about
Quantitative analysis of monocyte subpopulations in murine atherosclerotic plaques by multiphoton microscopyIntravital two-photon microscopy for studying the uptake and trafficking of fluorescently conjugated molecules in live rodentsExpression of plasmid DNA in the salivary gland epithelium: novel approaches to study dynamic cellular processes in live animals.The visceral pericardium: macromolecular structure and contribution to passive mechanical properties of the left ventricleRapid overlapping-volume acquisition and reconstruction (ROVAR): automated 3D tiling for high-resolution, large field-of-view optical microscopy.Three-dimensional motion tracking for high-resolution optical microscopy, in vivo.In vivo microscopy reveals extensive embedding of capillaries within the sarcolemma of skeletal muscle fibersEnergy and electron transfer in enhanced two-photon-absorbing systems with triplet coresOptimization of multiphoton excitation microscopy by total emission detection using a parabolic light reflector.Short communication: Subcellular motion compensation for minimally invasive microscopy, in vivo: evidence for oxygen gradients in resting muscle.Intravital microscopy to image membrane trafficking in live ratsIdentifying patients at high risk of a cardiovascular event in the near future: current status and future directions: report of a national heart, lung, and blood institute working group.Improved intravital microscopy via synchronization of respiration and holder stabilization.Motion compensation for in vivo subcellular optical microscopy.Intravital microscopy as a tool to study drug delivery in preclinical studies.Domestication of the cardiac mitochondrion for energy conversion.A Molecular Probe for the Detection of Polar Lipids in Live CellsA Model-based approach for microvasculature structure distortion correction in two-photon fluorescence microscopy images.Atg9 is required for intraluminal vesicles in amphisomes and autolysosomesLimited utility of acetoxymethyl (AM)-based intracellular delivery systems, in vivo: interference by extracellular esterases.Detection and imaging of non-contractile inclusions and sarcomeric anomalies in skeletal muscle by second harmonic generation combined with two-photon excited fluorescence.Functional studies in living animals using multiphoton microscopy.Contribution of macromolecular structure to the retention of low-density lipoprotein at arterial branch pointsAdvanced Motion Compensation Methods for Intravital Optical Microscopy.Intravital microscopy for imaging subcellular structures in live mice expressing fluorescent proteins.Intravital Microscopy Reveals Differences in the Kinetics of Endocytic Pathways between Cell Cultures and Live Animals.A Drosophila model to image phagosome maturation.Muscle quality in aging: a multi-dimensional approach to muscle functioning with applications for treatment.Intravital imaging of a spheroid-based orthotopic model of melanoma in the mouse ear skin.Toward in vivo two-photon analysis of mouse aqueous outflow structure and function.In vivo veritas: the power of in situ manipulation of cells in a living animal. Focus on "Expression of plasmid DNA in the salivary gland epithelium: novel approaches to study dynamic cellular processes in live animals".Deep tissue analysis of distal aqueous drainage structures and contractile features.New Mechanisms of Resistance to MEK Inhibitors in Melanoma Revealed by Intravital Imaging.
P2860
Q27319442-C334CE72-7EBB-4CA1-B26D-321902B39F7CQ30488856-9CA6E7DC-DAD9-4FC7-B390-050A0AE2DB35Q30492309-EB087FAA-A106-45DE-8757-ECEE19030F4FQ30494731-C5EBE38A-6DBD-48CC-8166-AEDA9596201AQ30501100-23B69D1F-2D10-46C7-A055-53B4C720EB98Q30551931-D863DA44-0A10-43EE-8DA7-42C14620CA19Q30588922-A4D62F8E-E199-4F57-A0AA-BD71DB0A2FB8Q33289768-717A5ECB-73EC-4EFD-BEF3-E08E9AF32B47Q33307593-AE65560C-B071-408F-93A3-59142E553484Q33532358-4D8E8608-674B-40CB-9468-E8620B58D1DBQ33737376-1C93D56D-253B-49EC-A66A-3BB6AEE6FCEAQ34002717-848979DB-8262-4FD2-9821-85CC38480EB3Q34453537-50AD70C9-2315-4BD0-BEAC-C6D3CF8085F8Q34498331-935B21D0-4373-42E6-8ECC-281AD095CE43Q34507643-75B66D38-7715-41DC-A875-9C40CC6D479AQ35225761-295DDAF3-A100-4BFC-AB05-5A2DAECE99E1Q36110078-7020414B-47A3-43C0-BF1A-8D1B1B0176D6Q36202742-0C29D476-87DA-4F4A-A03D-A1E8183735BFQ36506704-C7AD40CD-5EA0-4B34-93C4-6B0D760DAB74Q36572656-010EEDD0-D330-4464-930B-5ECB50E9BD43Q36777919-C3D6326C-645B-483F-85EC-E23D71225F2CQ37048992-5AEA0BAC-F70F-4A17-8B3A-6C5E118DF6F4Q37235254-AF4AEE8F-1C5D-40BB-B6D3-8B67FBF897DBQ37322248-4A1460DC-3B2F-4EEC-BE8E-D44089D82FE9Q37378713-012F1DB9-5285-4AF6-A212-993C25D80AC8Q37512343-584AA7FE-9F5A-42A3-9F67-D1B60E9336C0Q37679236-43C969F6-C567-4AC6-8CF0-1560210154B3Q38345471-531A65D8-C0D6-48C0-9DEA-A03D2A842C4AQ38658773-4FC1FB14-7B66-44FD-8562-C90DF9A629FAQ38834484-24EF8DB3-86FF-43DE-AC1E-89FD12791E32Q42953898-59F86ED0-B8FC-4A6A-B9E1-2BA004C18E88Q46537607-7610ED89-1912-4F77-88CD-3984789C9247Q48588744-1780A99A-90B6-4AEB-A327-49CC10EAFAD5
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Multi-photon excitation microscopy in intact animals.
@ast
Multi-photon excitation microscopy in intact animals.
@en
type
label
Multi-photon excitation microscopy in intact animals.
@ast
Multi-photon excitation microscopy in intact animals.
@en
prefLabel
Multi-photon excitation microscopy in intact animals.
@ast
Multi-photon excitation microscopy in intact animals.
@en
P2093
P2860
P1476
Multi-photon excitation microscopy in intact animals.
@en
P2093
Emily C Rothstein
Michael Nauman
Robert S Balaban
Scott Chesnick
P2860
P356
10.1111/J.1365-2818.2006.01570.X
P577
2006-04-01T00:00:00Z