Author Info
Name
Affiliation
Papers
LESZEK KONIECZNY
Institute of Medical Biochemistry, Collegium Medicum, Jagiellonian University, Kopernika 7, 31 034 Krakow, Poland.
44
Collaborators
Citations 
PageRank 
50
67
22.55
Referers 
Referees 
References 
105
188
93
Search Limit
100188
Title
Citations
PageRank
Year
The Status of Edge Strands in Ferredoxin-Like Fold.00.342020
Protein folding vs. COVID-19 and the Mediterranean diet00.342020
System to simulate the activity of living organism - construction of proteome00.342020
Alternative Hydrophobic Core in Proteins - The Effect of Specific Synergy.00.342020
Personalized precision medicine.00.342019
Symmetry and Dissymmetry in Protein Structure—System-Coding Its Biological Specificity00.342019
Structural analysis of the Aβ(11–42) amyloid fibril based on hydrophobicity distribution00.342019
The living organism: evolutionary design or an accident.00.342019
Fragment Aβ(18-41) presented within the CDR3 loop region of a shark immunoglobulin new antigen receptor single-variable domain antibody analyzed based on the fuzzy oil drop model.00.342018
Comparison of the structure of Aβ(1-40) amyloid with the one in complex with polyphenol ε-viniferin glucoside (EVG).00.342018
Chromatin 3D - will it make understanding of cancer transformation finally possible?00.342018
Chain-chain complexation and heme binding in haemoglobin with respect to the hydrophobic core structure.00.342017
Mechanism of ligand binding - PDZ domain taken as example.00.342017
The variability of protein structure with respect to the hydrophobic core.00.342017
Structure of hydrophobic core in plant carboxylesterase.00.342017
Application of the Fuzzy Oil Drop Model Describes Amyloid as a Ribbonlike Micelle.10.432017
Role of the hydrophobic core in cytoskeleton protein: cardiac myosin binding protein C.00.342017
Dissimilar sequence: similar structure of proteins.00.342016
Role of Disulfide Bonds in Stabilizing the Conformation of Selected Enzymes - An Approach Based on Divergence Entropy Applied to the Structure of Hydrophobic Core in Proteins.40.792016
Influence of the Aqueous Environment on Protein Structure - A Plausible Hypothesis Concerning the Mechanism of Amyloidogenesis.20.562016
Application of Divergence Entropy to Characterize the Structure of the Hydrophobic Core in DNA Interacting Proteins.00.342015
Hydrophobic core structure of macromomycin - the apoprotein of the antitumor antibiotic auromomycin - fuzzy oil drop model applied.00.342015
The use of Titan yellow dye as a metal ion binding marker for studies on the formation of specific complexes by supramolecular Congo red.00.342015
Attempt At A Systemic Outlook On Aging And Carcinogenesis10.632014
Structural Role Of Exon-Coded Fragments In Proteins00.342013
Structural Role Of Exons In Hemoglobin00.342013
Stability Of Two Natural Homologous Proteins With Different Folds00.342012
Biological Clock - Is The Need For A Clock A Common Issue For Cells And Computers?00.342012
Technical Solutions For Bio-Measurements00.342012
The criteria of life and aging from a molecular viewpoint. The role of protein aggregation in the process of aging.00.342011
The criterion of biological life in the developing robot era.00.342010
Prediction Of Functional Sites Based On The Fuzzy Oil Drop Model90.512007
Is the protein folding an aim-oriented process? Human haemoglobin as example.40.672007
Specific supramolecular ligands with proteins. Possible practical application.00.342006
Protein complexes with supramolecular ligands formed and revealed in two-dimensional electrophoresis. The search for computer analysis of results.00.342006
Sequence-Structure-Function Relation Characterized in silico.20.432006
How specially adapted chromatographic bed material might be used for the controlled formation of immune complexes and studies of congo red binding to bivalent antibodies.00.342006
Gauss-Function-Based Model of Hydrophobicity Density in Proteins.213.172006
Hydrophobic collapse in (in silico) protein folding.71.332006
Force-field parametrization and molecular dynamics simulations of Congo red.10.462004
SPI--structure predictability index for protein sequences.51.392004
Search for structural similarity in proteins.91.012003
Why do Congo Red, Evans Blue, and Trypan Blue differ in their complexation properties?10.692000
Congo Red Bound to -1-Proteinase Inhibitor As a Model of Supramolecular Ligand and Protein Complex00.341998