Glucocorticoid responsiveness of the transcriptional enhancer of Moloney Murine Sarcoma Virus

[1]  M. Wintzerith,et al.  Specific protein binding to the simian virus 40 enhancer in vitro , 1986, Molecular and cellular biology.

[2]  B. Wasylyk,et al.  The immunoglobulin heavy‐chain B‐lymphocyte enhancer efficiently stimulates transcription in non‐lymphoid cells. , 1986, The EMBO journal.

[3]  S. McKnight,et al.  Homologous recognition of a promoter domain common to the MSV LTR and the HSV tk gene , 1986, Cell.

[4]  M. Wintzerith,et al.  Multiple sequence motifs are involved in SV40 enhancer function. , 1986, The EMBO journal.

[5]  P. Sharp,et al.  A nuclear factor that binds to a conserved sequence motif in transcriptional control elements of immunoglobulin genes , 1986, Nature.

[6]  J. Hess,et al.  cis- and trans-acting transcriptional regulation of visna virus. , 1985, Science.

[7]  S. McKnight,et al.  Delineation of transcriptional control signals within the Moloney murine sarcoma virus long terminal repeat , 1985, Molecular and cellular biology.

[8]  R. Palmiter,et al.  Building a metal-responsive promoter with synthetic regulatory elements , 1985, Molecular and cellular biology.

[9]  P. Gruss,et al.  Mutational analyses of the Moloney murine sarcoma virus enhancer. , 1985, DNA.

[10]  Michael Boshart,et al.  A very strong enhancer is located upstream of an immediate early gene of human cytomegalovirus , 1985, Cell.

[11]  E. Chen,et al.  Supercoil sequencing: a fast and simple method for sequencing plasmid DNA. , 1985, DNA.

[12]  K. Steimer,et al.  Nucleotide sequence and expression of an AIDS-associated retrovirus (ARV-2). , 1985, Science.

[13]  B. Groner,et al.  Hormonal response region in the mouse mammary tumor virus long terminal repeat can be dissociated from the proviral promoter and has enhancer properties. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[14]  Mark L. Pearson,et al.  Complete nucleotide sequence of the AIDS virus, HTLV-III , 1985, Nature.

[15]  E. Chen,et al.  Supercoil sequencing: a fast method for sequencing plasmid DNA , 1985 .

[16]  H. Zentgraf,et al.  A transcription enhancer acts in vitro over distances of hundreds of base-pairs on both circular and linear templates but not on chromatin-reconstituted DNA. , 1984, Journal of molecular biology.

[17]  B. Wasylyk,et al.  The MLV and SV40 enhancers have a similar pattern of transcriptional activation. , 1984, Nucleic acids research.

[18]  M. Yaniv,et al.  Two distinct enhancers with different cell specificities coexist in the regulatory region of polyoma , 1984, Cell.

[19]  D. Melton,et al.  Efficient in vitro synthesis of biologically active RNA and RNA hybridization probes from plasmids containing a bacteriophage SP6 promoter. , 1984, Nucleic acids research.

[20]  M. Martin,et al.  Distinctive termini characterize two families of human endogenous retroviral sequences. , 1984, Science.

[21]  G. Hager,et al.  Modulation of enhancer activity by the hormone responsive regulatory element from mouse mammary tumor virus. , 1984, The EMBO journal.

[22]  B Sollner-Webb,et al.  High level transient expression of a chloramphenicol acetyl transferase gene by DEAE-dextran mediated DNA transfection coupled with a dimethyl sulfoxide or glycerol shock treatment. , 1984, Nucleic acids research.

[23]  M. Beato,et al.  Sequences in the promoter region of the chicken lysozyme gene required for steroid regulation and receptor binding , 1984, Cell.

[24]  W. Ostertag,et al.  Comparison of myeloproliferative sarcoma virus with Moloney murine sarcoma virus variants by nucleotide sequencing and heteroduplex analysis , 1984, Journal of virology.

[25]  M. Karin,et al.  Characterization of DNA sequences through which cadmium and glucocorticoid hormones induce human metallothionein-IIA gene , 1984, Nature.

[26]  W. Zimmermann,et al.  Molecular analysis of the envelope gene and long terminal repeat of Friend mink cell focus-inducing virus: implications for the functions of these sequences , 1984, Journal of virology.

[27]  Hans R. Schöler,et al.  Specific interaction between enhancer-containing molecules and cellular components , 1984, Cell.

[28]  M. Karin,et al.  Activation of a heterologous promoter in response to dexamethasone and cadmium by metallothionein gene 5′-flanking DNA , 1984, Cell.

[29]  P Gruss,et al.  Characterization of enhancer elements in the long terminal repeat of Moloney murine sarcoma virus , 1984, Journal of virology.

[30]  K. Yamamoto,et al.  Sequence-specific binding of glucocorticoid receptor to MTV DNA at sites within and upstream of the transcribed region , 1983, Cell.

[31]  T. Maniatis,et al.  Identification of two distinct regulatory regions adjacent to the human β-interferon gene , 1983, Cell.

[32]  M. Beato,et al.  The glucocorticoid receptor binds to defined nucleotide sequences near the promoter of mouse mammary tumour virus , 1983, Nature.

[33]  D. Spandidos,et al.  Host‐specificities of papillomavirus, Moloney murine sarcoma virus and simian virus 40 enhancer sequences. , 1983, The EMBO journal.

[34]  B. Groner,et al.  Subfragments of the large terminal repeat cause glucocorticoid-responsive expression of mouse mammary tumor virus and of an adjacent gene. , 1983, Proceedings of the National Academy of Sciences of the United States of America.

[35]  K. Yamamoto,et al.  DNA sequences bound specifically by glucocorticoid receptor in vitro render a heterologous promoter hormone responsive in vivo , 1983, Cell.

[36]  J. Mullins,et al.  Nucleotide Sequence of the Envelope Gene of Gardner-Arnstein Feline Leukemia Virus B Reveals Unique Sequence Homologies with a Murine Mink Cell Focus-Forming Virus , 1983, Journal of virology.

[37]  R. Tennant,et al.  Molecular Cloning and Analysis of the Endogenous Retrovirus Chemically Induced from RFM/Un Mouse Cell Cultures , 1983, Journal of virology.

[38]  I. Verma,et al.  Elements in the long terminal repeat of murine retroviruses enhance stable transformation by thymidine kinase gene. , 1983, Nucleic acids research.

[39]  P. Gruss,et al.  Multiple point mutations affecting the simian virus 40 enhancer. , 1983, Science.

[40]  B. Groner,et al.  Glucocorticoid receptors recognize DNA sequences in and around murine mammary tumour virus DNA. , 1982, The EMBO journal.

[41]  P. Gruss,et al.  Host-specific activation of transcription by tandem repeats from simian virus 40 and Moloney murine sarcoma virus. , 1982, Proceedings of the National Academy of Sciences of the United States of America.

[42]  H. Pelham,et al.  A synthetic heat‐shock promoter element confers heat‐inducibility on the herpes simplex virus thymidine kinase gene. , 1982, The EMBO journal.

[43]  K. Fry,et al.  Characterization of an infective molecular clone of the B-tropic, ecotropic BL/Ka(B) murine retrovirus genome , 1982, Journal of virology.

[44]  B. Howard,et al.  Recombinant genomes which express chloramphenicol acetyltransferase in mammalian cells , 1982, Molecular and cellular biology.

[45]  S. McKnight,et al.  Transcriptional control signals of a eukaryotic protein-coding gene. , 1982, Science.

[46]  I. Verma,et al.  Nucleotide sequence of the genome of a murine sarcoma virus , 1981, Cell.

[47]  R. Lerner,et al.  Nucleotide sequence of Moloney murine leukaemia virus , 1981, Nature.

[48]  L. Enquist,et al.  Nucleotide sequences of integrated Moloney sarcoma provirus long terminal repeats and their host and viral junctions. , 1980, Proceedings of the National Academy of Sciences of the United States of America.

[49]  J. Levy,et al.  Differential effect of dexamethasone on replication of ecotropic and xenotropic mouse type C viruses. , 1979, Virology.

[50]  D. Lowy,et al.  Glucocorticoids induce focus formation and increase sarcoma viral expression in a mink cell line that contains a murine sarcoma viral genome , 1978, Journal of virology.

[51]  J. Svoboda Presence of Chicken Tumour Virus in the Sarcoma of the Adult Rat inoculated after Birth with Rous Sarcoma Tissue , 1960, Nature.