Your search keyword '"Baralle D"' showing total 12 results

1. Systematic screening of FBN1 gene unclassified missense variants for splice abnormalities.

Author

Robinson, DO, Lin, F, Lyon, M, Raponi, M, Cross, E, White, HE, Cox, H, Clayton-Smith, J, and Baralle, D

Subjects

MISSENSE mutation, SPLICEOSOMES, FIBRILLIN, RNA splicing, GENETIC mutation, ANTISENSE DNA, RNA analysis

Abstract

Robinson DO, Lin F, Lyon M, Raponi M, Cross E, White HE, Cox H, Clayton-Smith J, Baralle D. Systematic screening of FBN1 gene unclassified missense variants for splice abnormalities. Defects at the level of pre-mRNA splicing are a common source of genetic mutation but such mutations are not always easy to identify from DNA sequence data alone. Clinical practice has only recently begun to incorporate analysis for this type of abnormality. Some base changes at the DNA level currently viewed as unclassified variants or missense mutations may influence RNA splicing. To address this problem for fibrillin 1 ( FBN1) gene missense mutations we have carried out RNA analysis and in silico analysis with splice site prediction programs on 40 cases with 36 different mutations. Direct analysis of RNA from blood was performed by cDNA preparation, PCR amplification of specific FBN1 fragments, gel electrophoresis and sequencing of the PCR products. Of the 36 missense base changes, direct RNA analysis identified 2 which caused an abnormality of splicing. In silico analysis using five splice site prediction programs did not always accurately predict the splicing seen by direct RNA analysis. In conclusion, some apparent missense mutations have an effect on splicing which can be identified by direct RNA analysis, however, in silico analysis of splice sites is not always accurate, should be carried out with more than one prediction program and results should be used with caution. [ABSTRACT FROM AUTHOR]

Published

2012

2. Novel Tandem Duplication in Exon 1 of the SNURF/SNRPN Gene in a Child with Transient Excessive Eating Behaviour and Weight Gain.

Author

Naik, S., Thomas, N.S., Davies, J.H., Lever, M., Raponi, M., Baralle, D., Temple, I.K., and Caliebe, A.

Published

2012

3. An intronic mutation in MLH1 associated with familial colon and breast cancer.

Author

Bianchi, F., Raponi, M., Piva, F., Viel, A., Bearzi, I., Galizia, E., Bracci, R., Belvederesi, L., Loretelli, C., Brugiati, C., Corradini, F., Baralle, D., and Cellerino, R.

Abstract

Single base substitutions can lead to missense mutations, silent mutations or intronic mutations, whose significance is uncertain. Aberrant splicing can occur due to mutations that disrupt or create canonical splice sites or splicing regulatory sequences. The assessment of their pathogenic role may be difficult, and is further complicated by the phenomenon of alternative splicing. We describe an HNPCC patient, with early-onset colorectal cancer and a strong family history of colorectal and breast tumors, who harbours a germ line MLH1 intronic variant (IVS9 c.790 +4A>T). The proband, together with 2 relatives affected by colorectal-cancer and 1 by breast cancer, have been investigated for microsatellite instability, immunohistochemical MMR protein staining, direct sequencing and Multiplex Ligation-dependent Probe Amplification. The effect of the intronic variant was analyzed both by splicing prediction software and by hybrid minigene splicing assay. In this family, we found a novel MLH1 germline intronic variant (IVS9 c.790 +4A>T) in intron 9, consisting of an A to T transversion, in position +4 of the splice donor site of MLH1. The mutation is associated with the lack of expression of the MLH1 protein and MSI in tumour tissues. Furthermore, our results suggest that this substitution leads to a complete skip of both exon 9 and 10 of the mutant allele. Our findings suggest that this intronic variant plays a pathogenic role. [ABSTRACT FROM AUTHOR]

Published

2011

4. Alternative splicing: good and bad effects of translationally silent substitutions.

Author

Raponi, M. and Baralle, D.

Subjects

NUCLEOTIDES, RNA splicing, GENETIC disorders, GENETICS, GENOMES

Abstract

Nucleotide variations that do not alter the protein-coding sequence have been routinely considered as neutral. In light of the developments we have seen over the last decade or so in the RNA processing and translational field, it would be proper when assessing these variants to ask if this change is neutral, good or bad. This question has been recently partly addressed by genome-wide in silico analysis but significantly fewer cases by laboratory experimental examples. Of particular relevance is the effect these mutations have on the pre-mRNA splicing pattern. In fact, alterations in this process may occur as a consequence of translationally silent mutations leading to the expression of novel splicing isoforms and/or loss of an existing one. This phenomenon can either generate new substrates for evolution or cause genetic disease when aberrant isoforms altering the essential protein function are produced. In this review we briefly describe the current understanding in the field and discuss emerging directions in the study of the splicing mechanism by integrating disease-causing splicing mutations and evolutionary changes. [ABSTRACT FROM AUTHOR]

Published

2010

5. A prospective study of neurofibromatosis type 1 cancer incidence in the UK.

Author

Walker, L., Thompson, D., Easton, D., Ponder, B., Ponder, M., Frayling, I., and Baralle, D.

Subjects

NEUROFIBROMATOSIS, GENETIC counseling, CONNECTIVE tissue diseases, CANCER, BRAIN tumors, COMPARATIVE studies, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, RESEARCH, RISK assessment, TUMORS, COMORBIDITY, EVALUATION research, DISEASE incidence, NEUROFIBROMATOSIS 1

Abstract

Neurofibromatosis type 1 (NF1) is an autosomal dominant condition affecting around one in 3000 live births. The manifestations of this condition are extremely variable, even within families, and genetic counselling is consequently difficult with regard to prognosis. Individuals with NF1 are acknowledged to be at increased risk of malignancy. Several studies have previously attempted to quantify this risk, but have involved relatively small study populations. We present prospective data from 448 individuals with NF1 with a total of 5705 years of patient follow-up. These data have been collected via the UK NF1 association for patients. Demographic information on the affected individuals was cross-referenced with UK cancer registry data by the UK Office of National Statistics. The overall risk of cancer was 2.7 times higher in this cohort of NF1 patients than in the general population (95% confidence interval (CI) 1.9-3.7). The cumulative risk of a malignancy by age 50 years was 20% (95% CI 14-29%); beyond this age, the risk of cancer was not significantly elevated (P=0.27). The most frequent types of cancer were connective tissue (14% risk by age 70, 95% CI 7.8-24%) and brain tumours (7.9, 95% CI 3.9-16%). There was no statistically significant excess of cancers at other sites (P=0.22). [ABSTRACT FROM AUTHOR]

Published

2006

6. Splicing in action: assessing disease causing sequence changes.

Author

Baralle, D. and Baralle, M.

Subjects

RNA splicing, MESSENGER RNA, GENETIC regulation, EXONS (Genetics), INTRONS, GENETIC mutation

Abstract

Variations in new splicing regulatory elements are difficult to identify exclusively by sequence inspection and may result in deleterious effects on precursor (pre) mRNA splicing. These mutations can result in either complete skipping of the exon, retention of the intron, or the introduction of a new splice site within an exon or intron. Sometimes mutations that do not disrupt or create a splice site activate pre-existing pseudo splice sites, consistent with the proposal that introns contain splicing inhibitory sequences. These variants can also affect the fine balance of isoforms produced by alternatively spliced exons and in consequence cause disease. Available genomic pathology data reveal that we are still partly ignorant of the basic mechanisms that underlie the pre-mRNA splicing process. The fact that human pathology can provide pointers to new modulatory elements of splicing should be exploited. [ABSTRACT FROM AUTHOR]

Published

2005

7. Linkage Analysis of Idiopathic Generalised Epilepsy in Families of Probands with Juvenile Myoclonic Epilepsy and Marker Loci in the Region of EPM 1 on Chromosome 21 q: Unverricht-Lundborg Disease and JME are not Allelic Variants.

Author

Rees, M., Curtis, D., Parker, K., Sundqvist, A., Baralle, D., Bespalova, I. N., Burmeister, M., Chung, E., Gardiner, R. M., and Whitehouse, W. P.

Published

1994

8. Identification of a mutation that pertrubs NF1 gene splicing using genomic DNA samples and a minigene assay.

Author

Baralle, M., Baralle, D., De Conti, L., Mattocks, C., Whittaker, J., Knezevich, A., ffrench-Constant, C., and Baralle, F. E.

Subjects

NEUROFIBROMATOSIS, GENETIC engineering, AMINO acids, DNA

Abstract

Identifies a mutation that pertubs neurofibromatosis type1 gene splicing using genomic DNA samples and a minigene assay. Alteration of the critical amino acids; Generation of premature stop codons; Prediction of splicing abnormalities.

Published

2003

9. Benign familial infantile convulsions: report of a UK family and confirmation of genetic heterogeneity.

Author

BARALLE, D., DEARLOVE, A. M., BEACH, R., FFRENCH-CONSTANT, C., and REID, E.

Published

2000

10. Functional splicing assay shows a pathogenic intronic mutation in neurofibromatosis type 1 ( NF1) due to intronic sequence exonization.

Author

Raponi, M., Upadhyaya, M., and Baralle, D.

Abstract

Genomic variations with no apparent effect ('neutral polymorphisms') may have a significant effect on splicing. The effect of this type of mutation is difficult to spot, unless a functional assay is undertaken. In our study, DNA sequencing of a patient with clinically defined neurofibromatosis type 1 (NF1) showed only a single polymorphism in intron 30 due to an A>G transition 279 nucleotides from the 3' splice site. Using a minigene splicing assay we conclusively show that this change produces a cryptic exon with a 3' SS defined by the nucleotide change and the unexpected activation of a very weak 5'SS. Further site directed mutagenesis studies aimed at identifying the signals involved in the cryptic exon inclusion were carried out. Interestingly we find that particular characteristics of the cryptic 5' SS are essential for its inclusion. Significantly an additional single nucleotide change disrupting the cryptic 5'ss consensus sequence rescues the effect of the pathogenetic mutation resulting in normal splicing. © 2006 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2006

11. Malignancy in Neurofibromatosis Type 1.

Author

Walker, Lisa, Thompson, D., Frayling, I. M., and Baralle, D.

Subjects

NEUROFIBROMATOSIS

Abstract

Presents an abstract of the article "Malignancy in Neurofibromatosis Type 1," by Lisa Walker, d. Thompson, I.M. Frayling, and D. Baralle.

Published

2005

12. Corrigendum: A centrosomal mechanism involving CDK5RAP2 and CENPJ controls brain size.

Author

Bond, J., Roberts, E., Springel, K., Lizarraga, S., Scott, S., Higgins, J., Hampshire, D. J., Morrison, E. E., Leal, G. F., Silva, E. O., Costa, S. M. R., Baralle,, D., Raponi, M., Karbani, G., Rashid, Y., Jafri, H., Bennett, C., Corry, P., Walsh, C. A., and Woods, C. G.

Subjects

NATURE Genetics (Periodical)

Abstract

Presents a correction to the article related to gene encoding that was published in the May 2005 issue of the journal "Nature Genetics."

Published

2005