腐植酸对植物生理活动的影响

本文介绍了腐植酸的形成、提取、分类以及活性基团等方面的特征。腐植酸能影响植物的多种生理活动,包括植物的生长、营养元素的吸收、蛋白质和核酸的合成、光合作用、呼吸作用以及有些酶的活性等。腐植酸对植物的这些作用受自身不同成分、浓度、植物种类、外界营养条件等多方面的影响。本文也从细胞或分子水平讨论了腐植酸促进植物生长、影响营养元素吸收及促进呼吸作用的机理。     

微生物脂肪酶的研究进展

详细综述了脂态酶微生物产生菌的选育、诱变育种及发酵生产技术,对微生物脂肪酶的性质、分离、纯化、固定化技术及应用进行了简要概述     

钙调素的结构生物学研究进展

介绍了Apo-CaM、Ca²⁺-CaM以及CaM与其靶肽及拮抗剂复合体的空间结构.钙调素(calmodulin, CaM)作为细胞多功能的Ca²⁺受体,在细胞信号转导过程中发挥重要作用.近几年对它的空间结构有了较清楚的了解,使人们能够更明确地认识CaM的Ca²⁺激活及CaM与其靶酶的作用机制.     

Extracellular calmodulin-binding proteins in plants: purification of a 21-kDa calmodulin-binding protein

A 21-kDa calmodulin (CaM)-binding protein and a 19-kDa calmodulin-binding protein were detected in 0.1 M CaCl₂ extracts of Angelica dahurica L. suspension-cultured cells and carrot (Daucus carota L.) suspension-cultured cells, respectively, using a biotinylated cauliflower CaM gel-overlay technique in the presence of 1 mM Ca²⁺. No bands, or very weak bands, were shown on sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels overlayed with biotinylated cauliflower CaM when 1 mM Ca²⁺ was replaced by 5 mM EGTA, indicating that the binding of these two CaM-binding proteins to CaM was dependent on Ca²⁺. Less 21-kDa CaM-binding protein was found in culture medium of Angelica dahurica suspension cells; however, a 21-kDa protein was abundant in the cell wall. We believe that the 21-kDa CaM-binding protein is mainly in the cell wall of Angelica dahurica. Based on its reaction with periodic acid-Schiff (PAS) reagent, this 21-kDa protein would appear to be a glycoprotein. The 21-kDa CaM-binding protein was purified by a procedure including Sephadex G-100 gel filtration and CM-Sepharose cation-exchange column chromatography. The purity reached 91% according to gel scanning. The purified 21-kDa CaM-binding protein inhibited the activity of CaM-dependent NAD kinase and the degree of inhibition increased with augmentation of the 21-kDa protein, which appeared to be the typical characteristic of CaM-binding protein.     

烟草培养细胞中钙离子,钙调素与细胞质流的关系

烟草愈伤组织的培养细胞中,当钙离子载体将Ca~(2 )导入细胞时,细胞质流停止.CaM拮抗剂试验表明,高钙使细胞质流停止的效应可能与CaM无关,除W7外的多种CaM拮抗剂都明显而且可逆地抑制细胞质流。酶联免疫吸附分析(ELISA)检出培养细胞中存在有CaM。间接酶标免疫组织化学分析进一步证明CaM存在于胞质条纹中。     

小麦黄化胚芽鞘的细胞壁钙调素和钙调素结合蛋白

小麦黄化胚芽鞘经苯基琼脂糖亲和层析提取和纯化,其细胞壁CaM在有钙和缺钙时SDS电泳呈现不同的迁移率;依赖Ca~(2 )与苯基疏水结合;在紫外吸收光谱上具有五个特征峰;对PDE的激活剂量反应曲线和从非活性状态向活性状态转变时所需的Ca~(2 )浓度均和胞内CaM相同,说明细胞壁CaM和胞内CaM具有相同的基本理化特性。采用CaM琼脂糖亲和层析,发现在小麦细胞壁中存在CaM结合蛋白,其中以分子量为40.7 kD的 CaM结合多肽为主。细胞壁CaM结合蛋白不具有过氧化物酶、ATP酶或酸性磷酸酯酶的活性。     

草菇培养物中粗三萜和黄酮含量及抗氧化抗肿瘤活性研究

采用液体摇瓶法培养草菇菌丝体,并用不同有机溶剂对培养液及菌丝体中的代谢成分分别进行分离提取,获得了不同来源的次生代谢提取物。对各提取物的成分分析表明,石油醚相、乙酸乙酯相和乙醇相提取物中均含有粗三萜和黄酮类物质,但菌丝体提取物中粗三萜和黄酮含量明显高于培养液提取物中的含量。石油醚抽提菌丝体获得的提取物中粗三萜含量最高,达17%,而乙酸乙酯抽提菌丝体获得的提取物中黄酮含量最高,达9.31%。抗氧化活性检测结果显示,石油醚相、乙酸乙酯相、乙醇相中的代谢提取物均有较高的抗氧化活性,但乙酸乙酯相提取物的抗氧化活性明显高于石油醚相提取物,具最高抗氧化活性的提取物分别来自乙酸乙酯、乙醇对菌丝体的抽提物。MTT法检测各提取物对胃癌细胞增殖的抑制作用,结果显示各组分均有较高的抗肿瘤活性,且抗肿瘤活性与提取物浓度存在明显的量效关系。     

Crinkly4 receptor-like kinase is required to maintain the interlocking of the palea and lemma, and fertility in rice, by promoting epidermal cell differentiation

The palea and lemma are unique organs in grass plants that form a protective barrier around the floral organs and developing kernel. The interlocking of the palea and lemma is critical for maintaining fertility and seed yield in rice; however, the molecules that control the interlocking structure remain largely unknown. Here, we showed that when OsCR4 mRNA expression was knocked down in rice by RNA interference, the palea and lemma separated at later spikelet stages and gradually turned brown after heading, resulting in the severe interruption of pistil pollination and damage to the development of embryo and endosperm, with defects in aleurone. The irregular architecture of the palea and lemma was caused by tumour-like cell growth in the outer epidermis and wart-like cell masses in the inner epidermis. These abnormal cells showed discontinuous cuticles and uneven cell walls, leading to organ self-fusion that distorted the interlocking structures. Additionally, the faster leakage of chlorophyll, reduced silica content and elevated accumulation of anthocyanin in the palea and lemma indicated a lesion in the protective barrier, which also impaired seed quality. OsCR4 is an active receptor-like kinase associated with the membrane fraction. An analysis of promoter::GUS reporter plants showed that OsCR4 is specifically expressed in the epidermal cells of paleas and lemmas. Together, these results suggest that OsCR4 plays an essential role in maintaining the interlocking of the palea and lemma by promoting epidermal cell differentiation.     

DNA连接酶Ⅲ在线粒体基因组完整性保持中的作用

真核DNA连接酶(DNA ligase)通过催化ATP依赖的双链DNA切口连接而在DNA复制、重组和修复过程中发挥了重要作用．DNA连接酶Ⅲ(Lig3)是一种独特性的连接酶,既可定位于细胞核,又可定位于线粒体．Lig3通过与DNA修复蛋白XRCC1作用而参与了碱基切除修复和其他单链断裂修复．但Lig3以XRCC1不依赖方式在线粒体DNA完整性保持方面发挥了更为重要的作用．这些研究为Lig3功能和DNA修复研究提供了新的视野．