It competes with phenolase for copper ions; thiol reduces quinones; and it inhibits dehydrogenase activity.What is the role of diethyldithiocarbamic acid in Dna isolation?
The cacti family is a morphologically heterogeneous group comprising 100 genera and about 1500 species (Hernandez and Barcenas, 1996). With the exception of one genus, all members of this family are native to America (Hernandez and Barcenas, 1996). There are three subfamilies, Opuntioideae, Cactoideae, and Pereskioideae (Gibson and Nobel, 1986). DNA isolation from cacti is notoriously difficult because they contain high amounts of polysaccharides and secondary metabolites which form insoluble complexes with nucleic acids during extraction (Guillemaut and Marechal-Drouard, 1992). Like in other groups of plants, the secondary metabolites and polysaccharides in cacti inhibit enzyme action (Porebski et al., 1997). The polysaccharides are visually evident by their viscous, glue-like texture and they make the DNA unmanageable when pipeting and hard to amplify by the polymerase chain reaction (PCR) (Poresbski et al., 1997). We report an easy and inexpensive protocol to isolate DNA from cacti. We used this method to isolate DNA from 85 species (170 individuals) of 39 genera of the subfamilies Pereskioideae, Opuntioidea, and Cactoideae. This procedure is a modification of a protocol described by De la Cruz et al. (1995) for the Cacti family. It requires only a few grams of tissue and does not require destruction of the whole plant to produce high molecular weight genomic DNA. The DNA from this procedure can be amplified consistently by PCR and used for RAPD analysis.
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