<strong>CHEM</strong> <strong>165</strong>,<strong>265</strong>/<strong>BIMM</strong> <strong>162</strong>/<strong>BGGN</strong> <strong>262</strong><strong>REFERENCE</strong> <strong>LISTS</strong>E. 3D Reconstruction from Electron Micrographs (Cont'd)Single Particles (Non-Icosahedral Point Group Symmetries)DeRosier, D. J. and Oliver, R. M. (1972) A low resolution electron-density map of lipoyl transsuccinylase, thecore of the alpha-ketoglutarate dehydrogenase complex. Cold Spring Harb. Symp. Quant. Biol. 36:199-203.Mellema, J. E. and Klug, A. (1972) Quaternary structure of gastropod haemocyanin. Nature (London)239:146-150.Hoppe, W., Schramm, H. J., Sturm, M., Hunsmann, N. and Gassmann, J. (1976) Three-dimensional electronmicroscopy of individual biological objects. Part III. Experimental results on yeast fatty acid synthetase.Zeit. Naturforsch. A. 31:1380-1390.Vigers, G. P. A., R. A. Crowther and B. M. F. Pearse (1986) Three-dimensional structure of clathrin cages inice. EMBO J. 5:529-534.Vigers, G. P. A., R. A. Crowther and B. M. F. Pearse (1986) Location of the 100kd - 50kd accessory proteinsin clathrin coats. EMBO J. 5:2079-2085.Boisset, N., R. Grassucci, P. Penczak, E. Delain, F. Pochon, J. Frank and J. N. Lamy (1992) Threedimensionalreconstruction of a complex of human α 2 -macroglobulin with monomaleimido nanogold (Au1.4nm) embedded in ice. J. Struct. Biol. 109:39-45.Schroeter, J. P., S. J. Kolodziej, T. Wagenknecht, J.-P. Bretaudiere, J. T. Bretaudiere, D. K. Strickland and J.K. Stoops (1992) Three-dimensional structures of the human α 2 -macroglobulin-methylamine andchymotryrpsin complexes. J. Struct. Biol. 109:235-247.Boisset, N., P. Penczek, F. Pochon, J. Frank and J. Lamy (1993) Three-dimensional architecture of humanα 2 -macroglobulin transformed with methylamine. J. Mol. Biol. 232:522-529.Boisset, N., M. Radermacher, R. Grassucci, J.-C. Taveau, W. Liu, J. Lamy, J. Frank and J. N. Lamy (1993)Three-dimensional immunoelectron microscopy of scorpion hemocyanin labeled with a monoclonal Fabfragment. J. Struct. Biol. 111:234-244.Larquet, E., N. Boisset, F. Pochon and J. Lamy (1994) Architecture of native human α 2 -macroglobulin studiedby cryoelectron microscopy and three-dimensional reconstruction. J. Struct. Biol. 113:87-98.Tsuprun, V., D. Anderson and E. H. Egelman (1994) <strong>The</strong> bacteriophage phi29 head-tail connector shows 13-fold symmetry in both hexagonally packed arrays and as single particles. Biophys. J. 66:2139-2150.van Heel, M. and P. Dube (1994) Quaternary structure of multihexameric arthropod hemocyanins. Micron25:387-418.Boisset, N., P. Penczek, J.-C. Taveau, J. Lamy, J. Frank and J. Lamy (1995) Three-dimensionalreconstruction of Androctonus australis hemocyanin labeled with a monoclonal Fab fragment. J. Struct. Biol.115:16-29.Dube, P., E. V. Orlova, F. Zemlin, M. van Heel, J. R. Harris and J. Markl (1995) Three-dimensional structureof keyhole limpet hemocyanin by cryoelectron microscopy and angular reconstitution. J. Struct. Biol.115:226-232.Schatz, M., E. V. Orlova, P. Dube, J. Jager and M. van Heel (1995) Structure of Lumbricus terrestrishemoglobin at 30 Å resolution determined using angular reconstitution. J. Struct. Biol. 114:28-40.Kolodziej, S. J., J. P. Schroeter, D. K. Strickland and J. K. Stoops (1996) <strong>The</strong> novel three-dimensionalstructure of native human α 2 -macroglobulin and comparisons with the structure of the methylaminederivative. J. Struct. Biol. 116:366-376.Lorimer, G. E. and M. J. Todd (1996) GroE structures galore. Nat. Struct. Biol. 3:116-121.Beuron, F., M. R. Maurizi, D. M. Belnap, E. Kocsis, F. P. Booy, M. Kessel and A. C. Steven (1998) At sixesand sevens: characterization and the symmetry mismatch of the ClpAP chaperone-assisted protease. J.Struct. Biol. 123:248-259.Kolodziej, S. J., H. U. Klueppelberg, N. Nolasco, W. Ehses, D. K. Strickland and J. K. Stoops (1998) Threedimensionalstructure of the human plasmin α 2 -macroglobulin complex. J. Struct. Biol. 123:124-133.44
<strong>CHEM</strong> <strong>165</strong>,<strong>265</strong>/<strong>BIMM</strong> <strong>162</strong>/<strong>BGGN</strong> <strong>262</strong><strong>REFERENCE</strong> <strong>LISTS</strong>E. 3D Reconstruction from Electron Micrographs (Cont'd)Single Particles (Asymmetric) - ReviewsFrank, J., A. Verschoor, T. Wagenknecht, M. Radermacher and J.-M. Carazo (1988) A new noncrystallographicimage-processing technique reveals the architecture of ribosomes. Trends Biochem. Sci.13:123-127.Radermacher, M. (1988) Three-dimensional reconstruction of single particles from random and non randomtilt series. J. Elec. Microsc. Tech. 9:359-394•Frank, J. (1989) Image analysis of single macromolecules. Elec. Microsc. Rev. 2(1):53-74•Orlova, E. V. (2000) Structural analysis of non-crystalline macromolecules: the ribosome. Acta Cryst. D56:1253-1258.Single Particles (Asymmetric) - TechnicalHarauz, G. and M. van Heel (1986). Direct 3D reconstruction from projections with initially unknown angles.Pattern Recognition in Practice II, Eds. E. S. Gelsema and L. N. Kanal. North-Holland, Elsevier SciencePublishers. 279-288.van Heel, M. (1987) Angular reconstitution: a posteriori assignment of projection directions for 3Dreconstruction. Ultramicrosc. 21:111-124.Radermacher, M. (1991). Three-dimensional reconstruction of single particles in electron microscopy. ImageAnalysis in Biology Ed. D.-P. Hader. Boca Raton, CRC Press. 219-246.Frank, J. and M. Radermacher (1992) Three-dimensional reconstruction of single particles negatively stainedor in vitreous ice. Ultramicrosc. 46:241-<strong>262</strong>.Penczek, P., M. Radermacher and J. Frank (1992) Three-dimensional reconstruction of single particlesembedded in ice. Ultramicrosc. 40:33-53.Penczek, P. A., R. A. Grassucci and J. Frank (1994) <strong>The</strong> ribosome at improved resolution: New techniquesfor merging and orientation refinement in 3D cryo-electron microscopy of biological particles. Ultramicrosc.53:251-270.Radermacher, M. (1994) Three-dimensional reconstruction from random projections: Orientational alignmentvia Radon transforms. Ultramicrosc. 53:121-136.Zhu, J., P. A. Penczek, R. Schroder and J. Frank (1997) Three-dimensional reconstruction with contrasttransfer function correction from energy-filtered cryoelectron micrographs: procedure and application to the70S Escherichia coli ribosome. J. Struct. Biol. 118:197-219.Single Particles (Asymmetric) - RibosomeKnauer, V., Hegerl, R. and Hoppe, W. (1983) Three-dimensional reconstruction and averaging of 30Sribosomal subunits of Escherichia coli from electron micrographs. J. Mol. Biol. 163:409-430.Oettl, H., Hegerl, R. and Hoppe, W. (1983) Three-dimensional reconstruction and averaging of 50S ribosomalsubunits of Escherichia coli from electron micrographs. J. Mol. Biol. 163:431-450.Verschoor, A., J. Frank, M. Radermacher, T. Wagenknecht and M. Boublik (1984) Three-dimensionalreconsctuction of the 30s ribosomal subunit from randomly oriented particles. J. Mol. Biol. 178:677-698.Radermacher, M., T. Wagenknecht, A. Verschoor and J. Frank (1987) Three-dimensional reconstructionsfrom a single-exposure, random conical tilt series applied to the 50s ribosomal subunit of Escherichia coli. J.Microsc. 146:113-136.Radermacher, M., T. Wagenknecht, A. Vercschoor and J. Frank (1987) Three-dimensional structure of thelarge ribosomal subunit from Escherichia coli. EMBO J. 6:1107-1114.Carazo, J. M. and J. Frank (1988) Three-dimensional matching of macromolecular structures obtained fromelectron microscopy; An application to the 70S and 50S E. Coli ribosomal particles. Ultramicrosc. 25:13-22.Carazo, J. M., T. Wagenknecht, M. Radermacher, V. Mandiyan, M. Boublik and J. Frank (1988) Threedimensionalstructure of 50s escherichia coli ribosomal subunits depleted of proteins L17/L12. J. Mol. Biol.201:393-404.45
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