Deborah Fass scite author profile

The envelope glycoprotein of human immunodeficiency virus type 1 (HIV-1) consists of a complex of gp120 and gp41. gp120 determines viral tropism by binding to target-cell receptors, while gp41 mediates fusion between viral and cellular membranes. Previous studies identified an alpha-helical domain within gp41 composed of a trimer of two interacting peptides. The crystal structure of this complex, composed of the peptides N36 and C34, is a six-helical bundle. Three N36 helices form an interior, parallel coiled-coil trimer, while three C34 helices pack in an oblique, antiparallel manner into highly conserved, hydrophobic grooves on the surface of this trimer. This structure shows striking similarity to the low-pH-induced conformation of influenza hemagglutinin and likely represents the core of fusion-active gp41. Avenues for the design/discovery of small-molecule inhibitors of HIV infection are directly suggested by this structure.

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Crystal structure of transcription factor E47: E-box recognition by a basic region helix-loop-helix dimer.

Ellenberger¹,

et al. 1994

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A large group of transcription factors regulating cell growth and differentiation share a dimeric oL-helical DNA-binding domain termed the basic region helix-loop-helix (bHLH). bHLH proteins associate as homodimers and heterodimers having distinctive DNA-binding activities and transcriptional activities that are central to the regulated differentiation of a number of tissues. Some of the bHLH residues specifying these activities have been identified, but a full understanding of their function has awaited further structural information. We report here the crystal structure of the transcription factor E47 bHLH domain bound to DNA. The bHLH of E47 is a parallel, four-helix bundle with structural features that distinguish it from the bHLH-zipper protein Max. The E47 dimer makes nonequivalent contacts to each half of the -CACCTGbinding site. Sequence discrimination at the center of the E box may result from interaction with both the DNA bases and the phosphodiester backbone.

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Molecular basis of familial hypercholesterolaemia from structure of LDL receptor module

Fass

Blacklow

Kim

et al. 1997

Nature

336

364

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The low-density lipoprotein receptor (LDLR) is responsible for the uptake of cholesterol-containing lipoprotein particles into cells. The amino-terminal region of LDLR, which consists of seven tandemly repeated, approximately 40-amino-acid, cysteine-rich modules (LDL-A modules), mediates binding to lipoproteins. LDL-A modules are biologically ubiquitous domains, found in over 100 proteins in the sequence database. The structure of ligand-binding repeat 5 (LR5) of the LDLR, determined to 1.7 A resolution by X-ray crystallography and presented here, contains a calcium ion coordinated by acidic residues that lie at the carboxy-terminal end of the domain and are conserved among LDL-A modules. Naturally occurring point mutations found in patients with the disease familial hypercholesterolaemia alter residues that directly coordinate Ca2+ or that serve as scaffolding residues of LR5.

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Deborah Fass

Core Structure of gp41 from the HIV Envelope Glycoprotein

Crystal structure of transcription factor E47: E-box recognition by a basic region helix-loop-helix dimer.

Molecular basis of familial hypercholesterolaemia from structure of LDL receptor module

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