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- Protein Structure
- Amino Acids III and Peptides
- Amide Bond Activation of Biological Molecules
- Branched Ubiquitination: Detection Methods, Biological Functions and Chemical Synthesis
- Methylation of Elongation Factor La from the Fungus Mucor (Posttranslational Modification/Nt-Methyllysine/Protein Synthesis) WILLIAM R
- Chem331 Tansey Chpt3
- Prior to Formation of First Peptide- Bond
- O-Glcnac Modification of Tau Directly Inhibits Its Aggregation Without Perturbing the Conformational Properties of Tau Monomers
- Racemization in Post-Translational Modifications Relevance To
- Slow Peptide Bond Formation by Proline and Other N-Alkylamino Acids in Translation
- Digital Biology
- Chemical Arsenal for the Study of O-Glcnac
- Peptide Bond Formation, and Amino Acid Polymerization Are Hampered by Antibiotics
- Proteolysis of -Lactoglobulin by Trypsin: Simulation by Two-Step Model
- Deciphering the Proteolytic Mechanism of the Atp-Dependent
- Effect of Addition of Tryptophan on Aggregation of Apo–Lactalbumin Induced by UV-Light
- Protein Structure and Function
- 7.8 Amino Acids and Proteins. Alpha Amino Acids (Often Just Referred to As Amino Acids Are Particularly Important Examples of Amines and Have the Structure
- Proteomic Techniques to Probe the Ubiquitin Landscape
- Peptide Bonds: Structure
- Pauling's Conceptions of Hybridization and Resonance in Modern Quantum Chemistry
- A Chemoenzymatic Strategy Toward Understanding O-Glcnac Glycosylation in the Brain
- Reversed Proteolysis—Proteases As Peptide Ligases
- Structural Basis for a Natural Circular Permutation in Proteins
- Improving Stability of Peptide Drugs Through Chemical Modifications
- Chem Istry SECOND EDITION
- Design and Development of Metal-Peptide Nanoscaled Materials
- Site-Specific Interplay Between O-Glcnacylation And
- The Proteolytic Stability and Cytotoxicity Studies of L‐Aspartic
- Molecular Graphics Perspective of Protein Structure and Function VMD Highlights
- Protein Structure Amino Acids
- Research 1..10
- Proteins & Amino Acids
- Bonds Stabilizing Protein Structure, Levels of Organization in Proteins, Denaturation, Introduction to Simple and Conjugate Proteins
- Role of Proteolytic Enzymes in Biological Regulation (A Review)*
- Proteolysis of HCF-1 by Ser/Thr Glycosylation-Incompetent O-Glcnac Transferase:UDP-Glcnac Complexes
- Ubiquitin Modification in Eukaryotes Catalyzed by Bacterial (Pathogen) Enzymes
- CHAPTER 4 Proteins: Structure, Function, Folding
- Mechanism of Protein Biosynthesis Perer LENGYEL a DIETER SOIL Department Ofmolecular Biophysics, Yale University, New Haven, Connecticut 06520
- Methods to Enhance the Metabolic Stability of Peptide-Based PET Radiopharmaceuticals
- Proteins & Amino Acids
- 1-3 the Peptide Bond
- 16 Quantum Transition State for Peptide Bond Formation in the Ribosome Lou Massa, Ch Erif F
- Protein Structure-Function Relationship: Catalysis – Example of Serine Proteases