Cytological and molecular analysis in the rare discoglossid species, Alytes muletensis (Sanchiz & Adrover 1977) and its bearing on archaeobatrachian phylogeny
G. Odierna et al., Cytological and molecular analysis in the rare discoglossid species, Alytes muletensis (Sanchiz & Adrover 1977) and its bearing on archaeobatrachian phylogeny, CHROMOS RES, 8(5), 2000, pp. 435-442
Cytogenetic and molecular data on Alytes muletensis (Amphibia: Discoglossid
ae) are compared with other representatives of archaeobatrachian frogs: Bom
bina variegata pachypus, Pelobates cultripes, Pelodytes punctatus, Xenopus
laevis, and Discoglossus. A. muletensis has the karyotype typical for the g
enus Alytes, 38 elements with either one or two arms, some of which can be
considered as 'microchromosomes'. The NORs are located on the telomeres of
the tenth chromosome pair which agrees with the state in A. obstetricians b
ut differs from A. cisternasii reflecting phylogenetic affinities. C-bandin
g and staining with DAPI and chromomycin A(3) revealed important blocks of
telomeric CMA-positive heterochromatin on the smaller chromosomes of Alytes
, similar to the state found in Discoglossus. Phylogenetic analysis of 750
bp of fragments of the mitochondrial 16S and 12S rRNA genes corroborated th
at Discoglossus and Alytes are sister taxa which together probably form the
sister group of the Bombinatorinae. Centromeric heterochromatin in Alytes
may be responsible for the retention of a plesiomorphic asymmetric karyotyp
e which independently has evolved into a symmetric karyotype through centri
c fusions in Bombina and Discoglossus. The HindIII satellite DNA family was
present in all archaeobatrachians studied but absent in hyloid and ranoid
neobatrachians.