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991.
Attention deficit/hyperactivity disorder (ADHD) is one of the most prevalent childhood psychiatric disorders. During the past decades, studies have focused on its genetic background and the abnormality of the brain structure and function. Recently, an advanced technique linking these two areas, namely, the imaging genetics emerged and kept growing. Imaging genetics primarily identifies genes that influence the brain variations. There are three main strategies of doing an imaging genetic study: using neuroimaging as endophenotypes to find the associated DNA variants, finding neuroimaging effects of risk genes, and hypothesis-free whole-brain voxelwise genome-wide association study. In this review, we begin with demonstrating the basic principles of imaging genetics precisely, with examples from other psychiatric conditions, and then go on to synthesize the existing imaging genetic studies in ADHD. Finally, we elaborate the challenges of applying imaging genetics to ADHD. We conclude that imaging genetics has somewhat showed its potential to provide a more precise understanding of how the genes shape the brain variations and further the clinical features of ADHD. 相似文献
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Determining the energetics of the unfolded state of a protein is essential for understanding the folding mechanics of ordered proteins and the structure–function relation of intrinsically disordered proteins. Here, we adopt a coil‐globule transition theory to develop a general scheme to extract interaction and free energy information from single‐molecule fluorescence resonance energy transfer spectroscopy. By combining protein stability data, we have determined the free energy difference between the native state and the maximally collapsed denatured state in a number of systems, providing insight on the specific/nonspecific interactions in protein folding. Both the transfer and binding models of the denaturant effects are demonstrated to account for the revealed linear dependence of inter‐residue interactions on the denaturant concentration, and are thus compatible under the coil‐globule transition theory to further determine the dimension and free energy of the conformational ensemble of the unfolded state. The scaling behaviors and the effective θ‐state are also discussed. 相似文献
994.
Induction of multiple cytotoxic T lymphocyte responses in mice by a multiepitope DNA vaccine against dengue virus serotype 1 下载免费PDF全文
Xin Yu Chen De Zhou Li Xiao Zhi Zhong Bokun Chen Zhi Liang Duan Jin Sheng Wen 《Microbiology and immunology》2016,60(12):835-845
995.
Isoprenoids are the largest family of natural products, over 40 000 compounds have been described, which have been widely used in various fields. Currently, the isoprenoid products are mainly produced by natural extraction or chemical synthesis, however, limited yield and high cost is far behind the increasing need. Most bacteria synthesize the precursors of isoprenoids through the methylerythritol 4‐phosphate pathway, microbial synthesis of isoprenoids by fermentation becomes more attractive mainly in terms of environmental concern and renewable resources. In this review, the strategies of isoprenoid production in bacteria by synthetic biology are discussed. Introducing foreign genes associated with desired products made it possible to produce isoprenoids in bacteria. Furthermore, the yield of isoprenoids is increased by the strategies of overexpression of native or foreign genes, introducing heterologous mevalonate pathway, balancing of the precursors and inactivating the competing pathway, these methods were used separately or simultaneously. 相似文献
996.
Titanium dioxide (TiO2) nanoparticles are one of the most highly manufactured and employed nanomaterials in the world with applications in copious industrial and consumer products. The liver is a major accumulation site for many nanoparticles, including TiO2, directly through intentional exposure or indirectly through unintentional ingestion via water, food or animals and increased environmental contamination. Growing concerns over the current usage of TiO2 coupled with the lack of mechanistic understanding of its potential health risk is the motivation for this study. Here we determined the toxic effect of three different TiO2 nanoparticles (commercially available rutile, anatase and P25) on primary rat hepatocytes. Specifically, we evaluated events related to hepatocyte functions and mitochondrial dynamics: (1) urea and albumin synthesis using colorimetric and ELISA assays, respectively; (2) redox signaling mechanisms by measuring reactive oxygen species (ROS) production, manganese superoxide dismutase (MnSOD) activity and mitochondrial membrane potential (MMP); (3) OPA1 and Mfn-1 expression that mediates the mitochondrial dynamics by PCR; and (4) mitochondrial morphology by MitoTracker Green FM staining. All three TiO2 nanoparticles induced a significant loss (p < 0.05) in hepatocyte functions even at concentrations as low as 50 ppm with commercially used P25 causing maximum damage. TiO2 nanoparticles induced a strong oxidative stress in primary hepatocytes. TiO2 nanoparticles exposure also resulted in morphological changes in mitochondria and substantial loss in the fusion process, thus impairing the mitochondrial dynamics. Although this study demonstrated that TiO2 nanoparticles exposure resulted in substantial damage to primary hepatocytes, more in vitro and in vivo studies are required to determine the complete toxicological mechanism in primary hepatocytes and subsequently liver function. 相似文献
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Leifu Chang Xianwei Liu Yanbing Li Cui-Cui Liu Fan Yang Jindong Zhao Sen-Fang Sui 《Cell research》2015,25(6):726-737
Phycobilisomes (PBSs) are light-harvesting antennae that transfer energy to photosynthetic reaction centers in cyanobacteria and red algae. PBSs are supermolecular complexes composed of phycobiliproteins (PBPs) that bear chromophores for energy absorption and linker proteins. Although the structures of some individual components have been determined using crystallography, the three-dimensional structure of an entire PBS complex, which is critical for understanding the energy transfer mechanism, remains unknown. Here, we report the structures of an intact PBS and a PBS in complex with photosystem II (PSII) from Anabaena sp. strain PCC 7120 using single-particle electron microscopy in combination with biochemical and molecular analyses. In the PBS structure, all PBP trimers and the conserved linker protein domains were unambiguously located, and the global distribution of all chromophores was determined. We provide evidence that ApcE and ApcF are critical for the formation of a protrusion at the bottom of PBS, which plays an important role in mediating PBS interaction with PSII. Our results provide insights into the molecular architecture of an intact PBS at different assembly levels and provide the basis for understanding how the light energy absorbed by PBS is transferred to PSII. 相似文献