奇异变形杆菌中基因岛介导的多重耐药传播研究进展

奇异变形杆菌是导致医院内感染的重要条件致病菌,广泛分布于自然环境及人和动物的肠道中。基因岛是细菌染色体上约10-200 kb独立的DNA片段,能促进宿主细菌适应复杂多变的环境,与细菌适应性进化密切相关。近年来在奇异变形杆菌基因组中发现了多个与多重耐药密切相关的基因岛,包括沙门菌基因岛1及其相关基因岛、SXT/R391整合性接合元件、PmGRI1等,表明基因岛在奇异变形杆菌多重耐药形成和传播中具有重要作用。本文对奇异变形杆菌中与耐药相关基因岛的结构特征、传播机制、流行情况等进行综述,以期为奇异变形杆菌中多重耐药相关基因岛的深入研究提供参考。     

基于“抗疫精神”的“基因工程”课程思政教学设计与实践

课程思政是当前高校落实“立德树人”根本任务的重要形式。在抗击新型冠状病毒肺炎疫情中,中华民族同舟共济、守望相助,共同铸就了伟大的抗疫精神,为课程思政教学提供了最生动的元素。本文对“战疫”行动中的抗疫精神进行梳理和总结,将其内涵凝练为5项内容;以新型冠状病毒的“核酸检测、疫苗研制及其变异”中蕴含的“抗疫精神”为思政载体,甄选“基因工程”课程中对应的理论内容,开展聚焦抗疫精神的“基因工程”课程思政教学设计与实践研究,利用问卷法和深度访谈法对教学实施效果进行评价,旨在引导学生在学习专业理论知识的同时,感悟课程内容中蕴含的抗疫精神,并将其内化为价值追求,潜移默化中提升学生的思想意识和道德修养,同时为生物类其他专业课程思政教学提供参考和借鉴。     

piggyBac转座子AgoPLE1.1在黑腹果蝇种系 转化中的应用

【目的】通过检测黑腹果蝇Drosophila melanogaster中piggyBac (PB)转座子AgoPLE1.1的转化活性,明确AgoPLE1.1开发为昆虫转基因载体的潜力。【方法】构建AgoPLE1.1转座酶辅助质粒pAgoHsp和带有红色荧光标记的供体质粒pXLAgo-PUbDsRed,辅助质粒和供体质粒以170 ng/μL∶400 ng/μL, 90 ng/μL∶200 ng/μL和90 ng/μL∶100 ng/μL 3种不同的比例混合后分别注射新鲜的W¹¹¹⁸ 黑腹果蝇胚胎,筛选注射后代中的转基因黑腹果蝇个体;利用Southern杂交验证转基因黑腹果蝇中AgoPLE1.1转座子的插入拷贝数;利用染色体步移技术克隆AgoPLE1.1插入位点旁侧序列,明确AgoPLE1.1转座子的转座特征。【结果】AgoPLE1.1转座子在黑腹果蝇中具有转化活性,转基因频率为1.32%~1.94%。Southern杂交结果显示,AgoPLE1.1转座子在黑腹果蝇中至少有6个插入位点。染色体步移法克隆了其中4个位点,分别位于黑腹果蝇的3R, 3L, 2L和X染色体,并且AgoPLE1.1转座子在黑腹果蝇染色体中的整合带有供体质粒的骨架。【结论】PB转座子AgoPLE1.1仅可以在黑腹果蝇中以较低的频率进行非精确的剪切和转座,不具有开发为新型昆虫转基因载体的潜力。     

Repeat proliferation and partial endoreplication jointly shape the patterns of genome size evolution in orchids

Although the evolutionary drivers of genome size change are known, the general patterns and mechanisms of plant genome size evolution are yet to be established. Here we aim to assess the relative importance of proliferation of repetitive DNA, chromosomal variation (including polyploidy), and the type of endoreplication for genome size evolution of the Pleurothallidinae, the most species-rich orchid lineage. Phylogenetic relationships between 341 Pleurothallidinae representatives were refined using a target enrichment hybrid capture combined with high-throughput sequencing approach. Genome size and the type of endoreplication were assessed using flow cytometry supplemented with karyological analysis and low-coverage Illumina sequencing for repeatome analysis on a subset of samples. Data were analyzed using phylogeny-based models. Genome size diversity (0.2–5.1 Gbp) was mostly independent of profound chromosome count variation (2n = 12–90) but tightly linked with the overall content of repetitive DNA elements. Species with partial endoreplication (PE) had significantly greater genome sizes, and genomic repeat content was tightly correlated with the size of the non-endoreplicated part of the genome. In PE species, repetitive DNA is preferentially accumulated in the non-endoreplicated parts of their genomes. Our results demonstrate that proliferation of repetitive DNA elements and PE together shape the patterns of genome size diversity in orchids.     

染色质调节元件与不同启动子的相互作用对基因表达调控的影响

为探究DNA序列元件对不同启动子调节转基因稳定表达的影响,利用遍在染色质开放元件 (Ubiquitous chromatin opening elements,UCOE) 和基质黏附序列 (Scaffold/matrix-attachment regions,MAR) 分别与含增强子的oct4基因启动子、含CpG岛的sox2基因启动子和不含调控元件的nanog基因启动子以及同时包含增强子和CpG岛的CMV启动子组合构建pOCT4-MAR、pOCT4-UCOE、pSOX2-MAR、pSOX2-UCOE、pNANOG-MAR、pNANOG-UCOE、pCMV-UCOE、pCMV-MAR等质粒,分析这些质粒稳定转染后的表达量和嵌合表达差异。结果发现,UCOE与含增强子元件的oct4启动子组合能较稳定高效表达,而MAR与含CpG岛的sox2启动子组合能较稳定高效表达。利用排除位置效应原因的嵌合表达对染色质高级结构调控基因表达的稳定性分析表明：(1) 通常情况下UCOE比MAR调节的表达载体的表达更高效和更稳定;UCOE连接含CpG岛的启动子形成开放染色质调节的高表达更稳定;(2) MAR与启动子上TATA盒或增强子可能通过染色质环产生高表达,但相对不稳定。结论：染色质调节元件UCOE和MAR与启动子调控元件之间能通过染色质开放状态或染色质环调控基因稳定表达。     

“蛋白质与酶工程”教学的课程思政探索与实践

蛋白质与酶工程是生物技术专业的核心、必修课程,在专业人才培养体系中具有重要地位。文中以教育部颁布的《高等学校课程思政建设指导纲要》为依据、结合专业及课程特色,科学设定教学目标,深入挖掘课程思政教育元素,从融入内容、方法路径及评价等方面进行了课程思政教学改革的探索和实践。通过精心开展教学设计,利用对分课堂、以学生为中心,从讲故事、谈生活、说案例、议热点、读文献、做训练入手,激发并培养学生的科学精神、公民品格、全球视野、生态文明、法治意识、家国情怀和文化自信素养,促进课程思政教育有机融入教学全过程,实现课程育人目标的同时推动教学卓越。     

遗传学课程思政教育的探索与实践

课程思政对高校落实立德树人、实现人才培养目标具有重要的意义。在专业课中进行课程思政改革有助于探究高校专业课程中育人功能的发挥。遗传学是生命科学专业重要的基础课程,在生命科学知识体系的构建中具有重要作用。立足内蒙古农业大学示范课程改革的教学实践,我们重塑了教学目标,改革教学方法,挖掘遗传学课程中蕴含的思政元素,使德育教育深入教师心、学生心,贯穿于教学、教评全过程,使知识传授、能力培养与价值引领同向同行,以提升学生的综合素质。     

Les cabanes de type « Anosovka-Mézine » du site de Yudinovo : éléments de construction,architecture, classification

The study is focused on comparative analysis of the five dwellings of the Anosov-Mezin type from the East-Epigravettian site of Yudinovo (Bryansk region, Russia). The analysis is based on data on previously unknown structural elements and methods of installation of mammoth skulls in the basement of dwelling N^o 5, which were revealed during excavations in 2015–2018. Apart of this the non-utilitarian actions that accompanied the process of dwellings construction was considered. Based on the revealed differences in structural elements and features, it was suggested that the currently used concept Anosovka-Mezin type of dwellings includes two types of the circular structures made of skulls and large mammoth bones.     

X-linked meiotic drive can boost population size and persistence

X-linked meiotic drivers cause X-bearing sperm to be produced in excess by male carriers, leading to female-biased sex ratios. Here, we find general conditions for the spread and fixation of X-linked alleles. Our conditions show that the spread of X-linked alleles depends on sex-specific selection and transmission rather than the time spent in each sex. Applying this logic to meiotic drive, we show that polymorphism is heavily dependent on sperm competition induced both by female and male mating behavior and the degree of compensation to gamete loss in the ejaculate size of drive males. We extend these evolutionary models to investigate the demographic consequences of biased sex ratios. Our results suggest driving X-alleles that invade and reach polymorphism (or fix and do not bias segregation excessively) will boost population size and persistence time by increasing population productivity, demonstrating the potential for selfish genetic elements to move sex ratios closer to the population-level optimum. However, when the spread of drive causes strong sex-ratio bias, it can lead to populations with so few males that females remain unmated, cannot produce offspring, and go extinct. This outcome is exacerbated when the male mating rate is low. We suggest that researchers should consider the potential for ecologically beneficial side effects of selfish genetic elements, especially in light of proposals to use meiotic drive for biological control.