Marianne Malartre scite author profile

Silencing mediator for retinoid and thyroid hormone receptor (SMRT) and nuclear receptor corepressor protein (NCoR) are corepressors that interact with a range of transcription factors. They both consist of N-terminal repressor domains that associate with histone deacetylases and C-terminal interaction domains (IDs) that contain CoRNR box motifs. These motifs mediate the interaction between corepressors and nuclear receptors (NRs), such as the retinoid and thyroid hormone receptors. However, whilst NCoR produces a single transcript during Xenopus development, xSMRT is subject to alternative splicing at four sites in the 3' part of the transcript, the region encoding the C-terminal IDs. Although this provides the potential to produce 16 different transcripts, only five isoforms are found in early embryos. The sites of alternative splicing predict that the resultant isoforms will differ in their ability to interact with NRs, as one site varies the number of CoRNR boxes, the second site changes the sequence flanking CoRNR box-1 and the other sites delete amino acid residues between CoRNR boxes 1 and 2 and so alter the critical spacing between these motifs. SMRT and NCoR therefore represent paralogues in which one form, SMRT, has evolved the ability to generate multiple isoforms whereas the other, NCoR, is invariant in Xenopus development.

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SMRT has tissue-specific isoform profiles that include a form containing one CoRNR box

Short

Malartre

Sharpe

2005

Biochemical and Biophysical Research Communications

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RNA-dependent cytoplasmic anchoring of a transcription factor subunit duringXenopusdevelopment

Brzostowski

Robinson

Orford

et al. 2000

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contributed equally to this workThe CCAAT box transcription factor (CBTF) is a multimeric transcription factor that activates expression of the haematopoietic regulatory factor, GATA-2. The 122 kDa subunit of this complex, CBTF 122 , is cytoplasmic in fertilized Xenopus eggs and subsequently translocates to the nucleus prior to activation of zygotic GATA-2 transcription at gastrulation. Here we present data suggesting both a role for CBTF 122 prior to its nuclear translocation and the mechanism that retains it in the cytoplasm before the midblastula transition (MBT). CBTF 122 and its variant CBTF 98 are associated with translationally quiescent mRNP complexes. We show that CBTF 122 RNA binding activity is both necessary and suf®cient for its cytoplasmic retention during early development. The introduction of an additional nuclear localization signal to CBTF 122 is insuf®cient to overcome this retention, suggesting that RNA binding acts as a cytoplasmic anchor for CBTF 122 . Destruction of endogenous RNA by microinjection of RNase promotes premature nuclear translocation of CBTF 122 . Thus, the nuclear translocation of CBTF 122 at the MBT is likely to be coupled to the degradation of maternal mRNA that occurs at that stage.

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The GEF Vav regulates guided cell migration by coupling guidance receptor signalling to local Rac activation

Fernández-Espartero

Ramel

Farago³

et al. 2013

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SummaryGuided cell migration is a key mechanism for cell positioning in morphogenesis. The current model suggests that the spatially controlled activation of receptor tyrosine kinases (RTKs) by guidance cues limits Rac activity at the leading edge, which is crucial for establishing and maintaining polarized cell protrusions at the front. However, little is known about the mechanisms by which RTKs control the local activation of Rac. Here, using a multidisciplinary approach, we identify the GTP exchange factor (GEF) Vav as a key regulator of Rac activity downstream of RTKs in a developmentally regulated cell migration event, that of the Drosophila border cells (BCs). We show that elimination of the vav gene impairs BC migration. Live imaging analysis reveals that vav is required for the stabilization and maintenance of protrusions at the front of the BC cluster. In addition, activation of the PDGF/VEGF-related receptor (PVR) by its ligand the PDGF/PVF1 factor brings about activation of Vav protein by direct interaction with the intracellular domain of PVR. Finally, FRET analyses demonstrate that Vav is required in BCs for the asymmetric distribution of Rac activity at the front. Our results unravel an important role for the Vav proteins as signal transducers that couple signalling downstream of RTKs with local Rac activation during morphogenetic movements.

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