链孢囊菌属3种分子分类方法的对比

链孢囊菌属（Streptosporangium）是链孢囊菌科（Streptosporangiaceae）的模式属,包含13个种．种的鉴别通常是多相分类方法,其中尤以DNA同源性分析为国际公认的定种标准;全基因组杂交同源性在70%以下的为不同种．但在进行大量菌株的比对时操作比较复杂．本实验以链孢囊菌属15株标准菌株为实验菌株,选择适宜引物,对其基因组DNA的16S-23S rDNA 间隔区序列（ITS）和REP序列进行了扩增,分别获得了两种基因指纹图谱,并通过UPGMA聚类法构建了相应的进化距离树图．结果表明,对于链孢囊菌属中不同种的区分,两种基因图谱技术的分辨力相当,且两种方法呈现的菌株间同源性与DNA-DNA杂交的结果吻合,有望为链孢囊菌属分类学的研究提供简单、准确、快速的标准程序．     

灵芝多糖对顺铂引起的呕吐具抑制作用

以雄性昆明小鼠为实验材料,研究灵芝多糖对顺铂引起呕吐的抑制作用。实验分为5组,生理盐水+生理盐水组:腹腔注射0.9% NaCl两次,格拉司琼+顺铂组:腹腔注射格拉司琼和顺铂,生理盐水+顺铂组:腹腔注射0.9% NaCl和顺铂,灵芝多糖+生理盐水组:腹腔注射灵芝多糖和0.9% NaCl,灵芝多糖+顺铂组:腹腔注射灵芝多糖和顺铂,两种成分的注射间隔为30min。上述处理每天1次,连续5d,比较各组小鼠对高岭土的摄取量和脑内Fos蛋白表达水平。结果显示:顺铂可增加小鼠高岭土摄取量和脑内Fos蛋白表达水平,而格拉司琼和灵芝多糖可减少小鼠对高岭土的摄取量并降低脑内Fos蛋白表达水平。因此认为灵芝多糖可有效抑制顺铂引起的恶心呕吐。     

利用基因枪法将Tagsk1基因导入敏盐小麦成熟胚愈伤组织提高其耐盐性的研究

以Tagsk1(TriticumasetiumL.glycogen synthase kinase1)基因的cDNA的碱基序列为基础,设计特异引物由小麦耐盐突变体RH8706-49基因组DNA进行扩增后,得到来自于基因组的Tagsk1基因。采用基因枪法,利用携带该基因的双元表达载体pBI121-gsk1转化敏盐小麦H8706-34和中国春的成熟胚愈伤组织,经Kanamycin和0.5%NaCl筛选获得耐盐愈伤组织。这些被转化的愈伤组织表现出较高的耐盐性,并且能够在含盐培养基上进一步分化出根和芽。     

中华缩叶藓孢子萌发与原丝体发育特征研究

通过室内人工培养中华缩叶藓的孢子,在光学显微镜下详细观察了其孢子萌发、原丝体发育及配子体发生的全过程.结果表明:中华缩叶藓的孢子在壁内萌发,随后分裂产生块状原丝体;块状原丝体上可产生两种丝状体,一种是具疣的棒状原丝体,另一种是由长圆柱状细胞组成的轴丝体;配子体原始细胞只产生于块状原丝体上.根据中华缩叶藓的孢子萌发和原丝体发育特征,并参照Nishida对藓类植物孢子萌发类型的划分,确定中华缩叶藓的萌发孢子型应属于缩叶藓型(Ptychomitrium-type).     

植物细胞质外体多肽与蛋白研究

细胞质膜以外的质外体是植物细胞的重要组成部分,质外体是植物细胞的重要信号源和细胞器。当植物遭受生物或非生物环境刺激时,可能首先引起质外体信号系统的变化;同时质外体作为植物细胞之间最方便的通道,在细胞间信号传递和信息交流上起重要作用,从而成为协调植物细胞分化、器官形成和整体生长发育的决定性因素之一。本文概括地介绍了我室在此领域的一些研究进展。     

Peptidomics and genomics analysis of novel antimicrobial peptides from the frog,Rana nigrovittata

Much attention has been paid on amphibian peptides for their wide-ranging pharmacological properties, clinical potential, and gene-encoded origin. More than 300 antimicrobial peptides (AMPs) from amphibians have been studied. Peptidomics and genomics analysis combined with functional test including microorganism killing, histamine-releasing, and mast cell degranulation was used to investigate antimicrobial peptide diversity. Thirty-four novel AMPs from skin secretions of Rana nigrovittata were identified in current work, and they belong to 9 families, including 6 novel families. Other three families are classified into rugosin, gaegurin, and temporin family of amphibian AMP, respectively. These AMPs share highly conserved preproregions including signal peptides and spacer acidic peptides, while greatly diversified on mature peptides structures. In this work, peptidomics combined with genomics analysis was confirmed to be an effective way to identify amphibian AMPs, especially novel families. Some AMPs reported here will provide leading molecules for designing novel antimicrobial agents.     

Novel families of antimicrobial peptides with multiple functions from skin of Xizang plateau frog, Nanorana parkeri

Xizang plateau frog (Nanorana parkeri) captured in Lhasa, Tibet, China, solely lives in the subtropical plateau, where there is strong ultraviolet radiation and long duration of sunshine. Considering its harsh living environment, the frog's innate defense against microbes and environmental stress was investigated. In current study, three antimicrobial peptides (AMPs) were purified and characterized from the skin secretion of N. parkeri. The coding cDNA sequences were also cloned from the skin cDNA library of N. parkeri. By structural characterization, two peptides were identified belonging to Japonicin-1 family, and named as Japonicin-1Npa (FLLFPLMCKIQGKC) and Japonicin-1Npb (FVLPLVMCKILRKC). The third peptide isolated named Parkerin with a unique sequence of GWANTLKNVAGGLCKITGAA did not show similarity to any known amphibian AMPs. Multi-functions of three AMPs were examined (antioxidant, MCD, hemolytic etc). Their solution structures determined by CD and antimicrobial mechanisms investigated by SEM are very well consistent with their functional characters. Current result suggests that these novel multi-functional AMPs could play an important role in defending N. parkeri against environmental oxidative stress and pathogenic microorganisms, which may partially reveal the ecological adaptation of these plateau-living amphibians.     

A novel defensin‐like peptide from salivary glands of the hard tick,Haemaphysalis longicornis

A novel defensin‐like antimicrobial peptide named longicornsin was isolated from the salivary glands of the hard tick, Haemaphysalis longicornis, using a 10‐kDa cut‐off Centriprep filter and reversed‐phase high‐performance liquid chromatography (RP‐HPLC). Its amino acid sequence was determined as DFGCGQGMIFMCQRRCMRLYPGSTGFCRGFRCMCDTHIPLRPPFMVG by Edman degradation. The cDNA encoding longicornsin was cloned by cDNA library screening. The predicted protein from the cDNA sequence was composed of 78 amino acids including a mature longicornsin. It showed similarity with defensin‐like peptides from other ticks by BLAST search. Different from most other tick defensin‐like peptides, longicornsin had a C‐terminal extension. Purified longicornsin exerted potent antimicrobial activities against bacteria and fungi. Interestingly, it even showed strong antimicrobial ability against drug‐resistant microorganisms and Helicobacter pylori. The results of this study indicated that longicornsin is a potential candidate for novel antimicrobial drug design.     

细胞内离子在气孔运动中的作用

气孔运动与植物水分代谢密切相关。保卫细胞中的无机离子作为第二信使（Ca2＋）或者渗透调节物质（K＋、Cl-）在响应外界理化因子的刺激、调节保卫细胞膨压过程中发挥重要作用。保卫细胞质膜和液泡膜上的离子通道作为各种刺激因素作用的靶位点,是保卫细胞离子转运的关键组分,在气孔运动调控过程中扮演关键角色。该文对近年来保卫细胞离子的作用和离子通道研究的进展进行了综述。