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S Diekmann

Showing results (41-50 of 139) with videos related to

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Nucleic Acids Research|February 26, 1999
All 16 centromere DNAs from Saccharomyces cerevisiae show DNA curvatureT Bechert, S Heck, U Fleig, et al.
Biophysical Chemistry|July 1, 1982
Orientation relaxation of DNA restriction fragments and the internal mobility of the double helixS Diekmann, W Hillen, B Morgeneyer, et al.
Biophysical Chemistry|May 1, 1982
Electric properties and structure of DNA-restriction fragments from measurements of the electric dichroismS Diekmann, W Hillen, M Jung, et al.
Biochemistry|January 8, 1991
Binding of Hoechst 33258 and 4',6'-diamidino-2-phenylindole to self-complementary decadeoxynucleotides with modified exocyclic base substituentsF G Loontiens, L W McLaughlin, S Diekmann, et al.
Proceedings of the National Academy of Sciences of the United States of America|December 1, 1987
The influence of exocyclic substituents of purine bases on DNA curvatureS Diekmann, E von Kitzing, L McLaughlin, et al.
Biochemistry|October 3, 1999
Solution structure of a five-adenine bulge loop within a DNA duplexU Dornberger, A Hillisch, F A Gollmick, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 9, 2000
Interaction of yeast kinetochore proteins with centromere-protein/transcription factor Cbf1P Hemmerich, T Stoyan, G Wieland, et al.
Nucleic Acids Research|February 27, 2001
Determination of the binding constants of the centromere protein Cbf1 to all 16 centromere DNAs of Saccharomyces cerevisiaeG Wieland, P Hemmerich, M Koch, et al.
Yeast (Chichester, England)|July 9, 1999
Cloning of a centromere binding factor 3d (CBF3D) gene from Candida glabrataT Stoyan, R Eck, J Lechner, et al.
Nucleic Acids Research|July 11, 1990
A non-curved chicken lysozyme 5' matrix attachment site is 3' followed by a strongly curved DNA sequenceJ P von Kries, L Phi-Van, S Diekmann, et al.
Pageof 14

Showing results (41-50 of 139) with videos related to

Sort By:
Pageof 14
Nucleic Acids Research|February 26, 1999
All 16 centromere DNAs from Saccharomyces cerevisiae show DNA curvatureT Bechert, S Heck, U Fleig, et al.
Biophysical Chemistry|July 1, 1982
Orientation relaxation of DNA restriction fragments and the internal mobility of the double helixS Diekmann, W Hillen, B Morgeneyer, et al.
Biophysical Chemistry|May 1, 1982
Electric properties and structure of DNA-restriction fragments from measurements of the electric dichroismS Diekmann, W Hillen, M Jung, et al.
Biochemistry|January 8, 1991
Binding of Hoechst 33258 and 4',6'-diamidino-2-phenylindole to self-complementary decadeoxynucleotides with modified exocyclic base substituentsF G Loontiens, L W McLaughlin, S Diekmann, et al.
Proceedings of the National Academy of Sciences of the United States of America|December 1, 1987
The influence of exocyclic substituents of purine bases on DNA curvatureS Diekmann, E von Kitzing, L McLaughlin, et al.
Biochemistry|October 3, 1999
Solution structure of a five-adenine bulge loop within a DNA duplexU Dornberger, A Hillisch, F A Gollmick, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 9, 2000
Interaction of yeast kinetochore proteins with centromere-protein/transcription factor Cbf1P Hemmerich, T Stoyan, G Wieland, et al.
Nucleic Acids Research|February 27, 2001
Determination of the binding constants of the centromere protein Cbf1 to all 16 centromere DNAs of Saccharomyces cerevisiaeG Wieland, P Hemmerich, M Koch, et al.
Yeast (Chichester, England)|July 9, 1999
Cloning of a centromere binding factor 3d (CBF3D) gene from Candida glabrataT Stoyan, R Eck, J Lechner, et al.
Nucleic Acids Research|July 11, 1990
A non-curved chicken lysozyme 5' matrix attachment site is 3' followed by a strongly curved DNA sequenceJ P von Kries, L Phi-Van, S Diekmann, et al.
Pageof 14