Yigong Shi scite author profile

TGF-beta signaling controls a plethora of cellular responses and figures prominently in animal development. Recent cellular, biochemical, and structural studies have revealed significant insight into the mechanisms of the activation of TGF-beta receptors through ligand binding, the activation of Smad proteins through phosphorylation, the transcriptional regulation of target gene expression, and the control of Smad protein activity and degradation. This article reviews these latest advances and presents our current understanding on the mechanisms of TGF-beta signaling from cell membrane to the nucleus.

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Molecular mechanisms of caspase regulation during apoptosis

Riedl

Shi

2004

Nat Rev Mol Cell Biol

1,678

1,347

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Caspases, which are the executioners of apoptosis, comprise two distinct classes, the initiators and the effectors. Although general structural features are shared between the initiator and the effector caspases, their activation, inhibition and release of inhibition are differentially regulated. Biochemical and structural studies have led to important advances in understanding the underlying molecular mechanisms of caspase regulation. This article reviews these latest advances and describes our present understanding of caspase regulation during apoptosis.

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Serine/Threonine Phosphatases: Mechanism through Structure

Shi

2009

Cell

1,301

1,339

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The reversible phosphorylation of proteins is accomplished by opposing activities of kinases and phosphatases. Relatively few protein serine/threonine phosphatases (PSPs) control the specific dephosphorylation of thousands of phosphoprotein substrates. Many PSPs, exemplified by protein phosphatase 1 (PP1) and PP2A, achieve substrate specificity and regulation through combinatorial interactions between conserved catalytic subunits and a large number of regulatory subunits. Other PSPs, represented by PP2C and FCP/SCP, contain both catalytic and regulatory domains within the same polypeptide chain. Here, we discuss biochemical and structural investigations that advance the mechanistic understanding of the three major classes of PSPs, with a focus on PP2A.

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Mechanisms of Caspase Activation and Inhibition during Apoptosis

2002

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The Galvanization of Biology: A Growing Appreciation for the Roles of Zinc

Berg

Shi

1996

Science

1,839

1,097

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Zinc ions are key structural components of a large number of proteins. The binding of zinc stabilizes the folded conformations of domains so that they may facilitate interactions between the proteins and other macromolecules such as DNA. The modular nature of some of these zinc-containing proteins has allowed the rational design of site-specific DNA binding proteins. The ability of zinc to be bound specifically within a range of tetrahedral sites appears to be responsible for the evolution of the side range of zinc-stabilized structural domains now known to exist. The lack of redox activity for the zinc ion and its binding and exchange kinetics also may be important in the use of zinc for specific functional roles.

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Yigong Shi

Mechanisms of TGF-β Signaling from Cell Membrane to the Nucleus

Molecular mechanisms of caspase regulation during apoptosis

Serine/Threonine Phosphatases: Mechanism through Structure

Mechanisms of Caspase Activation and Inhibition during Apoptosis

The Galvanization of Biology: A Growing Appreciation for the Roles of Zinc

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