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改进成像技术以了解细胞器膜细胞动态
了解正常组织和肿瘤组织中的细胞功能,是推动潜在治疗策略研究和了解某些治疗失败原因的关键因素。单细胞分析在生物医学研究中至关重要,它能揭示在癌症等复杂疾病中哪些细胞和分子通路发生了改变。
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Advancing Cell Biology with Cryo-Correlative Microscopy
Correlative light and electron microscopy (CLEM) advances biological discoveries by merging different microscopes and imaging modalities to study systems in 4D. Combining fluorescence microscopy with…
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Consumables for Laser Microdissection
There are many different types of consumables for laser microdissection (LMD) systems. They cover a wide range of applications from basic to highly specialized, enabling scientists to choose their own…
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FLIM( 荧光寿命成像)显微镜如何帮助检测微塑料污染
在生物样本中使用自发荧光是一种广泛应用的方法,可以帮助深入了解系统或生物体。这种特性不仅存在于生物系统中,人工材料如塑料也能够发出自发荧光。通过荧光寿命成像显微镜(FLIM)测量这种自发荧光的时间分辨率,可以获得荧光衰减的数据,即荧光寿命(τ)。我们的研究表明,荧光寿命可以用于无标记地表征塑料(微塑料)。
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High-pressure freezing: Revealing functional mechanisms of synaptic transmission
Learn more about applying optogenetic stimulation in the EM ICE and how this technology has the potential to reveal structural and functional mechanisms of synaptic transmission. Get a detailed…
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从器官到组织再到细胞:使用宽场显微镜分析 3D 标本
在传统的宽场显微镜下从厚的三维样本中获取高质量的数据和图像是具有挑战性的,因为存在失焦光的干扰。在本次网络研讨会中,Falco Krüger 展示了THUNDER成像仪如何通过Computational Clearing技术使这一切成为可能。
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Workflows and Instrumentation for Cryo-electron Microscopy
Cryo-electron microscopy is an increasingly popular modality to study the structures of macromolecular complexes and has enabled numerous new insights in cell biology. In recent years, cryo-electron…
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模式生物研究
模式生物是研究人员用来研究特定生物学过程的物种。 它们具有与人类相似的遗传特征,通常用于遗传学、发育生物学和神经科学等研究领域。 选择模式生物的原因通常是它们在实验室环境中易于保持和繁殖、生成周期短,或能够产生突变体来研究某些性状或疾病。
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Factors to Consider When Selecting a Research Microscope
An optical microscope is often one of the central devices in a life-science research lab. It can be used for various applications which shed light on many scientific questions. Thereby the…
