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WernerKühlbrandt创造了词组‘resolution revolution’ in 2014 highlighting the breakthrough in electron cryo-microscopy (cryo-EM) that allows almost atomic-resolution molecular imaging. Similar advances in high-resolution methods have taken place right across the life sciences, and it certainly hasn’t gone unnoticed, with Nobel Prizes in 2014 for super-resolution fluorescence microscopy, and in 2017 for cryo-EM. This Spotlight draws together some of the recent articles published in the BMC Series, from single cell genomics to light-sheet microscopy.
The transition from bulk sequencing of multiple cells and tissues to sequencing of individual cells has revealed the heterogeneity in the genome, and it’s been used very effectively to map the clonal evolution of cancer. Combining单细胞RNA-seq用生物信息学方法已被用来探索对治疗的抵抗力。单细胞RNA-Seq是转录组学最受欢迎的工具之一,这部分是因为它可以应用于几乎所有可用参考基因组的样本。分析这些数据的软件和工具已大大增加,并且需要C选择预处理管道突出显示,需要一种方法在平台上转换scrna-seq数据集。
来自环境样本(称为EDNA)的微量遗传材料的高通量测序比显微镜或历史记录记录的物种多样性要大得多。最近评估的文章鞭毛组合澳大利亚在两个不同的轨迹tions showed that sequencing detects rare and less abundant taxa better than traditional methods, and all taxa identified by microscopy were detected by sequencing. eDNA metabarcoding of seawater samples was effective in detecting鲨鱼和射线,并与自然史的收集和先前的调查报告相比,揭示了新的物种多样性。可以在埃德娜(Edna)(和erna)在生态学中应用进展的进一步示例收藏在BMC生态与进化。
显微镜仍然很重要,尤其是在细胞水平上,尤其是与其他数字或技术创新结合使用时。通过三个维度的肿瘤组织的可视化虚拟现实提供了一种新的教学方法和研究病理学方法。和灯表显微镜,一种具有良好光学切片的荧光显微镜技术,用于表征自闭症谱系障碍潜在模型中的胚胎小鼠大脑。使用3D印刷微型板插入已经允许对整个活脑器官的长期高分辨率成像。
尽管Cryo-EM偷走了分子结构进步的众人瞩目,但其他方法仍在不断改善,尤其是用于研究活生物体中的分子相互作用。例如,原子力显微镜揭示了粘膜表面特性鲑鱼煎炸无需去除粘膜表面,纳米(生物发光谐振能传递)首次应用于体内线虫秀丽隐杆线虫,以检测蛋白质 - 蛋白质相互作用。
我们希望您喜欢这些亮点,我们鼓励在整个广度上提交genomics,,,,ecology,,,,细胞生物学and分子生物学as well as植物生物学,,,,microbiology,,,,生物技术and生物医学工程。
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