Fluorescence microscopy visualization of halomucin, a secreted 927 kDa protein surrounding Haloquadratum walsbyi cells.

At the time of its first publication, halomucin from Haloquadratum walsbyi strain HBSQ001 was the largest archaeal protein known (9159 aa). It has a predicted signal sequence, making it likely to be an extracellular or secreted protein. Best BLAST matches were found to be mammalian mucins that protect tissues to dehydration and chemical stress.

Loss of the actin-like protein MamK has pleiotropic effects on magnetosome formation and chain assembly in Magnetospirillum gryphiswaldense.

Magnetotactic bacteria synthesize magnetosomes, which are unique organelles consisting of membrane-enclosed magnetite crystals. For magnetic orientation individual magnetosome particles are assembled into well-organized chains. The actin-like MamK and the acidic MamJ proteins were previously implicated in chain assembly.

Micromachining tools and correlative approaches for cellular cryo-electron tomography.

A principal limitation of cryo-transmission electron microscopy performed on cells or tissues is the accessible specimen thickness. This is exacerbated in tomography applications, where the aspect ratio (and thus the apparent specimen thickness) changes considerably during specimen tilting. Cryo-ultramicrotomy is the most obvious way of dealing with this problem; however, frozen-hydrated sections suffer from potentially inconsistent compression that cannot be corrected with certainty, and furthermore, yields of sections that satisfy all of the conditions necessary for tomographic imaging are poor.

Electron tomography of vitreous sections from cultured mammalian cells.

Cryo-electron tomography of appropriately thin, frozen-hydrated biological specimens has excellent potential for investigating the 3D macromolecular architecture of eukaryotic cells and tissues. Since cardiomyocytes are too thick to be visualised in an intact state, we grew immortalised cell line HL-1 to sub-confluency and harvested the cells by enzymatic detachment prior to hyperbaric freezing, ultramicrotomy, and tomography. We improved the efficiency of tomographic acquisition from vitreous cryosections by implementing two new features: (1) fluorescence microscopy at cryogenic temperatures to search for features of interest without expending any of the tolerable electron dose on secondary (non-imaging) tasks, and (2) the use of colloidal gold as fiducial markers.

Luminal particles within cellular microtubules.

The regulation of microtubule dynamics is attributed to microtubule-associated proteins that bind to the microtubule outer surface, but little is known about cellular components that may associate with the internal side of microtubules. We used cryoelectron tomography to investigate in a quantitative manner the three dimensional structure of microtubules in intact mammalian cells. We show that the lumen of microtubules in this native state is filled with discrete, globular particles with a diameter of 7 nm and spacings between 8 and 20 nm in neuronal cells.

An acidic protein aligns magnetosomes along a filamentous structure in magnetotactic bacteria.

Magnetotactic bacteria are widespread aquatic microorganisms that use unique intracellular organelles to navigate along the Earth's magnetic field. These organelles, called magnetosomes, consist of membrane-enclosed magnetite crystals that are thought to help to direct bacterial swimming towards growth-favouring microoxic zones at the bottom of natural waters. Questions in the study of magnetosome formation include understanding the factors governing the size and redox-controlled synthesis of the nano-sized magnetosomes and their assembly into a regular chain in order to achieve the maximum possible magnetic moment, against the physical tendency of magnetosome agglomeration.