Linda Jansson , Siri Aili Fagerholm , Emelie Börkén , Arvid Hedén Gynnå , Maja Sidstedt , Christina Forsberg , Ricky Ansell , Johannes Hedman , Andreas Tillmar
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引用次数: 0
Abstract
In recent years, more sophisticated DNA technologies for genotyping have enabled considerable progress in various fields such as clinical genetics, archaeogenetics and forensic genetics. DNA samples previously rejected as too challenging to analyze due to low amounts of degraded DNA can now provide useful information. To increase the chances of success with the new methodologies, it is crucial to know the fragment size of the template DNA molecules, and whether the DNA in a sample is mostly single or double stranded. With this knowledge, an appropriate library preparation method can be chosen, and the DNA shearing parameters of the protocol can be adjusted to the DNA fragment size in the sample. In this study, we first developed and evaluated a user-friendly fluorometry-based protocol for estimation of DNA strandedness. We also evaluated different capillary electrophoresis methods for estimation of DNA fragmentation levels. Next, we applied the developed methodologies to a broad variety of DNA samples processed with different DNA extraction protocols. Our findings show that both the applied DNA extraction method and the sample type affect the DNA strandedness and fragmentation. The established protocols and the gained knowledge will be applicable for future sequencing-based high-density SNP genotyping in various fields.
近年来,更先进的 DNA 基因分型技术使临床遗传学、考古遗传学和法医遗传学等各个领域取得了长足的进步。以前因降解 DNA 数量少而无法进行分析的 DNA 样本,现在可以提供有用的信息。要提高新方法的成功率,关键是要知道模板 DNA 分子的片段大小,以及样本中的 DNA 主要是单链还是双链。有了这些知识,就可以选择合适的文库制备方法,并根据样本中 DNA 片段的大小调整方案中的 DNA 剪切参数。在本研究中,我们首先开发并评估了一种基于荧光测定法的用户友好型 DNA 链度估算方案。我们还评估了不同的毛细管电泳方法,用于估算 DNA 片段水平。接下来,我们将所开发的方法应用于采用不同 DNA 提取方案处理的各种 DNA 样品。我们的研究结果表明,所采用的 DNA 提取方法和样品类型都会影响 DNA 的链度和片段化程度。所建立的方案和所获得的知识将适用于未来各领域基于测序的高密度 SNP 基因分型。
期刊介绍:
The journal''s title Analytical Biochemistry: Methods in the Biological Sciences declares its broad scope: methods for the basic biological sciences that include biochemistry, molecular genetics, cell biology, proteomics, immunology, bioinformatics and wherever the frontiers of research take the field.
The emphasis is on methods from the strictly analytical to the more preparative that would include novel approaches to protein purification as well as improvements in cell and organ culture. The actual techniques are equally inclusive ranging from aptamers to zymology.
The journal has been particularly active in:
-Analytical techniques for biological molecules-
Aptamer selection and utilization-
Biosensors-
Chromatography-
Cloning, sequencing and mutagenesis-
Electrochemical methods-
Electrophoresis-
Enzyme characterization methods-
Immunological approaches-
Mass spectrometry of proteins and nucleic acids-
Metabolomics-
Nano level techniques-
Optical spectroscopy in all its forms.
The journal is reluctant to include most drug and strictly clinical studies as there are more suitable publication platforms for these types of papers.