酵母基因组组蛋白修饰之间相关性的研究

我们在对染色质修饰作用进行研究的过程中,发现以往的研究只关注化学修饰间的线性关系,而对于非线性关系未充分重视。为此,我们对Pokholok等(2005)人测出的酵母组蛋白甲基化修饰与乙酰化修饰数据进行了插值处理,得到了16种全基因组组蛋白修饰数据。然后对每组修饰数据在TSS位点上、下游各取1 000 bp进行对齐、平均、平滑和归一化处理。我们发现,根据酵母基因转录水平数据,可将组蛋白修饰数据分为两大类:一类是转录增强修饰群体,一类是转录抑制或转录无关修饰群体。为了揭示不同转录活性基因上修饰间的复杂关系,我们分别利用Pearson相关分析法和Reshef等(2011)人提出的MINE算法得到了以上修饰之间的相关性。最后对该结果进行分析,得到了修饰之间的一些非线性关系,同时发现同群体间修饰的关联性更强。     

重组PAI－1对u－PA抑制活性的研究

利用大肠杆菌表达的重组纤溶酶原激活物抑制因子－１（ｒＰＡＩ－１）具有许多与天然ＰＡＩ－１相同的性质,ｒＰＡＩ－１对ｕ－ＰＡ抑制活性研究的内容包括：几种化学物质（盐酸胍、尿素、硫氰酸钾、ＳＤＳ、氯化钠等）对ｒＰＡＩ－１的激活作用、盐酸胍激活ｒＰＡＩ－１的浓度与温度效应、显色底物法和ＳＤＳ－ＰＡＧＥ纤维蛋白自显影对ｒＰＡＩ－１活性的测定、活性态ｒＰＡＩ－１向潜状态的转变及其与盐浓度和ｐＨ值的关系。     

Identification of RAPD markers linked to the gene PM 1 for resistance to powdery mildew in wheat

 Powdery mildew caused by Blumeria graminis DC. f. sp. triticiém. Marchal is an important disease of wheat (Triticum aestivum L. em Thell). We report here the identification of three random amplified polymorphic DNA (RAPD) markers closely linked to a gene for resistance to B. graminis in wheat. RAPD-PCR (polymerase chain reaction) analysis was conducted using bulked segregant analysis of closely related lines developed from a segregating F₅ family. The F₅ family was derived from a cross between the susceptible cultivar Clark and the resistant line Zhengzhou 871124. Genetic analysis indicated that resistance of Zhengzhou 871124 to powdery mildew is conferred by the gene Pm1. After performing RAPD-PCR analysis with 1300 arbitrary 10-mer primers and agarose-gel electrophoresis, two RAPD markers, UBC320₄₂₀ and UBC638₅₅₀, were identified to be co-segregating with the disease resistance. No recombinants were observed between either of the RAPD markers and the gene for resistance to powdery mildew after analysis of 244 F₂ plants. The third RAPD marker, OPF12₆₅₀, was identified with denaturing gradient-gel electrophoresis (DGGE), and was determined to be 5.4±1.9 cM from the resistance gene. UBC320₄₂₀ and UBC638₅₅₀ were present in wheat powdery mildew differential lines carrying the gene Pm1, suggesting linkage between these markers and the Pm1 resistance gene. Co-segregation between Pm1 and the two markers UBC320₄₂₀ and UBC638₅₅₀ was confirmed in a segregating population derived from a cross with CI14114, the wheat differential line carrying Pm1. The method of deriving closely related lines from inbred families that are segregating for a trait of interest should find wide application in the identification of DNA markers linked to important plant genes. The RAPD marker UBC638₅₅₀ was converted to a sequence tagged site (STS). RAPD markers tightly linked to target genes may facilitate selection and enable gene pyramiding for powdery mildew resistance in wheat breeding programs. Received: 10 December 1995 / Accepted: 13 September 1996     

Low Electron Scattering Potentials in High Performance Mg2Si0.45Sn0.55 Based Thermoelectric Solid Solutions with Band Convergence

Understanding the electron and phonon transport characteristics is crucial for designing and developing high performance thermoelectric materials. Weak scattering effects on charge carriers, characterized by deformation potential and alloy scattering potential, are favorable for thermoelectric solid solutions to enable high carrier mobility and thereby promising thermoelectric performance. Mg₂(Si,Sn) solid solutions have attracted much attention due to their low cost and environmental compatibility. Usually, their high thermoelectric performance with ZT ～ 1 is ascribed to the band convergence and reduced lattice thermal conductivity caused by alloying. In this work, both a low deformation potential Ξ = 13 eV and a low alloy scattering potential U = 0.7 eV are found for the thermoelectric alloys by characterizing and modeling of thermoelectric transport properties. The band convergence is also verified by the increased density‐of‐states effective mass. It is proposed that, in addition to band convergence and reduced lattice thermal conductivity, the low deformation potential and alloy scattering potential are additional intrinsic features that contribute to the high thermoelectric performance of the solid solutions.     

异育银鲫GABAB受体1亚基 cDNA部分序列的克隆及组织表达分析

为了确定γ-氨基丁酸B受体（gamma-aminobutyric acid B receptor,GABABR）基因在异育银鲫（Carassius auratus gibelio）不同组织中的表达,本实验分别对异育银鲫不同组织中GABABR1基因进行RT-PCR扩增,并进行了克隆和测序,在与GenBank基因库中已知GABABR1序列进行同源性比对的基础上采用邻接法构建系统发育树,并进一步分析其在异育银鲫不同组织内的表达水平。结果：经克隆获得异育银鲫GABABR1基因CDS区序列383bp,编码127个氨基酸。荧光定量PCR结果显示GABABR1基因在异育银鲫脑、肝、肾、心、肠、鳔、鳃、肌、鳍、脾、卵巢、精巢组织中均有表达,且在不同组织中的表达水平由高到低依次是：脑>尾鳍>精巢>心、肠、鳔> 卵巢、脾、鳃、肌>肝、肾。本研究证实了GABABR1基因在异育银鲫各组织中的表达的广泛性,且有明显的组织特异性。     

Cetuximab enhances TRAIL-induced gastric cancer cell apoptosis by promoting DISC formation in lipid rafts

TRAIL is a member of the tumor necrosis factor family that selectively induces cancer cell apoptosis. However, gastric cancer cells are insensitive to TRAIL. Our and others studies showed that the inhibition of EGFR pathway activation could increase the sensitivity of TRAIL in cancer cells. But the detailed mechanism is not fully understood. In the present study, compared with TRAIL or cetuximab (an anti-EGFR monoclonal antibody) alone, treatment with the TRAIL/cetuximab combination significantly promoted death receptor 4 (DR4) clustering as well as the translocation of both DR4 and Fas-associated death domain-containing protein (FADD) into lipid rafts. This in turn resulted in caspase-8 cleavage and the formation of the death-inducing signaling complex (DISC) in these lipid rafts. Cholesterol-depletion with methyl-β-cyclodextrin partially prevented DR4 clustering and DISC formation, and thus partially reversed apoptosis induced by the TRAIL/cetuximab dual treatment. These results indicate that cetuximab increases TRAIL-induced gastric cancer cell apoptosis at least partially through the promotion of DISC formation in lipid rafts.     

Reverse electron flow-mediated ROS generation in ischemia-damaged mitochondria: Role of complex I inhibition vs. depolarization of inner mitochondrial membrane

Background

The reverse electron flow-induced ROS generation (RFIR) is decreased in ischemia-damaged mitochondria. Cardiac ischemia leads to decreased complex I activity and depolarized inner mitochondrial membrane potential (ΔΨ) that are two key factors to affect the RFIR in isolated mitochondria. We asked if a partial inhibition of complex I activity without alteration of the ΔΨ is able to decrease the RFIR.

Methods

Cardiac mitochondria were isolated from mouse heart (C57BL/6) with and without ischemia. The rate of H₂O₂ production from mitochondria was determined using amplex red coupled with horseradish peroxidase. Mitochondria were isolated from the mitochondrial-targeted STAT3 overexpressing mouse (MLS-STAT3E) to clarify the role of partial complex I inhibition in RFIR production.

Results

The RFIR was decreased in ischemia-damaged mouse heart mitochondria with decreased complex I activity and depolarized ΔΨ. However, the RFIR was not altered in the MLS-STAT3E heart mitochondria with complex I defect but without depolarization of the ΔΨ. A slight depolarization of the ΔΨ in wild type mitochondria completely eliminated the RFIR.

Conclusions

The mild uncoupling but not the partially decreased complex I activity contributes to the observed decrease in RFIR in ischemia-damaged mitochondria.

General significance

The RFIR is less likely to be a key source of cardiac injury during reperfusion.     

Noninvasive positron emission tomography imaging of cell death using a novel small-molecule probe, 18F labeled bis(zinc(II)-dipicolylamine) complex

The synthetic bis(zinc(II)-dipicolylamine) (DPAZn2) coordination complexes are known to have a high specific and selective affinity to target the exposed phosphatidylserine (PS) on the surface of dead and dying cells. An ¹⁸F-labeled DPAZn2 complex (4-¹⁸F-Fluoro-benzoyl-bis(zinc(II)-dipicolylamine), ¹⁸F-FB-DPAZn2) as positron emission tomography (PET) tracer was developed and evaluated for in vivo imaging of tumor treated with a chemical agent. The in vitro cell stain studies revealed that fluorescent DPAZn2 complexes (Dansyl-DPAZn2) stained the same cells (apoptotic and necrotic cells) as fluorescein isothiocyanate (FITC) labeled Annexin V (FITC-Annexin V). The radiosynthesis of ¹⁸F-FB-DPAZn2 was achieved through the amidation the precursor bis(2,2′-dipicolylamine) derivative (DPA2) with the prosthetic group N-succinimidyl-4-[¹⁸F]-fluorobenzoate (¹⁸F-SFB) and chelation with zinc nitrate. In the biodistribution study, the fast clearance of ¹⁸F-FB-DPAZn2 from blood and kidney was observed and high uptake in liver and intestine within 90 min postinjection was also found. For the PET imaging, significantly higher tumor uptake of ¹⁸F-FB-DPAZn2 was observed in the adriamycin (ADM)-treated Hepa1-6 hepatocellular carcinoma-bearing mice than that in the untreated tumor-model mice, while a slightly decreased tumor uptake of ¹⁸F-FDG was found in the ADM-treated tumor-bearing mice. The results indicate that ¹⁸F-FB-DPAZn2 has the similar capability of apoptosis detection as FITC-Annexin V and seems to be a potential PET tracer for noninvasive evaluation and monitoring of anti-tumor chemotherapy. The high uptake of ¹⁸F-FB-DPAZn2 in the abdomen needs to optimize the structure for improving its pharmacokinetics characteristics in the future work.