AI Article Synopsis
- Advances in genetic selection for agricultural animals have progressed significantly, with potential for further improvements through the combination of genetic and epigenetic selection.
- Understanding the mechanisms of epigenetics, particularly DNA methylation, is essential for making these advancements.
- The review outlines various methods for analyzing DNA methylation, discussing their appropriateness, resolution of information, and limitations to help researchers choose the right tools for their studies.
Article Abstract
Selection of agricultural animals for improved performance based on genetics has seen significant progress made over the past few decades. Further improvements are likely by combining genetic selection with epigenetic selection or manipulation. However, before this can be undertaken, an understanding of epigenetic mechanisms is required, and this can be obtained only by precise and accurate analysis of epigenetic patterns. Even when one only considers a single epigenetic modification such as DNA methylation, the last 10 years have seen a wide array of technologies developed. For scientists whose primary training is in a field other than epigenetics, the choices can be confusing, and it can be challenging to determine which technology is best for the task at hand. There are many factors to take into consideration before beginning analysis of DNA methylation in animals. It is crucial that the most appropriate tools are selected to ensure that the best possible results are achieved. This review provides an overview of the most common methods of analysing DNA methylation in animals, when they are appropriate, what resolution of information they can provide and what their limitations are.
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| http://dx.doi.org/10.1111/age.12186 | DOI Listing |
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