Hybrid cytomegalovirus-U6 promoter-based plasmid vectors improve efficiency of RNA interference in zebrafish

Short hairpin RNA (shRNA) directed by RNA polymerase III (Pol III) or Pol II promoter was shown to be capable of silencing gene expression, which should permit analyses of gene functions or as a potential therapeutic tool. However, the inhibitory effect of shRNA remains problematic in fish. We demonstrated that silencing efficiency by shRNA produced from the hybrid construct composed of the CMV enhancer or entire CMV promoter placed immediately upstream of a U6 promoter. When tested the exogenous gene, silencing of an enhanced green fluorescent protein (EGFP) target gene was 89.18 +/- 5.06% for CMVE-U6 promoter group and 88.26 +/- 6.46% for CMV-U6 promoter group. To test the hybrid promoters driving shRNA efficiency against an endogenous gene, we used shRNA against no tail (NTL) gene. When vectorized in the zebrafish, the hybrid constructs strongly repressed NTL gene expression. The NTL phenotype occupied 52.09 +/- 3.06% and 51.56 +/- 3.68% for CMVE-U6 promoter and CMV-U6 promoter groups, respectively. The NTL gene expression reduced 82.17 +/- 2.96% for CMVE-U6 promoter group and 83.06 +/- 2.38% for CMV-U6 promoter group. We concluded that the CMV enhancer or entire CMV promoter locating upstream of the U6-promoter could significantly improve inhibitory effect induced by the shRNA for both exogenous and endogenous genes compared with the CMV promoter or U6 promoter alone. In contrast, the two hybrid promoter constructs had similar effects on driving shRNA.

The cytomegalovirus promoter-driven short hairpin RNA constructs mediate effective RNA interference in zebrafish in vivo

The ability to utilize the RNA interference (RNAi) machinery for silencing target-gene expression has created a lot of excitement in the research community. In the present study, we used a cytomegalovirus (CMV) promoter-driven DNA template approach to induce short hairpin RNA (shRNA) triggered RNAi to block exogenous Enhanced Green Fluorescent Protein (EGFP) and endogenous No Tail (NTL) gene expressions. We constructed three plasmids, pCMV-EGFP-CMV-shGFP-SV40, pCMV-EGFP-CMV-shNTL-SV40, and pCMV-EGFP-CMV-shScrambled-SV40, each containing a CMV promoter driving an EGFP reporter cDNA and DNA coding for one shRNA under the control of another CMV promoter. The three shRNA-generating plasmids and pCMV-EGFP control plasmid were introduced into zebrafish embryos by microinjection. Samples were collected at 48 h after injection. Results were evaluated by phenotype observation and real-time fluorescent quantitative reverse-transcription polymerase chain reaction (Q-PCR). The shGFP-generating plasmid significantly inhibited the EGFP expression viewed under fluorescent microscope and reduced by 70.05 +/- 1.26% of exogenous EGFP gene mRNA levels compared with controls by Q-PCR. The shRNA targeting endogenous NTL gene resulted in obvious NTL phenotype of 30 +/- 4% and decreased the level of their corresponding mRNAs up to 54.52 +/- 2.05% compared with nontargeting control shRNA. These data proved the feasibility of the CMV promoter-driven shRNA expression technique to be used to inhibit exogenous and endogenous gene expressions in zebrafish in vivo.

Knock down of gfp and no tail expression in zebrafish embryo by in vivo-transcribed short hairpin RNA with T7 plasmid system

A short-hairpin RNA (shRNA) expression system, based on T7 RNA polymerase (T7RP) directed transcription machinery, has been developed and used to generate a knock down effect in zebrafish embryos by targeting green fluorescent protein (gfp) and no tail (ntl) mRNA. The vector pCMVT7R harboring T7RP driven by CMV promoter was introduced into zebrafish embryos and the germline transmitted transgenic individuals were screened out for subsequent RNAi application. The shRNA transcription vectors pT7shRNA were constructed and validated by in vivo transcription assay. When pT7shGFP vector was injected into the transgenic embryos stably expressing T7RP, gfp relative expression level showed a decrease of 68% by analysis of fluorescence real time RT-PCR. As a control, injection of chemical synthesized siRNA resulted in expression level of 40% lower than the control when the injection dose was as high as 2 mu g/mu l. More importantly, injection of pT7shNTL vector in zebrafish embryos expressing T7RP led to partial absence of endogenous ntl transcripts in 30% of the injected embryos when detected by whole mount in situ hybridization. Herein, the T7 transcription system could be used to drive the expression of shRNA in zebrafish embryos and result in gene knock down effect, suggesting a potential role for its application in RNAi studies in zebrafish embryos.

Molecular phylogeny of Stentor (Ciliophora : Heterotrichea) based on small subunit ribosomal RNA sequences

To determine the phylogenetic position of Stentor within the Class Heterotrichea, the complete small subunit rRNA genes of three Stentor species, namely Stentor polymorphus, Stentor coeruleus, and Stentor roeseli, were sequenced and used to construct phylogenetic trees using the maximum parsimony, neighbor joining, and Bayesian analysis. With all phylogenetic methods, the genus Stentor was monophyletic, with S. roeseli branching basally.

De novo RNA synthesis and homology modeling of the classical swine fever virus RNA polymerase

Classical swine fever virus (CSFV) non-structural protein 5B (NS5B) encodes an RNA-dependent RNA polymerase (RdRp), a key enzyme which initiates RNA replication by a de novo mechanism without a primer and is a potential target for anti-virus therapy. We expressed the NS5B protein in Escherichia coli. The rGTP can stimulate de novo initiation of RNA synthesis and mutation of the GDD motif to Gly-Asp-Asp (GAA) abolishes the RNA synthesis. To better understand the mechanism of viral RNA synthesis in CSFV, a three-dimensional model was built by homology modeling based on the alignment with several virus RdRps. The model contains 605 residues folded in the characteristic fingers, palm and thumb domains. The fingers domain contains an N-terminal region that plays an important role in conformational change. We propose that the experimentally observed promotion of polymerase efficiency by rGTP is probably due to the conformational changes of the polymerase caused by binding the rGTP. Mutation of the GDD to GAA interferes with the interaction between the residues at the polymerase active site and metal ions, and thus renders the polymerase inactive. (c) 2005 Elsevier B.V. All rights reserved.

Efficient RNA interference in zebrafish embryos using siRNA synthesized with SP6 RNA polymerase

Double-stranded RNA (dsRNA) has been shown to be a useful tool for silencing genes in zebrafish (Danio rerio), while the blocking specificity of dsRNA is still of major concern for application. It was reported that siRNA (small interfering RNA) prepared by endoribonuclease digestion (esiRNA) could efficiently silence endogenous gene expression in mammalian embryos. To test whether esiRNA could work in zebrafish, we utilized Escherichia coli RNaseIII to digest dsRNA of zebrafish no tail (ntl), a mesoderm determinant in zebrafish and found that esi-ntl could lead to developmental defects, however, the effective dose was so close to the toxic dose that esi-ntl often led to non-specific developmental defects. Consequently, we utilized SP6 RNA polymerase to produce si-ntl, siRNA designed against ntl, by in vitro transcription. By injecting in vitro synthesized si-ntl into zebrafish zygotes, we obtained specific phenocopies of reported mutants of ntl. We achieved up to a 59%no tail phenotype when the injection concentration was as high as 4 mu g/mu L. Quantitative reverse transcription-polymerase chain reaction (RT-PCR) and whole-mount in situ hybridization analysis showed that si-ntl could largely and specifically reduce mRNA levels of the ntl gene. As a result, our data indicate that esiRNA is unable to cause specific developmental defects in zebrafish, while siRNA should be an alternative for downregulation of specific gene expression in zebrafish in cases where RNAi techniques are applied to zebrafish reverse genetics.

Differential expression of vasa RNA and protein during spermatogenesis and oogenesis in the gibel carp (Carassius auratus gibelio), a bisexually and gynogenetically reproducing vertebrate

The RNA helicase Vasa is a germ cell marker in animals, and its homolog in vertebrates to date has been limited to bisexual reproduction. We cloned and characterized CagVasa, a Vasa homolog from the gibel carp, a fish that reproduces bisexually or gynogenetically. CagVasa possesses 14 RGG repeats and eight conserved motifs of Vasa proteins. In bisexually reproducing gibel carp, vasa is maternally supplied and its zygotic expression is restricted to gonads. By in situ hybridization on testicular sections, vasa is low in spermatogonia, high in primary spermatocytes, reduced in secondary spermatocytes, but disappears in spermatids and sperm. In contrast, vasa persists throughout oogenesis, displaying low-high-low levels from oogonia over vitellogenic oocytes to maturing oocytes. A rabbit anti-Vasa antibody (alpha Vasa) was raised against the N-terminal CagVasa for fluorescent immunohistochemistry. On testicular sections, Vasa is the highest in spermatogonia, reduced in spermatocytes, low in spermatids, and absent in sperm. In the ovary, Vasa is the highest in oogonia but persists throughout oogenesis. Subcellular localization of vasa and its protein changes dynamically during oogenesis. The aVasa stains putative primordial germ cells in gibel carp fry. It detects gonadal germ cells also in several other teleosts. Therefore, Cagvasa encodes a Vasa ortholog that is differentially expressed in the testis and ovary. Interestingly, the alpha Vasa in combination with a nuclear dye can differentiate critical stages of spermatogenesis and oogenesis in fish. The cross-reactivity and the ability to stain stage-specific germ cells make this antibody a useful tool to identify fish germ cell development and differentiation. (c) 2005 Wiley-Liss, Inc.

The molecular characterization of RNA segment S9 of grass carp hemorrhage virus (GCHV), an aquareovirus

Although reovirus infection is one of the major virus diseases of grass carp in China, the available knowledge on the structure and function of genes and proteins of the virus is limited. The complete sequence of the S9 genome segment of grass carp hemorrhage virus (GCHV) was determined. The segment consists of 1130 nucleotides and has a large open reading frame (ORF) encoding a protein of 352 amino acids with predicted molecular mass of 37.7 kDa. Amino acid sequence comparison revealed that the deduced protein encoded by GCHV S9 is closely related to the sigma NS proteins of mammalian reovirus (MRV) and avian reovirus (ARV). Secondary structure analysis displayed that the form of alpha -helices (40.1%) and beta -sheets (49.4%) are the richest two contents in the protein encoded by S9, and this protein is predicted to be a nonstructural protein. (C) 2001 Elsevier Science B.V. All rights reserved.

新外显子的起源与功能及短同源序列介导转录滑动产生嵌合RNA 的研究

新外显子的起源是一种重要的增加转录组和蛋白质组多样性的分子机制。 对于新外显子及其父本基因的进化和功能特征方面还有很多重要的问题有待于 解决。本研究首先在全基因组水平上鉴定在人和小鼠中产生的新外显子，随后 对这些外显子及其父本基因作进化和功能上的分析。我们发现新外显子倾向于 位于基因的UTR 区域，尤其是5’ UTR 区域，这表明可能有些新外显子的出现 与基因的表达调控相关。我们还发现，产生新外显子的基因具有较高的组织表 达特异性，其基因功能倾向于细胞调控和与外界环境相互作用。通过对外群中 直系同源基因的分析，我们的结果表明进化速率较高的基因更容易获得新的外 显子，纠正了先前认为的获得新外显子会加速基因进化速率的看法。 我们对哺乳类CDYL 基因家族中产生的新外显子进行了具体的进化分析和 功能研究。我们的结果表明CDYL 基因在哺乳类分化前在原先的基因上游区域 获得了一个新的启动子和三个新的外显子。随后在哺乳动物各个支系的分化中， CDYL 基因在小鼠，狗和人中分别独立的进化出一个新的外显子。同源比对的 结果表明，这些新外显子是通过内含子序列的外显子化这一分子机制产生。近 缘物种间的进化速率的计算结果表明这些新产生的外显子具有快速进化的模 式，并且其快速进化可能是由正选择所驱动。在人中，多种突变包括新外显子 的获得，启动子的改变，选择性剪切的发生使得人的CDYL 基因获得了一种新 的编码更长蛋白质的剪切体。在人Hela 细胞系中的实验表明，新产生的蛋白质 与原有的蛋白质相比都具有显著的转录抑制活性，但新的蛋白质的转录抑制活 性较弱，且两者之间存在相互干扰的关系。这一结果表明通过新外显子的获得 产生的新的蛋白质可以丰富原有的基因表达调控体系，使得生物体的调控网络 更加精确。 嵌合RNA 通常认为是由来源于不同的pre-mRNA 的外显子通过反式剪切连 接在一起形成的。这一现象在包括多种动物和植物中被广泛的报道。我们的研 究首先通过大规模表达序列（ESTs）的搜索，在酵母，果蝇，小鼠和人中鉴定 到了大量的嵌合RNA。这一结果表明形成嵌合RNA 在真核生物中是一种普遍 的生物学过程，是一种重要的增加转录组和蛋白质组的多样性的分子机制。对 嵌合RNA 的序列分析表明，仅有<20%的嵌合RNA 在接合处可以找到典型的剪切位点 GU-AG，可以用经典的反式剪切模型来解释其产生机制。然而有意思的 是，我们在大约一半的嵌合RNA 的供体基因之间找到了短的同源序列，这一发 现使我们提出了一种新的分子机制来解释这些嵌合RNA 的形成，我们称之为 “转录滑动”模型。在酵母我们，我们用实验的方法验证了短同源序列对形成嵌 合RNA 的必要性，有力地支持了我们这一模型。

干扰RNA(RNAi)作用机理及其在植物细胞工程中的应用进展

随着RNAi调控目的基因表达机理研究的深入,RNAi技术也发展为一种强有力的实验工具,用来控制目的基因的表达以获取预期的生物表型。目前在植物中至少发现存在三种不同的RNAi途径,这些途径中基因沉默信号可以放大、传递和自我调控。为了建立高效、经济的RNAi技术体系,必须解决以下几个问题:即RNAi的有效传递,稳定性的提高,非目标效应出现的减小以及目标RNA敏感位点的确定等。综述了RNAi作用机制及其在植物细胞工程中的最新应用进展,并详细探讨了其技术体系。

果树组织中总RNA提取的新方法

本研究设计了一种新的RNA提取方法 ,解决了RNA提取时容易被降解和污染这一关键问题。通过加入Rnase抑制剂 ,消除了同外源RNase对RNA的降解 ,结合DNA难呈低盐溶液(140mmol·L -1NaCl)的原理 ,去除了DNA对RNA提取液的污染 ;先后使用酚和氯仿 ,有效地去除了蛋白质和酚类物的污染 ,利用抗氧化剂PVP和巯基乙醇 ,消除了内源酚类物质氧化变色对病毒RNA逆转录的影响。采用上述方法可以在4～5h内得到纯度高、含量大、完整性好的果树总RNA ,并获得了逆转录活性较强的病毒RNA ,同时使提取RNA的成本降低。这些方法对苹果、葡萄、桃、樱桃等果树总RNA的提取均适用。

土壤中Frankia菌RNA提取

土壤中Ｆｒａｎｋｉａ菌ＲＮＡ提取王育英，林建群，郭秀荣，李彤，张忠泽（中国科学院沈阳应用生态研究所，１１００１５）Ｆｒａｎｋｉａ非亚科共生固氮是一类重要的固氮资源。对Ｆｒａｎｋｉａ共生生物学、生态学等特性曾进行过广泛的研究。８ｔ０年代末，Ｆｒａｎｋｉ...

Targeted RNA interference of cyclin A(2) mediated by functionalized single-walled carbon nanotubes induces proliferation arrest and apoptosis in chronic myelogenous leukemia K562 cells

Cyclin A(2) plays critical role in DNA replication, transcription, and cell cycle regulation. Its overexpression has been detected and related to many types of cancers including leukemia, suggesting that suppression of cyclin A(2) would be an attractive strategy to prevent tumor progression. Herein, we apply functionalized single wall carbon nanotubes (f-SWNTs) to carry small interfering RNA (siRNA) into K562 cells and determine whether inhibition of cyclin A(2) would be a potential therapeutic target for chronic myelogenous leukemia.