Improved protocol for a microsphere-adhesion assay on living tissue slices.

Eckart Förster; C Kaltschmidt

Improved protocol for a microsphere-adhesion assay on living tissue slices.

Standard

Improved protocol for a microsphere-adhesion assay on living tissue slices. / Förster, Eckart; Kaltschmidt, C.

In: BIOTECHNIQUES, Vol. 26, No. 3, 3, 1999, p. 466-468, 470, 472.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Förster, E & Kaltschmidt, C 1999, 'Improved protocol for a microsphere-adhesion assay on living tissue slices.', BIOTECHNIQUES, vol. 26, no. 3, 3, pp. 466-468, 470, 472. <http://www.ncbi.nlm.nih.gov/pubmed/10090988?dopt=Citation>

APA

Förster, E., & Kaltschmidt, C. (1999). Improved protocol for a microsphere-adhesion assay on living tissue slices. BIOTECHNIQUES, 26(3), 466-468, 470, 472. [3]. http://www.ncbi.nlm.nih.gov/pubmed/10090988?dopt=Citation

Vancouver

Förster E, Kaltschmidt C. Improved protocol for a microsphere-adhesion assay on living tissue slices. BIOTECHNIQUES. 1999;26(3):466-468, 470, 472. 3.

Bibtex

@article{9e2ed6a17c20475d992d09fb9688cf9f,

title = "Improved protocol for a microsphere-adhesion assay on living tissue slices.",

abstract = "Here, we describe a simple microsphere-adhesion assay to characterize adhesive cues on living tissue slices, which we use to study pattern formation in neural tissue. This assay was developed by modifying a cell-adhesion assay on living tissue slices. We replaced dissociated cells by fluorescent microspheres and then coated the microspheres with isolated membranes from these cells. The membrane-coated microspheres were seeded on living tissue slices, and after a short incubation time, nonadherent microspheres were eliminated by washing. Then, the tissue slices with the adherent microspheres were analyzed using epifluorescence microscopy. As an example, it is shown that membrane-coated adherent microspheres were found to be distributed in a characteristic pattern on living slices of hippocampus, mimicking the adhesion pattern of dissociated living cells. The adhesion assay should be suitable to detect and to analyze adhesive cues on living slices of different tissues and, thus, might have numerous applications in tissue research and developmental studies. Here, we describe and discuss a detailed and improved protocol of the microsphere-adhesion assay.",

author = "Eckart F{\"o}rster and C Kaltschmidt",

year = "1999",

language = "Deutsch",

volume = "26",

pages = "466--468, 470, 472",

journal = "BIOTECHNIQUES",

issn = "0736-6205",

publisher = "Eaton Publishing Company",

number = "3",

}

RIS

TY - JOUR

T1 - Improved protocol for a microsphere-adhesion assay on living tissue slices.

AU - Förster, Eckart

AU - Kaltschmidt, C

PY - 1999

Y1 - 1999

N2 - Here, we describe a simple microsphere-adhesion assay to characterize adhesive cues on living tissue slices, which we use to study pattern formation in neural tissue. This assay was developed by modifying a cell-adhesion assay on living tissue slices. We replaced dissociated cells by fluorescent microspheres and then coated the microspheres with isolated membranes from these cells. The membrane-coated microspheres were seeded on living tissue slices, and after a short incubation time, nonadherent microspheres were eliminated by washing. Then, the tissue slices with the adherent microspheres were analyzed using epifluorescence microscopy. As an example, it is shown that membrane-coated adherent microspheres were found to be distributed in a characteristic pattern on living slices of hippocampus, mimicking the adhesion pattern of dissociated living cells. The adhesion assay should be suitable to detect and to analyze adhesive cues on living slices of different tissues and, thus, might have numerous applications in tissue research and developmental studies. Here, we describe and discuss a detailed and improved protocol of the microsphere-adhesion assay.

AB - Here, we describe a simple microsphere-adhesion assay to characterize adhesive cues on living tissue slices, which we use to study pattern formation in neural tissue. This assay was developed by modifying a cell-adhesion assay on living tissue slices. We replaced dissociated cells by fluorescent microspheres and then coated the microspheres with isolated membranes from these cells. The membrane-coated microspheres were seeded on living tissue slices, and after a short incubation time, nonadherent microspheres were eliminated by washing. Then, the tissue slices with the adherent microspheres were analyzed using epifluorescence microscopy. As an example, it is shown that membrane-coated adherent microspheres were found to be distributed in a characteristic pattern on living slices of hippocampus, mimicking the adhesion pattern of dissociated living cells. The adhesion assay should be suitable to detect and to analyze adhesive cues on living slices of different tissues and, thus, might have numerous applications in tissue research and developmental studies. Here, we describe and discuss a detailed and improved protocol of the microsphere-adhesion assay.

M3 - SCORING: Zeitschriftenaufsatz

VL - 26

SP - 466-468, 470, 472

JO - BIOTECHNIQUES

JF - BIOTECHNIQUES

SN - 0736-6205

IS - 3

M1 - 3

ER -