Recovery of cryopreserved 96-well plates from −80° C

Summary A simple method is described for the effective recovery of cells cryopreserved in 96-well plates.     

基于小波分解的多尺度医学图像融合技术

给出了一种基于小波分解的多尺度图像融合新方法。其基本思想是 ,先对源图像进行小波多尺度分解 ;其次 ,采用了基于区域特性量测选择的加权算子的融合规则进行小波系数融合 ;最后通过小波逆变换重构融合图像。实验结果表明 ,该融合方法十分有效 ,融合图像完好地显示了源图像各自的信息。     

蛋白转导域介导BCR/ABL抗原对CML患者T细胞的活化作用

目的：研究蛋白转导域(PTD)介导的BCR／ABL抗原对慢性髓细胞白血病(CML)患者T细胞的特异性活化作用。方法：利用基因工程技术，将PTD基因与CML b3a2 bcr／abl基因融合并原核表达。将纯化的PTD—BCR／ABL融合蛋白与CML患者外周血单个核细胞(PBMC)体外共孵育，用流式细胞仪分别检测CD4^ 、CD8^ T细胞上活化抗原CD25的表达。结果：终浓度为100mg／L的PTD—BCR／ABL抗原体外刺激4d后，10例CML患者中，5例表现为CD8^ T细胞活化，2例表现为CD4^ T细胞活化，其中有1例CD8^ 和CD4^ T细胞同时活化；而作为对照的BCR／ABL抗原刺激组无一例表现为CD8^ 或CD4^ T细胞活化。结论：PTD能将外源性BCR／ABL抗原转导入抗原呈递细胞内，加工呈递后激活抗原特异性CD8^ 及CD4^ T细胞，为CML特异性CD8^ 、CD4^ T细胞的体外活化及细胞免疫治疗开辟一条新的途径。     

Fusion of vestibular and podokinesthetic information during self-turning towards instructed targets

When observers step about their vertical axis ("active turning") without vision they dispose of essentially two sources of information that can tell them by how much they have turned: the vestibular cue which reflects head rotation in space and the "podokinesthetic" cue, a compound of leg proprioceptive afferents and efference copy signals which reflects the observer's motion relative to his support. We ask how these two cues are fused in the process leading to the perception of self-displacement during active turning. To this end we compared the performance of observers in three angular navigation tasks which differed with regard to the number and type of available motion cues: (1) Passive rotation, vestibular cue ( ves) only; observers are standing on a platform which is being rotated. (2) Treadmill stepping, podokinesthetic cue ( pod) only; observers step counter to the rotating platform so as to remain stable in space. (3) Active turning, ves and pod available; observers step around on the stationary platform. In all three tasks, angular velocity varied from trial to trial (15, 30, 60 degrees /s) but was constant during trials. Perception was probed by having the observers signal when they thought to have reached a previously instructed angular displacement, either in space or relative to the platform ("target"; range 60-1080 degrees ). Performance was quantified in terms of the targeting gain (displacement reached by the observer divided by target angle) and of the random error ( E(r)), which records an observer's deviation during single trials from his average performance. Confirming previous observations, E(r) was found to be significantly smaller during active turning than during passive turning, and we now complement these observations by showing that it is also significantly smaller than during treadmill stepping. This behaviour of E(r) is compatible with the idea that ves and pod be averaged during active turning. On the other hand, the observed characteristics of the targeting gain ( G(T)) support this idea only for the case of fast rotations (60 degrees /s); at lower velocities, the gain found during active turning was clearly not the average of the G(T) values recorded in the passive and the treadmill modes. We therefore also discuss alternative scenarios as to how ves and pod could interact, among these one based on the concept of a vestibular eigenmodel. A common denominator of these scenarios is that ves assumes the role of a prerequisite for an optimal use of pod during turning on a stationary support, without itself entering the calculation of displacement perception; this perception would be based exclusively on pod. Finally, it was a consistent observation that during passive rotations cognitive mechanisms fill in for the decaying vestibular signal in the context of the present navigation task, enabling observers to achieve large displacements surprisingly well although the duration of these movements exceeds by far the conventionally cited value of the central vestibular time constant (=20 s).     

THE EFFECTS OF CHANGES IN AROUSAL LEVEL ON CRITICAL FLICKER FUSION FREQUENCY AND FIGURAL REVERSAL TASKS

The present study was designed to investigate the relationship between intra-and inter-individual differences in arousal level and performance on both critical flicker fusion frequency and figural reversal tasks. Forty male undergraduate Ss were used. Electrical skin conductance was used as the indicant of arousal level. For the intra-individual comparisons white noise was used to increase the Ss’arousal levels. Significant inverted U-shaped relationships were found between both flicker fusion thresholds and rates of figural reversal and skin conductance between individuals. A significant curvilinear relationship was found between rates of figural reversal and level of conductance within individuals. No significant curvilinear relationship was found between flicker fusion thresholds and level of conductance within individuals.     

可溶性HLA-G1与NK-92细胞表面ILT2及KIR2DL4受体相互作用的研究

 目的 探讨可溶性 HLA-G1（sHLA-G1）对人 NK-92 细胞杀伤活性的抑制与细胞表面免疫球蛋白样转录分子 2（ILT2）和杀伤细胞免疫球蛋白样受体 2DL4（KIR2DL4）受体的关系。 方法 ①通过原核表达技术获得 sHLA-G1 重组蛋白（重组蛋白），并采用蛋白质印迹法进行鉴定。②取 NK-92 细胞，加入终浓度 20 μg/ml 的重组蛋白分别培养 10、30 min，再分别加入抗 HLA-G1/G5、抗ILT2 和抗 KIR2DL4 抗体，采用流式细胞术检测各组 NK-92 细胞表面 sHLA-G1 和 ILT2、KIR2DL4 受体表达阳性率；以 NK-92 细胞单独培养作为对照组。③以人白血病 K562 细胞为靶细胞，以经不同方式处理的 NK-92 细胞为效应细胞，效靶比为5:1，共同培养 2 h，采用流式细胞术检测 NK-92 细胞对 K562 细胞的杀伤率。NK-92 细胞处理方式为单纯重组蛋白处理（分别加入终浓度为 0、10、20 μg/ml 的重组蛋白培养 30 min）和表面受体封闭 + 重组蛋白处理（分别加入抗 ILT2、抗 KIR2DL4、抗 LT2 + 抗 KIR2DL4 抗体培养 30 min，再分别加入终浓度为 0、10、20 μg/ml 的重组蛋白培养 30 min）。 结果 ①蛋白质印迹分析表明所获重组蛋白为带有组氨酸标签的特异蛋白。②NK-92 细胞与 20 μg/ml 重组蛋白共培养 30 min 后，sHLA-G1 表达阳性率明显高于而 ILT2、KIR2DL4 受体表达阳性率均明显低于对照组（均 P < 0.05）。③以终浓度 0、10、20 μg/ml 的重组蛋白处理的 NK-92 细胞对 K562 细胞的杀伤率分别为 39.79% ± 2.00%、27.79% ± 0.75%、21.36% ± 0.67%（两两比较，均 P < 0.01）；单独封闭 ILT2 受体，杀伤率分别为 23.09% ± 1.63%、21.13% ± 0.38%、18.42% ± 0.47%（两两比较，均 P < 0.01）；单独封闭 KIR2DL4 受体，杀伤率分别为 30.74% ± 0.44%、26.03% ± 0.38%、21.15% ± 0.35%（两两比较，均 P < 0.01）。 结论 sHLA-G1 通过与 NK-92 细胞表面 ILT2 和 KIR2DL4 受体直接结合而抑制 NK-92 细胞的杀伤活性。     

Amino acid substitutions within the heptad repeat domain 1 of murine coronavirus spike protein restrict viral antigen spread in the central nervous system

Targeted recombination was carried out to select mouse hepatitis viruses (MHVs) in a defined genetic background, containing an MHV-JHM spike gene encoding either three heptad repeat 1 (HR1) substitutions (Q1067H, Q1094H, and L1114R) or L1114R alone. The recombinant virus, which expresses spike with the three substitutions, was nonfusogenic at neutral pH. Its replication was significantly inhibited by lysosomotropic agents, and it was highly neuroattenuated in vivo. In contrast, the recombinant expressing spike with L1114R alone mediated cell-to-cell fusion at neutral pH and replicated efficiently despite the presence of lysosomotropic agents; however, it still caused only subclinical morbidity and no mortality in animals. Thus, both recombinant viruses were highly attenuated and expressed viral antigen which was restricted to the olfactory bulbs and was markedly absent from other regions of the brains at 5 days postinfection. These data demonstrate that amino acid substitutions, in particular L1114R, within HR1 of the JHM spike reduced the ability of MHV to spread in the central nervous system. Furthermore, the requirements for low pH for fusion and viral entry are not prerequisites for the highly attenuated phenotype.