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R H Reeder

Showing results (71-80 of 96) with videos related to

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Developmental Biology|October 1, 1982
Transcription of Xenopus borealis rRNA genes in nuclei of Xenopus laevis oocytesG T Morgan, A H Bakken, R H Reeder
Molecular and Cellular Biology|November 1, 1995
The release element of the yeast polymerase I transcription terminator can function independently of Reb1pS W Jeong, W H Lang, R H Reeder
Molecular and Cellular Biology|April 1, 1984
Plasmids containing mouse rDNA do not recombine with cellular ribosomal genes when introduced into cultured mouse cellsR E Steele, A H Bakken, R H Reeder
Cell|February 1, 1978
DNA synthesis in a multi-enzyme system from Xenopus laevis eggsR M Benbow, M R Krauss, R H Reeder
Nucleic Acids Research|July 25, 1993
Efficient expression of a protein coding gene under the control of an RNA polymerase I promoterT D Palmer, A D Miller, R H Reeder, et al.
Cell|November 3, 1989
Molecular mechanisms governing species-specific transcription of ribosomal RNAS P Bell, C S Pikaard, R H Reeder, et al.
Cell|November 1, 1983
Nested control regions promote Xenopus ribosomal RNA synthesis by RNA polymerase IB Sollner-Webb, J A Wilkinson, J Roan, et al.
The EMBO Journal|August 1, 1991
xUBF and Rib 1 are both required for formation of a stable polymerase I promoter complex in X. laevisB McStay, C H Hu, C S Pikaard, et al.
Molecular and Cellular Biology|July 1, 1990
rUBF, an RNA polymerase I transcription factor from rats, produces DNase I footprints identical to those produced by xUBF, its homolog from frogsC S Pikaard, S D Smith, R H Reeder, et al.
Molecular and Cellular Biology|May 1, 1994
xUBF, an RNA polymerase I transcription factor, binds crossover DNA with low sequence specificityC H Hu, B McStay, S W Jeong, et al.
Pageof 10

Showing results (71-80 of 96) with videos related to

Sort By:
Pageof 10
Developmental Biology|October 1, 1982
Transcription of Xenopus borealis rRNA genes in nuclei of Xenopus laevis oocytesG T Morgan, A H Bakken, R H Reeder
Molecular and Cellular Biology|November 1, 1995
The release element of the yeast polymerase I transcription terminator can function independently of Reb1pS W Jeong, W H Lang, R H Reeder
Molecular and Cellular Biology|April 1, 1984
Plasmids containing mouse rDNA do not recombine with cellular ribosomal genes when introduced into cultured mouse cellsR E Steele, A H Bakken, R H Reeder
Cell|February 1, 1978
DNA synthesis in a multi-enzyme system from Xenopus laevis eggsR M Benbow, M R Krauss, R H Reeder
Nucleic Acids Research|July 25, 1993
Efficient expression of a protein coding gene under the control of an RNA polymerase I promoterT D Palmer, A D Miller, R H Reeder, et al.
Cell|November 3, 1989
Molecular mechanisms governing species-specific transcription of ribosomal RNAS P Bell, C S Pikaard, R H Reeder, et al.
Cell|November 1, 1983
Nested control regions promote Xenopus ribosomal RNA synthesis by RNA polymerase IB Sollner-Webb, J A Wilkinson, J Roan, et al.
The EMBO Journal|August 1, 1991
xUBF and Rib 1 are both required for formation of a stable polymerase I promoter complex in X. laevisB McStay, C H Hu, C S Pikaard, et al.
Molecular and Cellular Biology|July 1, 1990
rUBF, an RNA polymerase I transcription factor from rats, produces DNase I footprints identical to those produced by xUBF, its homolog from frogsC S Pikaard, S D Smith, R H Reeder, et al.
Molecular and Cellular Biology|May 1, 1994
xUBF, an RNA polymerase I transcription factor, binds crossover DNA with low sequence specificityC H Hu, B McStay, S W Jeong, et al.
Pageof 10