Downloads provided by UsageCountsChromosomes of Lepidochitona caprearum (Scacchi, 1836) (Polyplacophora, Acanthochitonina, Tonicellidae) provide insights into Acanthochitonina karyological evolution
Copyright policy ) PETRACCIOLI, AGNESE; MAIO, NICOLA; ODIERNA, GAETANO;
Chromosomes of Lepidochitona caprearum (Scacchi, 1836) (Polyplacophora, Acanthochitonina, Tonicellidae) provide insights into Acanthochitonina karyological evolution
We describe the karyotype, location of nucleolus-organizing regions (NORs) and heterochromatin composition and distribution in Lepidochitona caprearum (Scacchi, 1836). The examined specimens had 2n=24 chromosomes; the elements of pairs 1-4 were metacentric, subtelocentric those of the fifth pair, telocentric the elements of other pairs. NOR-FISH, Ag-NOR- and CMA3 banding showed NORs localized on pericentromeric regions of a medium small sized, telocentric chromosome pair. After C-banding or digestions with restriction enzyme NOR associate heterochromatin only was cytologically evident, resulting CMA3 positive. The comparison with chromosome data of other chitons, other than to evidence a karyotypic similarity of Lepidochitona caprearum to species of suborder Acanthochitonina, allows us to infer that chromosome evolution in the suborder mainly occurred via reduction of the number of the chromosomes by centric fusions, which took place repeatedly and independently in the different lineages of Acanthochitonina.
Italy
Chromosome evolution; chromosome banding; heterochromatin; chitons; Lepidochitona caprearum; Acanthochitonina, Chromosome evolution, heterochromatin, chromosome evolution, chitons, chromosome banding, Lepidochitona caprearum, QH426-470, Article, Genetics, Acanthochitonina
Chromosome evolution; chromosome banding; heterochromatin; chitons; Lepidochitona caprearum; Acanthochitonina, Chromosome evolution, heterochromatin, chromosome evolution, chitons, chromosome banding, Lepidochitona caprearum, QH426-470, Article, Genetics, Acanthochitonina
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