451 resultados para B-phycoerythrin (BPE)
Resumo:
以兰州放射性束流线装置(RIBLL)为依托,利用弹核碎裂机制产生了远离稳定线的核素,通过研究一些放射性核素<'20>Na、<'23>Al、<'24>Si的β<'+>缓发粒子特性,并结合核结构的测量,初步研究了<'16>O(α,γ)<'20>Ne、<'22>Na(p,γ)<'23>Mg以及<'23>Mg(p,γ)<'24>Al反应.实验测量到了β<'+>缓发母核(先驱核)的半衰期,缓发粒子的能谱和相对强度,并根据壳模型计算指定了部分激发能级的自旋,进而得到了它们的相对共振强度以及热核反应率等.通过实验,我们测量了5.627,5.788,6.725MeV等几个<'20>Ne<'*>的低能缓发α粒子能级,得到<'20>Na的其半衰期T<,1/2>=459±7ms,给出了10.584MeV和10.843MeV的两个能级的相对共振强度分别为0.59eV、1.2eV,计算了其直接俘获的贡献和低能共振态对反应率的贡献;对于<'22>Na(p,γ)<'23>Mg反应,我们重点测量了<'23>Mg的靠近<'22>Na+p俘获阈附近的能级,将探测器的探测阈降低到了200KeV左右,并新发现了一条激发能级具有缓发质子的特性,其能量为8.916MeV(衰变质子能量为1.337MeV),为了验证测量结果的准确性,我们进行了第二次测量,结果证实了8.916MeV及9.598MeV能级具有缓发质子特性,其中9.598MeV能级的缓发质子在2000年被K.Perajarvi等发现,并又新测量到了能量为8.990,9.060,9.138,9.374MeV的四个能级也存在缓发质子特性.实验得到<'24>Si的衰变半衰期为104±10ms,第一次测量到<'24>Mg低能的几个衰变质子谱线,它们在天体物理中具有重要的作用.
Resumo:
目的 :IL - 2与金黄色葡萄球菌肠毒素A和B融合基因的克隆及表达。方法 :分别在金黄色葡萄球菌肠毒素A2 2 7Ala、B基因的两端克隆上两个酶切位点HindⅢ ,KpnⅠ。将IL - 2基因突变 ,设计一段linker使之分别与SEA2 2 7Ala和SEB相连并克隆到PET表达载体中 ,在大肠杆菌DH5α(DE3) -Pass中表达。结果 :表达的蛋白占总蛋白 15 %。结论 :IL - 2与金黄色葡萄球菌肠毒素A和B融合蛋白能在大肠杆菌中有效表达
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对生长在中国长白山的5种藓类植物——垂枝藓、拟垂枝藓、塔藓、星塔藓和高山金发藓分别以辐射强度为0.2(自然光照,对照)、3.0(紫外线中等辐射强度)和6.0kJ.m-2.d-1(高剂量辐射强度)的UV-B照射40d后,测定其株高、生物量及叶绿素含量.结果表明:中等和高强度的UV-B辐射使拟垂枝藓和塔藓的株高、生物量和叶绿素含量分别下降了32.3%、62.4%、81.3%和21.4%、59.4%、62.8%,其相对生长速率均为负值;高剂量UV-B辐射处理下垂枝藓的生物量稍有上升,而高山金发藓地下部分的生物量增加1倍,但叶绿素含量变化不明显.高山金发藓和垂枝藓抵抗UV-B辐射的能力较强,拟垂枝藓和塔藓对UV-B辐射较敏感.
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UVB辐射使番茄叶片的叶绿素a,叶绿素b及总叶绿素含量先升高后降低,同样使叶片的抗氧化酶过氧化氢酶(CAT)和过氧化物酶(POD)活性先升高随后降低,而使超氧化物歧化酶(SOD)活性升高,膜脂过氧化产物MDA的含量增加;中等剂量(5mmol·l-1)的H2O2预处理能提高叶绿素b的含量,明显提高抗氧化酶的活性,并延缓CAT活性的降低,抑制膜质过氧化产物MDA的产生.中等浓度H2O2预处理能提高番茄对UVB增强的抗性.
Resumo:
从活性污泥中分离得到1株对偶氮染料酸性红B具有明显脱色效果的酵母菌株YR-1,鉴定为红酵母Rhodotorulasp。YR-1对酸性红B脱色机制属于降解脱色,能在30h内使质量浓度50mg·L-1的酸性红B溶液脱色率达到99%以上。研究了各种因素对酸性红B脱色效果的影响,最佳脱色条件为:初始pH为5.0、接种质量分数5%、温度30℃;最佳碳源是葡萄糖,其次是蔗糖;最佳氮源是酵母膏或蛋白胨。在替换分批脱色试验和连续补料脱色试验中,脱色率一直保持在75%以上,显示YR-1在上述脱色体系中均具有良好适应性。
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利用PCR方法从金黄色葡萄球菌TSTw基因组DNA中扩增出约 70 0bp的DNA片段 ,将之克隆到pGEM 7Zf(+)载体上并转化大肠杆菌DH5α菌株。重组质粒的测序结果表明克隆到了seb基因 ,它含有 717bp(不包括N端81bp的信号肽编码区 ) ,其核苷酸序列与文献报道完全一致。将其连接于表达载体 7ZTS上 ,转化到大肠杆菌JM10 9(DE3)内。表达的SEB占总蛋白 33.5 %。
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We synthesized methoxy poly(ethylene glycol)-b-poly(alpha,L-glutamic acid) (mPEGGA) diblock copolymer by ring-opening polymerization of N-carboxy anhydride of gamma-benzyl-L-glutamate (NCA) using amino-terminated methoxy polyethylene glycol (mPEG) as macroinitiator. Polyelectrolyte complexation between mPEGGA as neutral-block-polyanion and chitosan (CS) as polycation has been scrutinized in aqueous solution as well as in the solid state.
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A method was adopted to fix a series of polymers of PE-b-PEO with different PEO/PE segments on the chains of LLDPE. Maleic anhydride (MA) reacting with hydroxyl group of PE-b-PEO (mPE-b-PEO) was used as the intermediate. The structures of intermediates and graft copolymers were approved by H-1 NMR and FTIR. XPS analysis revealed a great amount of oxygen on the surface of grafted copolymers although the end group of PEO was fixed on the LLDPE chains through MA. Thermal properties of the graft copolymers as determined by differential scanning calorimetry (DSC) showed that PE segments in the grafted monomers could promote the heterogeneous nucleation of the polymer, increase T., and crystal growth rate.
Resumo:
The reactions of sodium p-sulfonatocalix[4]arene (Na5L) and terbium/europium(III) chloride in the presence of pyrazine-N,N'-dioxide (PNNO) in aqueous solutions gave the crystalline complexes 1 and 2. Both structures contain molecular capsules of p-sulfonatocalix[4] arene with PNNO as guest molecules in the cavity of the calix[4]arenes. The molecular capsules are connected through sodium and terbium (or europium) centers forming a three-dimensional framework.
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The crystallization behaviors and morphology of asymmetric crystalline-crystalline diblock copolymers poly(ethylene oxide-lactide) (PEO-b-PLLA) were investigated using differential scanning calorimetry (DSC), wide angle X-ray diffraction (WAXD), and microscopic techniques (polarized optical microscopy (POM) and atomic force microscopy (AFM)). Both blocks of PEO5-b-PLLA(16) can be crystallized, which was confirmed by WAXD, while PEO block in PEO5-b-PLLA(30) is difficult to crystallize because of the confinement induced by the high glass transition temperature and crystallization of PLLA block with the microphase separation of the block copolymer.
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Molecular weight dependence of phase separation behavior of the Poly (ethylene oxide) (PEO)/Poly(ethylene oxide-block-dimethylsiloxane) (P(EO-b-DMS)) blends was investigated by both experimental and theoretical methods. The cloud point curves of PEO/P(EO-b-DMS) blends were obtained by turbidity method. Based on Sanchez-Lacombe lattice fluid theory (SLLFT), the adjustable parameter, epsilon*(12)/k (quantifying the interaction energy between different components), was evaluated by fitting the experimental data in phase diagrams. To calculate the spinodals, binodals, and the volume changes of mixing for these blends, three modified combining rules of the scaling parameters for the block copolymer were introduced.
Resumo:
The phase behaviors of comblike block copolymer A(m+1)B(m)/homopolymer A mixtures are studied by using the random phase approximation method and real-space self-consistent field theory. From the spinodals of macrophase separation and microphase separation, we can find that the number of graft and the length of the homopolymer A have great effects on the phase behavior of the blend. For a given composition of comblike block copolymer, increasing the number of graft does not change the macrophase separation spinodal curve but decreases the microphase separation region. The addition of a small quantity of long-chain homopolymer A increases the microphase separation of comblike block copolymer/homopolymer A mixture.