pH stability and disassembly mechanism of wild-type simian virus 40

A late region deletion mutant of simian virus 40 (dl5) was previously shown to be deficient in the transport of nuclear RNA. This is a splice junction deletion that has lost the 3' end of an RNA leader, an intervening sequence, and the 5' end of the splice acceptor site on the body of the mRNA. In this report, we analyzed the steady-state structure of the untransported nuclear RNA. The 5' ends of this RNA are heterogeneous but contain a prominent 5' end at the normal position (nucleotide 325) in addition to several other prominent 5' ends not seen in wild-type RNA. The 3' end of this RNA does not occur at the usual position (nucleotide 2674) of polyadenylation; instead, this RNA is non-polyadenylated, with the 3' end occurring either downstream or upstream of the normal position.

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The number of ribosomes on simian virus 40 late 16S mRNA is determined in part by the nucleotide sequence of its leader

Molecular and Cellular Biology ◽

10.1128/mcb.4.4.813-816.1984 ◽

1984 ◽

Vol 4 (4) ◽

pp. 813-816

Author(s):

A Barkan ◽

J E Mertz

Keyword(s):

Nucleotide Sequence ◽

Direct Evidence ◽

Simian Virus 40 ◽

Simian Virus ◽

The Body ◽

Size Distributions ◽

Wild Type ◽

Leader Protein ◽

16S Rna

The size distributions of polyribosomes containing each of three simian virus 40 late 16S mRNA species that differ in nucleotide sequence only within their leaders were determined. The two 16S RNA species with shorter leaders were incorporated into polysomes that were both larger (on average) and narrower in size distribution than was the predominant wild-type 16S RNA. Therefore, the nucleotide sequence of the leader can influence the number of ribosomes present on the body of an mRNA molecule. We propose a model in which the excision from leaders of sizeable translatable regions permits more frequent utilization of internally located translation initiation signals, thereby enabling genes encoded within the bodies of polygenic mRNAs to be translated at higher rates. In addition, the data provide the first direct evidence that VP1 can, indeed, be synthesized in vivo from the species of 16S mRNA that also encodes the 61-amino acid leader protein.

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E1A induces phosphorylation of the retinoblastoma protein independently of direct physical association between the E1A and retinoblastoma products

Molecular and Cellular Biology ◽

10.1128/mcb.11.8.4253-4265.1991 ◽

1991 ◽

Vol 11 (8) ◽

pp. 4253-4265

Author(s):

H G Wang ◽

G Draetta ◽

E Moran

Keyword(s):

Cell Cycle ◽

Simian Virus 40 ◽

Simian Virus ◽

Binding Activity ◽

T Antigen ◽

Physical Interaction ◽

Resting Cells ◽

Wild Type ◽

Quiescent Cells ◽

Kinase Expression

We have studied the initial effects of adenovirus E1A expression on the retinoblastoma (RB) gene product in normal quiescent cells. Although binding of the E1A products to pRB could, in theory, make pRB phosphorylation unnecessary for cell cycle progression, we have found that the 12S wild-type E1A product is capable of inducing phosphorylation of pRB in normal quiescent cells. The induction of pRB phosphorylation correlates with E1A-mediated induction of p34cdc2 expression and kinase activity, consistent with the possibility that p34cdc2 is a pRB kinase. Expression of simian virus 40 T antigen induces similar effects. Induction of pRB phosphorylation is independent of the pRB binding activity of the E1A products; E1A domain 2 mutants do not bind detectable levels of pRB but remain competent to induce pRB phosphorylation and to activate cdc2 protein kinase expression and activity. Although the kinetics of induction are slower, domain 2 mutants induce wild-type levels of pRB phosphorylation and host cell DNA synthesis and yet fail to induce cell proliferation. These results imply that direct physical interaction between the RB and E1A products does not play a required role in the early stages of E1A-mediated cell cycle induction and that pRB phosphorylation is not, of itself, sufficient to allow quiescent cells to divide. These results suggest that the E1A products do not need to bind pRB in order to stimulate resting cells to enter the cell cycle. Indeed, a more important role of the RB binding activity of the E1A products may be to prevent dividing cells from returning to G0.

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Assembly of T-Antigen Double Hexamers on the Simian Virus 40 Core Origin Requires Only a Subset of the Available Binding Sites

Molecular and Cellular Biology ◽

10.1128/mcb.18.5.2677 ◽

1998 ◽

Vol 18 (5) ◽

pp. 2677-2687 ◽

Cited By ~ 37

Author(s):

Woo S. Joo ◽

Henry Y. Kim ◽

John D. Purviance ◽

K. R. Sreekumar ◽

Peter A. Bullock

Keyword(s):

Structural Changes ◽

Simian Virus 40 ◽

Simian Virus ◽

T Antigen ◽

Wild Type ◽

The Core ◽

Structural Distortions ◽

In The Wild ◽

Sv40 Dna ◽

Initial Assembly

ABSTRACT Initiation of simian virus 40 (SV40) DNA replication is dependent upon the assembly of two T-antigen (T-ag) hexamers on the SV40 core origin. To further define the oligomerization mechanism, the pentanucleotide requirements for T-ag assembly were investigated. Here, we demonstrate that individual pentanucleotides support hexamer formation, while particular pairs of pentanucleotides suffice for the assembly of T-ag double hexamers. Related studies demonstrate that T-ag double hexamers formed on “active pairs” of pentanucleotides catalyze a set of previously described structural distortions within the core origin. For the four-pentanucleotide-containing wild-type SV40 core origin, footprinting experiments indicate that T-ag double hexamers prefer to bind to pentanucleotides 1 and 3. Collectively, these experiments demonstrate that only two of the four pentanucleotides in the core origin are necessary for T-ag assembly and the induction of structural changes in the core origin. Since all four pentanucleotides in the wild-type origin are necessary for extensive DNA unwinding, we concluded that the second pair of pentanucleotides is required at a step subsequent to the initial assembly process.

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Differential ability of a T-antigen transport-defective mutant of simian virus 40 to transform primary and established rodent cells.

Molecular and Cellular Biology ◽

10.1128/mcb.5.5.1043 ◽

1985 ◽

Vol 5 (5) ◽

pp. 1043-1050 ◽

Cited By ~ 33

Author(s):

R E Lanford ◽

C Wong ◽

J S Butel

Keyword(s):

Cell Lines ◽

Mouse Embryo ◽

Simian Virus 40 ◽

Simian Virus ◽

T Antigen ◽

Wild Type ◽

Mouse Embryo Fibroblasts ◽

Established Cell Lines ◽

Established Cell ◽

Embryo Fibroblasts

The transforming potential and oncogenicity of a simian virus 40 (SV40) mutant affecting T-antigen (T-ag), SV40(cT)-3, was examined in an effort to dissect T-ag functions in transformation. SV40(cT)-3 has a point mutation at nucleotide 4434 that abolishes the transport of T-ag to the nucleus but does not affect its association with the cell surface. Transfection-transformation assays were performed with primary cells and established cell lines of mouse and rat origin. The efficiency of transformation for established cell lines by SV40(cT)-3 was comparable to that of wild-type SV40, indicating that transformation of established cell lines can occur in the absence of detectable amounts of nuclear T-ag. Transformation of primary mouse embryo fibroblasts by SV40(cT)-3 was markedly influenced by culture conditions; the relative transforming frequency was dramatically reduced in assays involving focus formation in low serum concentrations or anchorage-independent growth. Immunofluorescence tests revealed that the transformed mouse embryo fibroblasts partially transport the mutant cT-ag to the cell nucleus. Transformed cell lines induced by SV40(cT)-3 did not differ in growth properties from wild-type transformants. SV40(cT)-3 was completely defective for the transformation of primary baby rat kidney cells, a primary cell type unable to transport the mutant T-ag to the nucleus. The intracellular localization of cellular protein p53 was found to mimic T-ag distribution in all the transformants analyzed. The mutant virus was weakly oncogenic in vivo: the induction of tumors in newborn hamsters by SV40(cT)-3 was reduced in incidence and delayed in appearance in comparison to wild-type SV40. These observations suggest that cellular transformation is regulated by both nuclear and surface-associated forms of SV40 T-ag.

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Separation of simian virus 40 large-T-antigen-transforming and origin-binding functions from the ability to block differentiation

Molecular and Cellular Biology ◽

10.1128/mcb.8.3.1380-1384.1988 ◽

1988 ◽

Vol 8 (3) ◽

pp. 1380-1384 ◽

Cited By ~ 1

Author(s):

V Cherington ◽

M Brown ◽

E Paucha ◽

J St Louis ◽

B M Spiegelman ◽

...

Keyword(s):

Dehydrogenase Activity ◽

Adipocyte Differentiation ◽

Simian Virus 40 ◽

Simian Virus ◽

Lipid Binding ◽

T Antigen ◽

Large T Antigen ◽

Wild Type ◽

Glycerophosphate Dehydrogenase ◽

Triglyceride Accumulation

Wild-type simian virus 40 large T antigen is very effective at blocking adipocyte differentiation in 3T3-F442A cells as assayed by triglyceride accumulation, induction of glycerophosphate dehydrogenase activity, and expression of mRNAs for glycerophosphate dehydrogenase, the adipocyte serine protease adipsin, and the putative lipid-binding protein adipocyte P2. Point mutants defective for either origin-specific DNA binding or transformation blocked differentiation as completely as wild type.

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K+fluxes mediated by Na+-K+-Cl−cotransport and Na+-K+-ATPase pumps in renal tubule cell lines transformed by wild-type and temperature-sensitive strains of simian virus 40

Journal of Cellular Physiology ◽

10.1002/jcp.1041540304 ◽

1993 ◽

Vol 154 (3) ◽

pp. 466-477 ◽

Cited By ~ 9

Author(s):

A. Vandewalle ◽

T. Vuillemin ◽

J. Teulon ◽

B. Baudouin ◽

F. Wahbe ◽

...

Keyword(s):

Cell Lines ◽

Renal Tubule ◽

Simian Virus 40 ◽

Simian Virus ◽

Temperature Sensitive ◽

Wild Type ◽

Tubule Cell ◽

Renal Tubule Cell

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Specific protein binding to the simian virus 40 enhancer in vitro.

Molecular and Cellular Biology ◽

10.1128/mcb.6.6.2098 ◽

1986 ◽

Vol 6 (6) ◽

pp. 2098-2105 ◽

Cited By ~ 49

Author(s):

A G Wildeman ◽

M Zenke ◽

C Schatz ◽

M Wintzerith ◽

T Grundström ◽

...

Keyword(s):

Point Mutations ◽

Simian Virus 40 ◽

Simian Virus ◽

Specific Protein ◽

Dnase I ◽

Wild Type ◽

Dnase I Footprinting ◽

Nuclear Extracts

HeLa cell nuclear extracts and wild-type or mutated simian virus 40 enhancer DNA were used in DNase I footprinting experiments to study the interaction of putative trans-acting factors with the multiple enhancer motifs. We show that these nuclear extracts contain proteins that bind to these motifs. Because point mutations which are detrimental to the activity of a particular enhancer motif in vivo specifically prevent protection of that motif against DNase I digestion in vivo, we suggest that the bound proteins correspond to trans-acting factors involved in enhancement of transcription. Using mutants in which the two domains A and B of the simian virus 40 enhancer are either separated by insertion of DNA fragments or inverted with respect to their natural orientation, we also demonstrate that the trans-acting factors bind independently to the two domains.

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Clathrin- and caveolin-1–independent endocytosis

The Journal of Cell Biology ◽

10.1083/jcb.200407113 ◽

2005 ◽

Vol 168 (3) ◽

pp. 477-488 ◽

Cited By ~ 321

Author(s):

Eva-Maria Damm ◽

Lucas Pelkmans ◽

Jürgen Kartenbeck ◽

Anna Mezzacasa ◽

Teymuras Kurzchalia ◽

...

Keyword(s):

Endoplasmic Reticulum ◽

Knockout Mouse ◽

Simian Virus 40 ◽

Simian Virus ◽

Endocytic Pathway ◽

Host Cells ◽

Human Hepatoma ◽

Wild Type ◽

Embryonic Fibroblasts ◽

Caveolin 1

Simian Virus 40 (SV40) has been shown to enter host cells by caveolar endocytosis followed by transport via caveosomes to the endoplasmic reticulum (ER). Using a caveolin-1 (cav-1)–deficient cell line (human hepatoma 7) and embryonic fibroblasts from a cav-1 knockout mouse, we found that in the absence of caveolae, but also in wild-type embryonic fibroblasts, the virus exploits an alternative, cav-1–independent pathway. Internalization was rapid (t1/2 = 20 min) and cholesterol and tyrosine kinase dependent but independent of clathrin, dynamin II, and ARF6. The viruses were internalized in small, tight-fitting vesicles and transported to membrane-bounded, pH-neutral organelles similar to caveosomes but devoid of cav-1 and -2. The viruses were next transferred by microtubule-dependent vesicular transport to the ER, a step that was required for infectivity. Our results revealed the existence of a virus-activated endocytic pathway from the plasma membrane to the ER that involves neither clathrin nor caveolae and that can be activated also in the presence of cav-1.

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