含S自由基促进沉积有机质生烃的本质——H转移机制

沉积有机质热演化的本质是伴随H转移的歧化反应。有机S含量较高的干酪根具有更低生烃活化能,往往被认为是体系中丰富的含S自由基加速了C–C键断裂的结果。后生作用阶段,二苯并噻吩类化合物(DBTs)是有机S热演化的一类关键产物。因此,研究联苯类化合物(BPs)和单质S化合生成DBTs的反应过程,有助于理解在S自由基作用下,以H转移为基础的有机质生烃机理本质。本研究通过Gaussian09程序和3,3′-二甲基联苯(3,3′-DMBP)与单质S的热模拟实验,探索BPs和单质S反应生成DBTs的潜在反应路径。结果表明,S1自由基与BPs发生化合反应是优势反应路径,该过程进攻C–H键,形成DBTs和高活性的H自由基;除了部分H自由基参与生成H2S外,其余H自由基可以促进有机质裂解生烃。该优势反应路径表明, H转移更可能是后生作用阶段含S自由基促进沉积有机质裂解生烃的关键步骤。

白念珠菌H3K4甲基转移酶N末端肽段Set1-208p的原核细胞表达及鉴定

目的原核细胞表达白念珠菌H3K4甲基转移酶N末端肽段Set1-208p,鉴定重组蛋白质的抗原性。方法用比对软件对白念珠菌H3K4甲基转移酶与其他物种甲基转移酶进行比对。选择与人类无同源性的抗原特异性片段,以白念珠菌C1标准株基因组DNA为模板,PCR扩增Set1-208p的编码基因,以pET28a(+)为载体,构建重组表达质粒,转化大肠杆菌BL21(DE3),IPTG诱导重组蛋白质表达。用抗His标签的单克隆抗体鉴定融合蛋白,并用确诊侵袭性白念珠菌感染(IC)患者血清进行抗原性鉴定。结果成功克隆了白念珠菌抗原特异性H3K4甲基转移酶片段Set1-208p基因并诱导表达,获得了纯化的重组肽段,所得蛋白质分子量(Mr)约为29 000,带有His标签,经western blot鉴定,诱导的重组蛋白可与IC患者血清特异性反应。结论成功诱导表达了具有良好抗原反应性的Set1-208p重组蛋白质,为建立相应的抗原、抗体ELISA检测方法提供基础。

青花菜β-1,4-木糖基转移酶IRX9H基因的克隆及在模拟酸雨胁迫下的表达分析

由糖基转移酶催化产生的次生代谢物质对植物抵御和适应环境的变化起着重要作用。为探讨青花菜在酸雨胁迫下糖基转移酶的表达变化,对青花菜β-1,4-木糖基转移酶IRX9H基因的cDNA序列全长进行克隆,并对其进行生物信息学和表达分析。结果表明:青花菜β-1,4-木糖基转移酶IRX9H基因的cDNA全长为1 550 bp,开放阅读框为1 155 bp,编码384个氨基酸,推测分子式为C1964H3044N558O567S11,分子量为43 897.8,没有信号肽。系统进化树分析结果表明,该青花菜基因与拟南芥聚类关系最近。利用实时荧光定量PCR研究模拟酸雨胁迫下β-1,4-木糖基转移酶IRX9H基因的表达量,结果显示该基因的表达量在模拟酸雨胁迫初期显著增大,随着时间的延长,又开始下降,这表明其在青花菜抗酸雨胁迫中发挥了作用。

卤取代对三氮系1-3H原子转移互变异构影响的理论研究

用量子化学从头计算方法研究了卤取代对三氮系 1 -3H原子转移互变异构的影响 ,探讨卤取代对降低反应活化能和稳定 N N双键的电子效应 .

白色念珠菌H3K4甲基转移酶N端肽段抗体的ELISA检测方法建立

目的建立检测人血清中抗白色念珠菌H3K4甲基转移酶N末端肽段（N—terminal region of histone 3 lysine 4 methyhransferase，Setl-208p）IgG类抗体的ELISA方法，评估其在侵袭性念珠菌病（invasive candidiasis，IC）患者中的早期诊断价值。方法收集IC患者（105例）、定植患者（37例）、细菌感染患者（25例）、其他真菌感染患者（10例）以及健康体检者（200例）血清，用Setl-208p作为包被抗原，血清1：500稀释，以羊抗人IgG-HRP为二抗，测定人血清中相应的抗Setl-208p抗体水平，确定cut-off值并考查方法的敏感度、特异度和准确度。结果以重组Setl-208p抗原建立的ELISA法精密度良好，批内变异系数（coefficient of variation，CV）为5．5％，批间CV为10．4％。重组抗原对血清中相应抗体的阻断率为91．8％，根据ROC曲线，选择吸光度（absorbance，A）值0．40作为cut off值，对IC的诊断敏感度为79．2％，特异度为90％，且与细菌感染及其他真菌感染病人（如曲霉）无非特异交叉反应。此外，IC患者中抗Setl-208p抗体阳性率（76．1％，80／105）显著高于念珠菌定植者抗Setl-208p抗体阳性率（32．4％，12／37）（χ^2=22．9，P〈0．01）。结论建立了检测抗白念珠菌抗Setl-208p抗体的ELISA法，在IC早期诊断中具有潜在应用价值。

组蛋白H3K4甲基转移酶KMT2D研究进展

组蛋白-赖氨酸N-甲基转移酶2D(KMT2D),属于哺乳动物H3K4甲基转移酶家族成员,在成人组织中广泛表达,对于早期胚胎发育有重要作用。C-末端的SET区域负责组蛋白H3K4甲基化,维持KMT2D蛋白的稳定性。KMT2D与WRAD、NCOA6、PTIP、PA1和H3K27去甲基化酶UTX组成复合物,在其中起到支架蛋白的作用,维持UTX的稳定性。KMT2D主要催化哺乳动物H3K4单甲基化,与转录因子共同作用于增强子区域,从而调控基因表达。KMT2D在调节细胞发育、分化、新陈代谢和肿瘤抑制方面具有重要作用,其突变导致多种疾病发生。进一步研究KMT2D有助于揭示其异常所引发多种疾病的病因,并且对开发临床药物提供有力的帮助。

欧洲发现一例新的h等位基因中存在α(1.2)-岩澡糖转移酶MotifII的错义突变

背景 FUT1基因编码α(1.2)岩澡糖转移酶,它决定着血型的H物质,该基因的非功能等位基因,也叫H等位基因发生了无功能突变,这种基因型在孟买型中十分稀有。用分子生物法确认的H等位基因在各个人群中仅有23个。FUT2(SE)基因与FUT1共有高度同源性。材料与方法 第一个孟买型中的FUT1基因是用全长核苷酸序列法发现于一位奥地利人。

组蛋白H3K36位点甲基转移酶识别组蛋白底物的分子机制研究进展

组蛋白H3第36位赖氨酸的甲基化修饰在染色质上含量丰富,与活跃转录以及DNA损伤修复等重要生理过程相关.H3K36位点可以被一甲基化、二甲基化和三甲基化3种形式修饰,目前已知的负责组蛋白H3K36三甲基化修饰的人源蛋白是SETD2,负责组蛋白H3K36二甲基化修饰的酶包含NSD1、NSD2和NSD3和ASH1L共4名成员.这些H3K36甲基转移酶都具有非常特异的H3K36位点选择性,因此,对调控体内H3K36甲基化修饰的水平和分布十分重要.此外,它们的表达异常与人类的多种疾病相关.因此,解析组蛋白H3K36甲基转移酶识别并修饰组蛋白底物的分子机制,对揭示这些酶参与的表观遗传调控机制及其在体内的生理功能都具有十分重要的意义.早期的研究使得人们对组蛋白H3K36甲基转移酶催化底物的机制有了较深入的认识,但是由于解析的修饰酶与底物复合物的结构较少,对这些酶特异识别组蛋白底物分子机制的认识尚有很多不足.近年来,随着冷冻电镜技术的应用,H3K36甲基转移酶与核小体底物的复合物结构相继取得了突破,极大地推进了人们对这些酶识别并催化组蛋白底物分子机制的认识.本文以这几个组蛋白H3K36甲基转移酶为主要目标,对其分子机制的最新进展进行介绍总结.

ICP-MS/MS测定轻质油中痕量氯含量

基于H_(2)反应模式下的质量转移反应消除干扰,建立电感耦合等离子体串联质谱(ICP-MS/MS)测定轻质油中痕量Cl的分析方法。轻质油经简单稀释后直接采用ICP-MS/MS进行测定,在MS/MS模式下使用H_(2)作为反应气,利用在碰撞/反应池(CRC)中Cl^(+)与H_(2)发生二次H原子转移反应形成的子离子(H_(2)Cl^(+))进行测定,消除所有质谱干扰,获得Cl的灵敏度和检出限(LOD)明显优于O_(2)反应模式,LOD低至7.56μg/kg。通过与扇型磁场ICP-MS(SF-ICP-MS)对比分析标准参考物质NIST SRM 1634c,评价方法的准确可靠性。结果表明,标准参考物质的分析结果与认证值基本一致,相对标准偏差(RSD)为3.1%~4.7%,2种方法的对比分析结果在95%的置信度水平无显著性差异。所建立分析方法的灵敏度、准确度和和精密度高,MS/MS模式和H_(2)质量转移法的结合可无干扰测定轻质油中的Cl,适用于轻质油中痕量Cl的质量控制与评估。

S100A4和nm23H1在甲状腺乳头状癌中的表达及相关性研究

目的:探讨甲状腺乳头状癌(PTC)组织S100A4和nm23H1基因蛋白表达与肿瘤侵袭转移的关系。方法:应用微波-链霉菌素-生物素(微波-LSAB)法检测69例PTC组织中S100A4和nm23H1蛋白的表达。结果:S100A4和nm23H1阳性率分别为76.8%和56.5%,伴有浸润和颈部淋巴结转移者S100A4阳性表达率均显著高于无浸润和无淋巴结转移者(P<0.05),而nm23H1表达阳性率则显著低于无浸润和无淋巴结转移者(P<0.05)。S100A4表达与nm23H1表达呈显著负相关(P<0.05)。结论:S100A4和nm23H1表达与PTC侵袭及转移密切相关,联合检测可作为判断PTC预后的参考指标。

COX-2及nm23-H1在结直肠癌中的表达及其临床意义

目的探讨环氧化酶2(COX-2)和肿瘤转移抑制基因H1(nm23-H1)在结直肠癌中的表达及其临床意义。方法应用免疫组化检测COX-2、nm23-H1在62例结直肠癌中的表达。结果COX-2的高表达与淋巴结转移、Dukes分期和浸润深度有相关性(P<0.05);nm23-H1的低表达与分化类型、浸润深度、淋巴结转移密切相关(P<0.05)。结论COX-2和nm23-H1的表达与结直肠癌侵袭转移密切相关,联合检测COX-2和nm23-H1有助于评估病情、判断预后和选择适当治疗手段。

Construction and Identification of a Goat Pox Virus Transfer Vector to Express Peste des Petits Ruminants H gene

[Objective] This study was to develop a live vector vaccine of goat pox virus of Peste des petits ruminants(PPR). [Method] Using PCR amplification technique, PPR H gene was obtained, then ligated into pGEM-T easy vector; the recombinants were digested by Nhe Ⅰ and Hind Ⅲ, and ligated into pEGFP-N1-P7.5, yielding the recombinant vector pEGFP-N1-P7.5-H; next the expression cassette EGFP-N1-P7.5-H was first released from recombinant vector pEGFP-N1-P7.5-H by double digestion of Hind Ⅲ and Nhe Ⅰ and ligated into pUC119-TK that was digested by Kpn Ⅰ, yielding the transfer vector pUC119-TK-EGFP-P7.5-H. [Result] Identification and double enzyme digestion showed that the transfer vector pUC119-TK-EGFP-P7.5-H was correctly constructed. From the transfer vector transfected BHK-21 cells which infected GTPV AV41, specific fluorescence was observed at 48th h of transfection. [Conclusion] The construction of goat poxvirus live vector laid a foundation for the live vector vaccine of PPR vaccine.

组蛋白H3K9甲基修饰酶在2周、4周和6周龄小鼠肝脏中的表达

目的探讨不同周龄小鼠肝脏组蛋白H3K9甲基转移酶(KMT)和去甲基化酶(KDM)的表达。方法取2周、4周和6周龄BALB/c雄性小鼠肝脏组织,分别提取总mRNA和蛋白质,应用实时定量反转录-聚合酶链式反应(RT-qPCR)确定几种H3K9甲基转移酶和去甲基化酶的表达差异,使用Western blotting检测两种H3K9去甲基化酶KDM3A和KDM4B的蛋白含量。结果几种H3K9甲基转移酶(包括KMT1C、KMT1E和PRDM2)和去甲基化酶(包括KDM3A、KDM3B、KDM4A和KDM4B)的mRNA在小鼠不同年龄阶段的表达存在差异(P<0.05,每年龄段5只小鼠),而两种组蛋白去甲基化酶KDM3A和KDM4B在蛋白水平也有明显不同,6周龄小鼠肝脏中两种蛋白表达明显低于2周和4周(P<0.05,每年龄段5只小鼠)。结论特定基因位点的H3K9甲基化状态与肝脏发育和生物学功能可能存在密切联系。

Preparation of a new solid acid and its catalytic performance in di(1-naphthyl)methane hydrocracking

A new solid acid was prepared by trifluoromethanesulfonic acid （TFMSA） impregnation into an acid‐treated attapulgite （ATA）. Di（1‐naphthyl）methane （DNM） hydrocracking was used as the probe reaction to evaluate the catalytic performance of TFMSA/ATA for cleaving Car–Calk bridged bonds in coals. The results show that DNM was specifically hydrocracked to naphthalene and 1‐methylnaphthalene over TFMSA/ATA in methanol in the absence of gaseous hydrogen. In partic‐ular, TFMSA/ATA was demonstrated to be stable after four cycles with slight loss in catalytic activi‐ty. Furthermore, a proposed H＋transfer mechanism successfully interprets the TFMSA/ATA‐cata‐lyzed hydrocracking reaction of DNM.

The study of anti-hepatitis drug dimethyl dicarboxylate biphenyl on invasion of human hepatocellular carcinoma MHCC97-H cells and its active mechanisms

Objective： To assess the anti-invasive effect of DDB and its possible active mechanism in human hepatocellular carcinoma MHCC97-H with high metastasis potential. Methods： MTT assay was used to evaluate the cytotoxicity of DDB to MHCC97-H cells and the anti-adhesion of DDB on MHCC97-H cells to laminin （LN） and fibronectin （FN）. The anti-invasive effect of DDB was detected by the transwell chamber experiment. VEGF, nm23-H1 and uPAR mRNA transcriptions were determined by RT-PCR assay. The secretion and expression of a-fetal protein （AFP） were analyzed by ELISA and flow cytometry, respectively. Results： DDB at non-cytotoxic concentrations （10, 50 and 100 μmol/L） obviously inhibited the adhesion of MHCC97-H on LN and FN. In the transwell chamber experiment, the inhibition rates of the invasion of DDB 50 and 100 μmol/L on MHCC97-H cells were 25.8% and 32.3%, respectively. By RT-PCR assay, DDB 50 and 100 μmol/L decreased VEGF, nm23-H1 and uPAR mRNA expressions in MHCC97-H cells. The ELISA assay showed that 50, 100 and 200 μmol/L DDB decreased the AFP secretion of MHCC97-H cells, the inhibitory rates were 16.5%, 17.5% and 48.5%, respectively. DDB also decreased the expression of AFP in MHCC97-H cells by flow cytometry assay. Conclusion： DDB, an anti-hepatitis drug, at non-cytotoxic concentrations showed significant anti-invasion effect in human hepatocellular carcinoma MHCC97-H cells, and the inhibition of VEGF, nm23-H1 and uPAR expression should contribute to the anti-invasion property of DDB.

EXPRESSION OF HUMAN α-GALACTOSIDASE AND α1,2-FUCOSYL-TRANSFERASE GENES MODIFIES THE CELL SURFACE GALα1,3GAL ANTIGEN AND CONFERS RESISTANCETO HUMAN SERUM-MEDIATED CYTOLYSIS

Objective To explore the strategies which reduce the amount of xenoantigen Galα1, 3 Gal. Methods Human α-galactosidase gene and α1,2-fucosyltransferase gene were transferred into cul-tured porcine vascular endothelial cells PEDSV.15 and human α-galactosidase transgenic mice were produced. The Galα1,3Gal on the cell surface and susceptibility of cells to human antibody-mediated lysis were analyzed. Results Human α-galactosidase gene alone reduced 78% of Galα1,3Gal on PEDSV.15 cell surface while human α-galactosidase combined with α1,2-fucosyltransferase genes removed Galα1,3Gal completely. Decrease of Galα1,3Gal could reduce susceptibility of cells to human antibody-mediated lysis, especially during co-expression of α-galactosidase gene and α1,2-fucosyltransferase gene. RT-PCR indicated positive human α-galactosidase gene expression in all organs of positive human α-galacto-sidase transgenic F1 mice including heart, liver, kidney, lung, and spleen, the amount of Galα1,3Gal antigens on which was reduced largely. 58% of spleen cells from F1 mice were destroyed by comp-lement-mediated lysis compared with 24% of those from normal mice. Conclusions Human α-galactosidase gene and α1,2-fucosyltransferase gene effectively reduce the expression of Galα1,3Gal antigens on endothelial cell surface and confers resistance to human serum-mediated cytolysis. The expression of human α-galactosidase in mice can also eliminate the Galα1,3Gal antigens in most tissues and decrease the susceptibility of spleen cells to human serum-mediated cytolysis.

A Mechanistic Switch in C-H Bond Activation by Elusive Fe^(V)(O)(TAML)Reaction Intermediate:A Theoretical Study

The divergent behavior of C-H bond oxidations of aliphatic substrates compared to those of aromatic substrates shown in Gupta’s experiment was mechanistically studied herein by means of density functional theory calculations.Our calculations reveal that such difference is caused by different reaction mechanisms between two kinds of substrates(the aliphatic cyclohexane,2,3-dimethylbutane and the aromatic toluene,ethylbenzene and cumene).For the aliphatic substrates,C-H oxidation by the oxidant Fe^(V)(O)(TAML)is a hydrogen atom transfer process;whereas for the aromatic substrates,C-H oxidation is a proton-coupled electron transfer(PCET)process with a proton transfer character on the transition state,that is,a proton-coupled electron transfer process holding a proton transfer-like transition state(PCET(PT)).This difference is caused by the strongπ-πinteractions between the tetra-anionic TAML ring and the phenyl ring of the aromatic substrates,which has a“pull”effect to make the electron transfer from substrates to the Fe=O moiety inefficient.

蛋鸡混合感染滑液囊支原体和H9N2亚型禽流感病例诊治

通过对某商品蛋鸡养殖公司出现气管堵塞、死淘率增加鸡群采集病料进行常能引起规呼吸道疾病病原检测,发现鸡群发病的原因是同时感染了滑液囊支原体MS和H9N2亚型禽流感.对发病鸡群采用口服转移因子、干扰素、麻杏石甘口服液、替米考星、氟苯尼考的办法控制住了病情,降低了养殖户的损失.

电场效应对硝酸羟胺离子间相互作用影响的密度泛函研究

为了研究硝酸羟胺基推进剂电点火过程中的电场效应对推进剂的影响，采用DFT—B3LYP／6-311＋＋G（d，P）方法，对硝酸羟胺的几何构型进行优化。通过自然键轨道分析揭示了氢键作用的本质。对构型形成过程中H原子转移进行了理论研究。在-0．005～0．005a．u．外电场强度下计算了H原子转移的过渡态构型和活化能垒，并对氢键作用的键长、结合能以及能级分布随电场的变化进行了计算。结果表明，随着正向电场的增强，H原子转移活化能垒逐渐减小，有利于硝酸羟胺构型的形成。硝酸羟胺氢键作用键长缩短，键的强度增强。结合能增加，硝酸羟胺的稳定性增强。点火过程中的电场效应对硝酸羟胺的极化或者电离产生负面影响，不利于推进剂的点火。

nm23H1、VEGF表达与前列腺癌转移和生存率的关系

目的研究前列腺癌nm23H1和VEGF的表达,探讨其与前列腺癌发生、转移和生存率的关系。方法用免疫组化法检测41例前列腺癌切除标本中癌组织和10例癌周组织nm23H1和VEGF表达;用CD31标记血管内皮细胞,计数肿瘤组织的微血管密度(MVD)。结合临床资料分析nm23H1、VEGF与TNM分期、病理分级、有无骨转移和术后生存率的相关性。结果前列腺癌组织中nm23H1和VEGF阳性表达率分别为70.7%(29/41)和68.3%(28/41),癌周组织中分别为10.0%(1/10)和30.0%(3/10),差异均有统计学意义(P<0.01)。前列腺癌MVD平均为75.1±12.9/mm2,癌周组织MVD平均为32.1±8.5/mm2(P<0.01)。nm23H1阳性表达者骨转移率低,阴性表达者骨转移率高,两组间差异有统计学意义(P<0.01)。VEGF阳性表达者骨转移率高,阴性表达者无骨转移,两组间差异有统计学意义(P<0.01)。nm23H1高表达时生存率高,低表达时生存率低;VEGF高表达时生存率低,低表达时生存率高。结论nm23H1基因可抑制前列腺癌发生和转移,提高前列腺癌患者的生存率。VEGF高表达可促进前列腺癌的血管和淋巴管形成,导致癌细胞转移,使患者生存率降低。