Instant search results.

These results are sorted by relevance. You can sort the results by clicking on the table headers.

Download citations for all displayed entries in BibTeX format
Entry ID Original Release date Data summary Entry Title Citation Title Authors
918 1999-06-14 Chemical Shifts: 1 set
 Mechanism of Adenylate Kinase. Structural and Functional Demonstration of Arginine-138 as a Key Catalytic Residue That Cannot Be Replaced by Lysine Mechanism of Adenylate Kinase. Structural and Functional Demonstration of Arginine-138 as a Key Catalytic Residue That Cannot Be Replaced by Lysine Download bibtex for citation iamge Honggao Yan, Ming-Daw Tsai, Zhengtao Shi
919 1999-06-14 Chemical Shifts: 1 set
 Mechanism of Adenylate Kinase. Structural and Functional Demonstration of Arginine-138 as a Key Catalytic Residue That Cannot Be Replaced by Lysine Mechanism of Adenylate Kinase. Structural and Functional Demonstration of Arginine-138 as a Key Catalytic Residue That Cannot Be Replaced by Lysine Download bibtex for citation iamge Honggao Yan, Ming-Daw Tsai, Zhengtao Shi
920 1999-06-14 Chemical Shifts: 1 set
 Mechanism of Adenylate Kinase. Structural and Functional Demonstration of Arginine-138 as a Key Catalytic Residue That Cannot Be Replaced by Lysine Mechanism of Adenylate Kinase. Structural and Functional Demonstration of Arginine-138 as a Key Catalytic Residue That Cannot Be Replaced by Lysine Download bibtex for citation iamge Honggao Yan, Ming-Daw Tsai, Zhengtao Shi