高山植物唐古特红景天（Rhodiola algida Var.tangutica）抗冻蛋白的研究

抗冻蛋白（AFP）或热滞蛋白（THP）最早是从极区鱼和昆虫中发现的一类特殊蛋白质，其共同特性是能阻止体液内冰核的形成和生长，降低体液的冰点，使其冰点低于熔点（热滞效应）。近几年的研究表明，AFP在某些植物、细菌、真菌中也存在。生长在极端低温环境中的高山植物体内是否也存在AFP，据我们掌握的资料，还未见这方面的报道。为此，我们选择了青海高原海拔4000米高山生长的唐古特红景天为实验材料，并在这种植物中发现了抗冻蛋白。主要实验结果概括如下： 1. 唐古特红景天叶片有很强的抗冻性，可耐受-26.5 ℃的冰冻温胁迫。在北京地区夏季（7月）驯化20天后，半致死温度（LT_(50)）升高为-15.5 ℃。叶片质外体蛋白抽提液有明显的热滞效应（0.2 ℃），在AFP中存在糖基。SDS-PAGE分析表明，质外体AFP为分子量在43-85KD范围内的五条多肽。 2. 光镜组织化学切片显示，在红景天叶片中存在蛋白质量丰富的细胞;电镜细胞化学研究揭示，在细胞壁外层及细胞间隙中分布着明显的经钌红特异染色的糖蛋白，这种糖蛋白因环境温度升高而减少。结合前述的实验结果，确认这种细胞壁外层及细胞间隙中的糖蛋白，即抗冻蛋白。 3. 以唐古特红景天叶片为外植体，在MS+BA_2+NAA_(0.2)固体培养基上可诱导出黄绿色，松脆愈伤组织。愈伤组织细胞在同样成分的液体培养基中培养获得成功。在悬浮培养液中可检测到分泌蛋白的存在。经SDS-PAGE分析表明，经低温锻炼或ABA诱导后，细胞分泌蛋白的多肽谱带数增加。与此相对应的是，细胞的抗冻能力也明显提高。PAS染色揭示，多肽中均含有糖基。 4. 通过测定热滞值，确信细胞分泌蛋白是具有抗冻活性的糖蛋白。

Silicon Surface Modification with a Mixed Silanes Layer to Immobilize Proteins for Biosensor with Imaging Ellipsometry

One kind of surface modification method on silicon wafer was presented in this paper. A mixed silanes layer was used to modify silicon surface and rendered the surface medium hydrophobic. The mixed silanes layer contained two kinds of compounds, aminopropyltriethoxysilane (APTES) and methyltriethoxysilane (NITES). A few of APTES molecules in the layer was used to immobilize covalently human immunoglobulin G (IgG) on the silicon surface. The human IgG molecules immobilized covalently on the modified surface could retain their structures well and bind more antibody molecules than that on silicon surface modified with only APTES. This kind of surface modification method effectively improved the sensitivity of the biosensor with imaging ellipsometry.

Generating artificial homologous proteins according to the representative family character in molecular mechanics properties - an attempt in validating an underlying rule of protein evolution

The molecular mechanics property is the foundation of many characters of proteins. Based on intramolecular hydrophobic force network, the representative family character underlying a protein’s mechanics property is described by a simple two-letter scheme. The tendency of a sequence to become a member of a protein family is scored according to this mathematical representation. Remote homologs of the WW-domain family could be easily designed using such a mechanistic signature of protein homology. Experimental validation showed that nearly all artificial homologs have the representative folding and bioactivity of their assigned family. Since the molecular mechanics property is the only consideration in this study, the results indicate its possible role in the generation of new members of a protein family during evolution.

Direct visualization of the dynamics of membrane-anchor proteins in living cells

Dynamic properties of proteins have crucial roles in understanding protein function and molecular mechanism within cells. In this paper, we combined total internal reflection fluorescence microscopy with oblique illumination fluorescence microscopy to observe directly the movement and localization of membrane-anchored green fluorescence proteins in living cells. Total internal reflect illumination allowed the observation of proteins in the cell membrane of living cells since the penetrate depth could be adjusted to about 80 nm, and oblique illumination allowed the observation of proteins both in the cytoplasm and apical membrane, which made this combination a promising tool to investigate the dynamics of proteins through the whole cell. Not only individual protein molecule tracks have been analyzed quantitatively but also cumulative probability distribution function analysis of ensemble trajectories has been done to reveal the mobility of proteins. Finally, single particle tracking has acted as a compensation for single molecule tracking. All the results exhibited green fluorescence protein dynamics within cytoplasm, on the membrane and from cytoplasm to plasma membrane.

沙冬青抗冻组份的分离纯化和afp基因克隆的尝试

本文用三种方法分离纯化沙冬青（Ammopiptanthus mongolicus）叶片抗冻蛋白质。从70%硫酸铵沉淀后的上清液中得到了一种碱性的小分子物质，UiS，具有较高的溶解度( 260 mg/ml)和较强的降低溶液冰点的能力（200 mg/ml，冰点小于-20℃）：从10%硫酸铵和26%氯化铵共沉淀物中分离到一种抗冻蛋白-B3，B3分子量为39.8 kDa，热滞活性为0.45℃(10 mg/ml)：从沙冬青叶片热稳定蛋白质中用双向电泳一电泳回收法分离到afp,其分子量为40 kDa,pl为9.0。热滞活性为0.9℃(20 mg/ml)，和其他抗冻蛋白质进行比较，没有发现相同的类型。afp和uis在叶片含量都很高，可能是沙冬青抗冻生理过程中两种主要物质，它们对于沙冬青抵御-20℃左右的冷冻温度具有重要的意义。afp N端序列为SDDL SFTF NKFV PCQT DILF，据此合成了六段5’引物和一段3’引物，用RT - PCR方法从叶片中扩增出一段200 bp左右的片段。