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Journal of Biomedical Science and Engineering

Journal of Biomedical Science and Engineering

Journal of Biomedical Science and Engineering

ISSN Print: 1937-6871
ISSN Online: 1937-688X
www.scirp.org/journal/jbise
E-mail: jbise@scirp.org
"Thermal stability of proteins in the presence of aprotic ionic liquids"
written by Hidetaka Noritomi, Ken Minamisawa, Reo Kamiya, Satoru Kato,
published by Journal of Biomedical Science and Engineering, Vol.4 No.2, 2011
has been cited by the following article(s):
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[2] Molecular simulations explain the exceptional thermal stability, solvent tolerance and solubility of protein–polymer surfactant bioconjugates in ionic liquids
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[5] Interactions of betainium and imidazolium-based ionic liquids with peptide amphiphiles and their implications in the formation of nanohybrid composite gels
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[6] Designing protic ionic liquids to be compatible with biomolecules
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[7] Ionic Liquid-Modified Gold Nanoparticles for Enhancing Antimicrobial Activity and Thermal Stability of Enzymes
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[8] Newly isolated lytic bacteriophages for Staphylococcus intermedius, structurally and functionally stabilized in a hydroxyethylcellulose gel containing choline geranate …
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[9] Impact of the Alkyl Side Chains of Cations and Anions on the Activity and Renaturation of Lysozyme: A Systematic Study Performed Using Six Amino‐Acid‐Based …
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[10] Added value of ionic liquids in a biocatalytic process: an automatic approach
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[11] Behavior of lysozyme within ionic liquid-in-water microemulsions
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[12] Capillary zone electrophoresis of proteins applying ionic liquids for dynamic coating and as background electrolyte component
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[13] Conformational Free-Energy Landscapes of Alanine Dipeptide in Hydrated Ionic Liquids from Enhanced Sampling Methods
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[14] Activity and thermal stability of Mycobacterium tuberculosis PE1 and PE2 proteins esterase domain in the presence of aprotic ionic liquids
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[15] Structural Destabilization of Azurin by Imidazolium Chloride Ionic Liquids in Aqueous Solution
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[16] The Importance of Ionic Liquids and Applications on Their Molecular Modeling
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[17] Ether-Functionalized Ionic Liquids for Nonaqueous Biocatalysis: Effect of Different Cation Cores
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[18] Thermal Stabilization of HEWL by Adsorption on Biochar
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[19] Influence of biocompatible ionic liquids on the structure and stability of proteins and organic solvents
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[20] Investigating the industrial application potentials of cytochrome P450 BM-3 and four novel putative cytochrome P450s isolated from Cupriavidus necator H16
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[21] Application of Biochar to Enzyme Carrier for Stress Tolerance of Enzymes
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[22] Effect of Imidazolium-Based Ionic Liquids on the Structure and Stability of Stem Bromelain: Concentration and Alkyl Chain Length Effect
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[23] Exploring the Effect of Choline-Based Ionic Liquids on the Stability and Activity of Stem Bromelain
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[24] Insights into Protein-Ionic Liquid Interactions Aiming at Macromolecule Delivery Systems
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[25] Effect of water and ionic liquids on biomolecules
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[26] Ionic Liquid Stable Cellulases and Hemicellulases: Application in Biobased Production of Biofuels
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[28] Estabilidade térmica de proteínas na presença de líquidos iónicos
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[29] Effect of N‐Butyl‐N‐Methyl‐Morpholinium Bromide Ionic Liquid on the Conformation Stability of Human Serum Albumin
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[30] Cryopreservation of Proteins Using Ionic Liquids: A Case Study of Cytochrome c
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[31] Local ion hydration structure in aqueous imidazolium-based ionic liquids: The effects of concentration and anion nature
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[32] Properties of an ionic liquid-tolerant Bacillusamyloliquefaciens CMW1 and its extracellular protease
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[33] Synthesis and characterization of secondary and ternary ammonium based protic ionic liquids for thermoelectrical cell/Tawsif Ahmed Siddique
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[34] Biocompatibility of ionic liquids towards protein stability: A comprehensive overview on the current understanding and their implications
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[35] Impact of imidazolium based ionic liquids on the structure and stability of lysozyme
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[36] Properties of an ionic liquid-tolerant Bacillus amyloliquefaciens CMW1 and its extracellular protease
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[37] Does 1-Allyl-3-Methylimidazolium Chloride Acts as a Biocompatible Solvent for Stem Bromelain?
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[38] Direct matrix-assisted laser desorption ionization time-of-flight mass spectrometric analysis of lysozyme contained in hen egg white
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[39] Kinetics and mass spectrometric measurements of myoglobin unfolding in aqueous ionic liquid solutions
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[40] Recent advances in exploiting ionic liquids for biomolecules: Solubility, stability and applications
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[41] Solvent Dependence of Enzymatic Enantioselectivity in Ionic Liquids
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[42] Tuning of hydrophilic ionic liquids concentration: A way to prevent enzyme instability
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[43] Mycobacterial resuscitation promoting factors: roles and mechanisms in infected macrophages
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[44] Electrostatic Forces Mediated by Choline Dihydrogen Phosphate Stabilize Collagen
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[45] Proses Transesterifikasi Minyak Kelapa Sawit Menggunakan Novozym® 435 dalam Sistem Pelarut ChCl untuk Menghasilkan Biodiesel
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[46] Protein stabilization and enzyme activation in ionic liquids: specific ion effects
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[47] Separation and purification of thymopentin with molecular imprinting membrane by solid phase extraction disks
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[48] Key factors affecting the activity and stability of enzymes in ionic liquids and novel applications in biocatalysis
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[49] Densities and Speeds of Sound of Glycine, l-Alanine, and l-Valine in Aqueous 1-Ethyl-3-methylimidazolium Chloride Solutions at Different Temperatures
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[50] Amyloid Peptide Self Assembly in
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[51] INTERACTION BETWEEN IONIC LIQUID AND LYSOZYME: A CONFORMATIONAL AND STABILITY ASPECT CONFORMATIONAL AND STABILITY ASPECT
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[52] Thermal preparation of lysozyme-imprinted microspheres by using ionic liquid as a stabilizer
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[53] Recent Advances in the Applications of Ionic Liquids in Protein Stability and Activity: A Review
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[54] Effect of ionic liquids on the different hierarchical order of type I collagen
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[55] Amyloid peptide self assembly in protic ionic liquids
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[56] Interaction between ionic liquid and lysozyme: a conformational and stability aspect
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[57] COMPARATIVE ANALYTICAL STUDIES ON THE BINDING OF SOME ANTICANCER DRUGS WITH PROTEINS
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[58] How can aprotic ionic liquids affect enzymatic enantioselectivity?
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[59] Fluorescence Spectrometric Studies on the Binding of an Amino-Functionalized Ionic Liquid to Cytochrome c
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[60] Impact of ionic liquid environment on Lysozyme stability
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[61] Phase Transition of Poly (N-isopropylacrylamide) in Aqueous Protic Ionic Liquids: Kosmotropic versus Chaotropic Anions and Their Interaction with Water
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[62] Ionic liquids for energy applications
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[63] Interaction of an amino-functionalized ionic liquid with enzymes: A fluorescence spectroscopy study
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[64] FCS Study of the Structural Stability of Lysozyme in the Presence of Morpholinium Salts
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[65] Novel Anhydrous Superprotonic Ionic Liquids and Membranes for Application in Mid-temperature Fuel Cells
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[66] Increase in Thermal Stability of Proteins by Aprotic Ionic Liquids
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[67] Effect of ionic liquid on activity, stability, and structure of enzymes: a review
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[68] Significant stabilization of ribonuclease A by additive effects
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[69] Immobilization of Lysozyme on Biomass Charcoal Powder Derived from Plant Biomass Wastes
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[70] Increase in thermal stability of proteins adsorbed on biomass charcoal powder prepared from plant biomass wastes
Journal of Biomedical Science and Engineering, 2011
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