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MgSO4·7H2O

无水硫酸镁(粉/认证)
公司名称: Thermo Fisher Scientific
产品编号: M65-500
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CRISPR/Cas9 Editing of the Bacillus subtilis Genome
Author:
Date:
2017-04-20
[Abstract]  A fundamental procedure for most modern biologists is the genetic manipulation of the organism under study. Although many different methods for editing bacterial genomes have been used in laboratories for decades, the adaptation of CRISPR/Cas9 technology to bacterial genetics has allowed researchers to manipulate bacterial genomes with unparalleled facility. CRISPR/Cas9 has allowed for genome edits to be more precise, while also increasing the efficiency of transferring mutations into a variety of genetic backgrounds. As a result, the advantages are realized in tractable organisms and ... [摘要]  大多数现代生物学家的基本过程是研究生物体的遗传操作。尽管许多不同的方法用于编辑细菌基因组已经在实验室中使用了数十年,但CRISPR / Cas9技术对细菌遗传学的适应使得研究人员能够以无与伦比的设施来操纵细菌基因组。 CRISPR / Cas9允许基因组编辑更精确,同时也提高将突变转移到各种遗传背景的效率。因此,在遗传操作难以处理的易处理生物和生物体中实现了这些优点。在这里,我们描述了我们编辑枯草芽孢杆菌细菌基因组的方法。我们的方法是高效的,导致精确,无标记的突变。此外,在产生编辑质粒之后,可以将突变快速导入几个遗传背景,大大增加可进行遗传分析的速度。

枯草芽孢杆菌是高度易处理的革兰氏阳性菌。遗传研究适用于使用多种载体通过同源重组快速有效地引入突变。尽管有许多不同的方法来引入B突变。 subtilis,每种方法都有其局限性。一种简单而简单的方法,用于在B中进行突变。枯草芽孢杆菌是基因破坏,其中将质粒整合到感兴趣的基因内(Vagner等人,1998)。主要的局限性包括:1)扰乱操纵子的极地作用的潜力; 2)引进和保留外来DNA; 3)一旦使用抗生素耐药性盒,如果在其他突变的背景下研究给定的突变,则研究者必须使用不同的盒;和4)该方法限于靶向整个基因,并且不能产生更精确的点突变。 ...

Paper Roll Culture and Assessment of Maize Root Parameters
Author:
Date:
2016-09-20
[Abstract]  Selection for genotypes with a vigorous root system could enhance the adaptation of maize under water and nutrient deficit soils. Although extensive genetic variation for root architecture has been reported (Kumar et al., 2012; Abdel-Ghani et al., 2014; Kumar et al., 2014; Pace et al., 2015), root traits have been seldom considered as selection criteria to improve yield in maize, mainly because characterization of root morphology in the field is laborious, inaccurate and time consuming (Tuberosa and Salvi, 2007). Characterization of root traits under ... [摘要]  对象上下文(OIC)任务是广泛使用的对象识别(OR)任务的变体(Dix和Aggleton,1999)。 OIC任务利用啮齿动物具有探索新环境和物体的自然倾向的事实。海马似乎在OIC任务中发挥重要作用(比原始OR任务更重要),其中动物应该能够区分两个熟悉的对象,其中一个在与训练试验不同的背景下(Ennaceur和Aggleton,1997; Bermudez-Rattoni等人,2005; Albasser等人,2009; Roozendaal等人, 2010; Banks等人,2014; Bermudez-Rattoni,2014)。识别存储器包括多个附加组件,诸如项目与其上下文,地点等的关联。 (Bussey ,1999,2000)。在这里,我们基于早期的报告(Dix和Aggleton,1999; Eacott和Norman,2004; Balderas等人,2008; Barsegyan等人)描述了小鼠中OIC任务的一个版本。,2014; Kanatsou 等人,2015a; Kanatsou 等人,2015b)。...

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