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Abstract
The pulp surrounding the seeds of some fruits is rich in mucilage, carbohydrates, etc. Some seeds are rich in proteins and polyphenols. Fruit seeds, like cacao (Theobroma cacao) and cupuassu (Theobroma grandiflorum), are subjected to fermentation to develop flavor. During fermentation, ethanol is produced [2–6]. All of these compounds are considered as interfering substances that hinder the DNA extraction [4–8]. Protocols commonly used in the DNA extraction in samples of plant origin were used, but without success. Thus, a protocol for DNA samples under different conditions that can be used for similar samples was developed and applied with success. The protocol initially described for RNA samples by Zeng et al. [9] and with changes proposed by Provost et al. [5] was adapted for extracting DNA samples from those described. However, several modifications have been proposed:•Samples were initially washed with petroleum ether for fat phase removal.•RNAse was added to the extraction buffer, while spermidin was removed.•Additional steps of extraction with 5M NaCl, saturated NaCl and CTAB (10%) were included and precipitation was carried out with isopropanol, followed by washing with ethanol.
Highlights
Background informationThe pulp surrounding the seeds of some fruits is rich in mucilage, carbohydrates, proteins and polyphenols
Because of the intense biochemical reactions that occur in the event, there is the formation and release of ethanol and phenolic compounds such as flavonoids [1,2,3,6]
The aim of this study was to standardize a protocol for total DNA extraction of fermented cupuassu seeds, since protocols commonly used for DNA extraction from samples of plant origin showed no satisfactory results in this work
Summary
The pulp surrounding the seeds of some fruits is rich in mucilage, carbohydrates, proteins and polyphenols. Like cacao (Theobroma cacao) and cupuassu (Theobroma grandiflorum), are subjected to fermentation to develop flavor giving products like chocolate and ‘‘cupulate’’, respectively. There are other types of interferences, such as carbohydrates, proteins and phenolic compounds that hamper the DNA extraction process. To avoid this inconvenience, it is necessary to test several types of protocols aiming to obtain genomic DNA, and the relationship between nucleic acid and protein (A260/A280), nucleic acid and carbohydrates (A260/A230) must be within acceptable limits [4,8]
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