Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038362 (stomatitis)
 8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interferons induce a number of different proteins that mediate the antiproliferative, antiviral, and immunomodulatory functions of interferons. At least three different proteins mediate the antiviral response, and one of them, Mx protein, specifically inhibits the replication of influenza virus and (vesicular stomatitis virus). Mouse and rat Mx1 proteins are nuclear, whereas other presently known Mx proteins are cytoplasmic. The cellular functions of Mx proteins are unknown, but all of them contain a consensus GTP binding site. Very little information is available on the structure and characteristics of the mouse Mx1 protein itself. For biochemical characterization, we expressed mouse Mx1 protein in a baculovirus system and purified it to homogeneity. The purified protein as well as the authentic murine cellular Mx1 protein exists in dimers and trimers in the presence of dissociating solvents, whereas in physiological buffers they form aggregates. Cross-linking experiments done on Mx-expressing cells from various species revealed that mouse, rat, and human Mx proteins exist predominantly in trimers. Amino acid sequence analysis shows that all known Mx proteins have conserved leucine repeats typical for a leucine zipper at their COOH-terminal end. In vitro translation of chimeric catechol O-methyltransferase-Mx1 gene constructs revealed that the leucine zipper domain of Mx1 protein is responsible for the oligomerization. The COOH terminus also functions as a nuclear localization signal. Microinjection of purified oligomers into the cell cytoplasm resulted in a fast accumulation of the protein in the resulted in a fast accumulation of the protein in the nucleus. Immunoelectron microscopy revealed that nuclear murine Mx1 protein exists in distinct, electron-dense structures separate from nuclear membrane, and chromatin, or nucleolus. These observations reveal that a COOH-terminal leucine zipper domain is an important structural element of all Mx proteins. Its relevance to the biology and functions of Mx proteins is presently not known.
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PMID:Interferon-induced Mx proteins form oligomers and contain a putative leucine zipper. 128 77

cDNA sequencing revealed that chick Mx protein consists of 705 amino acids. Its 84 N-terminal amino acids show no significant sequence homology to other Mx proteins. They are followed by 514 residues that include a tripartite GTP binding consensus motif. This region shows 50-70% sequence identity to mammalian and duck Mx proteins. Sequences near the C terminus, including a leucine zipper motif, are also conserved, whereas the intervening 19 amino acids lack sequence similarity. This unique sequence corresponds to a highly variable region in mammalian Mx proteins, suggesting that it serves as a spacer between functional domains. Chick and mouse cells transiently transfected with cDNA expression constructs synthesized chick Mx protein at a level that could easily be detected with specific antibodies. Chick Mx protein in such cells was mainly cytoplasmic and had a granular appearance. Permanently transfected cell lines expressing high levels of chick Mx protein could not be established, suggesting low metabolic stability of chick Mx protein or incompatibility with cell proliferation. The antiviral activity of chick Mx protein was tested at the single-cell level using immunofluorescence techniques. Transfected cells expressing chick Mx protein showed no enhanced resistance to influenza A virus, vesicular stomatitis virus, Thogoto virus, or Sendai virus. Thus, chick Mx joins the list of Mx proteins without recognized antiviral activity, supporting the concept that Mx proteins serve unrelated functions.
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PMID:The interferon-induced Mx protein of chickens lacks antiviral activity. 764 34