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A growth factor-inducible nuclear protein with a novel cysteine/histidine repetitive sequence.

A growth factor-inducible nuclear protein with a novel cysteine/histidine repetitive sequence. Growth factors rapidly induce transcription of a set of genes that encode regulatory proteins, many of which have been identified by cDNA cloning. Here we report the analysis of a cDNA corresponding to a gene induced in mouse 3T3 cells by growth factors and a variety of other extracellular signaling agents. The cDNA encodes a proline-, serine-, and glycine-rich nuclear protein designated Nup475 of 319 amino acids that contains two tandemly repeated cysteine- and histidine-containing sequences (CX8CX5CX3H) suggestive of a novel heavy metal-binding domain. Nup475 produced in Escherichia coli binds zinc. Its mRNA is present in a number of mouse tissues and cell lines, being especially abundant in intestine, thymus, and regenerating liver and in a macrophage cell line stimulated by gamma-interferon. We hypothesize that Nup475 is a regulatory protein with a novel zinc finger structure. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png The Journal of biological chemistry Pubmed

A growth factor-inducible nuclear protein with a novel cysteine/histidine repetitive sequence.

DuBois, R N; McLane, M W; Ryder, K; Lau, L F; Nathans, D
The Journal of biological chemistry , Volume 265 (31): -19093 – Dec 10, 1990
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A growth factor-inducible nuclear protein with a novel cysteine/histidine repetitive sequence.


Abstract

Growth factors rapidly induce transcription of a set of genes that encode regulatory proteins, many of which have been identified by cDNA cloning. Here we report the analysis of a cDNA corresponding to a gene induced in mouse 3T3 cells by growth factors and a variety of other extracellular signaling agents. The cDNA encodes a proline-, serine-, and glycine-rich nuclear protein designated Nup475 of 319 amino acids that contains two tandemly repeated cysteine- and histidine-containing sequences (CX8CX5CX3H) suggestive of a novel heavy metal-binding domain. Nup475 produced in Escherichia coli binds zinc. Its mRNA is present in a number of mouse tissues and cell lines, being especially abundant in intestine, thymus, and regenerating liver and in a macrophage cell line stimulated by gamma-interferon. We hypothesize that Nup475 is a regulatory protein with a novel zinc finger structure.

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ISSN
0021-9258
pmid
1699942

Abstract

Growth factors rapidly induce transcription of a set of genes that encode regulatory proteins, many of which have been identified by cDNA cloning. Here we report the analysis of a cDNA corresponding to a gene induced in mouse 3T3 cells by growth factors and a variety of other extracellular signaling agents. The cDNA encodes a proline-, serine-, and glycine-rich nuclear protein designated Nup475 of 319 amino acids that contains two tandemly repeated cysteine- and histidine-containing sequences (CX8CX5CX3H) suggestive of a novel heavy metal-binding domain. Nup475 produced in Escherichia coli binds zinc. Its mRNA is present in a number of mouse tissues and cell lines, being especially abundant in intestine, thymus, and regenerating liver and in a macrophage cell line stimulated by gamma-interferon. We hypothesize that Nup475 is a regulatory protein with a novel zinc finger structure.

Journal

The Journal of biological chemistryPubmed

Published: Dec 10, 1990

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