study (2003–2005) to assess if their diets have continued to change after a prolonged period of Dreissena mussel invasion and declined Diporeia densities. Diporeia, Mysis, Bythotrephes, and Chironomidae were consumed regularly and other diet items included ostracods, copepods, sphaerid clams, and fish eggs. The prey-specific index of relative importance calculated for each prey group indicated that Mysis importance increased at shallow (≤55 m) and mid (64–73 m) depths, while Diporeia importance increased offshore (≥82 m). The average number of Diporeia consumed per fish increased by 10.0% and Mysis decreased by 7.5%, while the frequency of occurrence of Diporeia and Mysis remained comparable between time periods. The weight of adult deepwater sculpin (80 mm and 100 mm TL bins) increased between time periods; however, the change in weight was only significant for the 80 mm TL group (p?<?0.01). Given the historical importance of Diporeia in the Great Lakes, the examination of deepwater sculpin diets provides unique insight into the trophic dynamics of the benthic community in Lake Huron. 相似文献
129.
Mitochondrial DNA (mtDNA) sequence variation was examined in 131 individuals of the Rosy Boa (Lichanura trivirgata) from across the species range in southwestern North America. Bayesian inference and nested clade phylogeographic analyses (NCPA) were used to estimate relationships and infer evolutionary processes. These patterns were evaluated as they relate to previously hypothesized vicariant events and new insights are provided into the biogeographic and evolutionary processes important in Baja California and surrounding North American deserts. Three major lineages (Lineages A, B, and C) are revealed with very little overlap. Lineage A and B are predominately separated along the Colorado River and are found primarily within California and Arizona (respectively), while Lineage C consists of disjunct groups distributed along the Baja California peninsula as well as south-central Arizona, southward along the coastal regions of Sonora, Mexico. Estimated divergence time points (using a Bayesian relaxed molecular clock) and geographic congruence with postulated vicariant events suggest early extensions of the Gulf of California and subsequent development of the Colorado River during the Late Miocene-Pliocene led to the formation of these mtDNA lineages. Our results also suggest that vicariance hypotheses alone do not fully explain patterns of genetic variation. Therefore, we highlight the importance of dispersal to explain these patterns and current distribution of populations. We also compare the mtDNA lineages with those based on morphological variation and evaluate their implications for taxonomy. 相似文献
130.