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上海圻明生物
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2μg
单核细胞增生李斯特菌PCR阳性对照质粒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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文献和实验作者:张淑红,吴清平,张菊梅 作者单位:广东环凯微生物科技有限公司,广州510070;2.广东省微生物研究所广东省菌种保藏与应用重点实验室,广州510070 [摘要] 目的:研究显色培养基对单核细胞增生李斯特菌的检测效果,探讨建立新型快速检测方法。方法:检测按国标GB4789—33程序进行。结果:人工污染样品和实际样品检测中,显色培养基CHROMagar Listeria和HKListeria与传统平板OXA和MMA可以达到相同的检测限和灵敏度,且具有更高
在感染过程中,食源性病原体“单核细胞增生李斯特菌”能利用宿主细胞的大量功能,包括涉及泛素化和磷酸化的、专门修饰关键蛋白活性的转录后修饰。致病细菌对被称为“SUMOylation”的泛素样修饰(真核细胞中一个重要过程)()的效应在很大程度上仍不清楚。 现在,对被“单核细胞增生李斯特菌”感染的人类细胞和对一个小鼠模型所做的一项研究表明,其毒性因子listeriolysin O (LLO)通过触发Ubc9(“SUMOylation”机制中一种必要的酶)的降解诱导
增菌,费时费力。FDA于1987年最新研制出针对李斯特菌致病基因β�溶血素的探针,随后GENE-TARK研制出商品化检测李斯特菌的DNA探针,它能特异性识别细菌的16SrRNA.该探针是由人工合成的寡核苷酸,用比色法检测样品需先在LEB中培养16�22h,然后侵染比色检测,假阴性率为0.8�4.7%(常规法为1.4�2.9%.)1989年Bessesea等运用扩增李斯特菌溶血素基因中386bp的PCR方法检测单核细胞增生型李斯特菌,DNA检测量低于25ng,即少于1000个菌体,特异性强,能检测
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