The betabellin target structure is a beta-sandwich protein consisting of two 32 residue beta-sheets packed against one another by interaction of their hydrophobic faces. The 32 residue chain of betabellin-15S (HSLTAKIpkLTFSIAphTYTCAV pkYTAKVSH, where p=DPro, k=DLys, and h=DHis) did not fold in water at pH 6.5. Air oxidation of betabellin-15S provided betabellin-15D, the 64 residue disulfide bridged two-chain molecule, which also remained unfolded in water at pH 6.5. By circular dichroic spectropolarimetry, the extent of beta structure observed for betabellin-15D increased with the pH and ionic strength of the solution and the betabellin-15D concentration. By electron microscopy, in 5.0 mM MOPS and 0.25 M NaCl at pH 6.9, betabellin-15D formed long narrow multimeric fibrils. A molecular model was constructed to show that the dimensions of these betabellin-15D fibrils are consistent with a single row of beta-sandwich molecules joined by multiple intersheet H-bonds.
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Molecular organization of amyloid protofilament-like assembly of betabellin 15D: helical array of beta-sandwiches.
Biophys J
September 2002
Biology Department, Boston College, Chestnut Hill, Massachusetts 02467-3811, USA.
Betabellin is a 32-residue peptide engineered to fold into a four-stranded antiparallel beta-sheet protein. Upon air oxidation, the betabellin peptides can fold and assemble into a disulfide-bridged homodimer, or beta-sandwich, of 64 residues. Recent biophysical and ultrastructural studies indicate that betabellin 15D (B15D) (a homodimer of HSLTAKIpkLTFSIAphTYTCAVpkYTAKVSH, where p = DPro, k = DLys, and h = DHis) forms unbranched, 35-A wide assemblies that resemble the protofilaments of amyloid fibers.
View Article and Find Full Text PDFBetabellins 15D and 16D, de Novo designed beta-sandwich proteins that have amyloidogenic properties.
J Struct Biol
June 2000
Department of Chemistry, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, 27599, USA.
The betabellin structure is a de novo designed beta-sandwich protein consisting of two 32-residue beta-sheets packed against one another by hydrophobic interactions. d-Amino acid residues are used to energetically favor formation of type-I' beta turns. Air oxidation of betabellin 15S (B15S) (HSLTAKIpkLTFSIAphTYTCAVpkYTAKVSH, where p denotes d-Pro, h denotes d-His, and k denotes d-Lys) yields betabellin 15D (B15D), a 64-residue disulfide-bridged protein.
View Article and Find Full Text PDFMetal-ion binding and limited proteolysis of betabellin 15D, a designed beta-sandwich protein.
J Am Soc Mass Spectrom
October 1999
Department of Analytical Chemistry, Glaxo Wellcome, Inc., Research Triangle Park, North Carolina 27709, USA.
Betabellin 15D is a 64-residue, disulfide-bridged homodimer. When folded into a beta structure, the protein is predicted to have two clusters of three histidine residues, each cluster able to bind a divalent metal ion. When the protein was incubated with Cu2+, Zn2+, Co2+, or Mn2+, metal complexes of betabellin 15D were observed by electrospray-ionization mass spectrometry.
View Article and Find Full Text PDFEngineering of betabellin-15D: a 64 residue beta sheet protein that forms long narrow multimeric fibrils.
Protein Sci
July 1998
Department of Chemistry, The University of North Carolina at Chapel Hill, 27599-3290, USA.
The betabellin target structure is a beta-sandwich protein consisting of two 32 residue beta-sheets packed against one another by interaction of their hydrophobic faces. The 32 residue chain of betabellin-15S (HSLTAKIpkLTFSIAphTYTCAV pkYTAKVSH, where p=DPro, k=DLys, and h=DHis) did not fold in water at pH 6.5.
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