Home  About us  Contact
 

mRNA Molecule (mrna + molecule)

Distribution by Scientific Domains
Life Sciences40%

Selected Abstracts

Two splicing isoforms of the Y-box protein ctYB-1 appear on the same mRNA molecule

FEBS JOURNAL, Issue 1 2007
Dmitry Nashchekin
Y-box proteins constitute an evolutionarily conserved family of DNA- and RNA-binding proteins involved in the regulation of transcription and translation. In the dipteran Chironomus tentans, a homologue to the vertebrate Y-box protein YB-1 was recently characterized and designated ctYB-1. It is transferred from nucleus to cytoplasm bound to mRNA and is likely to affect translation. It appears in two size variants, p40 and p50. We further analysed the two size variants and their interaction with mRNA. Southern blot analysis, in situ hybridization and RT-PCR analysis suggested that there is just one YB-1 gene, and that the two size variants represent splicing isoforms. In a C. tentans epithelial cell line, only p40 is present, whereas both variants appear together in eight tissues from fourth-instar larvae, although in somewhat different proportions. Furthermore, the appearance of the two isoforms was studied in relation to a specific 35,40 kb mRNA transcript in the salivary glands, the Balbiani ring mRNA. Because of their exceptional size, Balbiani ring messenger ribonucleoprotein particles in nucleoplasm and Balbiani ring polysomes in cytoplasm could be identified and selectively studied. We were able to establish that both isoforms are associated with both nuclear and cytoplasmic Balbiani ring mRNA. In addition, a p50-specific antibody coimmunoprecipitated p40 from Balbiani ring polysomes, suggesting that the two splicing isoforms are located along the same Balbiani ring mRNA molecule. The functional significance of the two isoforms is being discussed. [source]

The participation of AtXPB1, the XPB/RAD25 homologue gene from Arabidopsis thaliana, in DNA repair and plant development

THE PLANT JOURNAL, Issue 4 2001
Renata M. A. Costa
Summary Nucleotide excision repair in Arabidopsis thaliana differs from other eukaryotes as it contains two paralogous copies of the corresponding XPB/RAD25 gene. In this work, the functional characterization of one copy, AtXPB1, is presented. The plant gene was able to partially complement the UV sensitivity of a yeast rad25 mutant strain, thus confirming its involvement in nucleotide excision repair. The biological role of AtXPB1 protein in A. thaliana was further ascertained by obtaining a homozygous mutant plant containing the AtXPB1 genomic sequence interrupted by a T-DNA insertion. The 3, end of the mutant gene is disrupted, generating the expression of a truncated mRNA molecule. Despite the normal morphology, the mutant plants presented developmental delay, lower seed viability and a loss of germination synchrony. These plants also manifested increased sensitivity to continuous exposure to the alkylating agent MMS, thus suggesting inefficient DNA damage removal. These results indicate that, although the duplication seems to be recent, the features described for the mutant plant imply some functional or timing expression divergence between the paralogous AtXPB genes. The AtXPB1 protein function in nucleotide excision repair is probably required for the removal of lesions during seed storage, germination and early plant development. [source]

Transcription factor Sp1 dysregulation in Alzheimer's disease

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 11 2008
Bruce A. Citron
Abstract Altered gene expression occurs in central nervous system disorders, including Alzheimer's disease (AD). Transcription factor Sp1 may be involved insofar as it can regulate the expression of several AD-related proteins, including amyloid precursor protein (APP) and tau. Sp1 could itself be regulated by inflammatory and other factors associated with AD, such as interleukin-1,. We measured an almost threefold elevation in the number of mRNA molecules of this cytokine in the AD frontal cortex. Sp1 mRNA was found to be up-regulated in these AD brains (along with Sp1-regulated COX-2), and the Sp1 increase was also seen at the protein level by Western immunoblotting. To determine whether this would also occur in transgenic mice developing AD pathology, we examined the expression of Sp1 in the cortex and hippocampus and observed higher levels of Sp1 mRNA and protein. These results indicate that elements of regulatory pathways involving transcription factor Sp1 may be useful targets for therapeutic intervention to prevent or reverse AD. © 2008 Wiley-Liss, Inc. [source]

Non-radioactive in situ detection of mRNA in ES cell-derived cardiomyocytes and in the developing heart

MICROSCOPY RESEARCH AND TECHNIQUE, Issue 5 2002
Arnoud C. Fijnvandraat
Abstract Non-radioactive in situ hybridisation is an excellent method to visualise mRNA molecules within their topographical context. Recently we have reported a new non-radioactive in situ hybridisation procedure on tissue sections that is essentially based on the whole mount in situ hybridisation procedure. This method is superior in spatial resolution and sensitivity compared to the radioactive in situ hybridisation procedure. Generally, low levels of gene expression, such as found with the developmental onset of gene expression and in differentiating embryonic stem cells, are difficult to detect by in situ hybridisation. Here an application of the protocol is presented which is based on tyramide signal amplification, which enables the detection of very low abundant mRNAs. The significance of this method is two-fold: (1) the molecular phenotype of embryonic stem cell-derived cardiomyocytes can be examined at the cellular level with high sensitivity, and (2) the number of cells that express the gene of interest can be assessed. Microsc. Res. Tech. 58:387,394, 2002. © 2002 Wiley-Liss, Inc. [source]