On the history and mechanism of alizarin and alizarin red S stains for calcium.
about
BRITER: a BMP responsive osteoblast reporter cell lineThe Phosphate Source Influences Gene Expression and Quality of Mineralization during In Vitro Osteogenic Differentiation of Human Mesenchymal Stem CellsWater soluble bioactives of nacre mediate antioxidant activity and osteoblast differentiationCollagen nanofibres are a biomimetic substrate for the serum-free osteogenic differentiation of human adipose stem cells.Different differentiation of stroma cells from patients with osteonecrosis: a pilot study.Vascular calcification and aortic fibrosis: a bifunctional role for osteopontin in diabetic arteriosclerosisVisualization of Proteus mirabilis within the matrix of urease-induced bladder stones during experimental urinary tract infectionAssociation of radiographic changes of osteoarthritis, symptoms, and synovial fluid particles in 300 kneesRadiographic patterns and associations of osteoarthritis of the knee in patients referred to hospital.NLRP3 promotes autophagy of urate crystals phagocytized by human osteoblasts.Inflammation and the osteogenic regulation of vascular calcification: a review and perspective.Uptake and distribution of ultrasmall anatase TiO2 Alizarin red S nanoconjugates in Arabidopsis thalianaAlizarin red S staining as a screening test to detect calcium compounds in synovial fluid.Dietary pseudopurpurin improves bone geometry architecture and metabolism in red-bone Guishan goats.Impact of the uremic milieu on the osteogenic potential of mesenchymal stem cells.Optimization of volumetric computed tomography for skeletal analysis of model genetic organismsModulation of osteogenic differentiation in hMSCs cells by submicron topographically-patterned ridges and grooves.Myotonia congenita. A histochemical and ultrastructural study in the goat: comparison with abnormalities found in human myotonia dystrophica.Dietary pseudopurpurin effects on bone mineral density and bone geometry architecture in ratsTNFR1-activated reactive oxidative species signals up-regulate osteogenic Msx2 programs in aortic myofibroblasts.Potency Biomarker Signature Genes from Multiparametric Osteogenesis Assays: Will cGMP Human Bone Marrow Mesenchymal Stromal Cells Make Bone?Bone-forming cells with pronounced spread into the third dimension in polymer scaffolds fabricated by two-photon polymerization.Induction of osteoblastic differentiation of neural crest-derived stem cells from hair folliclesCalcium-chelating alizarin and other anthraquinones inhibit biofilm formation and the hemolytic activity of Staphylococcus aureus.Side-specific endothelial-dependent regulation of aortic valve calcification: interplay of hemodynamics and nitric oxide signaling.Measurement of fracture callus material properties via nanoindentationComparison of the Effect of Velvet Antler from Different Sections on Longitudinal Bone Growth of Adolescent Rats.Labeling TiO2 nanoparticles with dyes for optical fluorescence microscopy and determination of TiO2-DNA nanoconjugate stability.Quantitative assessment of the regenerative and mineralogenic performances of the zebrafish caudal finTransportation conditions for prompt use of ex vivo expanded and freshly harvested clinical-grade bone marrow mesenchymal stromal/stem cells for bone regeneration.Concise Review: Human Dermis as an Autologous Source of Stem Cells for Tissue Engineering and Regenerative Medicine.Comparison of in vitro-cultivation of human mesenchymal stroma/stem cells derived from bone marrow and umbilical cord.Osteogenic cell cultures cannot utilize exogenous sources of synthetic polyphosphate for mineralization.Staining of cerebellar cortex granular layer interneurons with natural dye of Madder.The effects of pulsed electromagnetic fields on the cellular activity of SaOS-2 cells.Pathogen reduction through additive-free short-wave UV light irradiation retains the optimal efficacy of human platelet lysate for the expansion of human bone marrow mesenchymal stem cells.Demonstration of phosphates in calcium deposits: a modification of von Kossa's reaction.Mineralization of SaOS-2 cells on enzymatically (silicatein) modified bioactive osteoblast-stimulating surfaces.Combinatorial gene therapy for bone regeneration: cooperative interactions between adenovirus vectors expressing bone morphogenetic proteins 2, 4, and 7.The In Vitro Bioactivity, Degradation, and Cytotoxicity of Polymer-Derived Wollastonite-Diopside Glass-Ceramics.
P2860
Q28483777-30AABA28-48F2-4AFF-A65E-4466306B550DQ28534068-00D8CE0D-D367-4B00-B084-5B0232F8B395Q28537812-3C36140C-32DB-4C09-A3CC-82F8F10BA782Q30431781-4D907E79-9B62-442D-8334-5A056D759CC7Q30435269-550A2F3E-659B-4A44-A14A-9794F34D49DDQ30502726-A9D7EF9A-B83A-4700-8D77-22BA2C29932EQ31032712-77526667-8E1D-4FAB-A514-4F8D5FAF4F9CQ33565274-09777029-FC58-468E-98E3-A25B6ED66B97Q33565603-999D8E40-DA1A-4B9F-8421-69053ED68D17Q33771677-5891A597-A4CA-4665-A1B9-105277EC6596Q33782750-8D820768-4732-4B59-8471-B2F700DA2A85Q34029685-16BB38E1-1D91-45DE-9141-D043E99F7B35Q34249724-34B547B8-5EC5-49BC-B028-9C471E363A40Q34280014-85882C3D-166A-4BB9-AE56-55AEA80A9780Q35032235-56763AF2-EB1E-4078-8802-98301A585B2AQ35293515-6358EB6E-A6F4-4076-831A-61C025996B56Q35529155-4C6C3B8F-5B9F-42E4-B01C-597AAE38B579Q35863739-8B6ED247-8995-4971-B73E-F5E10D6F6DC5Q35866051-71382E9D-D5BF-4D78-88A6-22106E069A2AQ36114013-76DBCBCD-29C0-43AD-BBE3-04E16CAE108EQ36154881-F322D6B7-5860-45C0-8ABA-344DAA104FD8Q36182660-EE816DD4-6213-4D1E-BE0A-250F979BE18CQ36338215-B5C18075-09C2-4C1E-9646-D751A6D0A3D8Q36499446-AF99EB8F-FD1B-4268-B4C9-E1B52DF0F4E4Q36817570-0A751439-5A89-4A38-84B0-D0009BF33BC1Q36953988-E32D615B-F215-48B0-8374-80A0E89B6FDFQ37039522-DD0BA63D-55CB-40D9-9E51-C7BB8E4406B3Q37455226-43BF9B3A-5C80-49EC-BCA1-F9165F31ADBBQ37519056-64A314B2-5198-41DD-9812-D6286FCA711FQ37606443-83E6758A-4A56-4B31-84E6-4B9352B4E04CQ38562686-3CD2ADE0-9857-4E76-8959-C57818345CB5Q38820224-9CFBF964-E064-4AB1-9634-3D1AAC5B6FB3Q38973629-0295D61F-8F94-4825-9E8D-C1B76D54F1D5Q39712810-7EF1D06F-F883-43CA-BB04-4E485533BB63Q40047700-466AD6AA-BD80-4DEA-96E3-3D56DE48B7D3Q40099637-5B813602-31E7-418C-B686-5A896F7DD34FQ40275170-848D76FC-76B5-4678-A06C-7ADADC38674AQ40395057-83588536-FFA3-4F07-AB48-C9395F30BCF5Q40448221-DFF15499-831B-4C46-8046-8AAE27981252Q40992330-53EA795B-7B98-49F2-99B3-1D2D441DFE58
P2860
On the history and mechanism of alizarin and alizarin red S stains for calcium.
description
1969 nî lūn-bûn
@nan
1969 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1969 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1969年の論文
@ja
1969年論文
@yue
1969年論文
@zh-hant
1969年論文
@zh-hk
1969年論文
@zh-mo
1969年論文
@zh-tw
1969年论文
@wuu
name
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@ast
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@en
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@nl
type
label
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@ast
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@en
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@nl
prefLabel
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@ast
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@en
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@nl
P2093
P356
P1476
On the history and mechanism of alizarin and alizarin red S stains for calcium.
@en
P2093
P304
P356
10.1177/17.2.110
P577
1969-02-01T00:00:00Z