Journal of Lipid Research (Sep 2000)

Morphology of sodium deoxycholate-solubilized apolipoprotein B-100 using negative stain and vitreous ice electron microscopy

  • Donald L. Gantz,
  • Mary T. Walsh,
  • Donald M. Small

Journal volume & issue
Vol. 41, no. 9
pp. 1464 – 1472

Abstract

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The primary and secondary structures of apolipoprotein B-100 (apoB-100) are well established. Previous morphological studies have suggested that apoB is a long, flexible, threadlike molecule that encircles the low density lipoprotein (LDL) particle. Several large domain regions of the protein have been observed in frozen hydrated LDL and may be involved in anchoring of the protein to the lipid surface of LDL. Calorimetric studies of sodium deoxycholate (NaDC)-solubilized apoB indicated a similar number of independently melting domains. We therefore undertook a morphological study of NaDC-solubilized apoB-100 using negative stain and vitreous ice cryoelectron microscopy, a nonperturbing preservation technique. Negative staining experiments were performed in two ways: 1) grids were pulled through NaDC-containing buffer surfaces on which monolayers of apoB had been promoted, or 2) apoB molecules were allowed to diffuse onto carbon surfaces of grids that were floated on sample droplets. Vitrified molecules of apoB were obtained by plunging a thin fluid layer of protein adhered to a holey carbon-coated grid into supercooled ethane and by preserving the molecules in liquid nitrogen. The majority of molecules prepared in negative stain and vitreous ice were curved or arced and had alternating thin and thick regions. In negative stain, the apoB molecules lay on the grid perpendicular to the electron beam and had a mean length of 650 Å. In vitreous ice the molecules were randomly oriented and their images ranged from 160 to 650 Å in length. Vitrified molecules provided visualization of one or two beaded regions. Similar regions were observed in negative stain but the overall thickness was two to three times greater. Some vitrified molecules contained ribbon-like portions. Our study supports previously obtained data on molecule length but suggests that negative staining overestimates molecule width. These first images of vitrified NaDC-solubilized apoB-100 confirm the long, flexible, beaded thread morphology of the molecule and support the unique potential of this technique when coupled with proper molecule orientation and antibody labeling to correlate the tertiary structure of apoB seen in the intact particle with that of the isolated molecule. —Gantz, D. L., M. T. Walsh, and D. M. Small. Morphology of sodium deoxycholate-solubilized apolipoprotein B-100 using negative stain and vitreous ice electron microscopy. J. Lipid Res. 2000. 41: 1464–1472.

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