Your search keyword '"Ruley, H. Earl"' showing total 72 results

51. hnRNP C Is Required for Postimplantation Mouse Development but Is Dispensable for Cell Viability

Author

Williamson, Douglas J., primary, Banik-Maiti, Sarbani, additional, DeGregori, James, additional, and Ruley, H. Earl, additional

Published

2000

52. An Enhancer Element in the EphA2 (Eck) Gene Sufficient for Rhombomere-specific Expression Is Activated by HOXA1 and HOXB1 Homeobox Proteins

Author

Chen, Jin, primary and Ruley, H. Earl, additional

Published

1998

53. Functional genomics in mice by tagged sequence mutagenesis

Author

Hicks, Geoffrey G., primary, Shi, Er-gang, additional, Li, Xuan-Mei, additional, Li, Chun-Hua, additional, Pawlak, Maciej, additional, and Ruley, H. Earl, additional

Published

1997

54. Apoptosis in Erythroid Progenitors Deprived of Erythropoietin Occurs during the G1 and S Phases of the Cell Cycle without Growth Arrest or Stabilization of Wild-Type p53

Author

Kelley, Linda L., primary, Green, Wayne F., additional, Hicks, Geoffrey G., additional, Bondurant, Maurice C., additional, Koury, Mark J., additional, and Ruley, H. Earl, additional

Published

1994

55. Observational fear learning involves affective pain system and Cav1.2 Ca2+ channels in ACC.

Author

Jeon, Daejong, Kim, Sangwoo, Chetana, Mattu, Jo, Daewoong, Ruley, H Earl, Shih-Yao Lin, Rabah, Dania, Kinet, Jean-Pierre, and Hee-Sup Shin

Subjects

RODENTS, AVERSIVE stimuli, NUCLEIC acids, AMYGDALOID body, CEREBRAL cortex

Abstract

Fear can be acquired vicariously through social observation of others suffering from aversive stimuli. We found that mice (observers) developed freezing behavior by observing other mice (demonstrators) receive repetitive foot shocks. Observers had higher fear responses when demonstrators were socially related to themselves, such as siblings or mating partners. Inactivation of anterior cingulate cortex (ACC) and parafascicular or mediodorsal thalamic nuclei, which comprise the medial pain system representing pain affection, substantially impaired this observational fear learning, whereas inactivation of sensory thalamic nuclei had no effect. The ACC neuronal activities were increased and synchronized with those of the lateral amygdala at theta rhythm frequency during this learning. Furthermore, an ACC-limited deletion of Cav1.2 Ca2+ channels in mice impaired observational fear learning and reduced behavioral pain responses. These results demonstrate the functional involvement of the affective pain system and Cav1.2 channels of the ACC in observational social fear. [ABSTRACT FROM AUTHOR]

Published

2010

56. Genome Maintenance and Mutagenesis in Embryonic Stem Cells.

Author

Qing Lin, Donahue, Sarah L., and Ruley, H. Earl

Published

2006

57. Discovery of mammalian genes that participate in virus infection.

Author

Organ, Edward L., Jinsong Sheng, Ruley, H. Earl, and Rubin, Donald H.

Subjects

GENES, VIRUS diseases, MUTAGENESIS, REOVIRUSES, GENETIC mutation

Abstract

Background: Viruses are obligate intracellular parasites that rely upon the host cell for different steps in their life cycles. The characterization of cellular genes required for virus infection and/or cell killing will be essential for understanding viral life cycles, and may provide cellular targets for new antiviral therapies. Results: Candidate genes required for lytic reovirus infection were identified by tagged sequence mutagenesis, a process that permits rapid identification of genes disrupted by gene entrapment. One hundred fifty-one reovirus resistant clones were selected from cell libraries containing 2 x 105 independently disrupted genes, of which 111 contained mutations in previously characterized genes and functionally anonymous transcription units. Collectively, the genes associated with reovirus resistance differed from genes targeted by random gene entrapment in that known mutational hot spots were under represented, and a number of mutations appeared to cluster around specific cellular processes, including: IGF-II expression/signalling, vesicular transport/cytoskeletal trafficking and apoptosis. Notably, several of the genes have been directly implicated in the replication of reovirus and other viruses at different steps in the viral lifecycle. Conclusions: Tagged sequence mutagenesis provides a rapid, genome-wide strategy to identify candidate cellular genes required for virus infection. The candidate genes provide a starting point for mechanistic studies of cellular processes that participate in the virus lifecycle and may provide targets for novel anti-viral therapies. [ABSTRACT FROM AUTHOR]

Published

2004

58. Mutations in the IGF-II pathway that confer resistance to lytic reovirus infection.

Author

Jinsong Sheng, Organ, Edward L., Chuanming Hao, Wells, K. Sam, Ruley, H. Earl, and Rubin, Donald H.

Subjects

VIRUS diseases, SOMATOMEDIN, REOVIRUSES, GENES, CARCINOGENESIS

Abstract

Background: Viruses are obligate intracellular parasites and rely upon the host cell for different steps in their life cycles. The characterization of cellular genes required for virus infection and/or cell killing will be essential for understanding viral life cycles, and may provide cellular targets for new antiviral therapies. Results: A gene entrapment approach was used to identify candidate cellular genes that affect reovirus infection or virus induced cell lysis. Four of the 111 genes disrupted in clones selected for resistance to infection by reovirus type 1 involved the insulin growth factor-2 (IGF-II) pathway, including: the mannose-6-phosphate/IGF2 receptor (Igf2r), a protease associated with insulin growth factor binding protein 5 (Prss11), and the CTCF transcriptional regulator (Ctcf). The disruption of Ctcf, which encodes a repressor of Igf2, was associated with enhanced Igf2 gene expression. Plasmids expressing either the IGF-II pro-hormone or IGF-II without the carboxy terminal extension (E)-peptide sequence independently conferred high levels of cellular resistance to reovirus infection. Forced IGF-II expression results in a block in virus disassembly. In addition, Ctcf disruption and forced Igf2 expression both enabled cells to proliferate in soft agar, a phenotype associated with malignant growth in vivo. Conclusion: These results indicate that IGF-II, and by inference other components of the IGF-II signalling pathway, can confer resistance to lytic reovirus infection. This report represents the first use of gene entrapment to identify host factors affecting virus infection. Concomitant transformation observed in some virus resistant cells illustrates a potential mechanism of carcinogenesis associated with chronic virus infection. [ABSTRACT FROM AUTHOR]

Published

2004

59. Enhanced cell-permeant Cre protein for site-specific recombination in cultured cells.

Author

Qing Lin, Daewoong Jo, Gebre-Amlak, Kassatihun D., and Ruley, H. Earl

Subjects

PROTEINS, CELLS, ENZYMES, GENETIC transduction, GENES

Abstract

Background: Cell-permeant Cre DNA site-specific recombinases provide an easily controlled means to regulate gene structure and function in living cells. Since recombination provides a stable and unambiguous record of protein uptake, the enzyme may also be used for quantitative studies of cis- and trans-acting factors that influence the delivery of proteins into cells. Results: In the present study, 11 recombinant fusion proteins were analyzed to characterize sequences and conditions that affect protein uptake and/or activity and to develop more active cell-permeant enzymes. We report that the native enzyme has a low, but intrinsic ability to enter cells. The most active Cre proteins tested contained either an N-terminal 6xHis tag and a nuclear localization sequence from SV40 large T antigen (HNC) or the HIV Tat transduction sequence and a C-terminal 6xHis tag (TCH6). The NLS and 6xHis elements separately enhanced the delivery of the HNC protein into cells; moreover, transduction sequences from fibroblast growth factor 4, HIV Tat or consisting of the (KFF)3K sequence were not required for efficient protein transduction and adversely affected enzyme solubility. Transduction of the HNC protein required 10 to 15 min for half-maximum uptake, was greatly decreased at 4°C and was inhibited by serum. Efficient recombination was observed in all cell types tested (a T-cell line, NIH3T3, Cos7, murine ES cells, and primary splenocytes), and did not require localization of the enzyme to the nucleus. Conclusions: The effects of different sequences on the delivery and/or activity of Cre in cultured cells could not be predicted in advance. Consequently, the process of developing more active cell-permeant recombinases was largely empirical. The HNC protein, with an excellent combination of activity, solubility and yield, will enhance the use of cell-permeant Cre proteins to regulate gene structure and function in living cells. [ABSTRACT FROM AUTHOR]

Published

2004

60. The High-Mobility-Group Box Protein SSRP1/T160 Is Essential for Cell Viability in Day 3.5 Mouse Embryos.

Author

Shang Cao, Bendall, Heather, Hicks, Geoffrey G., Nashabi, Abudi, Sakano, Hitoshi, Shinkai, Yoichi, Gariglio, Marisa, Oltz, Eugene M., and Ruley, H. Earl

Subjects

PROTEINS, DNA replication, GENETIC transcription, EMBRYONIC stem cells

Abstract

The high mobility group (HMG) SSRP1 protein is a member of a conserved chromatin-remodeling complex (FACT/DUF/CP) implicated in DNA replication, basal and regulated transcription, and DNA repair. To assist in the functional analysis of SSRP1, the Ssrp1 gene was targeted in murine embryonic stem cells, and the mutation was introduced into the germ line. Embryos homozygous for the targeted allele die soon after implantation, and preimplantation blastocysts are defected for cell outgrowth and/or survival in vitro. The Ssrp1 mutation was also crossed into a p53 null background without affecting growth and/or survival defects caused by loss of Ssrp1 function. Thus, Ssrp1 appears to encode nonredundant and p53-independent functions that are essential for cell viability. [ABSTRACT FROM AUTHOR]

Published

2003

61. Protein arginine methyltransferase I: Substrate specificity and role in hnRNP assembly.

Author

Pawlak, Maciej R., Banik-Maiti, Sarbani, Pietenpol, Jennifer A., and Ruley, H. Earl

Published

2002

62. Adenovirus early region 1A enables viral and cellular transforming genes to transform primary cells in culture.

Author

Ruley, H. Earl

Published

1983

63. An Enhancer Element in the EphA2(Eck) Gene Sufficient for Rhombomere-specific Expression Is Activated by HOXA1 and HOXB1 Homeobox Proteins*

Author

Chen, Jin and Ruley, H. Earl

Abstract

In the hindbrain of the mouse embryo, there is often coincident rhombomere-restricted expression of Eph receptor tyrosine kinases and Hoxhomeobox genes, raising the possibility of regulatory interactions. In this paper, we have identified cis-acting regulatory sequences of the EphA2(Eck) gene, which direct node and hindbrain-specific expression in transgenic embryos. An 8-kilobase region of mouse genomic DNA element was sufficient to drive rhombomere 4 (r4)-specific expression while conferring patchy expression in the node. Further analysis localized the rhombomere-specific enhancer to a 0.9-kilobase sequence. This element contains multiple Hox-Pbx consensus binding sites that bind to both HOXA1/Pbx1 and HOXB1/Pbx1 proteins in vitro. Co-expression of either HOXA1 or HOXB1 with Pbx1 transactivated EphA2enhancer-dependent reporter gene expression. These results, together with observations of reduced EphA2expression in hoxa1and hoxb1double mutant mice, suggest that expression of EphA2gene in rhombomere 4 is directly regulated by Hoxa1 and Hoxb1 homeobox transcription factors.

Published

1998

64. Clustered illegitimate recombination events in mammalian cells involving very short sequence homologies

Author

Ruley, H. Earl and Fried, Mike

Abstract

Mammalian cells possess mechanisms that allow unrelated sequences to recombine (illegitimate recombination), This is evidenced by the high rate of recombination between largely non-homologous sequences after DNA transfection1,2. We have analysed the integrated viral sequences present in the polyoma transformed cell line 82-Rat3. Within the single insert of integrated viral sequences there are two regions where multiple recombination events have occurred. The recombination events are particularly interesting as there was no obvious prior selection for their occurrence, and thus they may accurately reflect a normal mechanism of cellular recombination. A total of five recombinant joins have been sequenced. Our results, reported here, indicate that multiple recombinant events occur within small regions (about 50 bp) and that very short homologous stretches (3–4 bp) participate in joining two non-homologous sequences. This suggests that factors other than sequence homologies drive certain recombination events. These results have implications for site-directed recombination following the addition of exogenous DNA.

Published

1983

65. Enrichment of Insertional Mutants Following Retrovirus Gene Trap Selection

Author

Chang, Wen, Hubbard, S. Catherine, Friedel, Christina, and Ruley, H. Earl

Abstract

The present study has investigated the use of gene trap retroviruses as insertional mutagens. A gene trap vector (U3Hygro) was used to target single-copy thymidine kinase (tk) genes, present at different sites in the genome. Cell populations isolated by gene trap selection contained a higher proportion of insertional mutants as compared with nonselected cells containing randomly integrated viruses. The number of integration events required to observe loss of gene function was reduced from 8-40 × 10⁵ to 2-10 × 10⁴, an overall enrichment of 100- to 1000-fold. The feasibility of targeting normally diploid genes was also demonstrated in hypodiploid Chinese hamster ovary cells. The cellular gene encoding GlcNAc transferase I was disrupted in one wheat germ agglutinin resistant clone selected from a total of 5 × 10⁴ gene trap events. The clone was nullizygous for GlcNAc transferase I, indicating that the allele opposite the provirus was lost as a result of preexisting hemizyogosity or by loss of heterozygosity. Finally, the total number of genes in the genome that could activate the expression of retrovirus gene traps was estimated at between 2 × 10⁴ and 10⁵, suggesting that most expressed genes can be mutagenized by gene trap selection. Copyright 1993, 1999 Academic Press

Published

1993

66. Intracellular delivery of Parkin rescues neurons from accumulation of damaged mitochondria and pathological α-synuclein.

Author

Eunna Chung, Youngsil Choi, Jiae Park, Wonheum Nah, Jaehyung Park, Yukdong Jung, Joonno Lee, Hyunji Lee, Soyoung Park, Sunyoung Hwang, Seongcheol Kim, Jongseok Lee, Dongjae Min, Junghwan Jo, Shinyoung Kang, Minyong Jung, Phil Hyu Lee, Ruley, H. Earl, and Daewoong Jo

Subjects

*DOPAMINERGIC neurons, *PEROXISOME proliferator-activated receptors, *GLIAL fibrillary acidic protein, *NEURONS, *GREEN fluorescent protein, *MITOCHONDRIA formation, *UBIQUITIN ligases

Abstract

The article discusses a study on intracellular delivery of Parkin rescues neurons from accumulation of damaged mitochondria and pathological alpha synuclein. It mentions that cell-permeable Parkin protein recovered damaged mitochondria by promoting mitophagy and mitochondrial biogenesis and suppressed toxic accumulations of alpha synuclein in cells and animals.

Published

2020

67. Antitumor Activity of Cell-Permeable p18INK4c With Enhanced Membrane and Tissue Penetration.

Author

Lim, Junghee, Kim, Jungeun, Duong, Tam, Lee, Guewha, Kim, Junghee, Yoon, Jina, Kim, Jaetaek, Kim, Hyuncheol, Ruley, H Earl, El-Rifai, Wael, and Jo, Daewoong

Subjects

*TUMOR growth, *ANTINEOPLASTIC agents, *PROTEINS, *MACROMOLECULES, *CELLS, *TISSUES, *XENOGRAFTS

Abstract

Practical methods to deliver proteins systemically in animals have been hampered by poor tissue penetration and inefficient cytoplasmic localization of internalized proteins. We therefore pursued the development of improved macromolecule transduction domains (MTDs) and tested their ability to deliver therapeutically active p18INK4c. MTD103 was identified from a screen of 1,500 signal peptides; tested for the ability to promote protein uptake by cells and tissues; and analyzed with regard to the mechanism of protein uptake and the delivery of biologically active p18INK4c into cancer cells. The therapeutic potential of cell-permeable MTD103p18INK4c (CP-p18INK4c) was tested in the HCT116 tumor xenograft model. MTD103p18INK4c appeared to traverse plasma membranes directly, was transferred from cell-to-cell and was therapeutically effective against cancer xenografts, inhibiting tumor growth by 86-98% after 5 weeks (P < 0.05). The therapeutic responses to CP-p18INK4c were accompanied by high levels of apoptosis in tumor cells. In addition to enhancing systemic delivery of CP-p18INK4c to normal tissues and cancer xenografts, the MTD103 sequence delayed protein clearance from the blood, liver and spleen. These results demonstrate that macromolecule intracellular transduction technology (MITT), enabled by MTDs, may provide novel protein therapies against cancer and other diseases. [ABSTRACT FROM AUTHOR]

Published

2012

68. Cutting Edge: The "Death" Adaptor CRADD/RAIDD Targets BCL10 and Suppresses Agonist-Induced Cytokine Expression in T Lymphocytes.

Author

Qing Lin, Yan Liu, Moore, Daniel J., Elizer, Sydney K., Veach, Ruth A., Hawiger, Jacek, and Ruley, H. Earl

Subjects

*CYTOKINES, *T cells, *CHEMOKINES, *CASPASES, *ADAPTOR proteins, *INFLAMMATION, *LABORATORY mice

Abstract

The expression of proinflammatory cytokines and chemokines in response to TCR agonists is regulated by the caspase-recruitment domain membrane-associated guanylate kinase 1 (CARMA1) signalosome through the coordinated assembly of complexes containing the BCL10 adaptor protein. We describe a novel mechanism to negatively regulate the CARMA1 signalosome by the "death" adaptor protein caspase and receptor interacting protein adaptor with death domain (CRADD)/ receptor interacting protein-associated ICH-l/CED-3 homologous protein with a death domain. We show that CRADD interacts with BCL10 through its caspase recruitment domain and suppresses interactions between BCL10 and CARMA1. TCR agonist-induced interaction between CRADD and BCL10 coincides with reduction of its complex formation with CARMA1 in wild-type, as compared with OW-deficient, primary cells. Finally, Cradd-dencient spleen cells, CD4+ T cells, and mice respond to T cell agonists with strikingly higher production of proinflammatory mediators, including IFN-7, IL-2, TNF-a, and IL-17. These results define a novel role for CRADD as a negative regulator of the CARMAl signalosome and suppressor of Thland Thl7-mediated inflammatory responses. [ABSTRACT FROM AUTHOR]

Published

2012

69. Cell-Permeable NM23 Blocks the Maintenance and Progression of Established Pulmonary Metastasis.

Author

Junghee Lim, Giyong Jang, Seeun Kang, Guewha Lee, Do Thi Thuy Nga, Hyuncheol Kim, Wael El-Rifai, Ruley, H. Earl, Daewoong Jo, and Do Thi Lan Phuong

Subjects

*CANCER-related mortality, *METASTASIS, *LUNG cancer, *CANCER invasiveness, *CELL lines

Abstract

Occult metastases are a major cause of cancer mortality, even among patients undergoing curative resection. Therefore, practical strategies to target the growth and persistence of already established metastases would provide an important advance in cancer treatment. Here, we assessed the potential of protein therapy using a cell permeable NM23-H1 metastasis suppressor protein. Hydrophobic transduction domains developed from a screen of 1,500 signaling peptide sequences enhanced the uptake of the NM23 protein by cultured cells and systemic delivery to animal tissues. The cell-permeable (CP)-NM23 inhibited metastasis-associated phenotypes in tumor cell lines, blocked the establishment of lung metastases, and cleared already established pulmonary metastases, significantly prolonging the survival of tumor-bearing animals. Therefore, these results establish the potential use of cell-permeable metastasis suppressors as adjuvant therapy against disseminated cancers. [ABSTRACT FROM AUTHOR]

Published

2011

70. Cellular genetics of host susceptibility and resistance to virus infection.

Author

Rubin DH and Ruley HE

Subjects

Animals, Cell Cycle, Gene Targeting, Genetic Vectors, Humans, Mice, Mutagenesis, Receptors, Virus genetics, Reoviridae Infections genetics, Signal Transduction, Virus Replication, Virus Diseases genetics

Abstract

Viruses are obligate intracellular parasites that rely upon the host cell for activities essential to their life cycles. Gene-trap mutagenesis provides a rapid, genome-wide strategy to identify candidate cellular genes required for virus replication. The candidate genes provide a starting point for mechanistic studies of cellular processes that participate in the virus life cycle and may provide targets for novel antiviral therapies.

Published

2006

71. P2P-R expression is genetically coregulated with components of the translation machinery and with PUM2, a translational repressor that associates with the P2P-R mRNA.

Author

Scott RE, White-Grindley E, Ruley HE, Chesler EJ, and Williams RW

Subjects

Amino Acid Sequence, Animals, Base Sequence, COS Cells, Carrier Proteins metabolism, Cell Division physiology, Cerebellum physiology, Chlorocebus aethiops, Dogs, Fibroblasts cytology, G2 Phase physiology, HeLa Cells, Humans, Mice, Molecular Sequence Data, Osteosarcoma, Prosencephalon physiology, RNA, Messenger metabolism, Carrier Proteins genetics, Protein Biosynthesis physiology, RNA-Binding Proteins genetics, RNA-Binding Proteins metabolism

Abstract

P2P-R is a nuclear protein with potential functional roles in the control of gene expression and mitosis. The P2P-R protein also interacts with the p53 and Rb1 tumor suppressor proteins. To search for additional functional associations of P2P-R, we employed the WebQTL database that contains the results of cDNA microarray analysis on forebrain, cerebellum, and hematopoietic stem cell (HSC) specimens of multiple BXD recombinant inbred strains of mice. Using WebQTL, gene products were identified that show genetically based coexpression with P2P-R. Initial studies identified general groups of mRNAs that share common functional roles and high covariation in expression with P2P-R. These functional groups involved the regulation of transcription, nucleotide binding, translation control, and ion transport. The findings related to translational mechanisms were further evaluated. In HSCs, expression of P2P-R mRNA demonstrates an impressive expression correlation with a group of gene products associated with translation; high expression of P2P-R specifically was associated with decreased expression of 29 ribosomal protein mRNAs. In all three tissues that were screened using the WebQTL database, a strong positive expression covariance between P2P-R and the Pum2 gene product also was observed. PUM2 is a member of the highly conserved Puf family of RNA binding proteins that often function as gene-specific translation regulators. The ability of Puf proteins to repress translation is mediated by their binding to specific elements located in the 3' untranslated region (UTR) of their target mRNAs. To assess the functional significance of the strong genetic correlation in expression of P2P-R and PUM2, the 3' UTR of the P2P-R mRNA was analyzed and found to contain one perfect consensus and two near-perfect consensus PUM2 binding sequences. PUM2 pull-down methods combined with reverse transcription and RT-PCR confirmed that PUM2 does indeed bind P2P-R mRNA. These results suggest that P2P-R expression may be translationally regulated by PUM2 and that P2P-R may modulate translation by influencing ribosomal protein gene expression. This study represents the first description of a RNA target for mammalian Puf proteins and the first molecular confirmation of information obtained using the WebQTL database., ((c) 2004 Wiley-Liss, Inc.)

Published

2005

72. Mutations in the IGF-II pathway that confer resistance to lytic reovirus infection.

Author

Sheng J, Organ EL, Hao C, Wells KS, Ruley HE, and Rubin DH

Subjects

Amino Acid Sequence, Animals, Base Sequence, CCCTC-Binding Factor, Cell Line, Cell Proliferation, DNA-Binding Proteins genetics, Gene Expression Regulation, Gene Targeting, Insulin-Like Growth Factor II biosynthesis, Molecular Sequence Data, Mutation, Rats, Repressor Proteins genetics, Signal Transduction, Virion metabolism, Insulin-Like Growth Factor II genetics, Mutagenesis, Orthoreovirus, Mammalian physiology

Abstract

Background: Viruses are obligate intracellular parasites and rely upon the host cell for different steps in their life cycles. The characterization of cellular genes required for virus infection and/or cell killing will be essential for understanding viral life cycles, and may provide cellular targets for new antiviral therapies., Results: A gene entrapment approach was used to identify candidate cellular genes that affect reovirus infection or virus induced cell lysis. Four of the 111 genes disrupted in clones selected for resistance to infection by reovirus type 1 involved the insulin growth factor-2 (IGF-II) pathway, including: the mannose-6-phosphate/IGF2 receptor (Igf2r), a protease associated with insulin growth factor binding protein 5 (Prss11), and the CTCF transcriptional regulator (Ctcf). The disruption of Ctcf, which encodes a repressor of Igf2, was associated with enhanced Igf2 gene expression. Plasmids expressing either the IGF-II pro-hormone or IGF-II without the carboxy terminal extension (E)-peptide sequence independently conferred high levels of cellular resistance to reovirus infection. Forced IGF-II expression results in a block in virus disassembly. In addition, Ctcf disruption and forced Igf2 expression both enabled cells to proliferate in soft agar, a phenotype associated with malignant growth in vivo., Conclusion: These results indicate that IGF-II, and by inference other components of the IGF-II signalling pathway, can confer resistance to lytic reovirus infection. This report represents the first use of gene entrapment to identify host factors affecting virus infection. Concomitant transformation observed in some virus resistant cells illustrates a potential mechanism of carcinogenesis associated with chronic virus infection.

Published

2004