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201.
Jonathan P. Belman Rachel R. Bian Estifanos N. Habtemichael Don T. Li Michael J. Jurczak Abel Alcázar-Román Leah J. McNally Gerald I. Shulman Jonathan S. Bogan 《The Journal of biological chemistry》2015,290(7):4447-4463
Insulin causes the exocytic translocation of GLUT4 glucose transporters to stimulate glucose uptake in fat and muscle. Previous results support a model in which TUG traps GLUT4 in intracellular, insulin-responsive vesicles termed GLUT4 storage vesicles (GSVs). Insulin triggers TUG cleavage to release the GSVs; GLUT4 then recycles through endosomes during ongoing insulin exposure. The TUG C terminus binds a GSV anchoring site comprising Golgin-160 and possibly other proteins. Here, we report that the TUG C terminus is acetylated. The TUG C-terminal peptide bound the Golgin-160-associated protein, ACBD3 (acyl-CoA-binding domain-containing 3), and acetylation reduced binding of TUG to ACBD3 but not to Golgin-160. Mutation of the acetylated residues impaired insulin-responsive GLUT4 trafficking in 3T3-L1 adipocytes. ACBD3 overexpression enhanced the translocation of GSV cargos, GLUT4 and insulin-regulated aminopeptidase (IRAP), and ACBD3 was required for intracellular retention of these cargos in unstimulated cells. Sirtuin 2 (SIRT2), a NAD+-dependent deacetylase, bound TUG and deacetylated the TUG peptide. SIRT2 overexpression reduced TUG acetylation and redistributed GLUT4 and IRAP to the plasma membrane in 3T3-L1 adipocytes. Mutation of the acetylated residues in TUG abrogated these effects. In mice, SIRT2 deletion increased TUG acetylation and proteolytic processing. During glucose tolerance tests, glucose disposal was enhanced in SIRT2 knock-out mice, compared with wild type controls, without any effect on insulin concentrations. Together, these data support a model in which TUG acetylation modulates its interaction with Golgi matrix proteins and is regulated by SIRT2. Moreover, acetylation of TUG enhances its function to trap GSVs within unstimulated cells and enhances insulin-stimulated glucose uptake. 相似文献
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玉米是重要的粮食作物,水稻黑条矮缩病毒(RBSDV)是玉米粗缩病的病原,由其引起的玉米粗缩病给玉米生产造成重大损失。利用人工mi RNA构建抗病毒植物的技术已经在多种植物中被证明有效,但是在玉米中的尝试未见报道。实验根据玉米zea-mi R159a的前体序列和RBSDV基因组中编码功能蛋白的基因和基因沉默抑制子的序列信息设计引物,构建了用于沉默RBSDV编码基因和基因沉默抑制子的ami RNA(Artificial mi RNA)基因。构建p CAMBIA3301-121-ami RNA植物表达载体,利用农杆菌介导法转化玉米自交系综31(Z31)。对转基因玉米进行分子检测,选择mi RNA表达量高的纯合体株系进行自然发病实验,按0-4的分级标准调查玉米粗缩病的严重度。结果表明,转抗粗缩病毒人工mi RNA载体玉米纯合体株系的抗病表现好于野生型玉米,其中针对基因组6的S6-mi R159转基因玉米抗病情况较好。研究表明利用人工mi RNA技术构建抗病毒病玉米新品种是可行的。 相似文献
204.
Weiwei Wen Kun Li Saleh Alseekh Nooshin Omranian Lijun Zhao Yang Zhou Yingjie Xiao Min Jin Ning Yang Haijun Liu Alexandra Florian Wenqiang Li Qingchun Pan Zoran Nikoloski Jianbing Yan Alisdair R. Fernie 《The Plant cell》2015,27(7):1839-1856
Deciphering the influence of genetics on primary metabolism in plants will provide insights useful for genetic improvement and enhance our fundamental understanding of plant growth and development. Although maize (Zea mays) is a major crop for food and feed worldwide, the genetic architecture of its primary metabolism is largely unknown. Here, we use high-density linkage mapping to dissect large-scale metabolic traits measured in three different tissues (leaf at seedling stage, leaf at reproductive stage, and kernel at 15 d after pollination [DAP]) of a maize recombinant inbred line population. We identify 297 quantitative trait loci (QTLs) with moderate (86.2% of the mapped QTL, R2 = 2.4 to 15%) to major effects (13.8% of the mapped QTL, R2 >15%) for 79 primary metabolites across three tissues. Pairwise epistatic interactions between these identified loci are detected for more than 25.9% metabolites explaining 6.6% of the phenotypic variance on average (ranging between 1.7 and 16.6%), which implies that epistasis may play an important role for some metabolites. Key candidate genes are highlighted and mapped to carbohydrate metabolism, the tricarboxylic acid cycle, and several important amino acid biosynthetic and catabolic pathways, with two of them being further validated using candidate gene association and expression profiling analysis. Our results reveal a metabolite-metabolite-agronomic trait network that, together with the genetic determinants of maize primary metabolism identified herein, promotes efficient utilization of metabolites in maize improvement. 相似文献
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208.
Li H Jin G Qin J Tian M Shi J Yang W Tan X Zhang X Zou L 《Histochemistry and cell biology》2011,136(5):515-526
During the central nervous system (CNS) development, radial glia cells (RGCs) play at least two essential roles, they contribute
to neuronal production and the subsequent guidance of neuronal migration, whereas its precise distribution and contribution
to cerebral cortex remains less understood. In this research, we used Vimentin as an astroglial marker and Sox2 as a neural
progenitor marker to identify and investigate RGCs in rat cerebral cortex at embryonic day (E) 16.5. We found that the Sox2+
progenitor cells localized in the germinal zone (GZ) of E16.5 cerebral cortex, ~95% Sox2+ cells co-localized with Vimentin+
or Nestin+ radial processes which extended to the pial surface across the cortical plate (CP). In vitro, we obtained RG-like
cells from E16.5 cerebral cortex on adherent conditions, these Sox2+ Radial glia (RG)-like cells shared some properties with
RGCs in vivo, and these Sox2+ RG-like cells could differentiate into astrocytes, oligodendrocytes and presented the radial
glia—neuron lineage differentiation ability. Taken together, we identified and investigated some characterizations and properties
of Sox2+ RGCs derived from E16.5 cerebral cortex, we suggested that the embryonic Sox2+ progenitor cells which located in
the cortical GZ were mainly composed of Sox2+ RGCs, and the cortex-derived Sox2+ RG-like cells displayed the radial glia—neuron
lineage differentiation ability as neuronal progenitors in vitro. 相似文献
209.
We herein report a folding-based electrochemical DNA aptasensor for the detection of vascular endothelial growth factor (VEGF) directly in complex biological samples, including blood serum and whole blood. The electrochemical signal generation is coupled to a large, target-induced conformational change in a methylene blue-modified and surface immobilized anti-VEGF aptamer. The sensor is sensitive, selective and essentially reagentless: we can readily detect VEGF down to 5 pM (190 pg/mL) directly in 50% blood serum. Similar to other aptasensors of this class, the VEGF sensor is also regenerable and reusable. In addition, the sensor performs comparably well even when fabricated on a gold-plated screen-printed carbon electrode and can potentially be implemented as a cost-effective, single-use biosensor for diseases diagnosis and therapy monitoring. The exceptional sensitivity, selectivity, and reusability of this electrochemical aptasensor platform suggest it may be a promising strategy for a wide variety of sensing applications. 相似文献
210.
Xiao Yang Dai Yaohong Lu Yingying Liu Wei Wang Zhuoren Bian Yinbing 《World journal of microbiology & biotechnology》2011,27(7):1731-1734
Rapid and correct authentication of commercial strains is still important in today’s mushroom industry. Here for the first
time we reported the using of sequence characterized amplified region (SCAR) marker developed from inter-retrotransposon amplified
polymorphism (IRAP) marker to identify Lentinula edodes strain. Genomic polymorphism among 44 shiitake cultivars in China were surveyed by 24 IRAP primer combinations, from which
primer combination LTR1L/MarY1R could generate a unique and reproducible 1712 bp fragment to distinguish strain No. 4 from
other 43 strains. Based on this strain-specific fragment, a SCAR primer pair was designed and its validity was verified by
correctly amplifying a single strain-specific fragment from DNA samples of 100 L. edodes strains. Our study lays the foundation for developing strain-specific SCAR marker by retrotransposon-based marker technique
in fungi. 相似文献