A simple method to estimate the exponential material parameters of heart valve tissue based on analogy between uniaxial tension and micropipette aspiration

Micropipette aspiration (MA) has been widely used to measure the biomechanical properties of cells and biomaterials. To estimate material parameters from MA experimental data, analytical half-space models and inverse finite element (FE) analyses are typically used. The half-space model is easy to implement but cannot account for nonlinear material properties and complex geometrical boundary conditions that are inherent to MA. Inverse FE approaches can account for geometrical and material nonlinearities, but their implementation is resource-intensive and not widely available. Here, by making analogy between an analytical uniaxial tension model and a FE model of MA, we proposed an easily implementable and accurate method to estimate the material parameters of tissues tested by MA. We first adopted a strain invariant-based isotropic exponential constitutive model and implemented it in both the analytical uniaxial tension model and the FE model. The two models were fit to experimental data generated by MA of porcine aortic valve tissue (45 spots on four leaflets) to estimate material parameters. We found no significant differences between the effective moduli estimated by the two models ( $p > 0.39$ ), with the effective moduli estimated by the uniaxial tension model correlating significantly with those estimated by the FE model ( $p < 0.001; R^{2}= 0.96$ ) with a linear regression slope that was not different than unity ( $p = 0.38$ ). Thus, the analytical uniaxial tension model, which avoids solving resource-intensive numerical problems, is as accurate as the FE model in estimating the effective modulus of valve tissue tested by MA.     

枸杞脱落酸生物合成关键酶基因NCED的克隆及表达分析

脱落酸(abscisic acid,ABA)对植物的生长发育具有独特的调控功能,并在植物适应逆境环境中发挥重要作用。9-顺式环氧类胡萝卜素双加氧酶(NCED)是高等植物中ABA生物合成途径的一个关键酶。根据GenBank中的植物NCED基因的同源序列设计简并引物,通过RT-PCR及RACE技术从枸杞叶片中克隆到1个编码NCED的基因,命名为LbNCED。其cDNA全长为2316 bp,含有1个1824 bp的开放阅读框,编码1个含607氨基酸残基,分子量为67.38 kDa、等电点(pI)为6.43的假定蛋白,其氨基酸序列与番茄(Lycopersicon esculentum)和马铃薯(Solanum tuberosum)的同源性达90%,在N-末端具有1个含15个氨基酸的叶绿体转运肽。Southern杂交结果表明,该基因在枸杞基因组中以低拷贝形式存在。盐处理和脱水处理的枸杞叶片中LbNCED基因的表达与内源ABA的积累同步变化。     

类芽胞杆菌碱性果胶裂解酶的纯化与酶学性质表征

从类芽胞杆菌Paenibacillus sp.WZ008的发酵上清液中纯化得到一个高活力碱性果胶裂解酶,经SDS-PAGE电泳估算其亚基相对分子质量为4.5×104。通过对该酶进行酶学性质研究发现：该酶能催化裂解果胶酸、低酯果胶和高酯果胶;酶催化反应最适温度范围为55～60℃,最适pH为9.6,在最适条件下以低酯果胶为底物酶的比酶活达3 021.6 U/mg;Ca2＋能增强该酶的活力,而Mn2＋,Ba2＋和EDTA强烈抑制该酶活力;当没有Ca2＋存在时,高度酯化的果胶是该酶的最适底物,在4 mmol/L Ca2＋存在时,该酶以果胶酸为底物比酶活最高（25 467 U/mg）。该酶N端序列比对分析发现与类芽胞杆菌Paenibacillus amylolyticus strain 27c64果胶裂解酶高度同源。     

表达条件对金属激活酶NAOase离子依赖的活性分析

N-乙酰鸟氨酸脱酰基酶为一种新型手性拆分酶制剂,酶活性依赖于Mg2＋、Mn2＋、Zn2＋及Co2＋ 中的某种金属离子。以高表达NAOase的重组菌DH10B/argE-pHsh为研究对象,考察不同培养条件下Mg2＋、Mn2＋、Zn2＋及Co2＋ 4种离子对重组菌的生长、酶的表达活性及表达量的影响。结果发现：同种离子在不同条件下对重组菌的生长影响不大,但对酶活性影响显著。4种离子在合适浓度时皆能提高酶活性,促进强度从高到低依次为Mn2＋、Mg2＋、Co2＋和Zn2＋。在TB培养基中,Mn2＋为15 mmol/L时：NAOase比酶活达到1 272.7 U/mL,是未添加时的4.67倍,激活作用显著高于其他离子。SDS-PAGE电泳实验表明4种离子的蛋白表达量基本相同。     

Suppressed Optical Transmission Through an Array of Ultrathin Interlayer Metal Slits

In contrast to the enhanced peak transmission in a subwavelength metal hole array structure (Ebbesen et al., Nature 391:667–669, 1998), here we theoretically investigate the spectral transmission through an array of identical metal slits with ultrathin interlayers and surprisingly find the depressed optical transmission for both infinite and finite array case. Notably, in the latter system, the narrowband dip transmission is evidently produced with the accompaniment of selective field enhancement and phase jumping across the structure. Analyses suggest that this phenomenon is intrinsically related to the penetrant coupling of intracavity surface plasmon polaritons together with the slit termination effect.     

Optical Magnetic Resonances in Subwavelength Ag–MgF2–Ag Grating Structures

Optical magnetic responses were demonstrated in subwavelength Ag–MgF₂–Ag grating structures for transverse magnetic-polarized light. The subwavelength Ag–MgF₂–Ag grating structures were fabricated using e-beam lithography followed by a lift-off process. By fixing the Ag–MgF₂–Ag strip dimension, the effect of the stripe width on the magnetic resonances was compared for two different grating pitches. With further reduced grating pitch, we pushed the optical magnetic resonances to near UV (deep blue). Numerical simulations confirmed our experimental observations and were in good agreement with the experimental results.     

Biological Relevance of the Interaction Between Resveratrol and Insulin

In view of synergistic effect of resveratrol and insulin in the prevention and treatment of many chronic diseases, the interaction between them was studied and its biological implication was further discussed. Insulin could interact with resveratrol to form 1:1 complex with the binding constant of 1.03?×?10³ M^?1 at 298 K. The binding was spontaneous and insulin/resveratrol complex formation was an exothermal reaction. Hydrogen bond and van der Waals force played key roles in the binding process. Kinetic study indicates that resveratrol binding to insulin conformed to the first-order exponential decay function. The interaction decreased the polarity around tyrosine residue and α-helical content, destroyed the disulfide bridges, depolymerized insulin dimers to monomer, and altered the orientation of aromatic side chains in the insulin. Additionally, insulin increased resveratrol stability. These results well confirm synergistic effect of resveratrol and insulin in vitro. It would give a deeper insight into resveratrol as a kind of food functional factor.     

Design and Theoretical Analyses of Tip–Insulator–Metal Structure with Bottom–Up Light Illumination: Formations of Elongated Symmetrical Plasmonic Hot Spot at Sub-10 nm Resolution

Ag tip–insulator–metal structure with bottom–up light illumination is proposed and theoretically analyzed. It shows that there is a strong plasmonic coupling between Ag tip and metallic surface. Different from oblique light illumination, this novel design possesses unique advantages of symmetrical hot spot profile and enlarged depth of focus at a sub-10-nm spatial resolution. Influences of tip size, insulator, and metallic layer thickness are studied. It is found that the metallic layer thickness greatly affects the plasmonic hot spot quality. Meanwhile, the thickness of photoresist plays a major role in controlling light spot size, indicating that much higher resolution can be achieved for the Ag tips with large curvature radius.     

Plasmonic Spectral Detection of Carcinoembryonic Antigen by Preventing the Direct Binding of Rhodamine 6G with Au Nanoparticles

Carcinoembryonic antigen (CEA) was used as a separator to prevent the Rhodamine 6G (R6G)-induced aggregation of colloidal gold nanoparticles. The destroyed aggregation has been monitored by measuring the absorption and resonance light scattering peaks corresponding to the longitudinal surface plasmon resonance (SPR) of the chain-like aggregated gold nanoparticles (AuNPs). It was found that the pre-adding of CEA with different concentrations to the gold colloids before mixing them with R6G could lead to the longitudinal SPR peak decrease and blue shift. By analysing the intensity changing and wavelength shifting of the absorption spectra, CEA could be detected in a linear range from 0.2 to 4 ng/mL, and the limit of detection reaches to 0.1 ng/mL. The sensitivity of the CEA concentration dependent shifting and quenching of the plasmonic absorption and scattering corresponding to the AuNPs aggregation presents a well potential application of biologic spectral sensing.