镉胁迫对秋华柳根系活力及其Ca、Mg、Mn、Zn、Fe积累的影响

以秋华柳为试验材料,采用水培试验方式,设置CK(0 mg·L^-1 Cd²⁺)、T₁(2 mg·L^-1 Cd²⁺)、T₂(10 mg·L^-1Cd²⁺)、T₃(20 mg·L^-1Cd²⁺)、T₄(50 mg·L^-1Cd²⁺)5种镉处理浓度,通过对秋华柳根系活力,叶、韧皮部、木质部和根部的镉含量,以及Ca、Mg、Mn、Zn、Fe 5种常规金属元素含量的测定,研究了不同浓度镉胁迫下秋华柳根系活力及Ca、Mg、Mn、Zn、Fe 等金属元素含量的变化.结果表明:1)秋华柳根系活力随着镉处理浓度的增加而逐渐下降,当镉浓度≥10 mg·L^-1时,根系活力与对照相比显著下降.2)随着镉处理浓度的增加,秋华柳叶中Fe的积累受到显著抑制;韧皮部Mg、Mn、Fe的积累受到显著抑制;木质部Ca、Mg、Mn、Zn、Fe 等5种常规金属元素的积累无显著性差异;根部5种常规金属元素的吸收和积累受到显著抑制,表现出镉对其他金属元素积累的拮抗作用.其中,50 mg·L^-1的镉胁迫下,根部Zn的积累量降幅最大,受Cd的抑制最明显.3)各处理组Fe的转移系数与对照相比均无显著性差异;Ca、Mg、Mn、Zn的转移系数均高于对照,且在一定的镉处理水平上差异显著.4)镉胁迫下,秋华柳根部镉的积累量与Ca的积累量呈显著负相关,与其他4种常规金属元素的积累量呈极显著负相关,说明根部常规金属元素的变化可作为秋华柳受镉毒害程度的指示之一.     

一种适合骨髓瘤、杂交瘤细胞生长的无血清培养基

在基础培养液 DME/F12(1:1)中加入10μg/ml 转铁蛋白(T),5μg/ml 胰岛.素(Ⅰ),10μmol/L 乙醇胺(E),10^-9mol/L 亚硒酸钠(S)及1mg/ml 牛血清白蛋白(BSA)等诸种添加剂成分而构成了本试验的无血清培养基,定名为 LDSF.试验表明,LDSF 可取代常规培养基 DMEM(含10—15%胎牛血清),用于骨髓瘤、杂交瘤细胞的长期传代培养,支持杂交瘤细胞稳定、持续地分泌特异单克隆抗体(McAb),并可用于细胞融合、冻存和复苏.     

人参皂苷Rb1、Rg1、Re对白血病细胞株KG1α增殖的影响

目的:探讨人参皂苷Rb1、Rg1、Re对急性髓系白血病细胞株(KG1α)增殖的影响.方法:取对数生长期KG1α细胞,分设人参皂苷Rb1、Rg1、Re组和常规培养组,以MTT比色法检测作用24h、48h、72h时对KG1α细胞增殖抑制作用,并计算Rb1的IC_(50)值,以此浓度为工作浓度,设常规培养组和处理组,台盼蓝计数法观察对KG1α细胞增殖的影响;流式细胞术测定细胞周期分布的变化.结果:MTT、台盼蓝计数显示人参皂苷单体Rb1、Rg1可抑制KG1α细胞增殖,呈浓度依赖性,以Rb1抑制效应最佳,于作用48h抑制率最高.台盼蓝计数显示人参皂苷单体Rb1-120μmol/L作用48h时抑制率达50.22%;流式细胞术结果提示,与对照组比较,Rb1-120μmol/L组G_2/M期KG1α细胞比例增加(P<0.05).结论:Rb1可抑制KG1α细胞体外增殖,其增殖抑制作用与将KG1α细胞阻滞于G_2/M期有关.     

一株ganghwense发光杆菌的分类鉴定及相关特性的研究

对从海鲜食品(虾蛄)中分离到的1株细菌"M-1"进行系统分类鉴定.采用常规方法[1]进行分离培养,以形态学特征、培养特性、生理生化特征及分子生物学等方法对其进行分类鉴定.该菌株为革兰阴性杆状细菌,细菌宽度＞1 μm;16S rDNA序列测定与photobacterium ganghwense相似为99%(1 455/1 467),生理生化特征与发光杆菌属相近.菌株"M-1"是1株发光杆菌.     

拟南芥、荠菜DREB1A基因的克隆与植物表达载体的构建

用PCR方法从拟南芥和荠菜中分别克隆了DREB1A基因.序列分析发现从拟南芥中克隆的AtDREB1A基因与已发表的AtDREB1A基因序列(DQ372533)的同源性为99.69%.首次从荠茱中克隆的CbDREB1A基因序列(EF156749)与DQ372533的同源性为99.54%.利用这两个基因分别构建了两个诱导表达载体(prd29A/AtDREB1A,prd29A/CbDREB1A)和两个组成型表达载体(pCaMV35S/AtDILEBlA,pCaMV35S/CbDREB1A),以便进一步开展植物抗旱基因工程研究.     

常规磁共振成像结合磁共振波谱在临床脑胶质瘤诊断及鉴别诊断中的应用价值

目的:分析磁共振氢质子磁共振波谱(Proton Magnetic Resonance Spectroscopy,1H-MRS)的特征与脑胶质瘤病理分级的相关性,探讨氢质子磁共振波谱及常规磁共振成像(Magnetic Resonance Imaging,MRI)联合应用在提高脑胶质瘤的临床诊断中的应用价值.方法:脑胶质瘤(经临床手术证实及病理诊断确诊)患者34例,参照国际卫生组织诊断标准,分为低级别胶质瘤组及高级别胶质瘤组.其中,低级别组16例,高级别组18例,在行常规MRI检查的同时,配合1H-MRS检查,测NAA(N-乙酰天门冬氨酸)、Cho(胆碱)、Cr(肌酸)值,在不同级别胶质瘤、同级别胶质瘤不同位置的代谢物进行综合分析.结果:在获得常规MRI图像并进行诊断后,进行氢质子磁共振波谱检测分析:在低级别胶质瘤及高级别胶质瘤患者中,Cr(肌酸)的总量变化不大,有轻度的下降;而NAA(N-乙酰天门冬氨酸)下降程度较为明显;Cho(胆碱)则明显升高.低级别胶质瘤及高级别胶质瘤患侧的肿瘤组织同对侧的正常脑组织的各种代谢物及其比值(Cho、NAA、NAA/Cho、NAA/Cr值)具有显著性差异(P＜0.05);低级别胶质瘤及高级别胶质瘤的肿瘤组织的代谢物比值NAA/Cr、NAA/Cho值差异具有显著性(P＜0.05).低级别胶质瘤及高级别胶质瘤的Cho/Cr、NAA/Cho、NAA/Cr值与脑胶质瘤的病理分级具有相关性;在各个比值中,NAA/Cr与NAA/Cho值能够较好地反映脑胶质瘤的病理分级,二者的值呈现负相关;Cho/Cr值呈正相关.结论:常规MRI联合1H-MRS在脑胶质瘤的诊断中,能够有效提高准确性,在临床评估脑胶质瘤的分级、确定范围和鉴别诊断都具有重要的指导作用.     

胃内酸化消除胃内细菌过生长造成的14C-尿素呼气试验假阳性

目的 :观察胃内细菌过生长是否可以引起 1 4C-尿素呼气试验假阳性 ,同时胃内酸化是否能即刻消除这种影响。方法 :5 8名胃黏膜组织学 Hp阴性、常规 1 4C- UBT( U BT- 1)也阴性的溃疡样型功能性消化不良的病人口服雷贝拉唑 2 0 mg/ d、共 7d。于第 6天常规 1 4C- UBT( U BT- 2 )。U BT- 2阳性者于第 7天再进行一次改良的 1 4C- U BT( U BT- 3) ,方法是在服用 1 4C-尿素胶囊前 2 0 m in和服用胶囊时各加饮 15 0 m l0 .1mol/ L的柠檬酸水。比较三次 U BT的 1 4CO2 呼出率。结果 :雷贝拉唑明显增加 Hp阴性病人 1 4CO2 呼出率 ,U BT- 1为 ( 2 4 .0± 10 .8) dpm / mm ol CO2 ,U BT- 2为 ( 6 3.6± 16 .8) dpm / m mol CO2 ( ( t=2 .310 ,P<0 .0 5 )。U BT- 2有 9例假阳性 ( 9/ 5 8,16 % )。但胃内酸化后的 UBT- 3的 1 4CO2 呼出率又落至 ( 2 1.0± 7.8) dpm/mm ol CO2 ( ( t=2 .0 6 8,P<0 .0 5 ) ,9例假阳性者又恢复真阴性。结论 :胃内细菌过生长可以引起 1 4C-尿素呼气试验假阳性 ,同时胃内酸化能即刻消除这种影响     

阿托伐他汀强化降脂治疗急性脑梗死的疗效及对TNF-α、IL-10、IL-18、MMP-9水平的影响

目的:探讨阿托伐他汀强化降脂治疗急性脑梗死(ACI)的临床疗效,并分析其对肿瘤坏死因子-α(TNF-α)、白细胞介素-10(IL-10)、白细胞介素-18(IL-18)及基质金属蛋白酶-9(MMP-9)水平的影响。方法:选取2015年3月-2016年12月我院收治的82例ACI患者,采用随机数字表法随机分为强化组(n=41)与常规组(n=41)。在常规治疗的基础上,常规组患者给予20 mg/次的阿托伐他汀治疗,强化组患者给予40 mg/次的阿托伐他汀治疗,两组均连续治疗8w。治疗结束后对比两组患者的临床疗效,对比两组患者治疗前后总胆固醇(TC)、三酰甘油(TG)、高密度脂蛋白胆固醇(HDL-C)、低密度脂蛋白胆固醇(LDL-C)、组织型纤溶酶原激活物(t-PA)、血浆纤溶酶原激活物抑制剂-1(PAI-1)、血浆纤维蛋白原(FIB)、TNF-α、IL-10、IL-18、MMP-9水平。结果:强化组与常规组患者的总有效率分别为95.12%、80.49%,与常规组对比,强化组患者的临床总有效率明显升高(P0.05);两组患者治疗后的TC、TG、LDL-C、PAI-1、FIB、TNF-α、IL-18、MMP-9水平均较治疗前显著降低,HDL-C、t-PA、IL-10水平均显著升高(P0.05),且治疗后强化组患者的TC、TG、LDL-C、PAI-1、FIB、TNF-α、IL-18、MMP-9水平均低于常规组,HDL-C、t-PA、IL-10均高于常规组(P0.05)。结论:阿托伐他汀强化降脂治疗ACI疗效较好,能够显著改善患者血脂、纤溶系统及炎症因子相关指标水平,具有降脂、调节纤溶活性及抑制炎症的作用。     

一氧化氮、内皮素-1对大鼠肢体缺血/再灌注后脑损伤的影响

目的: 研究一氧化氮(NO)和内皮素-1(ET-1)在大鼠肢体缺血/再灌注(LI/R)后脑损伤中的作用,探讨NO/ET-1平衡关系的变化对脑损伤的影响.方法: 在大鼠LI/R损伤模型上,应用NO合成前体物质L-精氨酸(L-Arg)、一氧化氮合酶(NOS)抑制剂氨基胍(AG)、ETA受体阻断剂BQl23进行干预,观察血浆 NO、ET-1、MDA、XOD、SOD、LDH及脑组织tNOS、iNOS、cNOS、NO、ET-1、MDA、XOD、MPO、 SOD的变化.结果: 与对照组比较,I/R组血浆MDA、XOD、LDH及脑组织MDA、XOD、MPO升高,SOD活性降低(P<0.01),脑组织tNOS和iNOS明显升高,而cNOS明显降低(P<0.01),I/R组血浆及脑组织NO、ET-1增加,NO/ET-1比值降低,脑损伤加重.应用L-Arg及BQ123后,血浆及脑组织NO/ET-1比值较I/R组升高,脑损伤减轻,应用AG后,NO/ET-1比值降低,脑损伤进一步加重.结论: 肢体缺血/再灌注后,一氧化氮与内皮素-l的比值降低时脑损伤加重.     

耕作方法和除草剂对玉米田杂草群落的影响

应用群落生态学方法,在中国科学院沈阳生态实验站对玉米田杂草群落进行了调查研究,探讨了耕作方法和除草剂对杂草群落组成、多样性和生物量的影响.结果表明,玉米田优势种杂草为野黍、苘麻、大狼把草和鸭趾草,其中野黍重要值最高;免耕不施加除草剂处理6月下旬杂草生物量较大,5月末到8月中旬物种丰富度较高(S),7月1日和8月1日均匀度(J)较低,优势集中性(C)较高,均与常规施加除草剂处理有显著差异.施用除草剂可减少免耕玉米田杂草种类,抑制杂草生物量的增长.耕作方法和除草剂可对杂草群落组成、多样性及稳定性产生影响.     

Cellulose affinity purification of fusion proteins tagged with fungal family 1 cellulose-binding domain

N- or C-terminal fusions of red-fluorescent protein (RFP) with various fungal cellulose-binding domains (CBDs) belonging to carbohydrate binding module (CBM) family 1 were expressed in a Pichia pastoris expression system, and the resulting fusion proteins were used to examine the feasibility of large-scale affinity purification of CBD-tagged proteins on cellulose columns. We found that RFP fused with CBD from Trichoderma reesei CBHI (CBD(Tr)(CBHI)) was expressed at up to 1.2g/l in the culture filtrate, which could be directly injected into the cellulose column. The fusion protein was tightly adsorbed on the cellulose column in the presence of a sufficient amount of ammonium sulfate and was efficiently eluted with pure water. Bovine serum albumin (BSA) was not captured under these conditions, whereas both BSA and the fusion protein were adsorbed on a phenyl column, indicating that the cellulose column can be used for the purification of not only hydrophilic proteins but also for hydrophobic proteins. Recovery of various fusion proteins exceeded 80%. Our results indicate that protein purification by expression of a target protein as a fusion with a fungal family 1 CBD tag in a yeast expression system, followed by affinity purification on a cellulose column, is simple, effective and easily scalable.     

Magnetic DNA hybridization properties of oligonucleotide probes attached to superparamagnetic beads and their use in the isolation of poly(A) mRNA from eukaryotic cells

Poly(A) messenger RNA is generally purified from total RNA using oligo(dT) cellulose affinity chromatography or centrifugation through spin columns. We present a new method for rapid purification of poly(A) mRNA using oligo(dT) probes attached to superparamagnetic beads. By magnetic separation, washing, and elution, pure mRNA is obtained from living cells within 10 minutes. This procedure works for crude RNA preparations or cell lysates that would otherwise clog standard oligo(dT) cellulose column systems. The present method reduces the risk of degradation, is highly efficient, and can easily be scaled up or down.     

Automated solid-phase synthesis of high capacity oligo-dT cellulose for affinity purification of poly-A tagged biomolecules

Affinity purification of poly-adenylated biomolecules using solid supports that are derivatized with poly-thymidine oligonucleotides provides a powerful method for isolating cellular mRNA. These systems have also been used to purify mRNA–peptide fusions generated by RNA-display. However, the commercial source for high capacity oligo-dT cellulose was recently discontinued. To overcome this problem, we have developed a low cost solid-phase synthesis protocol to generate oligo-dT cellulose. Comparative binding studies indicate that chemically synthesized oligo-dT cellulose functions with superior loading capacity when compared to the discontinued product. We suggest that this method could be used to synthesize oligo-dT resin for routine purification of poly-adenylated biomolecules.     

Isolation of specific messenger RNA by adsorption of polysomes to matrix-bound antibody.

A procedure is presented for the purification of specific mRNAs, which exploits the ability of antibodies prepared against a native protein to bind to the nascent polypeptide on the polysome. Rather than precipitating these soluble antibody-polysome complexes with anti-antibody, which can lead to nonspecific trapping of polysomes, we have linked the anti-antibody to an insoluble matrix. Thus, the antibody-polysome complex binds to the anti-antibody support and nonspecific polysomes can easily be removed by several washes. We have found para-aminobenzyl cellulose (PAB cellulose), to be a suitable matrix for this purpose. This support can bind large quantities of anti-antibody and it displayed no detectable nonspecific affinity for polysomes or RNA. Using this procedure, we have obtained an apparently homogeneous preparation of ovalbumin mRNA.     

Specific Polysome Immunoadsorption to Purify an Ammonium-Inducible Glutamate Dehydrogenase mRNA from Chlorella sorokiniana and Synthesis of Full Length Double-Stranded cDNA from the Purified mRNA

A specific polysome immunoadsorption procedure, employing soluble rabbit anti-NADP-GDH IgG and sheep anti-rabbit IgG covalently-linked to an insoluble cellulose matrix, was used to immunoselect polysomes translating mRNA for a chloroplastic ammonium-inducible NADP-GDH in fully induced cells of Chlorella sorokiniana. The immunoselected polysomes were dissociated, and the NADP-GDH mRNA was recovered by oligo (dT)cellulose chromatography. The translatable NADP-GDH mRNA was estimated to be 0.07 and 90% of the total polysomal poly(A)⁺RNA before and after immunoselection of the polysomes, respectively. The immunoadsorption procedure resulted in an 83% recovery and 1,291-fold purification of translatable NADP-GDH mRNA. In vitro translation of the immunoselected poly(A)⁺RNA yielded a single radioactive protein (on sodium dodecyl sufate polyacrylamide gels) with a molecular weight of 58,500, i.e. size of the putative precursor-protein of the NADP-GDH subunit in the holoenzyme in fully induced cells. The purified NADP-GDH mRNA was used for synthesis of a high proportion of nearly full-length single-stranded cDNA and double-stranded cDNA molecules.     

Characterization of superporous cellulose matrix for high‐throughput adsorptive purification of lysozyme

Protein purification essentially requires macroporous adsorbents matrices, which can provide high efficiency in packed bed and expanded bed (EB) even at high flow rates on account of reduced pore diffusion resistance resulting from finite intraparticle flow in the superpores. Rigid spherical superporous adsorbent beads with high carboxyl group density were prepared by crosslinking of cellulose. The matrix (diameter: 100–300 μm, mean pore size: 1–3 μm, pore volume: 57–59%, and bulk density: ～1,438 kg/m³) could be used in packed bed as well as EB for purification of various biomolecules. Attempts were made to use indigenously developed rigid, superporous crosslinked cellulose adsorbent for high‐throughput purification of lysozyme from chicken egg white's extract. A typical adsorption isotherm for lysozyme in crude was well correlated with the Langmuir isotherm model. Two maxima of binding capacity on celbeads bearing carboxymethyl (celbeads‐CM) group for lysozyme were observed at pH 4.5 and 7.5. Uptake kinetics showed that the diffusivity of lysozyme was 100 times higher than conventional matrices. Such superporous matrix can be used for high‐throughput purification of proteins from crude feedstocks and is reflected in leveling off of height equivalent to theoretical plate vs. flow curve after threshold velocity. Optimization of binding and elution conditions resulted in overall purification of lysozyme in a high yield and purity of 98.22 and 98.8%, respectively, with purification factor of 51.54 in a single step. The overall productivity (14.21 kg/m³ h) and specific activity (2.2 × 10⁵ U/mg) were higher than that obtained with traditional particulate resins. © 2011 American Institute of Chemical Engineers Biotechnol. Prog., 2011     

Recovery of active ribosomal complexes from cellulose nitrate membranes

The ternary Ac-[3H]Phe-tRNA-poly(U)-ribosome complex (complex C) [D. L. Kalpaxis, D.A. Theocharis, and C. Coutsogeorgopoulos (1986) Eur. J. Biochem. 154, 267-271] was used in model experiments aiming at the purification of this complex via adsorption on cellulose nitrate membranes and then desorbing the complex back into solution. The desorption was carried out at pH 7.2 in the presence of the nonionic detergent Zwittergent (ZW). The activity status of complex C was assessed with the aid of the puromycin reaction which characterizes ribosomal peptidyltransferase as part of complex C. The optimal conditions for desorbing complex C were 5 degrees C and a buffered solution containing 0.1% ZW. The kinetic constants of peptidyltransferase in the adsorbed state were kcat = 2.0 min-1, Ks = 0.4 mM. In the desorbed state, in solution, kcat = 3.4 min-1 and Ks = 0.3 mM. The method promises to be suitable for the rapid purification of ribosomal complexes containing mRNA and aminoacyl-tRNA.     

Carboxymethyl cellulose as a new heterobifunctional ligand carrier for affinity precipitation of proteins

Affinity precipitation is a technique that imparts selectivity to the widely used primary purification step of precipitation of proteins from crude extracts. Hetero-bifunctional affinity precipitation involves use of reversibly soluble/insoluble polymers that can be used as backbones to conjugate affinity ligands for specific separations. A variety of such polymers have been reported in literature. In this work we report development of carboxymethyl cellulose (CM cellulose) as a cheap, readily available and versatile reversibly soluble polymer system. Available CM cellulose as sodium salt could be quantitatively precipitated from its aqueous solution in presence of about 50 mM calcium and 7.2% w/v polyethylene glycol-4000, and could be resolubilised in the working buffer in absence of calcium, polyethylene glycol or both. Effectiveness of the CM cellulose-calcium-polyethylene glycol system was demonstrated by purifying lactate dehydrogenase from porcine muscle extractusing covalently conjugated Cibacron blue dye-ligand. By careful choice of conditions that suppressed non-specific interactions, the system was shown to be an effective affinity precipitation polymer system inspite of the polyelectrolytic nature of CM cellulose. Up to 23 fold purification of the enzyme from crude extarct was obtained in one single precipitation sequence. This revised version was published online in July 2006 with corrections to the Cover Date.     

Comparison of batch, packed bed and expanded bed purification of A. niger cellulase using cellulose beads

Rigid macroporous cross-linked cellulose beads were prepared and used as a useful affinity medium for purification of A. niger cellulase from commercial preparation, in batch; packed bed and expanded bed modes. The beads bound 99% activity in both packed bed and expanded bed modes and upto 91% activity could be recovered by washing the adsorbent with 1 M phosphate buffer, pH 7.0. While batch adsorption and elution gave only 4-fold purification, packed bed operation gave 14-fold purification and expanded bed, the highest, 36-fold purification.     

Continuous recording of the formation of a photolabile fluorophore.

DNA immobilized on cellulose or agarose has been found very useful for the separation and purification of DNA-binding proteins (1–4).A variety of methods for DNA immobilization has been proposed, including absorption (3), entrapment in gels (4), and covalent binding (1).In the course of a study of the behavior of a complex between histones and immobilized DNA, we have met the need of a particularly stable DNA-cellulose preparation, i.e., involving not only covalent bonds between the nucleic acid and the polysaccharide, but bonds resistent to extremes of pH, particularly in the alkaline region.It has been found that cellulose activated with cyanuric chloride affords a convenient material for the preparation of DNA-cellulose, which has the following favorable characteristics: (i) It can be prepared by an easy and reproducible method; (ii) double-stranded DNA is bound in satisfactory amounts; (iii) the material is very stable, even in urea and in alkaline conditions.