Asymmetric reduction of prochiral ketones to chiral alcohols catalyzed by plants tissue

As an important organic compound, chiral alcohols are the key chiral building blocks to many single enantiomer pharmaceuticals. Asymmetric reduction of the corresponding prochiral ketones to produce the chiral alcohols by biocatalysis is one of the most promising routes. Asymmetric reduction of different kinds of non-natural prochiral ketones catalyzed by various plants tissue was studied in this work. Acetophenone, 4'-chloroacetophenone and ethyl 4-chloroacetoacetate were chosen as the model substrates for simple ketone, halogen-containing aromatic ketone and beta-ketoesters, respectively. Apple (Malus pumila), carrot (Daucus carota), cucumber (Cucumis sativus), onion (Allium cepa), potato (Soanum tuberosum), radish (Raphanus sativus) and sweet potato (Ipomoea batatas) were chosen as the biocatalysts. It was found that these kinds of prochiral ketoness could be reduced by these plants tissue with high enantioselectivity. Both R- and S-form configuration chiral alcohols could be obtained. The e.e. and chemical yield could reach about 98 and 80% respectively for acetophenone and 4'-chloroacetophenone reduction reaction with favorable plant tissue. And the e.e. and yield for ethyl 4-chloroacetoacetate reduction reaction was about 91 and 45% respectively.     

Loss of function of OsDCL1 affects microRNA accumulation and causes developmental defects in rice

MicroRNAs (miRNAs) and small interfering RNAs (siRNAs) are two types of noncoding RNAs involved in developmental regulation, genome maintenance, and defense in eukaryotes. The activity of Dicer or Dicer-like (DCL) proteins is required for the maturation of miRNAs and siRNAs. In this study, we cloned and sequenced 66 candidate rice (Oryza sativa) miRNAs out of 1,650 small RNA sequences (19 to approximately 25 nt), and they could be further grouped into 21 families, 12 of which are newly identified and three of which, OsmiR528, OsmiR529, and OsmiR530, have been confirmed by northern blot. To study the function of rice DCL proteins (OsDCLs) in the biogenesis of miRNAs and siRNAs, we searched genome databases and identified four OsDCLs. An RNA interference approach was applied to knock down two OsDCLs, OsDCL1 and OsDCL4, respectively. Strong loss of function of OsDCL1IR transformants that expressed inverted repeats of OsDCL1 resulted in developmental arrest at the seedling stage, and weak loss of function of OsDCL1IR transformants caused pleiotropic developmental defects. Moreover, all miRNAs tested were greatly reduced in OsDCL1IR but not OsDCL4IR transformants, indicating that OsDCL1 plays a critical role in miRNA processing in rice. In contrast, the production of siRNA from transgenic inverted repeats and endogenous CentO regions were not affected in either OsDCL1IR or OsDCL4IR transformants, suggesting that the production of miRNAs and siRNAs is via distinct OsDCLs.     

蚜虫不同分类阶元之间遗传距离的RAPD-PCR研究(英文)

应用RAPD PCR技术研究了蚜虫不同分类阶元的遗传距离。从 2 0种随机引物中筛选出 7种引物 ,并用它们的扩增结果进行Nei’s的遗传距离的计算和聚类分析。结果表明 :蚜虫的遗传距离在不同科之间为 0 .56 6 3± 0 .0 6 89,亚科之间为 0 .4 586± 0 .0 2 142 ,属之间为 0 .3816± 0 .0 375,种之间为 0 .2 975±0 0 6 2 7,同一种的不同种群之间为 0 .0 4 33± 0 .0 2 2 2。同时 ,本研究结果为在DNA水平上研究蚜虫的分化和种的鉴定 ,尤其是对于近缘种的鉴定具有重要的价值。     

宫颈癌患者血浆和组织中FHIT基因5′端CpG岛甲基化状态的研究

为了检测宫颈癌患者血浆和组织中FHIT基因5′端CpG岛甲基化状态, 以找到无创伤性诊断宫颈癌的新指标, 选取151例宫颈癌患者的血浆和30例患者的宫颈癌组织为研究对象,用MSP的方法检测FHIT基因5′端CpG岛甲基化状态, 并对MSP产物进行克隆和测序。结果在宫颈癌患者血浆和组织中, FHIT基因5′端CpG岛甲基化率为30.46%和53.33%, 血浆和组织的总体符合率为80%。而对照中均未检测到甲基化状态。随着患者临床分期和组织学分级的增加, FHIT基因甲基化的检出率也在逐渐的增加。表明宫颈癌患者的血浆和肿瘤组织中FHIT基因5′端CpG岛甲基化的发生是高频事件, 使用FHIT基因作为标记可以对宫颈癌患者进行无创伤诊断和预后的评估。     

Stable kinetochore–microtubule interactions depend on the Ska complex and its new component Ska3/C13Orf3

Ska1 and Ska2 form a complex at the kinetochore–microtubule (KT–MT) interface and are required for timely progression from metaphase to anaphase. Here, we use mass spectrometry to search for additional components of the Ska complex. We identify C13Orf3 (now termed Ska3) as a novel member of this complex and map the interaction domains among the three known components. Ska3 displays similar characteristics as Ska1 and Ska2: it localizes to the spindle and KT throughout mitosis and its depletion markedly delays anaphase transition. Interestingly, a more complete removal of the Ska complex by concomitant depletion of Ska1 and Ska3 results in a chromosome congression failure followed by cell death. This severe phenotype reflects a destabilization of KT–MT interactions, as demonstrated by reduced cold stability of KT fibres. Yet, the depletion of the Ska complex only marginally impairs KT localization of the KMN network responsible for MT attachment. We propose that the Ska complex functionally complements the KMN, providing an additional layer of stability to KT–MT attachment and possibly signalling completion of attachment to the spindle checkpoint.     

一步3’RACE快速构建鸡MnSOD全长cDNA克隆Rapid

本研究尝试将触减 PCR与3’ cDNA末端快速扩增（rapid amplification of cDNA ends,RACE）技术进行结合,仅用一条特异性引物和一条通用引物,成功地实现了从3’末端cDNA库对鸡含锰超氧化物歧化酶（manganese-containing superoxide dismutase,MnSOD）全长cDNA的一步3’RACE快速构建。与常规使用的末端PCR或亚克隆方法相比,该法具有快速、省时、经济和特异性好的优点。Abstract: RACE(rapid amplification of cDNA ends) is a popular technique to rapidly obtain the full-length cDNA. After obtaining the 3’cDNA and 5’cDNA fragments with a overlapped region by 3’RACE and 5’RACE, the full-length cDNA could be generated by end-to-end PCR or subcloning. In this study, 3’RACE combined with touch-down PCR was successfully used for the rapid construction of full-length MnSOD cDNA of chickens. Compared with the conventional end-to-end PCR or subcloning, this method, called one-step 3’RACE, is fast, economical and highly specific. It especially fits the rapid construction of full-length cDNA by RACE method.     

双歧杆菌粘附对肠上皮癌细胞酶的影响

目的 研究双歧杆菌粘附对肠道细胞生理功能和能理代谢的影响。方法 以婴儿型双直菌ＤＮＭ９２２７菌株粘附大肠癌ＣＣＬ－１８７细胞为实验模型。结果 婴儿以歧杆菌ＤＭ９２２７菌株在适宜的条件下与培养的大肠癌ＣＣＬ－１８７细胞共同培养１ｈ后,ＣＣＬ０１８６细胞的碱性磷酸酶以及琥珀脱氢酶的以反应均有所增强。结论 双歧杆菌对被粘附的大肠癌细胞的生理功能和能量代谢具有正向影响。     

The EPSPS gene flow from glyphosate-resistant Brassica napus to untransgene B. napus and wild relative species Orychophragmus violaceus

Gene flow from transgenic plants to compatible wild relatives is one of the major impediments to the development of the culture of genetically engineered crop plants. In this work, the flow of EPSPS (conferring resistance to glyphosate) gene of transgene Brassica napus toward the untransgene B. napus and wild relative species Orychophragmus violaceus in an open field (1 ha) was studied. The data related to only the 2004 and 2005 autumn season on one location of southwest of China. Pollen dispersal and fertilization of the target plants were favored and a detailed analysis of the hybrid offspring was performed. In field, the data studied show that the gene flow frequency was 0.16% between GM and non-GM B. napus at a distance of 1 m from the transgenic donor area. The crosspollination frequency was 0.05% between GM and non-GM B. napus at a distance of 5 m from the transgenic donor area. At a distance of 10 m, no crosspollination was observed. According to the results of this study, B. napus transgene flow was low. However, the wild relative species O. violaceus could not be fertilized by the transgenic pollen of B. napus, no matter what the distance was.     

盐碱胁迫下西伯利亚蓼体内无机离子的变化

研究了碳酸氢钠溶液处理后西伯利亚蓼营养器官内部无机离子含量的变化。实验结果表明碳酸氢钠溶液处理前西伯利亚蓼茎部认为是“K+库”;碳酸氢钠溶液处理过程中“K+库”转变成为“Na+库”,以维持叶部的正常生理功能,并且“Na+库”具有一定的限度;碳酸氢钠溶液处理后,西伯利亚蓼不同部位对外界盐碱胁迫的反应存在多样性。植株在“Na+库”达到限度之前进行旺盛的光合作用,在有限的时间内向地下组织输送更多的有机养分,用以繁殖后代。