References
RNAi-based screening identifies the Mms22L-Nfkbil2 complex as a novel regulator of DNA replication in human cells. Piwko W, Olma MH, Held M, Bianco JN, Pedrioli PG, Hofmann K, Pasero P, Gerlich DW, Peter M. EMBO J. 2010 Dec 15;29(24):4210-22. PMID: #21113133#
Home > Technical section > Microscopy > Live imaging
Live imaging
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live-cell imaging-based RNAi screen
22 October 2011 -
high-throughput live cell imaging
22 October 2011References
CellCognition: time-resolved phenotype annotation in high-throughput live cell imaging. Held M, Schmitz MH, Fischer B, Walter T, Neumann B, Olma MH, Peter M, Ellenberg J, Gerlich DW. Nat Methods. 2010 Sep;7(9):747-54. PMID: #20693996# -
intravital imaging
22 October 2011Intravital imaging using fluorescent proteins
Before the introduction of fluorescent proteins, in vivo imaging was limited to the study of cells that were transiently labelled with vital dyes.
Stable fluorescent labelling, achieved using vectors that express fluorescent proteins, now allows the direct imaging of single cells in vivo.
Using what is termed intravital microscopy — observation of a tumour of interest either through surgically created chronic-transparent windows or directly (...) -
super-resolution imaging in living cells
22 October 2011super-resolution imaging in live cells; live cell super-resolution imaging
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calcium imaging
22 September 2008Calcium imaging has revolutionized the approaches for functional analyses in the living brain of animal experimental models.
Changes in intracellular calcium concentration are strictly linked to the electrical activity in neurons and produce signals that are effectively detected by optical methods.
Distinctive features of fluorescence-based calcium imaging are its high temporal resolution in the millisecond range and its high spatial resolution in the micrometer range.
Recent progress (...) -
in vivo pathology
14 July 2008References
Contag CH. In vivo pathology: seeing with molecular specificity and cellular resolution in the living body. Annu Rev Pathol. 2007;2:277-305. PMID: #18039101# -
fluorescence complementation
22 November 2006The visualization of protein complexes in living cells enables the examination of protein interactions in their normal environment and the determination of their subcellular localization.
The bimolecular fluorescence complementation assay has been used to visualize interactions among multiple proteins in many cell types and organisms.
See also
competition between alternative interaction partners
covalent modification of proteins by ubiquitin-family peptides.
References
Kerppola TK. (...) -
photoactivatable fluorescent proteins
30 January 2006References
Hoffman RM. The multiple uses of fluorescent proteins to visualize cancer in vivo. Nat Rev Cancer. 2005 Oct;5(10):796-806. PMID: #16195751#
Lukyanov KA, Chudakov DM, Lukyanov S, Verkhusha VV. Innovation: Photoactivatable fluorescent proteins. Nat Rev Mol Cell Biol. 2005 Nov;6(11):885-91. PMID: #16167053# -
fluorescence molecular imaging
30 August 2005References
Graves EE, Weissleder R, Ntziachristos V. Fluorescence molecular imaging of small animal tumor models. Curr Mol Med. 2004 Jun;4(4):419-30. PMID: #15354872# -
in vivo cell imaging
20 April 2004in vivo microscopy