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The intention of the Special Issue ""Biological and Biogenic Crystallization"" was to create an international platform aimed at covering a broad field of results involving the crystallization of biological molecules, including virus and protein crystallization, biogenic crystallization including physiological and pathological crystallization taking place in living organisms (human beings, animals, plants, bacteria, etc.), and bio-inspired crystallization. Despite many years of research on biological and biogenic crystals, there are still open questions as well as hot and timely topics. This Special Issue contains seven articles that present a cross-section of the current research activities in the of field of biological and biogenic crystals. The authors of the presented articles prove the vibrant and topical nature of this field. We hope that this Special Issue will serve as a source of inspiration for future investigations, and will be useful for scientists and researchers who work on the exploration of biological and biogenic crystals.
pericentrin --- biomineralization --- pericentriolar material (PCM) --- physical and biochemical aspects of protein crystal nucleation --- size control --- calcite --- centrosome --- hemoglobin --- X-ray crystallography --- spectrophotometry --- nucleation --- protein crystallization --- seawater --- classical and two-step nucleation mechanisms --- macroseeding --- CaCO3 --- electron microscopy --- biodesalination --- neutron crystallography --- spherulite --- wastewater --- chaotropes --- X-ray fluorescence holography --- dipole field --- limpet shells --- coiled-coil --- shape control --- kosmotropes --- heavy metals removal --- hydration --- crystallization --- ?- --- S-shaped nucleation kinetics --- small molecules --- pericentrin --- biomineralization --- pericentriolar material (PCM) --- physical and biochemical aspects of protein crystal nucleation --- size control --- calcite --- centrosome --- hemoglobin --- X-ray crystallography --- spectrophotometry --- nucleation --- protein crystallization --- seawater --- classical and two-step nucleation mechanisms --- macroseeding --- CaCO3 --- electron microscopy --- biodesalination --- neutron crystallography --- spherulite --- wastewater --- chaotropes --- X-ray fluorescence holography --- dipole field --- limpet shells --- coiled-coil --- shape control --- kosmotropes --- heavy metals removal --- hydration --- crystallization --- ?- --- S-shaped nucleation kinetics --- small molecules
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The intention of the Special Issue ""Biological and Biogenic Crystallization"" was to create an international platform aimed at covering a broad field of results involving the crystallization of biological molecules, including virus and protein crystallization, biogenic crystallization including physiological and pathological crystallization taking place in living organisms (human beings, animals, plants, bacteria, etc.), and bio-inspired crystallization. Despite many years of research on biological and biogenic crystals, there are still open questions as well as hot and timely topics. This Special Issue contains seven articles that present a cross-section of the current research activities in the of field of biological and biogenic crystals. The authors of the presented articles prove the vibrant and topical nature of this field. We hope that this Special Issue will serve as a source of inspiration for future investigations, and will be useful for scientists and researchers who work on the exploration of biological and biogenic crystals.
pericentrin --- biomineralization --- pericentriolar material (PCM) --- physical and biochemical aspects of protein crystal nucleation --- size control --- calcite --- centrosome --- hemoglobin --- X-ray crystallography --- spectrophotometry --- nucleation --- protein crystallization --- seawater --- classical and two-step nucleation mechanisms --- macroseeding --- CaCO3 --- electron microscopy --- biodesalination --- neutron crystallography --- spherulite --- wastewater --- chaotropes --- X-ray fluorescence holography --- dipole field --- limpet shells --- coiled-coil --- shape control --- kosmotropes --- heavy metals removal --- hydration --- crystallization --- ?- --- S-shaped nucleation kinetics --- small molecules
Choose an application
The intention of the Special Issue ""Biological and Biogenic Crystallization"" was to create an international platform aimed at covering a broad field of results involving the crystallization of biological molecules, including virus and protein crystallization, biogenic crystallization including physiological and pathological crystallization taking place in living organisms (human beings, animals, plants, bacteria, etc.), and bio-inspired crystallization. Despite many years of research on biological and biogenic crystals, there are still open questions as well as hot and timely topics. This Special Issue contains seven articles that present a cross-section of the current research activities in the of field of biological and biogenic crystals. The authors of the presented articles prove the vibrant and topical nature of this field. We hope that this Special Issue will serve as a source of inspiration for future investigations, and will be useful for scientists and researchers who work on the exploration of biological and biogenic crystals.
pericentrin --- biomineralization --- pericentriolar material (PCM) --- physical and biochemical aspects of protein crystal nucleation --- size control --- calcite --- centrosome --- hemoglobin --- X-ray crystallography --- spectrophotometry --- nucleation --- protein crystallization --- seawater --- classical and two-step nucleation mechanisms --- macroseeding --- CaCO3 --- electron microscopy --- biodesalination --- neutron crystallography --- spherulite --- wastewater --- chaotropes --- X-ray fluorescence holography --- dipole field --- limpet shells --- coiled-coil --- shape control --- kosmotropes --- heavy metals removal --- hydration --- crystallization --- ?- --- S-shaped nucleation kinetics --- small molecules
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This book entitled “Protein Crystallization under the Presence of an Electric Field” covers recent trends and original contributions on the use of electric fields (internal and external) for applications for nucleation control and the effect on the kinetics of crystallization processes. This book also includes basic strategies for growing crystals of biological macromolecules for characterization via X-ray and neutron diffraction as well as using modern X-ray-free electron-lasers. There are six main topics covered on this book, including recent insights into the crystallization process from nucleation and growth peculiarities, when using different kinds of electric fields; the effect of external electric fields on the kinetics of the dislocation-free growth of model proteins; the use of very strong external electric fields for the crystallization of a model protein glucose isomerase; and the use of alternant electric fields using different kinds of pulses and their combination with strong magnetic fields. There are also contributions related to applications in developing electron-transfer devices as well as graphene-based platforms for electrocrystallization and in situ X-ray diffraction characterization.
porous silicon --- silanes --- microbatch method --- growth kinetics --- impact of electric fields on the protein crystallization --- cytochrome C nucleation and crystallization --- protein infiltration --- I–V characteristics --- electric fields --- number density --- protein crystallization --- protein crystals --- electron-transfer biomolecular devices --- external DC electric field --- classical and two-step nucleation mechanisms --- macromolecular crystallography --- in situ diffraction --- external and internal electric fields --- size and quality of protein crystals --- lysozyme --- magnetic fields --- electrical properties --- gel-growth --- crystal growth in solution --- electric field --- pulse-wave --- crystal quality --- crystallization --- serial crystallography --- microfluidics --- electrocrystallization
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