The susceptibility of German shepherds to chronic diarrhoea is not due to a failure of
transcription of key genes encoding molecules involved in mucosal IgA secretion In collaboration with scientists at the University of Bristol, UK, WALTHAM investigated a potential cause of the susceptibility of German shepherd dogs to chronic diarrhoea (Peters et al. 2005).
Not exact matches
A
key function
of c - MYC is to regulate the
transcription of numerous
genes.
In addition, when these
transcription factors lose their function, terminal differentiation into the vascular endothelium (completion
of differentiation) is completely suppressed, and
genes that are
key to differentiation into vascular endothelial cells as well as
transcription factors that maintain the undifferentiated state are adversely induced.
The researchers used this live - imaging technique to study fly embryos at a
key stage in their development, approximately two hours after the onset
of embryonic life where the
genes undergo fast and furious
transcription for about one hour.
Shimon Sakaguchi and colleagues report that the
transcription factor Foxp3 is a
key regulatory
gene for the development
of regulatory T cells.
FoxO1 Deacetylation Regulates Thyroid Hormone - induced
Transcription of Key Hepatic Gluconeogenic
Genes.
The STAT3, in turn, goes into the nucleus and it binds to a number
of genes, and this is particularly happening in the hypothalamus and that we don't know all
of the mechanisms, but this activation
of the STAT3
transcription factor is
key in exerting the leptin signal, and leptin action.
These experimental data establish the retromer complex as a
key spatiotemporal regulator
of IFNAR endosomal sorting and a new factor in type - I IFN - induced JAK / STAT signalling and
gene transcription.
The bromodomain containing protein 9 (BRD9) has been reported as a component
of the switch / sucrose non-fermentable (SWI / SNF) brahma - related
gene 1 - associated factor (BAF) complex, which plays a
key role in chromatin remodelling and
transcription control [1] although the precise biological role is unknown.
Nevertheless, sponges share
key adhesion and signalling
genes7, 8,9,10,11 with eumetazoans, as well as other
genes important in body plan patterning such as developmental
transcription factors12, 13,14,15; sponge embryos and larvae (Fig. 1) are readily comparable to those
of other animals12, 16.
The 1500
transcription factors (TFs) within the human genome perform a
key role in determining the set
of active
genes within a specific cell, as well as the magnitude
of activity.