cryo-FIB lift-out 新技術-- Kleindiek

低溫纖維提離技術可以在秀麗隱桿線蟲組織中實現分子級別分辨率的低溫電子斷層掃描，這一成果由馬克斯·普朗克生物化學研究所Juergen M. Plitzko和Miroslava Schaffer牽頭的聯合團隊取得。相關論文發表在2019年8月2日出版的《自然—方法學》上。

課題組人員描述了一種制備方法，該方法基于使用低溫夾具工具從高壓冷凍大塊樣品中有針對性地提取材料。這種提離技術使低溫電子斷層掃描可用于多細胞生物和組織，擴大了原位結構生物學的應用范圍。研究組開展了對秀麗隱桿線蟲（Caenorhabditis elegans）蠕蟲中細胞溶質80S核糖體的結構研究，從而證明了該提離技術的潛力。制備質量允許亞圖分析，具有足夠的分辨率來區分單個核糖體易位狀態，并顯示核糖體結構中細胞間的顯著變化。

據了解，低溫聚焦離子束銑削冷凍水化細胞技術，近為細胞內部空間的研究提供了視角。結合低溫電子層析技術，這種方法可以進入細胞內部天然結構，從而實現對大分子的原位結構研究。然而，這種方法主要局限于可以被*玻璃化冷凍保存的單個細胞。

附：英文原文

Title: A cryo-FIB lift-out technique enables molecular-resolution cryo-ET within native Caenorhabditis elegans tissue

Author: Miroslava Schaffer, Stefan Pfeffer, Julia Mahamid, Stephan Kleindiek, Tim Laugks, Sahradha Albert, Benjamin D. Engel, Andreas Rummel, Andrew J. Smith, Wolfgang Baumeister, Juergen M. Plitzko

Issue&Volume:  Volume 16 Issue 8

Abstract: Cryo-focused ion beam milling of frozen-hydrated cells has recently provided unprecedented insights into the inner space of cells. In combination with cryo-electron tomography, this method allows access to native structures deep inside cells, enabling structural studies of macromolecules in situ. However, this approach has been mainly limited to individual cells that can be completely vitrified by plunge-freezing. Here, we describe a preparation method that is based on the targeted extraction of material from high-pressure-frozen bulk specimens with a cryo-gripper tool. This lift-out technique enables cryo-electron tomography to be performed on multicellular organisms and tissue, extending the range of applications for in situ structural biology. We demonstrate the potential of the lift-out technique with a structural study of cytosolic 80S ribosomes in a Caenorhabditis elegans worm. The preparation quality allowed for subtomogram analysis with sufficient resolution to distinguish individual ribosomal translocation states and revealed significant cell-to-cell variation in ribosome structure.

DOI: 10.1038/s41592-019-0497-5

 

期刊信息

Nature Methods：《自然—方法學》，創刊于2004年。隸屬于施普林格·自然出版集團，IF：28.467