岩豆(Millettia dielsiana Harms ex Diels)凝集素的分离纯化和性质研究

用猪甲状腺球蛋白-Sepharose 4B作亲和吸附剂,再经Sephadex G-100凝胶过滤,可以从岩豆种子中纯化出岩豆凝集素(MDL)。该凝集素可以凝集人类A、B、O型血细胞和兔红细胞,纯化的MDL凝集兔红细胞的能力可被D-松三糖、邻硝基-苯酚-D-半乳糖和N-乙酰半乳糖胺抑制,甘露糖也有弱的抑制作用。纯化的MDL在PAGE和SDS-PAGE上均显现单一蛋白质染色带,经Schiff’s试剂染色证明为糖蛋白;以酚-硫酸法测得其中性糖含量为6.0％;SDS-PAGE测得亚基分子量为32 000;Sephadex G-100分子筛柱测得其分子量为63 800;等电聚焦电泳显示其等电点为5.1;氨基酸组成分析表明其中Asp、Glu、Phe含量较高,但不含有Pro、Tyr。MDL也是一个强促有丝分裂原,对人外周血淋巴细胞转化率可达81.2％,细胞分裂比率达14.8％。     

岩豆凝集素分子修饰与圆二色性的关系研究

天然态岩豆凝集素（ＭＤＬ）远紫外圆二色性（ＣＤ）谱显示２１６ｎｍ处单一负峰,是一种高β－折叠构象凝集素;近紫外ＣＤ谱呈现２８２ｎｍ处负峰和２６０～２７５ｎｍ及２９５ｎｍ处的负肩,经Ｎ－乙基顺丁烯二酰亚胺（ＮＥＭＩ）和对氯汞苯甲酸（ＰＣＭＢ）修饰ＭＤＬ的巯基,其近紫外ＣＤ谱未发生变化,远紫外ＣＤ谱仅发生细微变化,ＭＤＬ凝集活性保持不变;ＰＣＭＢ过量时,ＣＤ谱呈现典型的无规卷曲谱形,ＭＤＬ完全丧失凝集活性,去除ＰＣＭＢ后,活性又全部恢复．二硫苏糖醇（ＤＤＴ）修饰ＭＤＬ的二硫键并用碘乙酸（ＩＣＨ２ＣＯＯＨ）保护巯基,ＭＤＬ远紫外ＣＤ谱２１６ｎｍ处的负峰红移至２２５ｎｍ,且显著减小;同时,近紫外ＣＤ谱２８２ｎｍ处负峰几乎消失,两负肩分别保持完整,分子中α－螺旋降低,无规卷曲增加较多,ＭＤＬ凝集活性未发生变化．用Ｎ－溴代丁二酰亚胺（ＮＢＳ）修饰ＭＤＬ分子中的色氨酸,导致２１６ｎｍ负峰蓝移至２０８ｎｍ且变小,分子中无规卷曲和α－螺旋增加,β折叠减少,近紫外ＣＤ谱２９５ｎｍ负肩消失,２８２ｎｍ负峰红移至２８７ｎｍ,ＭＤＬ凝集活性完全丧失．     

岩豆凝集素的圆二色性与生物学活性关系的研究

岩豆凝集素（ＭＤＬ）的远紫外圆二色性谱（ＣＤ谱）显示２１６－２１７ｎｍ处的单一负峰。此时ＭＤＬ分子含有１６．２％的α螺旋,４６．３％的β折叠和３７．５％的无规卷曲。ｐＨ９．０时负峰红移至２２０ｎｍ,且在２１７－２２２ｎｍ处的峰值几乎相同;在２０－４０℃范围内,ＣＤ谱的变化甚微;６０℃时谱峰蓝移;在８０℃或１００℃时,２１２ｎｍ处出现一大负峰。１ｍｏｌ／Ｌ或２ｍｏｌ／Ｌ脲时,ＭＤＬ的ＣＤ谱已发生明显变化,二级结构单元也有变化,凝集兔红细胞的活性也随之减弱;随脲浓度的增加,ＭＤＬ的谱峰蓝移,最终在２１２ｎｍ处出现大负峰。当胍浓度为０．７５ｍｏｌ／Ｌ时,ＭＤＬ的ＣＤ谱即有明显变化和活性丧失;胍浓度继续增加,ＣＤ谱逐渐成为特征的无规卷曲的谱形。在ｐＨ９．０、温度超过８０℃、脲或胍浓度分别高于２ｍｏｌ／Ｌ和０．７５ｍｏｌ／Ｌ时,ＭＤＬ的ＣＤ谱发生显著变化的同时,其凝集兔红细胞的生物学活性全部丧失,分子的二级结构单元也发生很大改变。     

Effects of denaturation and amino acid modification on fluorescence spectrum and hemagglutinating activity of Hericium erinaceum Lectin

In a broad sense, lectins are proteins or glycoproteins ofnon-immune origin that bind specifically to carbohydrates[1]. But most lectins are usually multivalent, which meansthey have more than one carbohydrate-binding site in onemolecule, a property that enables them to agglutinate eryth-rocytes and other cells [2,3]. Some lectins exhibit blood-group specificity [4] and can be used in blood grouping;some agglutinate transformed cells better than the normalones [5]. Therefore, clinical research…     

Conformational study reveals amino acid residues essential for hemagglutinating and anti-proliferative activities of Clematis montana lectin

Clematis montana lectin （CML）, a novel mannose-binding lectin purified from C. montana Buch.-Ham stem （Ranunculaceae）, has been proved to have hemagglutinat- ing activity in rabbit erythrocytes and apoptosis-inducing activity in tumor cells. However, the biochemical properties of CML have not revealed and its structural information still needs to be elucidated. In this study, it was found that CML possessed quite good thermostability and alkaline re- sistance, and its hemagglutinating activity was bivalent metal cation dependent. In addition, hemagglutination test and fluorescence spectroscopy proved that GuHCI, urea, and sodium dodecyl sulfate could change the conformation of CML and further caused the loss of hemagglutination activity. Moreover, the changes of fluorescence spectrum indicated that the tryptophan （Trp） microenvironment conversion might be related to the conformation and bioactivities of CML. In addition, it was also found that Trp residues, arginine （Arg） residues, and sulfhydryl were important for the hemagglutinating activity of CML, but only Trp was proved to be crucial for the CML con- formation. Furthermore, the Trp, Arg, and sulfhydryl- modified CML exhibited 97.17%, 76.99%, and 49.64% loss of its anti-proliferative activity, respectively, which was consistent with the alterations of its hemagglutinating activity. Given these findings, Trp residues on the surface of CML are essential for the active center to form sub- strate-accessible conformation and suitable environment for carbohydrate binding.