Udo Heinemann
Udo Heinemann
Verified email at mdc-berlin.de
Cited by
Cited by
Protein production and purification.
S Gräslund, P Nordlund, J Weigelt, BM Hallberg, J Bray, O Gileadi, ...
Nature methods 5 (2), 135-146, 2008
A standard reference frame for the description of nucleic acid base-pair geometry
WK Olson, M Bansal, SK Burley, RE Dickerson, M Gerstein, SC Harvey, ...
Journal of molecular biology 313 (1), 229-237, 2001
Helix geometry, hydration, and GA mismatch in a B-DNA decamer
GG Prive, U Heinemann, S Chandrasegaran, LS Kan, ML Kopka, ...
Science 238 (4826), 498-504, 1987
Universal nucleic acid-binding domain revealed by crystal structure of the B. subtilis major cold-shock protein
H Schindelin, MA Marahiel, U Heinemann
Nature 364 (6433), 164-168, 1993
Two exposed amino acid residues confer thermostability on a cold shock protein
D Perl, U Mueller, U Heinemann, FX Schmid
Nature structural biology 7 (5), 380-383, 2000
Crystal structure of CspA, the major cold shock protein of Escherichia coli
H Schindelin, W Jiang, M Inouye, U Heinemann
Proceedings of the National Academy of Sciences 91 (11), 5119-5123, 1994
Specific protein-nucleic acid recognition in ribonuclease T 1–2′-guanylic acid complex: an X-ray study
U Heinemann, W Saenger
Nature 299 (5878), 27-31, 1982
XDSAPP: a graphical user interface for the convenient processing of diffraction data using XDS
M Krug, MS Weiss, U Heinemann, U Mueller
Journal of Applied Crystallography 45 (3), 568-572, 2012
Molecular and active-site structure of a Bacillus 1, 3-1, 4-beta-glucanase
T Keitel, O Simon, R Borriss, U Heinemann
Proceedings of the National Academy of Sciences 90 (11), 5287-5291, 1993
Structure of the DLM-1–Z-DNA complex reveals a conserved family of Z-DNA-binding proteins
T Schwartz, J Behlke, K Lowenhaupt, U Heinemann, A Rich
Nature structural biology 8 (9), 761-765, 2001
Adrenodoxin: structure, stability, and electron transfer properties
AV Grinberg, F Hannemann, B Schiffler, J Müller, U Heinemann, ...
Proteins: Structure, Function, and Bioinformatics 40 (4), 590-612, 2000
Vectors for co-expression of an unrestricted number of proteins
C Scheich, D Kümmel, D Soumailakakis, U Heinemann, K Büssow
Nucleic acids research 35 (6), e43, 2007
Ribonuclease T1: structure, function, and stability
CN Pace, U Heinemann, U Hahn, W Saenger
Angewandte Chemie International Edition in English 30 (4), 343-360, 1991
Three-dimensional structure of the ribonuclease T1 2'-GMP complex at 1.9-A resolution.
R Arni, U Heinemann, R Tokuoka, W Saenger
Journal of Biological Chemistry 263 (30), 15358-15368, 1988
Adrenodoxin reductase-adrenodoxin complex structure suggests electron transfer path in steroid biosynthesis
JJ Müller, A Lapko, G Bourenkov, K Ruckpaul, U Heinemann
Journal of Biological Chemistry 276 (4), 2786-2789, 2001
New aspects of electron transfer revealed by the crystal structure of a truncated bovine adrenodoxin, Adx (4–108)
A Müller, JJ Müller, YA Muller, H Uhlmann, R Bernhardt, U Heinemann
Structure 6 (3), 269-280, 1998
Ribonuclease T1 with free recognition and catalytic site: crystal structure analysis at 1.5 Å resolution
J Martinez-Oyanedel, HW Choe, U Heinemann, W Saenger
Journal of molecular biology 222 (2), 335-352, 1991
Involvement of a Bifunctional, Paired-like DNA-binding Domain and a Transpositional Enhancer in Sleeping BeautyTransposition
Z Izsvák, D Khare, J Behlke, U Heinemann, RH Plasterk, Z Ivics
Journal of Biological Chemistry 277 (37), 34581-34588, 2002
The DNA‐bending protein HMGB1 is a cellular cofactor of Sleeping Beauty transposition
H Zayed, Z Izsvák, D Khare, U Heinemann, Z Ivics
Nucleic acids research 31 (9), 2313-2322, 2003
The structural and sequence homology of a family of microbial ribonucleases
C Hill, G Dodson, U Heinemann, W Saenger, Y Mitsui, K Nakamura, ...
Trends in Biochemical Sciences 8 (10), 364-369, 1983
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