A Plasmopara viticola RXLR effector targets a chloroplast protein PsbP to inhibit ROS production in grapevine

Pathogens secrete a large number of effectors that manipulate host processes to create an environment conducive to pathogen colonization. However, the underlying mechanisms by which Plasmopara viticola effectors manipulate host plant cells remain largely unclear. In this study, we reported that RXLR31154, a P. viticola RXLR effector, was highly expressed during the early stages of P. viticola infection. In our study, stable expression of RXLR31154 in grapevine (Vitis vinifera) and Nicotiana benthamiana promoted leaf colonization by P. viticola and Phytophthora capsici, respectively. By yeast two-hybrid screening, the 23-kDa oxygen-evolving enhancer 2 (VpOEE2 or VpPsbP), encoded by the PsbP gene, in Vitis piasezkii accession Liuba-8 was identified as a host target of RXLR31154. Overexpression of VpPsbP enhanced susceptibility to P. viticola in grapevine and P. capsici in N. benthamiana, and silencing of NbPsbPs, the homologs of PsbP in N. benthamiana, reduced P. capcisi colonization, indicating that PsbP is a susceptibility factor. RXLR31154 and VpPsbP protein were co-localized in the chloroplast. Moreover, VpPsbP reduced H₂O₂ accumulation and activated the ¹O₂ signaling pathway in grapevine. RXLR31154 could stabilize PsbP. Together, our data revealed that RXLR31154 reduces H₂O₂ accumulation and activates the ¹O₂ signaling pathway through stabilizing PsbP, thereby promoting disease.     

Responses of the ecological characteristics and antioxidant enzyme activities in Rotaria rotatoria to UV-B radiation

Hydrobiologia - UV-B radiation is an increasing threat to aquatic organisms and also a potential driving force for zooplankton population dynamics. To explore the ecological effects of UVR on...     

Narrow H3K4me2 is required for chicken PGC formation

The development of primordial germ cells (PGCs) undergoes epigenetic modifications. The study of histone methylation in regulating PGCs is beneficial to understand the development and differentiation mechanism of germ stem cells. Notably, it provides a theoretical basis for directed induction and mass acquisition in vitro. However, little is known about the regulation of PGC formation by histone methylation. Here, we found the high enrichment of H3K4me2 in the blastoderm, genital ridges, and testis. Chromatin immunoprecipitation sequencing was performed and the results revealed that genomic H3K4me2 is dynamic in embryonic stem cells, PGCs, and spermatogonial stem cells. This trend was consistent with the H3K4me2 enrichment in the gene promoter region. Additionally, narrow region triggered PGC‐related genes (Bmp4, Wnt5a, and Tcf7l2) and signaling pathways (Wnt and transforming growth factor‐β). After knocking down histone methylase Mll2 in vitro and vivo, the level of H3K4me2 decreased, inhibiting Cvh and Blimp1 expression, then repressing the formation of PGCs. Taken together, our study revealed the whole genome map of H3K4me2 in the formation of PGCs, contributing to improve the epigenetic study in PGC formation and providing materials for bird gene editing and rescue of endangered birds.     

非结构蛋白在非洲猪瘟病毒感染中作用

非洲猪瘟(African swine fever,ASF)是由非洲猪瘟病毒(African swine fever virus,ASFV)感染引起的一种急性、出血性猪传染病,给疫情发生国家(地区)的养猪业造成重大经济损失.ASFV为双股DNA病毒,基因组含有150～167个开放阅读框(ORFs),可编码150～200种蛋白质,其中非结构蛋白有100余种.ASFV编码的酶、转录因子、调节宿主细胞功能蛋白和病毒免疫逃逸相关蛋白等作为重要的非结构蛋白,在病毒核苷酸代谢、DNA复制、修复、转录、蛋白修饰以及病毒与宿主细胞相互作用等过程中发挥重要作用,但仍有许多非结构蛋白的功能尚不明晰.因此,本文综述了 ASFV非结构蛋白在病毒感染中的作用,以期为ASFV非结构蛋白的进一步研究提供参考.     

喀什边境口岸陆运卡车及集装箱污染的新冠病毒基因特征分析

新疆维吾尔自治区喀什地区作为我国与中亚和欧洲的重要陆路货运口岸,来往货物运输频繁,引入新型冠状病毒(SARS-CoV-2)风险大,对我国新型冠状病毒肺炎(COVID-19)疫情防控造成压力.2020年11月我国新疆维吾尔自治区喀什地区发生输入SARS-CoV-2导致的本土聚集性COVID-19疫情.为明确货物运输载体携带SARS-CoV-2的基因特征以及边境快速物流系统作为SARS-CoV-2传播载体的可能性,本研究对2020年11月6日-2020年11月10日期间在喀什边境口岸货运卡车及运输的集装箱采集的35份SARS-CoV-2核酸阳性样本进行SARS-CoV-2全基因组序列测定和比对分析.结果 显示,35份样本ORFlab基因Ct值的中位数(最小值～最大值)为37.64(28.91～39.81),N基因Ct值的中位数(最小值～最大值)为36.50(26.35～39.30),Reads数匹配率的中位数(最小值～最大值)为51.95％(0.86％～99.31％),病毒载量较低;35份样本中基因组覆盖度达到70％以上的共计18份.基于Pango命名法,18条SARS-CoV-2基因组序列分别属于B.1、B.1.1、B.1.9、B.1.1.220、B.1.153和B.1.465共6个不同的基因型,其中3个基因型(B.1、B.1.1和B.1.153)在喀什边境接壤或邻近的四个国家同期采集的病例样本中也有发现.核苷酸突变位点和系统进化树分析显示,同一个地点采集的样本病毒基因组相似程度高;18条序列中的4条与喀什COVID-19疫情毒株代表序列处在同一个进化分支;其中1条序列与喀什COVID-19疫情毒株基因组存在1个或2个核苷酸突变位点差异,高度同源.本研究证实喀什COVID-19疫情期间边境货运卡车和集装箱存在境外多种基因型病毒的污染,其中存在喀什COVID-19疫情毒株的祖父代病毒,高度提示边境快速物流系统卡车及集装箱作为载体携带SARS-CoV-2病毒入境造成了本土疫情,这些数据为我国边境口岸地区的新冠防控策略制定及后续疫情溯源提供了关键的参考依据.     

生态系统服务供给和需求研究评述及框架体系构建

生态系统服务供给和需求联系着自然生态系统与社会经济系统,对生态系统服务供给和需求的研究有助于加强生态系统管理和实现资源优化配置,从而保障区域生态安全与社会经济可持续发展。本文在系统梳理国内外相关研究的基础上,对生态系统服务供给和需求的概念内涵、评估方法和实践应用等方面进行全面综述。从理论发展的角度看,虽然目前已取得较为丰富的研究成果,但是现有研究仍较为分散,缺乏统一的生态系统服务供需研究框架体系。鉴于此,本文在对生态系统服务供给和需求的研究范畴进行拓展的基础上,按照“理论-方法-实践”相统一的研究脉络,构建了“定性-定位-定量-定策”的生态系统服务供给和需求研究框架体系,最后提出未来研究应围绕“重点关注生态系统服务供给和需求的空间转移规律、加强生态系统服务供给和需求的定量方法研究、深化生态系统服务供给和需求应用管理实践和建立生态系统服务供给和需求应用评价机制”等方面展开,以期促进生态系统服务供给和需求的理论与实践研究。     

小麦倒春寒研究现状与进展

由于全球气候变暖,近年来小麦低温灾害事件频发,尤其是拔节-孕穗期的倒春寒灾害已成为制约小麦产量和品质的重要因素之一。本文综述了小麦倒春寒灾害的发生特点(鉴定与分级、时空特征),倒春寒对小麦生理特性(叶片、茎秆、穗部、根系)和产量、质量的影响,总结了抗倒春寒小麦育种、倒春寒危害的分子生物学机制及灾害的监测预警与风险评估等方面的研究进展,并从小麦抗倒春寒遗传基础、倒春寒危害小麦评价体系和防控技术体系等方面进行了展望,以期为抗倒春寒小麦品种的遗传改良和栽培调控新措施的建立提供理论依据。