部分番荔枝科植物早期和晚期染色体浓缩区的细胞分子特征

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-06-29 DOI:10.1093/botlinnean/boad020
Amanda Santos, Thiago Nascimento, L. Felix, M. Guerra
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引用次数: 0

摘要

前期染色体的凝聚模式(CP)代表了很少探索和了解的核型特征。在大多数具有小染色体的被子植物的常规染色原体中观察到三个不同的染色体结构域:异染色质和早期浓缩常染色质(ECEu),它们被观察为早期浓缩区(ECRs),以及晚期浓缩常色质或晚期浓缩区(LCRs)。所有这三个前期领域都经常在番荔枝科物种中报道。为了更好地了解这些区域,我们研究了7个2n的番荔枝属物种的CP、异色带和rDNA位点 = 14、28和54和具有2n = 16.此外,对其中一些物种的组蛋白H4K5乙酰化、端粒位点和DNA甲基化进行了分析。LCRs对应于中期染色体的一小部分高乙酰化和低甲基化。在间期,色心显示不同比例的异染色质和ECEu。LCRs和ECRs甚至在非显示体和多倍体物种之间都是保守的,而rDNA位点和异色带在数量和位置上各不相同。我们的数据表明,ECR和LCR区域的染色质区室化可能代表番荔枝科小染色体最简单的功能组织,而其余特征则不太相关。
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Cytomolecular characterization of early and late condensing chromosome regions in some Annonaceae species
The condensation patterns (CPs) of prophase chromosomes represent poorly explored and little understood karyotype features. Three distinct chromosome domains are observed in conventionally stained prophases of most angiosperms with small chromosomes: heterochromatin and early condensing euchromatin (ECEu), which are observed as early condensing regions (ECRs), and late condensing euchromatin or late condensing regions (LCRs). All three prophase domains have been often reported in the Annonaceae species. To gain a better understanding of these regions, we investigated the CPs, heterochromatic bands, and rDNA sites in seven Annona species with 2n = 14, 28, and 54 and Xylopia  frutescens with 2n = 16. Besides, histone H4K5 acetylation, telomeric sites, and DNA methylation were analysed in some of these species. LCRs corresponded to a small hyperacetylated, and hypomethylated fraction of the metaphase chromosomes. During interphase, the chromocentres displayed variable proportions of heterochromatin and ECEu. The LCRs and ECRs were conserved even between disploid and polyploid species, whereas rDNA sites and heterochromatic bands varied in number and location. Our data suggest that chromatin compartmentalization in ECR and LCR regions may represent the simplest functional organization of the small chromosomes of Annonaceae, while the remaining characters are less relevant.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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