Your search keyword '"Trujillano, D."' showing total 3 results

1. A homozygous nonsense variant in IFT52 is associated with a human skeletal ciliopathy.

Author

Girisha, K. M., Shukla, A., Trujillano, D., Bhavani, G. S., Hebbar, M., Kadavigere, R., and Rolfs, A.

Subjects

CILIOPATHY, CELLULAR pathology, POLYDACTYLY, FINGER abnormalities, SKELETAL dysplasia

Abstract

Intraflagellar transport ( IFT) is vital for the functioning of primary cilia. Defects in several components of IFT complexes cause a spectrum of ciliopathies with variable involvement of skeleton, brain, eyes, ectoderm and kidneys. We examined a child from a consanguineous family who had short stature, narrow thorax, short hands and feet, postaxial polydactyly of hands, pigmentary retinopathy, small teeth and skeletal dysplasia. The clinical phenotype of the child shows significant overlap with cranioectodermal dysplasia type I (Sensenbrenner syndrome). Whole-exome sequencing revealed a homozygous nonsense variant p. R142* in IFT52 encoding an IFT-B core complex protein as the probable cause of her condition. This is the first report of a human disease associated with IFT52. [ABSTRACT FROM AUTHOR]

Published

2016

2. Extensive sequence analysis of CFTR, SCNN1A, SCNN1B, SCNN1G and SERPINA1 suggests an oligogenic basis for cystic fibrosis-like phenotypes.

Author

Ramos, M.D., Trujillano, D., Olivar, R., Sotillo, F., Ossowski, S., Manzanares, J., Costa, J., Gartner, S., Oliva, C., Quintana, E., Gonzalez, M.I., Vazquez, C., Estivill, X., and Casals, T.

Subjects

SEQUENCE analysis, CYSTIC fibrosis, GENETIC polymorphisms, GENES, PHENOTYPES

Abstract

The term cystic fibrosis ( CF)-like disease is used to describe patients with a borderline sweat test and suggestive CF clinical features but without two CFTR(cystic fibrosis transmembrane conductance regulator) mutations. We have performed the extensive molecular analysis of four candidate genes ( SCNN1A, SCNN1B, SCNN1G and SERPINA1) in a cohort of 10 uncharacterized patients with CF and CF-like disease. We have used whole-exome sequencing to characterize mutations in the CFTR gene and these four candidate genes. CFTR molecular analysis allowed a complete characterization of three of four CF patients. Candidate variants in SCNN1A, SCNN1B, SCNN1G and SERPINA1 in six patients with CF-like phenotypes were confirmed by Sanger sequencing and were further supported by in silico predictive analysis, pedigree studies, sweat test in other family members, and analysis in CF patients and healthy subjects. Our results suggest that CF-like disease probably results from complex genotypes in several genes in an oligogenic form, with rare variants interacting with environmental factors. [ABSTRACT FROM AUTHOR]

Published

2014

3. Next generation diagnostics of cystic fibrosis and CFTR-related disorders by targeted multiplex high-coverage resequencing of CFTR.

Author

Trujillano, D., Ramos, M. D., González, J., Tornador, C., Sotillo, F., Escaramis, G., Ossowski, S., Armengol, L., Casals, T., and Estivill, X.

Subjects

CYSTIC fibrosis, MICROBIAL mutation, GENETIC polymorphisms, BIOINFORMATICS, MEDICAL genetics

Abstract

Background Here we have developed a novel and much more efficient strategy for the complete molecular characterisation of the cystic fibrosis (CF) transmembrane regulator (CFTR) gene, based on multiplexed targeted resequencing. We have tested this approach in a cohort of 92 samples with previously characterised CFTR mutations and polymorphisms. Methods After enrichment of the pooled barcoded DNA libraries with a custom NimbleGen SeqCap EZ Choice array (Roche) and sequencing with a HiSeq2000 (Illumina) sequencer, we applied several bioinformatics tools to call mutations and polymorphisms in CFTR. Results The combination of several bioinformatics tools allowed us to detect all known pathogenic variants ( point mutations, short insertions/deletions, and large genomic rearrangements) and polymorphisms (including the poly-T and poly-thymidine-guanine polymorphic tracts) in the 92 samples. In addition, we report the precise characterisation of the breakpoints of seven genomic rearrangements in CFTR, including those of a novel deletion of exon 22 and a complex 85 kb inversion which includes two large deletions affecting exons 4-8 and 12-21, respectively. Conclusions This work is a proof-of-principle that targeted resequencing is an accurate and cost-effective approach for the genetic testing of CF and CFTR-related disorders (ie, male infertility) amenable to the routine clinical practice, and ready to substitute classical molecular methods in medical genetics. [ABSTRACT FROM AUTHOR]

Published

2013