Ekaterina D Badaeva, Violetta V Kotseruba, Andnrey V Fisenko, Nadezhda N Chikida, Maria Kh Belousova, Peter M Zhurbenko, Sergei A Surzhikov, Alexandra Yu Dragovich
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引用次数: 0
Abstract
Aegilopscomosa Smith in Sibthorp et Smith, 1806 is diploid grass with MM genome constitution occurring mainly in Greece. Two morphologically distinct subspecies - Ae.c.comosa Chennaveeraiah, 1960 and Ae.c.heldreichii (Holzmann ex Boissier) Eig, 1929 are discriminated within Ae.comosa, however, genetic and karyotypic bases of their divergence are not fully understood. We used Fluorescence in situ hybridization (FISH) with repetitive DNA probes and electrophoretic analysis of gliadins to characterize the genome and karyotype of Ae.comosa to assess the level of their genetic diversity and uncover mechanisms leading to radiation of subspecies. We show that two subspecies differ in size and morphology of chromosomes 3M and 6M, which can be due to reciprocal translocation. Subspecies also differ in the amount and distribution of microsatellite and satellite DNA sequences, the number and position of minor NORs, especially on 3M and 6M, and gliadin spectra mainly in the a-zone. Frequent occurrence of hybrids can be caused by open pollination, which, along with genetic heterogeneity of accessions and, probably, the lack of geographic or genetic barrier between the subspecies, may contribute to extremely broad intraspecific variation of GAAn and gliadin patterns in Ae.comosa, which are usually not observed in endemic plant species.
egilopscomosa Smith (Sibthorp et Smith, 1806)是一种主要产自希腊的二倍体草,具有MM基因组结构。两个形态上截然不同的亚种- Ae.comosa Chennaveeraiah(1960)和ae.c heldreichii (Holzmann ex Boissier) Eig(1929)在Ae.comosa中被区分,但其分化的遗传和核型基础尚不完全清楚。利用重复DNA荧光原位杂交(FISH)技术和麦胶蛋白的电泳分析,对Ae.comosa的基因组和核型进行了表征,以评估其遗传多样性水平,揭示导致亚种辐射的机制。我们发现两个亚种在3M和6M染色体的大小和形态上不同,这可能是由于相互易位。在微卫星和卫星DNA序列的数量和分布、次要NORs的数量和位置,特别是在3M和6M上,以及主要在a区的麦胶蛋白谱上,亚种也存在差异。杂交的频繁发生可能是由开放授粉引起的,这与材料的遗传异质性以及亚种之间可能缺乏地理或遗传屏障一起,可能导致Ae.comosa中GAAn和麦胶蛋白模式的极其广泛的种内变异,而这种变异通常在特有植物物种中没有观察到。
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Comparative Cytogenetics is a peer-reviewed, open-access, rapid online journal launched to accelerate research on all aspects of plant and animal cytogenetics, karyosystematics, and molecular systematics.
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