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Results: 1 to 20 of 105

Related Citations for PubMed (Select 22158118)

1.

Single cell fate mapping in zebrafish.

Kohli V, Rehn K, Sumanas S.

J Vis Exp. 2011 Oct 5;(56). pii: 3172. doi: 10.3791/3172.

2.

Lineage labeling of zebrafish cells with laser uncagable fluorescein dextran.

Clanton JA, Shestopalov I, Chen JK, Gamse JT.

J Vis Exp. 2011 Apr 28;(50). pii: 2672. doi: 10.3791/2672.

3.

Regional cell movement and tissue patterning in the zebrafish embryo revealed by fate mapping with caged fluorescein.

Kozlowski DJ, Murakami T, Ho RK, Weinberg ES.

Biochem Cell Biol. 1997;75(5):551-62.

PMID:
9551179
4.
5.

Two-laser dual-immunofluorescence confocal laser scanning microscopy using Cy2- and Cy5-conjugated secondary antibodies: unequivocal detection of co-localization of neuronal markers.

Wouterlood FG, Van Denderen JC, Blijleven N, Van Minnen J, Härtig W.

Brain Res Brain Res Protoc. 1998 Jan;2(2):149-59.

PMID:
9473644
6.

Cell tracking using a photoconvertible fluorescent protein.

Hatta K, Tsujii H, Omura T.

Nat Protoc. 2006;1(2):960-7.

PMID:
17406330
7.

Two-photon-based photoactivation in live zebrafish embryos.

Russek-Blum N, Nabel-Rosen H, Levkowitz G.

J Vis Exp. 2010 Dec 24;(46). pii: 1902. doi: 10.3791/1902.

8.

Photoporation of biomolecules into single cells in living vertebrate embryos induced by a femtosecond laser amplifier.

Hosokawa Y, Ochi H, Iino T, Hiraoka A, Tanaka M.

PLoS One. 2011;6(11):e27677. doi: 10.1371/journal.pone.0027677. Epub 2011 Nov 16.

9.

Notochord regulates cardiac lineage in zebrafish embryos.

Goldstein AM, Fishman MC.

Dev Biol. 1998 Sep 15;201(2):247-52.

10.

Two-photon axotomy and time-lapse confocal imaging in live zebrafish embryos.

O'Brien GS, Rieger S, Martin SM, Cavanaugh AM, Portera-Cailliau C, Sagasti A.

J Vis Exp. 2009 Feb 16;(24). pii: 1129. doi: 10.3791/1129.

11.

Confocal microscopic analysis of morphogenetic movements.

Cooper MS, D'Amico LA, Henry CA.

Methods Cell Biol. 1999;59:179-204. Review.

PMID:
9891361
12.

Localized multiphoton photoactivation of paGFP in Drosophila wing imaginal discs.

Pantazis P, González-Gaitán M.

J Biomed Opt. 2007 Jul-Aug;12(4):044004.

PMID:
17867808
13.

Photoactivated gene expression for cell fate mapping and cell manipulation.

Minden J, Namba R, Mergliano J, Cambridge S.

Sci STKE. 2000 Dec 12;2000(62):pl1.

PMID:
11752627
14.

Video-rate scanning confocal microscopy and microendoscopy.

Nichols AJ, Evans CL.

J Vis Exp. 2011 Oct 20;(56). pii: 3252. doi: 10.3791/3252.

16.

Cell tracking using photoconvertible proteins during zebrafish development.

Lombardo VA, Sporbert A, Abdelilah-Seyfried S.

J Vis Exp. 2012 Sep 28;(67). pii: 4350. doi: 10.3791/4350.

17.

Photoactivation of caged compounds in single living cells: an application to the study of cell locomotion.

Ishihara A, Gee K, Schwartz S, Jacobson K, Lee J.

Biotechniques. 1997 Aug;23(2):268-74.

PMID:
9266081
18.

Characteristics of a novel deep red/infrared fluorescent cell-permeant DNA probe, DRAQ5, in intact human cells analyzed by flow cytometry, confocal and multiphoton microscopy.

Smith PJ, Blunt N, Wiltshire M, Hoy T, Teesdale-Spittle P, Craven MR, Watson JV, Amos WB, Errington RJ, Patterson LH.

Cytometry. 2000 Aug 1;40(4):280-91.

PMID:
10918279
19.
20.

Two-photon excited lifetime imaging of autofluorescence in cells during UVA and NIR photostress.

König K, So PT, Mantulin WW, Tromberg BJ, Gratton E.

J Microsc. 1996 Sep;183(Pt 3):197-204.

PMID:
8858857
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