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Trefoil knot fold
The Unique Cysteine Knot Regulates the Pleotropic Hormone Leptin
Chemical Synthesis and NMR Solution Structure of Conotoxin GXIA from Conus Geographus
(12) Patent Application Publication (10) Pub. No.: US 2007/0191272 A1 Stemmer Et Al
The Unique Cysteine Knot Regulates the Pleotropic Hormone Leptin
Structures and Folding Pathways of Topologically Knotted Proteins
Protein Folds in the All-Β and All-Α Classes
Analysis of Type Three System Transport Mechanism in Gram-Negative Bacteria
From Mytilus Galloprovincialis
Crystal Structure of the Legionella Pneumophila Lpg2936 In
Differentiating Analogous Trna Methyltransferases by Fragments of the Methyl Donor
Early Folding Biases in the Folding Free-Energy Surface of Βα- Repeat Proteins: a Dissertation
How to Fold Intricately: Using Theory and Experiments to Unravel the Properties of Knotted Proteins Sophie E
How Does a Knotted Protein Fold? Anna L
Structural Basis for Methyl-Donor–Dependent and Sequence-Specific
The Archaeal COG1901/DUF358 SPOUT-Methyltransferase
Computational Analysis of DNA Interactions to Investigate the Spatial Organization of Chromatin
Folding and Assembly of Antibodies
Computer Simulation of Knotted Proteins Unfold and Translocation Through Nano-Pores
Top View
The Biology of Mucus: Composition, Synthesis and Organization☆
WO 2016/154621 Al 29 September 2016 (29.09.2016) P O P C T
VAST−Class−A
Protein Knotting Through Concatenation Significantly Reduces
Structural Basis for Methyl-Donor–Dependent and Sequence-Specific
(12) United States Patent (10) Patent No.: US 8,933,197 B2 Stemmer Et Al
3Dsigbook (PDF)
A TALE of TWO METHYLATION MODIFICATIONS in ARCHAEAL Rnas Kunal Chatterjee Southern Illinois University Carbondale,
[email protected]
Differentiating Analogous Trna Methyltransferases by Fragments of the Methyl Donor
Mg2+-Dependent Methyl Transfer by a Knotted Protein: a Molecular Dynamics Simulation and Quantum Mechanics Study
Frustration in Biomolecules Arxiv:1312.0867V1
Importance of C-Terminal Knot Structure in Carbonic Anhydrase Ii (Part I): Role of C-Terminal Knot Forming Gln253 on Enzymatic Property of Human Carbonic Ii
Clustering of Disulfide-Rich Peptides Provides Scaffolds for Hit Discovery by Phage Display: Application to Interleukin-23
Structural Basis for Methyl-Donor–Dependent and Sequence-Specific
Development of Activatable Recognition Proteins Using the Bacterial Adhesin Fimh
Mg2+-Dependent Methyl Transfer by a Knotted Protein: a Molecular Dynamics Simulation and Quantum Mechanics Study Agata P