Mitochondrial Gene Sequences and the Molecular Systematics of the Artiodactyl Subfamily Bovinae

Phylogenetic inference regarding the biogeography and evolution of the family Cobitidae depends in large part on the correct interpretation of transitions between the morphological states of secondary sexual characters (e.g., the scale of Canestrini or lamina circularis). Here, we use the complete m

This research was funded by French governmental grants from Groupe de Recherches et d'Etudes des Génomes (Ministère Recherche et Espace) and by Service Commun de Biosystématique (Ministere Education Nationale. The constructive comments of two anonymous referees have been very much appreciated. This

Sebastomus is one of the most species-rich subgenera of Sebastes, whose monophyly is well supported by morphological and molecular data. We present the first description of the complete nucleotide sequence of the mitochondrial cytochrome b gene and the partial sequence of the control region of the 1

We examined 1140 bp of the mitochondrial cytochrome b gene and 1398 bp of the nuclear RAG2 gene to investigate the systematics of the eight species of bats within the family Mormoopidae. It was concluded that within the genus Pteronotus there were four valid subgenera: Phyllodia, Chilonycteris, Pter

## Abstract In birds, the noncoding control region (CR) and its flanking genes are the only parts of the mitochondrial (mt) genome that have been modified by intragenomic rearrangements. In raptors, two noncoding regions are present: the CR has shifted to a new position with respect to the “ancestr

Fragments from three mitochondrial genes (12S, 16S, and COI) were sequenced to reconstruct a molecular phylogeny of the opisthobranch order Anaspidea. The molecular phylogeny supports the placement of the genus Akera, a taxon previously regarded by some authors as a cephalaspidean, within the Anaspi