Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.5 (RNase)
 17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The recently identified novel protein SURF-6 is shown to be a component of the nucleolar matrix. Immunofluorescence analysis demonstrated that SURF-6 was localized in residual nucleoli of in situ nuclear matrix preparations of mouse fibroblast cells (NIH 3T3), which were depleted of soluble and chromatin related proteins. Immunoblot analysis of biochemical nucleolar subfractions confirmed that SURF-6 was present in the nucleolar matrix fraction, and was absent from the fractions of soluble proteins released by DNase or RNase. The capacity of SURF-6 to bind nucleic acids was investigated in vitro. Both endogenous SURF-6 from nuclear extracts and recombinant SURF-6 exhibited a strong binding capacity for nucleic acids. It was shown that SURF-6 bound to both DNA and RNA, however, it showed stronger binding to RNA. The presence and nuclear distribution of SURF-6 during the cell cycle was explored by immunofluorescence analysis. It was shown that SURF-6 was always found in the nucleolus regardless of the phase of the cell cycle suggesting that it is a structural protein constitutively present in nucleolar substructures. The colocalization of SURF-6 with the major nucleolar proteins B23 and fibrillarin, which are known to be involved in the processing of ribosomal RNA (rRNA), was examined both in interphase and mitosis by double immunolabeling of cells. SURF-6 was found to be largely coincident with both proteins in interphase and it was distributed in the same cellular locations, namely the perichromosomal layer, the cytoplasm and prenucleolar bodies, in mitosis. However, colocalization of SURF-6 with fibrillarin and B23 was only partial in interphase, and the dynamics of its localization was not completely the same as those of either fibrillarin or B23 during mitosis. Taken together, these results indicate that SURF-6 is a novel nucleolar matrix component and imply that SURF-6 might support nucleolar matrix structure and function(s) via its association with nucleic acids. We propose that SURF-6 may be involved in processing of rRNA, based on its cytological characteristics, but at stages in ribosomal biogenesis which are different from those for fibrillarin and B23.
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PMID:The SURF-6 protein is a component of the nucleolar matrix and has a high binding capacity for nucleic acids in vitro. 954 74

The localization of the specific protein Surf-6 from nucleoli of eukaryotic cells in mitosis and its sensitivity to the treatment of cells with RNase A and DNase I in situ were studied. It was shown that, in interphase nucleoli of 3T3 mouse cells, Surf-6 is probably associated with RNA and practically is not associated with DNA. In mitosis, Surf-6 appears in forming nucleoli after the known RNA-binding proteins fibrillarin and B23/nucleofozmin, which are involved in the early and late stages of the assembly of ribosomal particles, respectively. These observations and the regularities of migration of early and late proteins of ribosome assembly to nucleoli in the telophase of mitosis led us to the presumption that Surf-6 is involved in the terminal stages of the assembly of ribosomal particles in murine cells. An immunoblot analysis of the Surf-6 content in synchronized 3T3 cells showed for the first time that Surf-6 is present at all stages of the cell cycle but its content markedly decreases when cells enter the G0 period. Conversely, the activation of cells for proliferation is accompanied by an increase in the Surf-6 content. These observations allow one to regard Surf-6 as a marker of the cell proliferative state and suggest its implication in the regulation of the cell cycle. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2005, vol. 31, no. 6; see also http://www.maik.ru.
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PMID:[Properties and functions of a new nucleolar protein, Surf-6, in 3T3 mouse cells]. 1636 29