Souza Thaíssa Boldieri de, Parteka Letícia Maria, Kuo Yi-Tzu, Nascimento Thiago, Schubert Veit, Pedrosa-Harand Andrea, Marques André, Houben Andreas, Vanzela André Luís Laforga
Laboratório de Citogenética e Diversidade Vegetal, Departamento de Biologia Geral, Centro de Ciências Biológicas, Universidade Estadual de Londrina, Londrina, 86097-570 Paraná, Brazil.
Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) Gatersleben, 06466 Seeland, Germany.
Genome. 2025 Jan 1;68:1-13. doi: 10.1139/gen-2024-0089. Epub 2024 Sep 16.
R. Br. (Cyperaceae) species are known for having holocentric chromosomes, which enable rapid karyotype differentiation. High intra- and interspecific variations in chromosome numbers and genome sizes are documented for different species, frequently accompanied by fluctuations in the repetitive DNA fraction. However, a lack of detailed analysis has hampered a better understanding of the interplay between holocentricity and repetitive DNA evolution in this genus. In our study, we confirmed the holocentricity of chromosomes by immunostaining against the kinetochore protein KNL1 and the cell-cycle dependent posttranslational modifications histone H2AThr121ph and H3S10ph. We further studied the composition and chromosomal distribution of the main satellite DNA repeats found in the newly sequenced species , and . Five of the six satellites discovered were arranged in clusters, while EmaSAT14 was distributed irregularly along the chromatid length in a line-like manner. EmaSAT14 monomers were present in a few copies in few species across the phylogenetic tree. Nonetheless, they were accumulated within a restricted group of Maculosae series, subgenus . The data indicates that the amplification and line-like distribution of EmaSAT14 along chromatids may have occurred recently within a section of the genus.
莎草科的刺子莞属(R. Br.)物种以具有全着丝粒染色体而闻名,这使得核型能够快速分化。不同物种的染色体数目和基因组大小存在高度的种内和种间变异,且常常伴随着重复DNA比例的波动。然而,缺乏详细分析阻碍了对该属全着丝粒与重复DNA进化之间相互作用的更好理解。在我们的研究中,我们通过针对动粒蛋白KNL1以及细胞周期依赖性翻译后修饰组蛋白H2AThr121ph和H3S10ph进行免疫染色,证实了染色体的全着丝粒性质。我们进一步研究了新测序物种刺子莞(Rhynchospora emarginata)和尖喙刺子莞(Rhynchospora acuminata)中发现的主要卫星DNA重复序列的组成和染色体分布。发现的六个卫星序列中有五个成簇排列,而EmaSAT14以线状方式沿染色单体长度不规则分布。EmaSAT14单体在系统发育树中的少数物种中以少量拷贝存在。尽管如此,它们在刺子莞属(Rhynchospora)下的Maculosae系列的一个受限组内积累。数据表明,EmaSAT14沿染色单体的扩增和线状分布可能是该属某一部分最近才出现的。
