A single method for cryofixation and correlative light, electron microscopy and tomography of zebrafish embryos.
about
Virtual nanoscopy: generation of ultra-large high resolution electron microscopy mapsViral Infection at High Magnification: 3D Electron Microscopy Methods to Analyze the Architecture of Infected CellsSeeing and believing: recent advances in imaging cell-cell interactionsThe caveolin-cavin system plays a conserved and critical role in mechanoprotection of skeletal muscle.Correlating intravital multi-photon microscopy to 3D electron microscopy of invading tumor cells using anatomical reference pointsDifferent characteristics and nucleotide binding properties of inosine monophosphate dehydrogenase (IMPDH) isoformsFast and precise targeting of single tumor cells in vivo by multimodal correlative microscopyUltrastructural Mapping of the Zebrafish Gastrointestinal System as a Basis for Experimental Drug Studies.Structural Requirements for PACSIN/Syndapin Operation during Zebrafish Embryonic Notochord DevelopmentultraLM and miniLM: Locator tools for smart tracking of fluorescent cells in correlative light and electron microscopyConventional transmission electron microscopyPostlipolytic insulin-dependent remodeling of micro lipid droplets in adipocytes.Novel contrasting and labeling procedures for correlative microscopy of thawed cryosections.Acyl-CoA synthetase 3 promotes lipid droplet biogenesis in ER microdomainsChemical reactivation of quenched fluorescent protein molecules enables resin-embedded fluorescence microimagingUltrastructural imaging of endocytic sites in Saccharomyces cerevisiae by transmission electron microscopy and immunolabeling.Correlative in-resin super-resolution and electron microscopy using standard fluorescent proteins.Embedding and Chemical Reactivation of Green Fluorescent Protein in the Whole Mouse Brain for Optical Micro-Imaging.Positional correlative anatomy of invertebrate model organisms increases efficiency of TEM data production.A Global Approach for Quantitative Super Resolution and Electron Microscopy on Cryo and Epoxy Sections Using Self-labeling Protein TagsThe CryoCapsule: simplifying correlative light to electron microscopy.3D imaging of transition metals in the zebrafish embryo by X-ray fluorescence microtomography.Nano-fEM: protein localization using photo-activated localization microscopy and electron microscopy.Electron tomography of Plasmodium falciparum merozoites reveals core cellular events that underpin erythrocyte invasion.Development of a plastic embedding method for large-volume and fluorescent-protein-expressing tissues.Putting molecules in their place.Rapid embedding methods into epoxy and LR White resins for morphological and immunological analysis of cryofixed biological specimens.Out with the old and in with the new: rapid specimen preparation procedures for electron microscopy of sectioned biological material.Correlative and integrated light and electron microscopy of in-resin GFP fluorescence, used to localise diacylglycerol in mammalian cells.High-resolution mapping reveals topologically distinct cellular pools of phosphatidylserine.An improved procedure for subcellular spatial alignment during live-cell CLEMPreservation of protein fluorescence in embedded human dendritic cells for targeted 3D light and electron microscopyStructural analysis of macromolecular assemblies by electron microscopyPhylogenetic lineage and pilus protein Spb1/SAN1518 affect opsonin-independent phagocytosis and intracellular survival of Group B Streptococcus.Multi-dimensional correlative imaging of subcellular events: combining the strengths of light and electron microscopy.Correlative super-resolution fluorescence and electron microscopy using conventional fluorescent proteins in vacuo.Advanced correlative light/electron microscopy: current methods and new developments using Tokuyasu cryosections.Next generation mothers: Maternal control of germline development in zebrafish.Bioimaging of fluorescence-labeled mitochondria in subcutaneously grafted murine melanoma cells by the "in vivo cryotechnique".Correlative light and electron microscopy methods for the study of virus-cell interactions.
P2860
Q24622267-D31DB999-0141-468D-8724-BCDAEEEE910BQ26775028-FAEBFAD9-301B-4C94-BD89-7234F2A19CB7Q26778758-E6023E96-2CB0-40EF-B99A-A6D3F6A5A55CQ27310248-385A53AD-544A-4BFF-A46F-9B5B64A0C1ECQ27321780-8158F333-89AF-46C0-A109-DD4EA864EF23Q27332315-D691B314-8FD3-4990-8064-F3531BA85FA2Q27339767-38E13B0F-FE58-4C06-93F7-DA2501AF0B8FQ27349216-F60F10D1-1690-4000-AC34-34686F709E73Q27658553-141DA300-4692-4AB3-B0A7-FFDD54922068Q28564002-9E820672-5DF9-44C5-BAB4-C3FE5B303E14Q28659693-B386DFC0-8D6E-41F4-9669-D5CCECCD990DQ30514030-5349B329-3FEF-43DE-8C7C-A60E25BE45C9Q30539202-F8D9838F-CD47-4F86-8875-87C43DEFBB04Q30560524-65A152BF-2553-4CC8-A05D-E53A6680B6F5Q30580845-91F38AD9-EF63-429E-A347-D84584BBED17Q30585075-AE65BAD4-DA02-4281-BFF8-6F230A94183CQ30633636-ACFECE15-E514-4711-91AC-E0E0B15BFA1AQ30841778-1DA80278-B666-4457-9FA7-357E41028B60Q30847137-102FC19B-E378-4051-94D3-AA9FE8E43C08Q30849471-9B085E5D-B606-440F-A6A7-A235490D0F42Q33780358-8F3BD203-CBB9-4E99-8335-AE57C4028420Q34159298-FA6DD25A-A1BC-4F23-BD03-7709BBFA330AQ34513579-8B827CAF-B1AC-44B4-A8D7-3506BEDED38CQ34609149-34A4639B-B29A-4AAA-B323-4BA93D5F1950Q34664026-099D9ACF-663A-4015-9954-F2EC6D45C794Q34961296-AA0F5E30-C97D-4E45-8502-983E723DCF11Q35047024-F35AE368-251B-4CCB-9062-BB5772F99229Q35047882-0AB854DC-CCAF-4269-9248-B1B542F6A920Q35122665-0A19B5D0-9092-48E2-9C98-2EDBE72B10A9Q35130156-1B9083AD-D713-4A2E-8FFF-E4AFB87B091DQ35154943-305D496B-C45B-49C4-88FA-7B069C70105BQ35580727-AD0594D8-FD9E-44B3-B81C-F360517C54A3Q35617164-7930D351-7C6D-4151-BC27-D103957FF902Q35845429-52C30114-7BAF-4AD7-A20E-FB2B53B27062Q36373042-BCFFB06A-DBE1-4AB0-900C-61797F1AA78FQ36391498-B9B9E10E-2544-4F22-B102-F5DD7BF73DFDQ37422961-0F298F0A-5CF6-472A-BF0B-42D36A1073D0Q38270089-02EB0F41-6B47-4180-A352-BC7FB45466A7Q38522162-A6A19121-DEFA-4F80-B6F6-F20D03C85BA6Q38786483-5EA73790-8D13-460E-9277-C1C4F14D4302
P2860
A single method for cryofixation and correlative light, electron microscopy and tomography of zebrafish embryos.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
A single method for cryofixati ...... mography of zebrafish embryos.
@en
A single method for cryofixati ...... mography of zebrafish embryos.
@nl
type
label
A single method for cryofixati ...... mography of zebrafish embryos.
@en
A single method for cryofixati ...... mography of zebrafish embryos.
@nl
prefLabel
A single method for cryofixati ...... mography of zebrafish embryos.
@en
A single method for cryofixati ...... mography of zebrafish embryos.
@nl
P50
P1433
P1476
A single method for cryofixati ...... mography of zebrafish embryos.
@en
P2093
Nicole Schieber
Richard I Webb
P304
P356
10.1111/J.1600-0854.2008.00859.X
P577
2008-11-20T00:00:00Z