Pascal Farla scite author profile

Proteins involved in chromatin-interacting processes, like gene transcription, DNA replication, and DNA repair, bind directly or indirectly to DNA, leading to their immobilisation. However, to reach their target sites in the DNA the proteins have to somehow move through the nucleus. Fluorescence recovery after photobleaching (FRAP) has been shown to be a strong approach to study exactly these properties, i.e. mobility and (transient) immobilisation of the proteins under investigation. Here, we provide and discuss detailed protocols for some of the FRAP procedures that we have used to study protein behaviour in living cell nuclei. In addition, we provide examples of their application in the investigation of the androgen receptor (AR), a hormone-inducible transcription factor, and of two DNA-maintenance factors, the telomere binding proteins TRF1 and TRF2. We also provide protocols for qualitative FRAP analysis and a general scheme for computer modelling of the presented FRAP procedures that can be used to quantitatively analyse experimental FRAP curves.

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A Successful Short-Bowel Syndrome Model in Neonatal Piglets

Heemskerk

Heurn

Farla

et al. 1999

Journal of Pediatric Gastroenterology & Nutrition

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Effect of IGF-Rich Colostrum on Bowel Adaptation in Neonatal Piglets With Short Bowel Syndrome

Heemskerk¹,

Heurn²,

Farla³

et al. 2002

Journal of Pediatric Gastroenterology and Nutrition

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FRAP and FRET Methods to Study Nuclear Receptors in Living Cells

Royen

Dinant

Farla

et al. 2009

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Quantitative imaging techniques of fluorescently-tagged proteins have been instrumental in the study of the behavior of nuclear receptors (NRs) and coregulators in living cells. Ligand-activated NRs exert their function in transcription regulation by binding to specific response elements in promotor and enhancer sequences of genes. Fluorescence recovery after photobleaching (FRAP) has proven to be a powerful tool to study the mobility of fluorescently-labeled molecules in living cells. Since binding to DNA leads to the immobilization of DNA-interacting proteins like NRs, FRAP is especially useful for determining DNA-binding kinetics of these proteins. The coordinated interaction of NRs with promoters/enhancers and subsequent transcription activation is not only regulated by ligand but also by interactions with sets of cofactors and, at least in the case of the androgen receptor (AR), by dimerization and interdomain interactions. In living cells, these interactions can be studied by fluorescence resonance energy transfer (FRET). Here we provide and discuss detailed protocols for FRAP and FRET procedures to study the behavior of nuclear receptors in living cells. On the basis of our studies of the AR, we provide protocols for two different FRAP methods (strip-FRAP and FLIP-FRAP) to quantitatively investigate DNA-interactions and for two different FRET approaches, ratio imaging, and acceptor photobleaching FRET to study AR domain interactions and interactions with cofactor motifs. Finally, we provide a protocol of a technique where FRAP and acceptor photobleaching FRET are combined to study the dynamics of interacting ARs.

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Effect of bowel transection and fecal passage deprivation on the enteric nervous system in neonatal rats

Govaert

Heurn

Farla

et al. 2008

Journal of Pediatric Surgery

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Pascal Farla

The androgen receptor ligand-binding domain stabilizes DNA binding in living cells

Antiandrogens prevent stable DNA-binding of the androgen receptor

Fluorescence Recovery After Photobleaching (FRAP) to Study Nuclear Protein Dynamics in Living Cells

A Successful Short-Bowel Syndrome Model in Neonatal Piglets

Effect of IGF-Rich Colostrum on Bowel Adaptation in Neonatal Piglets With Short Bowel Syndrome

FRAP and FRET Methods to Study Nuclear Receptors in Living Cells

Effect of bowel transection and fecal passage deprivation on the enteric nervous system in neonatal rats

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