Plant sex chromosomes: molecular structure and function

Jamilena, Manuel; Mariotti, Beatrice; Manzano, Susana

doi:10.1159/000121075

Cited by 47 publications

(40 citation statements)

References 198 publications

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“…Moreover, recent findings in Drosophila suggest that the Y chromosome has an important role in male fitness and also contributes to adaptive phenotypic variation through a regulatory role of Y-linked polymorphic elements in gene expression (Lemos et al, 2008). In contrast, a gradual degeneration appears to be the primary driving force in evolutionarily young Y chromosomes as shown in the plant models Carica papaya and Silene latifolia (Jamilena et al, 2008). In addition, once the degenerated Y chromosome fuses or translocates to an autosome, a new cycle of its evolution starts.…”

Section: Evolution Of Neo-sex Chromosomes In Samia Cynthiamentioning

confidence: 99%

Step-by-step evolution of neo-sex chromosomes in geographical populations of wild silkmoths, Samia cynthia ssp.

et al. 2010

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Section: Evolution Of Neo-sex Chromosomes In Samia Cynthiamentioning

confidence: 99%

Step-by-step evolution of neo-sex chromosomes in geographical populations of wild silkmoths, Samia cynthia ssp.

et al. 2010

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“…However, plant sex chromosomes have been found from moss to flowering plants, including familiar crop species, such as asparagus, hop, kiwi fruit, papaya and spinach (Matsunaga and Kawano, 2001). The ancient Y chromosome in the liverwort Marchantia polymorpha is small and largely heterochromatic (Yamato et al, 2007), whereas most Y chromosomes in flowering plants are the largest chromosomes in male genomes and many plant sex chromosomes are morphologically indistinguishable (Matsunaga, 2006;Jamilena et al, 2008). Why do sex chromosomes in flowering plants seem to retain their primitive characteristics similar to a pair of autosomes?…”

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confidence: 99%

Junk DNA promotes sex chromosome evolution

Matsunaga

2009

Heredity

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“…The large size Y-chromosome indicated the possibility of accumulation of repeated sequences, which is a sign of evolution of plant Y-chromosomes (Jamilena et al 2008, Bergero et al 2008, Heslop-Harrison and Schwarzacher 2011, Mariotti et al 2009). Moreover, Sousa et al (2013) reported that the subterminal repetitive sequences may have accumulated on the Y-chromosomes.…”

Section: Nature Of Y-chromosomementioning

confidence: 99%

Karyotype and RAPD Analysis of Male and Female <i>Coccinia grandis</i> L. from Bangladesh

et al. 2016

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Summary Both male and female Coccinia grandis L. were studied cytogenetically using conventional and fluorochrome dyes. In addition, RAPD was carried out to distinguish the two sexes. In male plants, a pair of prominent satellites was observed, one in each member of pair III. Both male and female plants were found to possess 2n=24 metacentric chromosomes (including Y-chromosome ). The length of individual chromosomes ranged from 0.97 to 5.03 µm (Y-chromosome) in the male and 0.78 to 1.32 µm in the female plant. The Y-chromosome found in this study was 5.03 µm, which is about 3.06 times bigger than the largest autosome. The interphase nuclei of male specimens possessed a number of thick, round and darkly stained heterochromatic blocks. A bigger and elongated area was also observed in the interphase nuclei of male plants, which indicated the probable appearance of heterochromatic Y-chromosome. A distinct Y-chromosome was observed at prophase after staining with orcein, CMA, and DAPI. The Y-chromosomes were fully fluoresced with both CMA and DAPI, revealing the tandem existence of GC-and AT-rich repeats along the length. The most striking feature is that the Y-chromosome with distinct centromeres was observed even in the interphase nuclei and prophase stages after orcein, CMA, and DAPI staining. It suggested that the Y-chromosomes contracted much earlier than those of autosomes. This feature of the Y-chromosome has not yet been reported and is a new unique feature of Y-chromosomes of C. grandis. Different types of CMA-and DAPI-banding patterns were found in male and female plants, which are characteristic features of each sex. The difference of GC-and AT-rich percentage was due to the Y-chromosome. Four different primers were used for RAPD profiling. Polymorphism of RAPD bands was distinct in male and female plants. Therefore, the compilation of the above information will be very useful for making multidimensional genetic information of male and female C. grandis L. found in Bangladesh.

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Plant sex chromosomes: molecular structure and function

Cited by 47 publications

References 198 publications

Step-by-step evolution of neo-sex chromosomes in geographical populations of wild silkmoths, Samia cynthia ssp.

Step-by-step evolution of neo-sex chromosomes in geographical populations of wild silkmoths, Samia cynthia ssp.

Junk DNA promotes sex chromosome evolution

Karyotype and RAPD Analysis of Male and Female <i>Coccinia grandis</i> L. from Bangladesh

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