2016
DOI: 10.1007/s40415-015-0248-5
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CMA band variability and physical mapping of 5S and 45S rDNA sites in Brazilian Cactaceae: Pereskioideae and Opuntioideae

Abstract: Representatives of the Cactaceae subfamilies Pereskioideae and Opuntioideae from northeastern Brazil were studied using banding with the fluorochromes, CMA3 and DAPI, as well as with fluorescent in situ hybridization using 45S and 5S rDNA probes to identify the distributions of their heterochromatin and rDNA sites. Pereskia aculeata, P. bahiensis, P. grandifolia (Pereskioideae), Brasilopuntia brasiliensis, Tacinga funalis, and T. palmadora showed 2n = 22, while Opuntia dillenii showed 2n = 44, and O. ficus-ind… Show more

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Cited by 16 publications
(23 citation statements)
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“…Fluorescent in situ hybridization provides additional chromosome markers for these analyses. The the physical mapping of 45S rDNA exhibited a conserved pattern, with the number of sites strictly correlated with species ploidy: two sites in the diploid species, four sites in the tetraploid species (Peñas et al 2009;Moreno et al 2015;Castro et al 2016; result presented here). All 45S rDNA sites were terminally localized and co-localized with CMA + bands, in agreement with the most common situation observed in plants (Lima- de-Faria 1980;Roa & Guerra 2012).…”
Section: Chromosome Markers -Heterochromatic Bands and Rdna Locisupporting
confidence: 61%
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“…Fluorescent in situ hybridization provides additional chromosome markers for these analyses. The the physical mapping of 45S rDNA exhibited a conserved pattern, with the number of sites strictly correlated with species ploidy: two sites in the diploid species, four sites in the tetraploid species (Peñas et al 2009;Moreno et al 2015;Castro et al 2016; result presented here). All 45S rDNA sites were terminally localized and co-localized with CMA + bands, in agreement with the most common situation observed in plants (Lima- de-Faria 1980;Roa & Guerra 2012).…”
Section: Chromosome Markers -Heterochromatic Bands and Rdna Locisupporting
confidence: 61%
“…The presence of both terminal and proximal CG-rich fluorescent bands detected here seems to be a common characteristic among Cactoideae species (Peñas et al 2008;Moreno et al 2015). Pereskia did not have proximal CMA + bands (Peñas et al 2014;Castro et al 2016), suggesting that the amplification of CG-rich heterochromatin occurred in the common ancestor of Opuntioideae and Cactoideae.…”
Section: Chromosome Markers -Heterochromatic Bands and Rdna Locimentioning
confidence: 57%
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“…The pattern of two CMA + telomeric bands (chromosome type A) seen in most species of the Tabebuia alliance is very common among Angiosperms, and usually corresponds to a nucleolar organizer region (Guerra, 2000;Roa and Guerra, 2012). Telomeric CMA bands are most likely related to rDNA sites as seen in most plant species (Barros e Silva et al, 2010;Castro et al, 2016;Marinho et al, 2018). Differences among species could be related tochromosome rearrangements and the amplification and reduction of rDNA sites caused by satellites or transposable sequences (Mehrotra and Goyal, 2014;Evtushenko et al, 2016;Saze, 2018).…”
Section: Heterochromatin Patternsmentioning
confidence: 99%
“…In genera such as Lycium L. (Stiefkens et al, 2010), Pereskia Mill. (Castro et al, 2016), and Ceiba Mill. (Figueredo et al, 2016), however, the heterochromatin pattern appears to be quite conserved and demonstrate only small variability among the different species.…”
Section: Heterochromatin Patternsmentioning
confidence: 99%