Abstract: The present invention provides two novel polypeptides, referred to as the “N” and “C” fragments of hedgehog, or N-terminal and C-terminal fragments, respectively, which are derived after specific cleavage at a G↓CF site recognized by the autoproteolytic domain in the native protein. Also included are sterol-modified hedgehog polypeptides and functional fragments thereof. Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described.

Abstract: The present invention sterol-modified hedgehog polypeptides and functional fragments thereof. Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described. In one aspect of the invention, the method provides a means for affecting cholesterol biosynthesis or transport in a cell comprising contacting a cell with an effective amount of a compound that affects hedgehog, thereby affecting cholesterol biosynthesis or transport. The effect may be inhibition or stimulation of cholesterol biosynthesis or transport.

Abstract: The present invention sterol-modified hedgehog polypeptides and functional fragments thereof Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described. In one aspect of the invention, the method provides a means for affecting cholesterol biosynthesis or transport in a cell comprising contacting a cell with an effective amount of a compound that affects hedgehog, thereby affecting cholesterol biosynthesis or transport. The effect may be inhibition or stimulation of cholesterol biosynthesis or transport.

Abstract: The invention relates to hedgehog proteins that are involved in signaling developmental processes. The proteins of the invention modulate differentiation of neural plate. Also provided are methods for identifying compounds that modulate early events in development and more particularly to methods to identify compounds that modulate differentiation of neural plate using hedgehog proteins as ligands for the patched receptor.

Abstract: The present invention related to methods and reagents for generating and using activating mutations of receptors and ion channels.

Abstract: The present invention makes availables assays and reagents inhibiting paracrine and/or autocrine signals produced by a hedgehog protein comprising contacting a cell sensitive to the hedgehog protein with a steroidal alkaloid, or other small molecule, in a sufficient amount to reduce the sensitivity of the cell to the hedgehog protein.

Abstract: The present invention provides transcription factors associated with the hedgehog signaling pathway that are regulated by dephosphorylation by phosphatases. Hedgehog response elements (HRE) that interact with the dephosphorylated transcription factors are also provided as well as methods for identifying compounds that are phosphatase inhibitors. Methods of treating tumors in a subject by modulating the phosphorylation of the transcription factor are also included.

Abstract: The present invention sterol-modified hedgehog polypeptides and functional fragments thereof. Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described. In one aspect of the invention, the method provides a means for affecting cholesterol biosynthesis or transport in a cell comprising contacting a cell with an effective amount of a compound that affects hedgehog, thereby affecting cholesterol biosynthesis or transport. The effect may be inhibition or stimulation of cholesterol biosynthesis or transport.

Abstract: The present invention makes availables assays and reagents inhibiting paracrine and/or autocrine signals produced by a hedgehog protein comprising contacting a cell sensitive to the hedgehog protein with a steroidal alkaloid, or other small molecule, in a sufficient amount to reduce the sensitivity of the cell to the hedgehog protein.

Abstract: The present invention sterol-modified hedgehog polypeptides and functional fragments thereof. Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described. In one aspect of the invention, the method provides a means for affecting cholesterol biosynthesis or transport in a cell comprising contacting a cell with an effective amount of a compound that affects hedgehog, thereby affecting cholesterol biosynthesis or transport. The effect may be inhibition or stimulation of cholesterol biosynthesis or transport.

Abstract: The present invention provides two novel polypeptides, referred to as the “N” and “C” fragments of hedgehog, or N-terminal and C-terminal fragments, respectively, which are derived after specific cleavage at a G↓CF site recognized by the autoproteolytic domain in the native protein. Also provided are methods of use of the N and C fragments.

Abstract: The present invention provides two novel polypeptides, referred to as the “N” and “C” fragments of hedgehog, or N-terminal and C-terminal fragments, respectively, which are derived after specific cleavage at a Gly↓Cys Phe site recognized by the autoproteolytic domain in the native protein. Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described. Also provided are methods of use of the N and C fragments.

Abstract: The present invention provides two novel polypeptides, referred to as the "N" and "C" fragments of hedgehog, or N-terminal and C-terminal fragments, respectively, which are derived after specific cleavage at a G.sup..dwnarw. CF site recognized by the autoproteolytic domain in the native protein. Also provided are methods of use of the N and C fragments.

Abstract: The present invention provides two novel polypeptides, referred to as the "N" and "C" fragments of hedgehog, or N-terminal and C-terminal fragments, respectively, which are derived after specific cleavage at a G.sup..dwnarw. CF site recognized by the autoproteolytic domain in the native protein. Also included are sterol-modified hedgehog polypeptides and functional fragments thereof. Methods of identifying compositions which affect hedgehog activity based on inhibition of cholesterol modification of hedgehog protein are described.