Biosilicification: the role of the organic matrix in structure control.
about
Novel nanocomposites from spider silk-silica fusion (chimeric) proteinsSilicon and bone healthCationic amino acids specific biomimetic silicification in ionic liquid: a quest to understand the formation of 3-D structures in diatomsUnderstanding the sub-cellular dynamics of silicon transportation and synthesis in diatoms using population-level data and computational optimizationPlant growth conditions alter phytolith carbon.Biocatalysis in Silicon ChemistryNanoscale control of silica particle formation via silk-silica fusion proteins for bone regeneration.The silicatein propeptide acts as inhibitor/modulator of self-organization during spicule axial filament formation.Biogenic silica patterning: simple chemistry or subtle biology?An overview of the fundamentals of the chemistry of silica with relevance to biosilicification and technological advances.Biosilica formation in diatoms: characterization of native silaffin-2 and its role in silica morphogenesisBiological glass fibers: correlation between optical and structural properties.Biomimetic and bioinspired silica: recent developments and applications.Linking selenium biogeochemistry to the sulfur-dependent biological detoxification of arsenic.Silica biomineralization via the self-assembly of helical biomolecules.Heterogeneity of silica and glycan-epitope distribution in epidermal idioblast cell walls in Adiantum raddianum laminae.Structural characterization of siliceous spicules from marine sponges.A mesoporous pattern created by nature in spicules from Thetya aurantium sponge.Insights into the chemical composition of Equisetum hyemale by high resolution Raman imaging.In vitro and in vivo investigation of the potential of amorphous microporous silica as a protein delivery vehicleS-layer templated bioinspired synthesis of silica.Scaffolding of an antimicrobial peptide (KSL) by a scale-down coarse-grained approach.Chemical properties of polyamines with relevance to the biomineralization of silica.Diatom-Inspired Silica Nanostructure Coatings with Controllable Microroughness Using an Engineered Mussel Protein Glue to Accelerate Bone Growth on Titanium-Based Implants.Surface immobilization of protein via biosilification catalyzed by silicatein fused to glutathione S-transferase (GST).The matrix polysaccharide (1;3,1;4)-β-D-glucan is involved in silicon-dependent strengthening of rice cell wall.The role of biomimetism in developing nanostructured inorganic matrices for drug deliveryAmphiphilic polypeptides as a bifunctional template in the mineralization of calcium carbonate at the air/water interfaceSilicic acid condensation under the influence of water-soluble polymers: from biology to new materialsPolyelectrolyte–surfactant nanocomposite membranes formed at a liquid–liquid interfaceBiomimetic intrafibrillar silicification of collagen fibrils through a one-step collagen self-assembly/silicification approach
P2860
Q24548071-99EF1E0F-F617-40FB-B07F-3D3E713E3AC1Q24654850-A87D46B6-3E04-471A-88DF-C9B12C1DFCDAQ28477316-0515606A-C291-4548-B921-DD0154C66EECQ28539835-8E5730FC-B11E-4A44-BB08-516D998F73D9Q28607216-F3325AE2-8E59-434E-B7D6-934323FC984DQ29237523-D18937EF-EB68-46F5-B661-70D7F27C9649Q34209970-A79253BB-EA69-4C42-845E-562D189D03B2Q34582394-925D0927-E251-4E60-82CC-868EBFD021A7Q35097483-F9225575-6E33-43A3-A1E4-40207F99EA59Q35907082-08789385-26EA-4A3E-8455-510291DA56BDQ36348218-9A19D92F-A33B-46D6-946C-0799983ABEF8Q37073080-54E153C9-0E1C-40EF-89FC-A0091B31A98CQ37863478-7B59CA4F-89F7-42F2-A0F6-82ABE4F70956Q38003650-7C0E875A-A20F-432C-A817-4622495A60D0Q38262077-5CD6BA9E-0FE0-4877-8F7B-63988EAB2E92Q39463491-60704610-CA9F-4435-A279-03718E690033Q40269058-035DF9A0-A448-4B73-A33F-3F978A803835Q41046433-D2D8C789-1C9F-40A6-BB30-393DCE4BC56BQ41942943-5807770A-A80B-48D4-95CE-450CD7DB06E9Q41996523-59A50A1F-E522-45BD-84DE-96CBC4475606Q42436310-52DB09ED-72F1-4814-AF4A-5EB90FFF7AF6Q44970221-164AFB1A-EDCB-4022-8828-57020DC3F5CDQ46285957-18650D7F-970E-4B0E-979E-93F678E93929Q47411567-1DEB0296-B0CA-4B7C-902E-F1343C6F4FCDQ50491086-8B59F4D7-E14B-4F21-BDB4-3320A5089A5AQ50624022-DA7BA0B8-6AFF-4DD3-8864-F6EDE0BD82C4Q56992650-8486D065-7ACB-498F-B149-5034D2DBDFEFQ57217834-4DFF0880-6351-4BE6-B9B1-2DAFA26D57FFQ57348245-34328D6D-BAE6-4E3A-8BBF-23DB18B708CDQ57376402-8EA42DB3-041F-4DDB-B40D-E3BB57DDEC0BQ57377432-608524F7-8703-4DF8-B16B-C5B36DB6D2DE
P2860
Biosilicification: the role of the organic matrix in structure control.
description
2000 nî lūn-bûn
@nan
2000 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Biosilicification: the role of the organic matrix in structure control.
@ast
Biosilicification: the role of the organic matrix in structure control.
@en
Biosilicification: the role of the organic matrix in structure control.
@nl
type
label
Biosilicification: the role of the organic matrix in structure control.
@ast
Biosilicification: the role of the organic matrix in structure control.
@en
Biosilicification: the role of the organic matrix in structure control.
@nl
prefLabel
Biosilicification: the role of the organic matrix in structure control.
@ast
Biosilicification: the role of the organic matrix in structure control.
@en
Biosilicification: the role of the organic matrix in structure control.
@nl
P356
P1476
Biosilicification: the role of the organic matrix in structure control
@en
P2093
Keeling-Tucker T
P2888
P304
P356
10.1007/S007750000130
P577
2000-10-01T00:00:00Z