972 resultados para single-stranded DNAzyme
Resumo:
We have evaluated the efficacy of RecA, a prokaryotic protein involved with homologous recombination, to direct site-specific mutagenesis in zebrafish embryos. For this we coinjected a vector containing a mutated enhanced green fluorescent protein (EGFP) gene plus 236-nucleotide corrective single-stranded DNAs coated with RecA into I-cell zebrafish embryos. Twenty-hours after fertilization, about 5% to 20% of injected embryos showed EGFP expression in I or more cells when RecA-coated corrective DNAs were used, but not when RecA was omitted. Mutated EGFP genes with 1-bp insertions or deletions were inefficiently activated, whereas those with 7-bp insertions were activated about 4-fold more efficiently. RecA-coated template strand had a higher efficiency than its complementary strand in activation of EGFP expression. Prior irradiation of the embryos with UV light enhanced RecA-mediated restoration of gene activity, suggesting that the effects we observed were augmented by one or more factors of zebrafish DNA repair systems.
Resumo:
丛枝菌根是自然生态系统中分布最广的内生菌根,在促进植物生存与生长、植被恢复以及生物多样性保护等方面有着非常重要的作用。 随着现代分子生物学技术的不断发展,丛枝菌根真菌研究得到空前发展。大量DNA分析新技术在丛枝菌根真菌的分子遗传、分类鉴定、种间及种内亲缘关系、菌株持久性等方面得到应用,与传统菌根研究方法相比,表现出巨大的优越性。 本项研究利用分子生物学技术和研究方法对中国吉林长白山地区非豆科固氮植物以及东北地区固氮树木的丛枝菌根真菌DNA分子多态性及其与宿主植物之间的相互关系等进行初步研究,旨在利用分子生态学理论和研究方法揭示丛枝菌根真菌多样性及其与宿主植物之间相互适应和协同进化的一般规律,为更好地保护和利用这一重要的微生物资源提供理论依据。 通过比较与筛选,建立起丛枝菌根真菌痕量DNA快速、简便、高效的提取纯化方法——改良CTAB法。经PCR检测,所得DNA满足进一步研究的要求。 根据丛枝菌根真菌18s rRNA 小亚基核基因片段的特点,利用“科”特异性引物进行半巢式标记PCR (Labelled Primers-PCR,LP-PCR) 及单链构象多态性(Single-Stranded Conformation Polymorphism,SSCP)分析技术研究了长白山赤杨在属水平上表现出的多样性。另外,利用巢式PCR-RFLP技术,分别对来源于长白山不同海拔的四种赤杨菌根样品的AMF侵染情况及其系统进化进行了研究。利用AMF特异性PCR技术对我国东北地区四种非豆科树木和5种豆科树木菌根侵染情况和系统发育规律进行了研究 研究结果显示:赤杨根内AMF存在丰富的基因多样性。AMF的侵染有从宿主混乱性向宿主专一性发展的趋势。 长白山地区赤杨属植物至少有东北赤杨、西伯利亚赤杨和色赤杨三个树种在其“属”的水平上与共生的球囊霉科(Glomaceae)至少一个“种” 的丛枝菌根真菌,即根内球囊霉(Glomus intraradix),在“种”的水平上表现出不相关于宿主海拔高度的某种相互选择性。 东北赤杨AMF菌的宿主专一性水平最强,球囊霉属已成为东北赤杨的优势侵染类群;对于其余三种赤杨,AMF则出现宿主混乱现象。宿主因素比海拔因素对AMF侵染特异性的影响更为重要。 豆科与非豆科样本的混乱性都比较强,在特定植物和AMF属之间无特异侵染规律,相对来说,非豆科树木比豆科树木对于AMF的选择性要更强一些,更倾向于和球囊霉属与无梗孢囊霉属的AMF构建共生体。
Resumo:
丛枝菌根是自然生态系统中分布最广的内生菌根,在促进植物生存与生长、植被恢复以及生物多样性保护等方面有着非常重要的作用。 随着现代分子生物学技术的不断发展,丛枝菌根真菌研究得到空前发展。大量DNA分析新技术在丛枝菌根真菌的分子遗传、分类鉴定、种间及种内亲缘关系、菌株持久性等方面得到应用,与传统菌根研究方法相比,表现出巨大的优越性。 本项研究利用分子生物学技术和研究方法对中国吉林长白山地区非豆科固氮植物以及东北地区固氮树木的丛枝菌根真菌DNA分子多态性及其与宿主植物之间的相互关系等进行初步研究,旨在利用分子生态学理论和研究方法揭示丛枝菌根真菌多样性及其与宿主植物之间相互适应和协同进化的一般规律,为更好地保护和利用这一重要的微生物资源提供理论依据。 通过比较与筛选,建立起丛枝菌根真菌痕量DNA快速、简便、高效的提取纯化方法——改良CTAB法。经PCR检测,所得DNA满足进一步研究的要求。 根据丛枝菌根真菌18s rRNA 小亚基核基因片段的特点,利用“科”特异性引物进行半巢式标记PCR (Labelled Primers-PCR,LP-PCR) 及单链构象多态性(Single-Stranded Conformation Polymorphism,SSCP)分析技术研究了长白山赤杨在属水平上表现出的多样性。另外,利用巢式PCR-RFLP技术,分别对来源于长白山不同海拔的四种赤杨菌根样品的AMF侵染情况及其系统进化进行了研究。利用AMF特异性PCR技术对我国东北地区四种非豆科树木和5种豆科树木菌根侵染情况和系统发育规律进行了研究 研究结果显示:赤杨根内AMF存在丰富的基因多样性。AMF的侵染有从宿主混乱性向宿主专一性发展的趋势。 长白山地区赤杨属植物至少有东北赤杨、西伯利亚赤杨和色赤杨三个树种在其“属”的水平上与共生的球囊霉科(Glomaceae)至少一个“种” 的丛枝菌根真菌,即根内球囊霉(Glomus intraradix),在“种”的水平上表现出不相关于宿主海拔高度的某种相互选择性。 东北赤杨AMF菌的宿主专一性水平最强,球囊霉属已成为东北赤杨的优势侵染类群;对于其余三种赤杨,AMF则出现宿主混乱现象。宿主因素比海拔因素对AMF侵染特异性的影响更为重要。 豆科与非豆科样本的混乱性都比较强,在特定植物和AMF属之间无特异侵染规律,相对来说,非豆科树木比豆科树木对于AMF的选择性要更强一些,更倾向于和球囊霉属与无梗孢囊霉属的AMF构建共生体.
Resumo:
丛枝菌根是自然生态系统中分布最广的内生菌根,在促进植物生存与生长、植被恢复以及生物多样性保护等方面有着非常重要的作用。随着现代分子生物学技术的发展,丛枝菌根真菌的研究得到空前发展。大量DNA分析新技术在丛枝菌根真菌的分子遗传、分类鉴定、种间及种内亲缘关系、菌株持久性等方面得到应用,与传统菌根研究方法相比,表现出巨大的优越性。但相比国际而言,国内针对菌根真菌分子水平上的研究发展较为缓慢。本项研究对中国吉林长白山东北赤杨、西伯利亚赤杨、色赤杨丛枝菌根真菌DNA分子多态性进行初步研究,试图揭示其一般规律,为更好地利用这一资源提供理论依据。通过比较与筛选,得到丛枝菌根真菌痕量DNA快速、简便的提取纯化方法—改良CTAB法。经PCR检测,所得DNA满足进一步研究的要求。根据丛枝菌根真菌185 rRNA小亚基核基因片段的特点,利用“科”特异性引物进行半巢式标记PCR(Labelled Primers-PCR,LP-PCR)扩增,再经单链构象多态性(Single-Stranded Conformation Polymorphism,SSCP)分析来检测其DNA分子在“种”水平上表现出的多态性。研究结果显示:丛枝菌根真菌在“种”的水平上并未随各宿主的变化表现出丰富的多样性;长白山地区赤杨属植物至少有东北赤杨、西伯利亚赤杨和色赤杨三个树种在自身“属”的水平上与共生的球囊霉科(Glomaceae)至少一个“种”的丛枝菌根真菌,即根内球囊霉(Glomus intradix),在“种”的水平上表现出不相关于宿主海拔高度的某种相互选择性。
Resumo:
Here, we report a sensitive amplified electrochemical impedimetric aptasensor for thrombin, a kind of serine protease that plays important role in thrombosis and haemostasis. For improving detection sensitivity, a sandwich sensing platform is fabricated, in which the thiolated aptamers are firstly immobilized on a gold substrate to capture the thrombin molecules, and then the aptamer functionalized Au nanoparticles (AuNPs) are used to amplify the impedimetric signals.
Resumo:
The assembly and disassembly of RecA-DNA nucleoprotein filaments on double-stranded DNA (dsDNA) or single-stranded DNA (ssDNA) are important steps for homologous recombination and DNA repair. The assembly and disassembly of the nucleoprotein filaments are sensitive to the reaction conditions. In this work, we investigated different morphologies of the formed nucleoprotein filaments at low temperature under different solution conditions by atomic force microscopy (AFM). We found that low temperature and long keeping time could induce the incomplete disassembly of the formed nucleoprotein filaments.
Resumo:
The structural changes of genomic DNA upon interaction with small molecules have been studied in real time using dual-polarization interferometry (DPI). Native or thermally denatured DNA was immobilized on the silicon oxynitride surface via a preadsorbed poly(ethylenimine) (PEI) layer. The mass loading was similar for both types of DNA, however, native DNA formed a looser and thicker layer due to its rigidity, unlike the more flexible denatured DNA, which mixed with PEI to form a denser and thinner layer. Ethidium bromide (EtBr), a classical intercalator, induced the large thickness decrease and density increase of native DNA (double-stranded), but a slight increase in both the thickness and density of denatured DNA (partial single-stranded).
Resumo:
RecA of Escherichia coli and its active nucleoprotein filaments with DNA are important for the genomic integrity and the genetic diversity. The formation of the DNA-RecA nucleoprotein filaments is a complex multiple-step process and can be affected by many factors. In this work, the effects of poly-L-lysine (PLL) on the DNA-RecA nucleoprotein filaments are investigated in vitro by agarose gel electrophoresis and atomic force microscopy (AFM). The observed morphologies vary with the concentration, the length, and the addition order of PLL. These distinctions provide information for the conformation change of DNA and the binding sites of RecA protein in the formation process of nucleoprotein filaments.
Resumo:
Here, a fluorescent switch is constructed combining hemin, hemin aptamer, and a newly synthesized anionic conjugated polymer (ACP), poly(9,9-bis(6'-phosphate-hexyl) fluorenealt-1,4-phenylene) sodium salt (PFHPNa/PFP). In the "off-state", the fluorescence of PFP is sensitively quenched by hemin, with a high K-sv value of similar to 10(7). While in the "on-state", the formation of the aptamer/hemin complex recovers the fluorescence intensity. The fluorescent switch is sensitive and selective to hemin. To testify the universality and practicality of the fluorescent switch, a series of label-free DNA-related sensing platforms are developed, containing three DNA sensing strategies and one ATP recognition strategy. The fluorescent switch developed is simple, sensitive, and universal, which extends applications of the anionic conjugated polymers.
Resumo:
Among the functional nucleic acids studied, adenine-rich nucleic acids have attracted attention due to their critical roles in many biological processes and self-assembly-based nanomaterials, especially deoxyribonucleic acids (abbreviated as poly(dA)). Therefore the ligands binding to poly(dA) might serve as potential therapeutic agents. Coralyne, a kind of planar alkaloid, has been firstly found that it could bind strongly to poly(dA). This work herein reports an approach for visual sensing of the coralyne-poly(dA) interaction. This method was based on the coralyne inducing poly(dA) into the homo-adenine DNA duplex and the difference in electrostatic affinity between single-stranded DNA and double-stranded DNA with gold nanoparticles (GNPs). Furthermore, we applied the recognition process of the interaction between coralyne and poly(dA) into specific coralyne detection with the assistance of certain software (such as Photoshop). A linear response from 0 to 728 nM was obtained for coralyne, and a detection limit of 91 nM was achieved.
Resumo:
We have demonstrated a fully covalent, signal-on E-DNA architecture based on the target-induced resolution of a DNA pseudokont. In the absence of target, the electrode-bound DNA probe adopts a pseudoknot conformation that segregates an attached methylene blue (MB) from the electrode. Upon target binding, the pseudoknot is resolved, leading to the formation of a single-stranded DNA element that supports electron transfer from the methylene blue to the electrode.
Resumo:
Different DNA selectivity was found for the newly synthesized europium-L-valine complex. Unexpected DNA and RNA selection results showed that europium-L-valine complex can cause single-stranded polydA and polyrA to self-structure. The sigmoidal melting curve profiles indicate the transition is cooperative, similar to the cooperative melting of a duplex DNA. This is different from another europium amino acid complex, europium-L-aspartic acid complex which can induce B-Z transition under the low salt condition. To our knowledge, there is no report to show that a metal-amino acid complex can cause the self-structuring of single-stranded DNA and RNA.
Resumo:
Surface replacement reaction of thiol-derivatized, single-stranded oligonucleotide (HS-ssDNA) by mercaptohexanol (MCH) is investigated in order to reduce surface density of the HS-ssDNA adsorbed to Au(111) surface. Cyclic voltammograms (CVs) and scanning tunneling microscopy (STM) are employed to assess the composition and state of these mixed monolayers. It is found that each CV of mixed self-assembled monolayers (SAMs) only shows a single reductive desorption peak, which suggests that the resulted, mixed SAMs do not form discernable phase-separated domains. The peak potential gradually shifts to negative direction and the peak area increases step by step over the whole replacement process. By analyzing these peak areas, it is concluded that two MCH molecules will replace one HS-ssDNA molecule and relative coverage can also be estimated as a function of exposing time. The possible mechanism of the replacement reaction is also proposed. The DNA surface density exponentially reduces with the exposing time increasing, in other words, the replacement reaction is very fast in the first several hours and then gradually slows down. Moreover, the morphological change in the process is also followed by STM.
Resumo:
The target DNA was immobilized successfully on gold colloid particles associated with a cysteamine monolayer on gold electrode surface. Self-assembly of colloidal An onto a cysteamine modified gold electrode can enlarge the electrode surface area and enhance greatly the amount of immobilized single stranded DNA (ssDNA). The electrontransfer processes of [Fe(CN)(6)](4)-/[Fe(CN)(6)](3-) on the gold surface were blocked due to the procedures of the target DNA immobilization, which was investigated by impedance spectroscopy. Then single stranded target DNA immobilized on the gold electrode hybridized with the silver nanoparticle-oligonucleotide DNA probe, followed by the release of the silver metal atoms anchored on the hybrids by oxidative metal dissolution, and the indirect determination of the released solubilized Ag-1 ions by anodic stripping voltammetry (ASV) at a carbon fiber microelectrode. The results show that this method has good correlation for DNA detection in the range of 10-800 pmol/1 and allows the detection level as low as 5 pmol/1 of the target oligonucleotides.
