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油菜源性成分PCR试剂盒上海圻明生物优势供应。更多产品资料欢迎免费咨询。
One of the many important uses of PCR technology is that it can be used to label DNA probes with high specific activity. PCR technology has high specificity, and can synthesize probe DNA fragments in quantities within 1~2h if [α-32P]dNTP or other markers are added to the substrate
dNTPs, the probe DNA can be well labeled during DNA synthesis, and the incorporation rate of the marker can be as high as 70%~80%. Therefore, PCR labeling technology is particularly suitable for large-scale detection and non-radiolabeling. The disadvantage of this method is that a specific pair of PCR primers is synthesized.
Labeling can also be achieved by using small fragments prepared from probe DNA as primers.
Solution preparation
1. Prepare a stock solution
Unless otherwise stated, all unused stock solutions should be divided into disposable aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.
1.1* Acid Stock Solution (125X):
Add 20 μL DMSO to *ate (component B) to make a 125X* acid stock solution.
2. Prepare standard solutions
*Salt standard solution
Add 50 μL of 1 mM KH2PO4 (Component C) to 950 μL of deionized water or enzyme reaction buffer to give a 50 μM * saline standard solution (PS7). A 50 μM * saline standard solution (PS7) was taken and serially diluted 1:2 to obtain a serially diluted phosphate standard with deionized water or enzyme reaction buffer.
3. Prepare a working solution
Add 20 μL of 125X* stock solution to 2.5 mL of sterile H2O and mix well to make a working solution of *salt. Avoid potential Pi contamination. Note: Avoid direct exposure of *salts (component B) to light. Due to the high sensitivity of this assay to Pi, it is extremely important to use Pi-free labware and reagents.
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文献和实验芥菜型油菜种皮转录组De Novo拼接及类黄酮生物合成基因的鉴定
芥菜型油菜作为一种广泛种植的作物,能产生不同颜色的种子。种子的着色是由于内皮细胞原花色素(proanthocyanidins,PA)的沉积,该终产物是通过一条类黄酮化合物合成的途径形成。为了进一步了解芥菜型油菜种子着色的基因信号网络,研究者采用Illumina/Solexa测序平台检测近交系黄籽种皮(SY)以及近等位基因系棕籽种皮(NILA)的转录组基因,对检测结果进行De Novo拼接,超过1.16亿个高质量的reads被组装成69,605个独立基因,其中以E value值为10-5为截点
空气污染伤大脑又添新证!PNAS:吸入的有毒颗粒会从肺部进入大脑,且清除速度较慢
,研究人员借助超微结构显微镜和同位素标记颗粒等技术,发现在人类脑脊液(CSF)中存在各种成分的外源细颗粒物。同时,利用体外和体内模型发现,吸入受污染的空气可能导致有毒颗粒通过血液从肺部运输到大脑,这可能导致脑部疾病和神经损伤,为空气污染对中枢神经系统的危害提供了进一步的证据。 图片来源:PNAS 主要研究内容 人脑脊液和血液中外源性细颗粒的鉴定 为了确定外源性细颗粒物是否会在人脑中积聚,研究人员收集了患有脑病但此前未接受任何脑部手术患者的脑脊液(CSF)和血液标本,并对其进行了特征分析。他们通过高
样本想要成功转化成为 PCR 的结果,前期需要注意的步骤有很多,包括:样本的采集、运送、保存以及核酸提取,每一个步骤都需要小心翼翼,中间的过程可谓是困难重重。样本在转化成 PCR 结果的过程中,究竟是哪些因素导致转化过程如此艰难呢?下面由小编带着大家一起去扒一扒样本中影响 PCR 检测的抑制物。 图 1. 核酸处理与检测流程图 一、PCR 抑制物的来源 PCR 抑制物的来源包括内源性与外源性两种 1. 内源性 天然存在标本中的组成成分。如:免疫球蛋白、蛋白酶、血红蛋白及其代谢
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