Artículo de revista
Robertsonian chromosomes and the nuclear architecture of mouse meiotic prophase spermatocytes
Fecha
2014Registro en:
Biological Research 2014, 47:16
doi:10.1186/0717-6287-47-16
Autor
Berríos del Solar, María Soledad
Manieu Seguel, Catalina Paz
López Fenner, Julio
Ayarza Ramírez, Eliana
Page, Jesús
González Vergara, Marisel
Manterola Zúñiga, Marcia Carolina
Fernández Donoso, Raúl
Institución
Resumen
Background: The nuclear architecture of meiotic prophase spermatocytes is based on higher-order patterns of
spatial associations among chromosomal domains from different bivalents. The meiotic nuclear architecture depends
on the chromosome characteristics and consequently is prone to modification by chromosomal rearrangements. In
this work, we consider Mus domesticus spermatocytes with diploid chromosome number 2n = 40, all telocentric,
and investigate a possible modification of the ancestral nuclear architecture due to the emergence of derived Rb
chromosomes, which may be present in the homozygous or heterozygous condition.
Results: In the 2n = 40 spermatocyte nuclei random associations mediated by pericentromeric heterochromatin
among the 19 telocentric bivalents ocurr at the nuclear periphery. The observed frequency of associations among
them, made distinguishable by specific probes and FISH, seems to be the same for pairs that may or may not
form Rb chromosomes. In the homozygote Rb 2n = 24 spermatocytes, associations also mediated by pericentromeric
heterochromatin occur mainly between the three telocentric or the eight metacentric bivalents themselves. In
heterozygote Rb 2n = 32 spermatocytes all heterochromatin is localized at the nuclear periphery, yet associations
are mainly observed among the three telocentric bivalents and between the asynaptic axes of the trivalents.
Conclusions: The Rb chromosomes pose sharp restrictions for interactions in the 2n = 24 and 2n = 32 spermatocytes,
as compared to the ample possibilities for interactions between bivalents in the 2n = 40 spermatocytes. Undoubtedly
the emergence of Rb chromosomes changes the ancestral nuclear architecture of 2n = 40 spermatocytes since they
establish new types of interactions among chromosomal domains, particularly through centromeric and heterochromatic
regions at the nuclear periphery among telocentric and at the nuclear center among Rb metacentric ones.