• 1
  • 2
    Omary MB ( 2009) “IF-pathies”: a broad spectrum of intermediate filament-associated diseases. J Clin Invest 119: 17561762.
  • 3
    Colucci-Guyon E, Portier MM, Dunia I, Paulin D, Pournin S, Babinet C ( 1994) Mice lacking vimentin develop and reproduce without an obvious phenotype. Cell 79: 679694.
  • 4
    Muller M, Bhattacharya SS, Moore T, Prescott Q, Wedig T, Herrmann H, Magin TM ( 2009) Dominant cataract formation in association with a vimentin assembly disrupting mutation. Hum Mol Genet 18: 10521057.
  • 5
    Geisler N, Weber K ( 1982) The amino acid sequence of chicken muscle desmin provides a common structural model for intermediate filament proteins. EMBO J 1: 16491656.
  • 6
    Geisler N, Kaufmann E, Weber K ( 1982) Proteinchemical characterization of three structurally distinct domains along the protofilament unit of desmin 10 nm filaments. Cell 30: 277286.
  • 7
    Hanukoglu I, Fuchs E ( 1982) The cDNA sequence of a human epidermal keratin: divergence of sequence but conservation of structure among intermediate filament proteins. Cell 31: 243252.
  • 8
    Hanukoglu I, Fuchs E ( 1983) The cDNA sequence of a Type II cytoskeletal keratin reveals constant and variable structural domains among keratins. Cell 33: 915924.
  • 9
    Herrmann H, Aebi U ( 2004) Intermediate filaments: molecular structure, assembly mechanism, and integration into functionally distinct intracellular scaffolds. Annu Rev Biochem 73: 749789.
  • 10
    Parry DA, Steinert PM ( 1999) Intermediate filaments: molecular architecture, assembly, dynamics and polymorphism. Q Rev Biophys 32: 99187.
  • 11
    Steinert PM, Parry DA ( 1985) Intermediate filaments: conformity and diversity of expression and structure. Annu Rev Cell Biol 1: 4165.
  • 12
    Goldman RD, Steinert PM ( 1990) Cellular and molecular biology of intermediate filaments. New York, NY: Plenum Press.
  • 13
    Herrmann H, Harris JR, Structure, assembly, and dynamics of Intermediate filaments, pp 319–362. In: Intermediate Filaments. Harris JR, Ed. ( 1998). New York, New York: Plenum.
  • 14
    Aziz A, Hess JF, Budamagunta MS, FitzGerald PG, Voss JC ( 2009) Head and rod 1 interactions in vimentin: identification of contact sites, structure, and changes with phosphorylation using site-directed spin labeling and electron paramagnetic resonance. J Biol Chem 284: 73307338.
  • 15
    Aziz A, Hess JF, Budamagunta MS, Voss JC, FitzGerald PG ( 2010) Site-directed spin labeling and electron paramagnetic resonance determination of vimentin head domain structure. J Biol Chem 285: 1527815285.
  • 16
    Hess JF, Budamagunta MS, Shipman RL, FitzGerald PG, Voss JC ( 2006) Characterization of the linker 2 region in human vimentin using site-directed spin labeling and electron paramagnetic resonance. Biochemistry 45: 1173711743.
  • 17
    Hess JF, Budamagunta MS, Voss JC, Fitzgerald PG ( 2004) Structural characterization of human vimentin rod 1 and the sequencing of assembly steps in intermediate filament formation in vitro using site-directed spin labeling and electron paramagnetic resonance. J Biol Chem 279: 4484144846.
  • 18
    Hess JF, Voss JC, FitzGerald PG ( 2002) Real-time observation of coiled-coil domains and subunit assembly in intermediate filaments. J Biol Chem 277: 3551635522.
  • 19
    Nicolet S, Herrmann H, Aebi U, Strelkov SV ( 2010) Atomic structure of vimentin coil 2. J Struct Biol 170: 369376.
  • 20
    Strelkov S, Herrmann H, Parry D, Steinert P, Aebi U (YEAR) Atomic structure of the consensus motif of the 2B rod domain segment of the intermediate filament chain vimentin. J Invest Dermatol 1142000: 779.
  • 21
    Strelkov SV, Herrmann H, Geisler N, Wedig T, Zimbelmann R, Aebi U, Burkhard P ( 2002) Conserved segments 1A and 2B of the intermediate filament dimer: their atomic structures and role in filament assembly. EMBO J 21: 12551266.
  • 22
    Strelkov SV, Kreplak L, Herrmann H, Aebi U ( 2004) Intermediate filament protein structure determination. Methods Cell Biol 78: 2543.
  • 23
    Herrmann H, Hofmann I, Franke WW ( 1992) Identification of a nonapeptide motif in the vimentin head domain involved in intermediate filament assembly. J Mol Biol 223: 637650.
  • 24
    Kouklis PD, Hatzfeld M, Brunkener M, Weber K, Georgatos SD ( 1993) In vitro assembly properties of vimentin mutagenized at the beta-site tail motif. J Cell Sci 106: 919928.
  • 25
    Kouklis PD, Papamarcaki T, Merdes A, Georgatos SD ( 1991) A potential role for the COOH-terminal domain in the lateral packing of type III intermediate filaments. J Cell Biol 114: 773786.
  • 26
    Hatzfeld M, Burba M ( 1994) Function of type I and type II keratin head domains: their role in dimer, tetramer and filament formation. J Cell Sci 107: 19591972.
  • 27
    Rogers KR, Eckelt A, Nimmrich V, Janssen KP, Schliwa M, Herrmann H, Franke WW ( 1995) Truncation mutagenesis of the non-alpha-helical carboxyterminal tail domain of vimentin reveals contributions to cellular localization but not to filament assembly. Eur J Cell Biol 66: 136150.
  • 28
    Herrmann H, Häner M, Brettel M, Müller SA, Goldie KN, Fedtke B, Lustig A, Franke WW, Aebi U ( 1996) Structure and assembly properties of the intermediate filament protein vimentin: the role of its head, rod and tail domains. J Mol Biol 264: 933953.
  • 29
    Beuttenmuller M, Chen M, Janetzko A, Kuhn S, Traub P ( 1994) Structural elements of the amino-terminal head domain of vimentin essential for intermediate filament formation in vivo and in vitro. Exper Cell Res 213: 128142.
  • 30
    McCormick MB, Kouklis P, Syder A, Fuchs E ( 1993) The roles of the rod end and the tail in vimentin IF assembly and IF network formation. J Cell Biol 122: 395407.
  • 31
    Cary RB, Klymkowsky MW, Evans RM, Domingo A, Dent JA, Backhus LE ( 1994) Vimentin's tail interacts with actin-containing structures in vivo. J Cell Sci 107: 16091622.
  • 32
    Mack JW, Torchia DA, Steinert PM ( 1988) Solid-state NMR studies of the dynamics and structure of mouse keratin intermediate filaments. Biochemistry 27: 54185426.
  • 33
    Kaufmann E, Weber K, Geisler N ( 1985) Intermediate filament forming ability of desmin derivatives lacking either the amino-terminal 67 or the carboxy-terminal 27 residues. J Mol Biol 185: 733742.
  • 34
    Shoeman RL, Mothes E, Kesselmeier C, Traub P ( 1990) Intermediate filament assembly and stability in vitro: effect and implications of the removal of head and tail domains of vimentin by the human immunodeficiency virus type 1 protease. Cell Biol Int Rep 14: 583594.
  • 35
    Eckelt A, Herrmann H, Franke WW ( 1992) Assembly of a tail-less mutant of the intermediate filament protein, vimentin, in vitro and in vivo. Eur J Cell Biol 58: 319330.
  • 36
    Leonard DG, Gorham JD, Cole P, Greene LA, Ziff EB ( 1988) A nerve growth factor-regulated messenger RNA encodes a new intermediate filament protein. J Bell Biol 106: 181193.
  • 37
    Makarova I, Carpenter D, Khan S, Ip W ( 1994) A conserved region in the tail domain of vimentin is involved in its assembly into intermediate filaments. Cell Motil Cytoskel 28: 265277.
  • 38
    Der Perng M, Su M, Wen SF, Li R, Gibbon T, Prescott AR, Brenner M, Quinlan RA ( 2006) The Alexander disease-causing glial fibrillary acidic protein mutant, R416W, accumulates into Rosenthal fibers by a pathway that involves filament aggregation and the association of alpha B-crystallin and HSP27. Am J Hum Genet 79: 197213.
  • 39
    Mucke N, Wedig T, Burer A, Marekov LN, Steinert PM, Langowski J, Aebi U, Herrmann H ( 2004) Molecular and biophysical characterization of assembly-starter units of human vimentin. J Mol Biol 340: 97114.
  • 40
    Mchaourab H, Lietzow MA, Hideg K, Hubbell WL ( 1996) Motion of spin labeled side chains in T4 Lysozyme. (I) Correlation with protein structure and dynamics. Biochemistry 35: 76927704.
  • 41
    Herrmann H, Strelkov SV, Feja B, Rogers KR, Brettel M, Lustig A, Häner M, Parry DA, Steinert PM, Burkhard P, Ueli Aebi. ( 2000) The intermediate filament protein consensus motif of helix 2B: its atomic structure and contribution to assembly. J Mol Biol 298: 817832.
  • 42
    Strelkov SV, Herrmann H, Geisler N, Lustig A, Ivaninskii S, Zimbelmann R, Burkhard P, Aebi U ( 2001) Divide-and-conquer crystallographic approach towards an atomic structure of intermediate filaments. J Mol Biol 306: 773781.
  • 43
    Aziz A, Hess JF, Budamagunta MS, Voss JC, Kuzin AP, Huang YJ, Xiao R, Montelione GT, Fitzgerald PG, Hunt JF ( 2012) The structure of vimentin linker 1 and rod 1B domains characterized by site-directed spin-labeling electron paramagnetic resonance (SDSL-EPR) and X-ray crystallography. J Biol Chem 287: 2834928361.
  • 44
    Kapinos LE, Burkhard P, Herrmann H, Aebi U, Strelkov SV ( 2011) Simultaneous formation of right- and left-handed anti-parallel coiled-coil interfaces by a coil2 fragment of human lamin A. J Mol Biol 408: 135146.
  • 45
    Eriksson JE, He T, Trejo-Skalli AV, Harmala-Brasken AS, Hellman J, Chou YH, Goldman RD ( 2004) Specific in vivo phosphorylation sites determine the assembly dynamics of vimentin intermediate filaments. J Cell Sci 117: 919932.
  • 46
    Nelson WD, Blakely SE, Nesmelov YE, Thomas DD ( 2005) Site-directed spin labeling reveals a conformational switch in the phosphorylation domain of smooth muscle myosin. Proc Natl Acad Sci USA 102: 40004005.