中国冠果蝇属一新种和二新记录种及DNA条形码信息(双翅目:果蝇科)

基于形态学和分子遗传学证据,描述了冠果蝇属1新种Stegana(Stegana)helvippecta sp.nov.和2中国新记录种:S.(S.)furta(Linnaeus,1767)和 S.(S.)taba Okada,1971;利用41 条 DNA 条形码信息,分析了18种冠果蝇的遗传距离,并提供了中国产全部1...     

转基因油菜与野芥菜混作对土壤线虫群落的影响

随着转基因作物在全球的广泛种植,转基因作物对非靶标生物的影响受到人们的广泛关注。转Bt基因抗虫作物与非转基因作物种间混作是避免昆虫产生抗性的一种生态防御策略,但混作对非靶标生物尤其是土壤线虫影响研究较少。设置不同比例的转基因油菜(Brassica napus)与野芥菜(B.juncea)混作5种处理,包括处理A、B、C、D、E分别为转基因油菜和野芥菜比例0∶100;25∶75;50∶50;75∶25;100∶0,调查不同生育期土壤线虫种类与数量变化。结果表明,在油菜与野芥菜生育期内,不同处理线虫优势类群均为拟丽突属Acrobeloides和真滑刃属Aphelenchus,各处理线虫属数由多到少顺序为处理B(30属)处理C(28属)处理A(26属)处理D和处理E(25属)。线虫生活史策略(c-p值)组成一致,各处理间线虫生活史组成不存在明显差异。不同处理的线虫总数以及各营养类群均无显著差异,线虫群落生态指数亦无显著差异,但不同采样时期间线虫ShannonWiener多样性指数、Simpson优势度指数、均匀度指数、成熟度指数和线虫通路指数差异显著。结果表明转基因油菜与野芥菜单作和混作短期内不影响土壤线虫群落结构。     

Nucleosomes enter cells by clathrin- and caveolin-dependent endocytosis

DNA damage and apoptosis lead to the release of free nucleosomes—the basic structural repeating units of chromatin—into the blood circulation system. We recently reported that free nucleosomes that enter the cytoplasm of mammalian cells trigger immune responses by activating cGMP-AMP synthase (cGAS). In the present study, we designed experiments to reveal the mechanism of nucleosome uptake by human cells. We showed that nucleosomes are first absorbed on the cell membrane through nonspecific electrostatic interactions between positively charged histone N-terminal tails and ligands on the cell surface, followed by internalization via clathrin- or caveolae-dependent endocytosis. After cellular internalization, endosomal escape occurs rapidly, and nucleosomes are released into the cytosol, maintaining structural integrity for an extended period. The efficient endocytosis of extracellular nucleosomes suggests that circulating nucleosomes may lead to cellular disorders as well as immunostimulation, and thus, the biological effects exerted by endocytic nucleosomes should be addressed in the future.     

克隆植物对异质生境的适应对策研究进展

生境异质性是自然生态系统的基本特征,植物生长的必需资源和环境胁迫因子均存在着复杂的时间和空间异质性。克隆植物是指在自然条件下具有克隆特性的植物,即可通过与母株相连的芽、根茎、分蘖或枝条等繁殖体产生无性繁殖的植物,这些繁殖体一旦定居便可成为潜在的独立个体。克隆植物具有独特的生境适应策略(如形态可塑性、克隆整合、克隆分工、觅食行为、风险分摊等),面对异质性的生境条件,它可以通过调整自身的生理和形态结构来适应异质生境。目前,对于克隆植物在异质生境适应行为的研究已有很多报道,然而系统性的归纳和总结尚有欠缺。综述了克隆植物在不同资源异质生境(光照、养分、水分)和不同胁迫生境(盐碱胁迫、风沙胁迫、重金属胁迫)下独特的适应对策。最后,针对克隆植物对异质生境的适应对策,进行了总结并对未来的重点研究方向提出建议：(1)时间异质性尺度上的考量;(2)异质性生境中生物因子的调控作用;(3)克隆植物入侵机制;(4)克隆植物在生态修复中的应用潜力。     

Three‐dimensional change in temperature sensitivity of northern vegetation phenology

Understanding how the temperature sensitivity of phenology changes with three spatial dimensions (altitude, latitude, and longitude) is critical for the prediction of future phenological synchronization. Here we investigate the spatial pattern of temperature sensitivity of spring and autumn phenology with altitude, latitude, and longitude during 1982–2016 across mid‐ and high‐latitude Northern Hemisphere (north of 30°N). We find distinct spatial patterns of temperature sensitivity of spring phenology (hereafter “spring S_T”) among altitudinal, latitudinal, and longitudinal gradient. Spring S_T decreased with altitude mostly over eastern Europe, whereas the opposite occurs in eastern North America and the north China plain. Spring S_T decreased with latitude mainly in the boreal regions of North America, temperate Eurasia, and the arid/semi‐arid regions of Central Asia. This distribution may be related to the increased temperature variance, decreased precipitation, and radiation with latitude. Compared to spring S_T, the spatial pattern of temperature sensitivity of autumn phenology (hereafter “autumn S_T”) is more heterogeneous, only showing a clear spatial pattern of autumn S_T along the latitudinal gradient. Our results highlight the three‐dimensional view to understand the phenological response to climate change and provide new metrics for evaluating phenological models. Accordingly, establishing a dense, high‐quality three‐dimensional observation system of phenology data is necessary for enhancing our ability to both predict phenological changes under changing climatic conditions and to facilitate sustainable management of ecosystems.     

Inheritance and gene mapping of spotted to non-spotted trait gene <Emphasis Type="Italic">CmSp-1</Emphasis> in melon (<Emphasis Type="Italic">Cucumis melo</Emphasis> L<Emphasis Type="Italic">.</Emphasis> var. <Emphasis Type="Italic">chinensis</Emphasis> Pangalo)

Melon (Cucumis melo L.) is one of the most popular and highly nutritious vegetable species within Cucurbitaceae. Because appearance is used as an important indicator of quality, the spotted to non-spotted trait associated with this product somewhat influences the buying habits of consumers. We tested a six-generation family to determine the inheritance and genetic basis of this trait. Genetic groups F₁, F₂, BC₁P₁, and BC₁P₂ were from a cross between “IM16559” (non-spotted) and “IM16553” (spotted). Our genetic analysis showed that the spotted to non-spotted trait was controlled by a single dominant gene that we named CmSp-1. Whole-genome resequencing-bulked segregant analysis (WG-BSA) demonstrated that this gene was located on the end of chromosome 2, in the intersections of 22,160,000 to 22,180,000 bp and 22,260,000 to 26,180,000 bp, an interval distance of 3.94 Mb. Insertion-deletion (InDel) markers designed based on WG-BSA data were used to map this gene. Using 13 InDel markers, we produced a genetic map indicating that CmSp-1 was tightly linked to markers I734-2 and I757, with genetic distances of 1.8 and 0.4 cM and an interval distance of 280.872 kb. The closest marker was I757. Testing of 107 different melon genotypes presented an accuracy of 84.11% in predicting the phenotype. By being able to locate CmSp-1 in melon, we can now use the findings to identify potential targets for further marker-assisted breeding and cloning projects.