Stephen R. Sprang scite author profile

The crystallographic structure of the G protein heterotrimer Gi alpha 1(GDP)beta 1 gamma 2 (at 2.3 A) reveals two nonoverlapping regions of contact between alpha and beta, an extended interface between beta and nearly all of gamma, and limited interaction of alpha with gamma. The major alpha/beta interface covers switch II of alpha, and GTP-induced rearrangement of switch II causes subunit dissociation during signaling. Alterations in GDP binding in the heterotrimer (compared with alpha-GDP) explain stabilization of the inactive conformation of alpha by beta gamma. Repeated WD motifs in beta form a circularized sevenfold beta propeller. The conserved cores of these motifs are a scaffold for display of their more variable linkers on the exterior face of each propeller blade.

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Crystal Structure of the Catalytic Domains of Adenylyl Cyclase in a Complex with G _sα ·GTPγS

Tesmer

Sunahara

Gilman

et al. 1997

Science

760

974

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The crystal structure of a soluble, catalytically active form of adenylyl cyclase in a complex with its stimulatory heterotrimeric G protein alpha subunit (Gsalpha) and forskolin was determined to a resolution of 2.3 angstroms. When P-site inhibitors were soaked into native crystals of the complex, the active site of adenylyl cyclase was located and structural elements important for substrate recognition and catalysis were identified. On the basis of these and other structures, a molecular mechanism is proposed for the activation of adenylyl cyclase by Gsalpha.

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G PROTEIN MECHANISMS: Insights from Structural Analysis

Sprang

1997

Annu. Rev. Biochem.

1,000

942

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This review is concerned with the structures and mechanisms of a superfamily of regulatory GTP hydrolases (G proteins). G proteins include Ras and its close homologs, translation elongation factors, and heterotrimeric G proteins. These proteins share a common structural core, exemplified by that of p21 ras (Ras), and significant sequence identity, suggesting a common evolutionary origin. Threedimensional structures of members of the G protein superfamily are considered in light of other biochemical findings about the function of these proteins. Relationships among G protein structures are discussed, and factors contributing to their low intrinsic rate of GTP hydrolysis are considered. Comparison of GTP-and GDP-bound conformations of G proteins reveals how specific contacts between the γ-phosphate of GTP and the switch II region stabilize potential effectorbinding sites and how GTP hydrolysis results in collapse (or reordering) of these surfaces. A GTPase-activating protein probably binds to and stabilizes the conformation of its cognate G protein that recognizes the transition state for hydrolysis, and may insert a catalytic residue into the G protein active site. Inhibitors of nucleotide release, such as the βγ subunit of a heterotrimeric G protein, bind selectively to and stabilize the GDP-bound state. Release factors, such as the translation elongation factor, Ts, also recognize the switch regions and destabilize the Mg 2+-binding site, thereby promoting GDP release. G protein-coupled receptors are expected to operate by a somewhat different mechanism, given that the GDP-bound form of many G protein α subunits does not contain bound Mg 2+ .

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Stephen R. Sprang

The structure of the G protein heterotrimer Giα1β1γ2

Crystal Structure of the Catalytic Domains of Adenylyl Cyclase in a Complex with G _sα ·GTPγS

G PROTEIN MECHANISMS: Insights from Structural Analysis

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Stephen R. Sprang

The structure of the G protein heterotrimer Giα1β1γ2

Crystal Structure of the Catalytic Domains of Adenylyl Cyclase in a Complex with G sα ·GTPγS

G PROTEIN MECHANISMS: Insights from Structural Analysis

Contact Info

Product

Resources

About

Crystal Structure of the Catalytic Domains of Adenylyl Cyclase in a Complex with G _sα ·GTPγS