Evaluation of Genetic Relationship of some Squirrelfishes through DNA Barcode

Abstract Species of the subfamily Holocentrinae, family Holocentidae, commonly called, squirrelfishes, are widely distributed from tropical to warm temperate waters. In Egypt, no data are available on genetic and evolutionary relationships of the family Holocentridae. Therefore, the study of the genetic relationship among Holocentrids species is crucial for proper management and convenient strategies. The purpose of this study was to evaluate the genetic relationship among eight species belonging to the family Holocentridae from the Mediterranean Sea and the Red Sea in Egypt using DNA barcoding. Based on this molecular marker, a phylogenetic tree was constructed for the studied Holocentrids species. 12S rRNA sequences discovered that Sargocentron caudimaculatum was clustered as closest taxa to Sargocentron spiniferum, being a sister group to each other. Also, Sargocentron punctatissimum and Sargocentron macrosquamis were more related to each other and formed a sister group. Moreover, this study discusses the building of genetic relationship among Sargocentron spinosissimum and Sargocentron macrosquamis for the first time to the other studied Sargocentrons. DNA barcoding using 12S rRNA gene provided efficient DNA barcodes for all of the studied species. The constructed phylogenetic tree based on the employed molecular marker provided the update for the barcoded Holocentridae species evolution.

First Genetically Differentiation between Upupa epops major and Upupa epops epops (Family: Upupidae)

Abstract Hoopoe has been traditionally treated as a single species within the order Coraciiformes. Presently, however, various authors have suggested separating the hoopoe into two or more species and even its order, Bucerotiformes. So, this work aimed to use the RAPD PCR and DNA sequences of the COI gene barcodes to confirm and to assess whether the Egyptian hoopoe is a different species named Upupa epops major from the European hoopoe called Upupa epops epops, and to determine the relationships among them. Five primers were used in this technique. Two hoopoes were taken in this work as studying birds, migratory and resident one. The results showed the highest genetic distance between them using different random primers while genetic identity was in general low, overall primers. DNA fingerprinting detected greater genetic distance between Upupa epops major and Upupa epops epops and low genetic identity, this may indicate that both hoopoes fall into two separate species. Furthermore, using mitochondrial cytochrome oxidase subunit I (COI) sequences in this study suggests the separation of Upupa epops major into a new species.

Detection of Genetic Relationship in the Tree of Life of Some Quail Through Molecular Markers Analyses

ABSTRACT Quail is an important and interesting group of galliform birds. The Common quail (Coturnix coturnix); the Japanese quail (Coturnix japonica); the Panda quail (Coturnix japonica); the Dotted white quail (Coturnix japonica) and the Bobwhite quail (Colinus virginianus) were used in this study. PCR-RFLP and SDS-proteins were performed to reveal the genetic characterization and genetic relationship of the studied quails. Analysis of fragments generated by digestion of PCR product with restriction enzyme NlaIII recorded highly polymorphic restriction profiles. There is a wide intraspecific COI, SEMA3E and TLX genes variability among the studied quails. Protein bands varied from10 to 18 between quails with minimum number of bands were in the Dotted white quail (10 bands) and the maximum were in the Japanese quail (18 bands) as measured by SDS-polyacrylamide gel electrophoresis. The Dotted white quail revealed the lowest similarity to the Bobwhite with a coefficient of 0.18 while The similarity coefficients between the Common quail and each one of the other quails were 0.67, 0.62, 0.45 and 0.42 for the Japanese, Panda, Dotted white and the Bobwhite quails, respectively. The results indicate that, PCR-RFLP and protein analyses are good techniques to evaluate genetic characterization and genetic relationship of these quails.