Random amplified polymorphic DNA (RAPD) analysis was conducted for the differentiation of two most commonly occurring insect species Periplaneta americana and Blatella germanicana. This technique is proved to be a q...Random amplified polymorphic DNA (RAPD) analysis was conducted for the differentiation of two most commonly occurring insect species Periplaneta americana and Blatella germanicana. This technique is proved to be a quick and effective to establish genetic markers to differentiate morphologically similar populations. During the study cockroach species Periplanata americana and Blatella germanicana were considered. Ten random primers were used for polymerase chain reaction (PCR). Many of such bands obtained, which differentiate between the two species. On the basis of interpretability, simplicity and reproducibility, six primers P1 (GATGACCGCC), P3 (GGCACGTAAC), P6 (GGTGCGCCTT), P7 (GTCAGAGTCG), P8 (GTCGCCGTCT) and PI0 (GTGCCCGATG) were considered positive for genetic differentiation and analysis. A series of bands ranging from -300 bp to -1,000 bp obtained indicates that these two species are related, however they exhibit some variations. It has also been observed that the same primers also amplified some DNA fragments of the same size in both the species, which indicates the presence of conserved regions, sharing ancestral relationship. Some of the fragments were unique in both the species which may be used for diagnostic purposes. The study concludes that the RAPD-PCR technique is useful for the study of molecular taxonomy in insects.展开更多
文摘Random amplified polymorphic DNA (RAPD) analysis was conducted for the differentiation of two most commonly occurring insect species Periplaneta americana and Blatella germanicana. This technique is proved to be a quick and effective to establish genetic markers to differentiate morphologically similar populations. During the study cockroach species Periplanata americana and Blatella germanicana were considered. Ten random primers were used for polymerase chain reaction (PCR). Many of such bands obtained, which differentiate between the two species. On the basis of interpretability, simplicity and reproducibility, six primers P1 (GATGACCGCC), P3 (GGCACGTAAC), P6 (GGTGCGCCTT), P7 (GTCAGAGTCG), P8 (GTCGCCGTCT) and PI0 (GTGCCCGATG) were considered positive for genetic differentiation and analysis. A series of bands ranging from -300 bp to -1,000 bp obtained indicates that these two species are related, however they exhibit some variations. It has also been observed that the same primers also amplified some DNA fragments of the same size in both the species, which indicates the presence of conserved regions, sharing ancestral relationship. Some of the fragments were unique in both the species which may be used for diagnostic purposes. The study concludes that the RAPD-PCR technique is useful for the study of molecular taxonomy in insects.
