Reliable PCR amplification from Neurospora crassa genomic DNA obtained from conidia

S. Henderson, G. Eariss, D. Catcheside
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引用次数: 9

Abstract

Boil-mediated lysis of Neurospora conidia (Boil-prep) is an extremely rapid, convenient and useful technique to obtain sufficient genomic DNA template for PCR amplification. We routinely use this technique for screening molecular markers, sequencing, and preliminary confirmation of transformants. Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This short communications is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol52/iss1/7 24 Fungal Genetics Newsletter Short Communications Reliable PCR amplification from Neurospora crassa genomic DNA obtained from conidia Steven T. Henderson, Graham A. Eariss and David E. A. Catcheside – School of Biological Sciences, Flinders University, Bedford Park, SA 5042, Australia. Fungal Genetics Newsletter 52:24 Boil-mediated lysis of Neurospora conidia (Boil-prep) is an extremely rapid, convenient and useful technique to obtain sufficient genomic DNA template for PCR amplification. We routinely use this technique for screening molecular markers, sequencing, and preliminary confirmation of transformants. However, we have observed periods when successful PCR amplification from Boil-preps has been erratic, hampering the efficacy of this technique. As lysis of conidia results in the liberation of DNA and other cellular components, we reasoned the inconsistent results may have been due to inhibition and/or degradation of the Taq DNA polymerase by cellular material present in the lysis solution. We tried various DNA polymerases and found the reliability of PCR amplification of DNA from Boil-prep template is largely dependant on the specific enzyme used with some Taq polymerases producing <5% successful amplifications. In our hands, Red Hot DNA polymerase from ABgene (cat#AB-0406) facilitates consistent PCR ® amplification (>90%) from Boil-prep template DNA. We routinely use Red Hot DNA polymerase to amplify PCR products up ® to 1.35kb from Boil-prep DNA following the procedure described below (modified from Yeadon and Catcheside 1996). Boil-prep method: A wet loop of 3 7 day old conidia is transferred to 100ìl of sterile Tris-EDTA (pH 8.0) in a 1.5ml microfuge tube and vortexed briefly. The conidial suspension is placed in a boiling waterbath for 10 minutes and then on ice for 5 minutes. The cellular debris is pelleted by centrifugation at 13000 RPM in a benchtop centrifuge for 5 minutes. 70ul of supernatant is transferred to a new 1.5ml microfuge tube and stored at -20oC. 2-5ul of Boil-prep DNA solution is used as a template in a 50ul PCR reaction with 0.5U of Red Hot DNA polymerase. Figure 1. Comparison of PCR amplicons from Boilprep genomic DNA (BP), genomic DNA (G) (prepared by the method of Irelan et al. 1993), plasmid DNA (P) and no DNA (-ve) templates. Size marker (M) = 100bp DNA ladder (New England Biolabs) with a 500bp reference band that contains 97ng of DNA. Each sample lane contains 6ul of a 50ul PCR reaction. DNA yields from Boil-prep PCR are typically >10ng/ul. Note: all PCRs were performed in a single experiment with cycle conditions optimised for amplification of the 1350bp product. References: Irelan, J., V. Miao and E. U. Selker, 1993. Small scale DNA preps for Neurospora crassa. Fungal Genet. Newsl. 40: 24. Yeadon, P. J., and D. E. A. Catcheside, 1996. Quick method for producing template for PCR from Neurospora cultures. Fungal Genet. Newsl. 43: 71. Published by New Prairie Press, 2017
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从分生孢子中获得的粗神经孢子虫基因组DNA进行可靠的PCR扩增
煮沸介导的分生神经孢子菌裂解(Boil-prep)是一种非常快速、方便和有用的技术,可以获得足够的基因组DNA模板进行PCR扩增。我们经常使用这种技术筛选分子标记,测序和初步确认转化子。本作品采用知识共享署名-相同方式共享4.0许可协议。这篇简短的通讯可在真菌遗传学报告中获得:http://newprairiepress.org/fgr/vol52/iss1/7 24真菌遗传学通讯简短通讯从分生孢子中获得的粗神经孢子虫基因组DNA进行可靠的PCR扩增。Steven T. Henderson, Graham A. Eariss和David E. A. Catcheside -弗林德斯大学生物科学学院,Bedford Park, SA 5042,澳大利亚。煮沸介导的分生神经孢子菌裂解(Boil-prep)是一种非常快速、方便和有用的技术,可以获得足够的基因组DNA模板进行PCR扩增。我们经常使用这种技术筛选分子标记,测序和初步确认转化子。然而,我们观察到,当成功的PCR扩增从沸腾准备已经不稳定的时期,阻碍了这项技术的效力。由于分生孢子的裂解会导致DNA和其他细胞成分的释放,我们推断,不一致的结果可能是由于裂解溶液中存在的细胞物质抑制和/或降解了Taq DNA聚合酶。我们尝试了各种DNA聚合酶,发现从煮沸准备模板中扩增DNA的可靠性在很大程度上取决于所使用的特定酶,一些Taq聚合酶从煮沸准备模板DNA中产生90%)。我们常规使用Red Hot DNA聚合酶根据以下程序(根据Yeadon和Catcheside 1996年修改)从煮沸准备的DNA中扩增PCR产物至1.35kb。煮沸准备法:将37日龄的分生孢子湿循环转移到1.5ml的无菌Tris-EDTA (pH 8.0) 100ìl中,并短暂旋转。将分生孢子悬浮液置于沸水浴中10分钟,然后放在冰上5分钟。细胞碎片在台式离心机中以13000 RPM离心5分钟制成球团。将70ul上清转移到新的1.5ml微管中,保存在-20℃。以2-5ul的煮沸DNA溶液为模板,用0.5U的Red Hot DNA聚合酶进行50ul的PCR反应。图1所示。Boilprep基因组DNA (BP)、基因组DNA (G) (Irelan et al. 1993方法制备)、质粒DNA (P)和无DNA (-ve)模板PCR扩增子的比较。尺寸标记(M) = 100bp DNA阶梯(New England Biolabs),参考带为500bp,包含97ng DNA。每个样品道含有6ul的50ul PCR反应。沸水制备PCR的DNA产量通常为100 - 10ng/ul。注:所有pcr均在一次实验中进行,循环条件优化为扩增1350bp产物。参考文献:Irelan, J., V. Miao和e.u. Selker, 1993。粗神经孢子虫的小尺度DNA准备。真菌麝猫。新闻40:24。Yeadon, p.j.和d.e.a. Catcheside, 1996。从神经孢子菌培养物中快速制备PCR模板的方法。真菌麝猫。新闻。43:71。新草原出版社2017年出版
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