Mirella Fiorito scite author profile

Mirella Fiorito

5Publications

55Citation Statements Received

55Citation Statements Given

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Affiliations

Policlinico S.Orsola-Malpighi, Institute of Genetics and Biophysics, University of Pisa

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Sequence variations of the ?-globin genes: Scanning of high CG content genes with DHPLC and DG-DGGE

et al. 2004

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The alpha-globin chains are encoded by two duplicated genes (HBA2 and HBA1, 5'-3') showing overall sequence homology >96% and average CG content >60%. alpha-Thalassemia, the most prevalent worldwide autosomal recessive disorder, is a hereditary anemia caused by sequence variations of these genes in about 25% of carriers. We evaluated the overall sensitivity and suitability of DHPLC and DG-DGGE in scanning both the alpha-globin genes by carrying out a retrospective analysis of 19 variant alleles in 29 genotypes. The HBA2 alleles c.1A>G, c.79G>A, and c.281T>G, and the HBA1 allele c.475C>A were new. Three pathogenic sequence variations were associated in cis with nonpathogenic variations in all families studied; they were the HBA2 variation c.2T>C associated with c.-24C>G, and the HBA2 variations c.391G>C and c.427T>C, both associated with c.565G>A. We set up original experimental conditions for DHPLC and DG-DGGE and analyzed 10 normal subjects, 46 heterozygotes, seven homozygotes, seven compound heterozygotes, and six compound heterozygotes for a hybrid gene. Both the methodologies gave reproducible results and no false-positive was detected. DHPLC showed 100% sensitivity and DG-DGGE nearly 90%. About 100% of the sequence from the cap site to the polyA addition site could be scanned by DHPLC, about 87% by DG-DGGE. It is noteworthy that the three most common pathogenic sequence variations (HBA2 alleles c.2T>C, c.95+2_95+6del, and c.523A>G) were unambiguously detected by both the methodologies. Genotype diagnosis must be confirmed with PCR sequencing of single amplicons or with an allele-specific method. This study can be helpful for scanning genes with high CG content and offers a model suitable for duplicated genes with high homology.

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Interaction of DIO2 T92A and PPARγ2 P12A Polymorphisms in the Modulation of Metabolic Syndrome

Fiorito

Torrente

Cosmo

et al. 2007

Obesity

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Type 2 iodothyronine deiodinase (DIO2) converts thyroid prohormone tetraiodothyronine into the biologically active triiodothyronine hormone, which increases insulin sensitivity at the skeletal muscle level. The DIO2 T92A polymorphism modulates deiodinase activity and has been inconsistently associated with insulin resistance. Also, the P121A polymorphism of the peroxisome proliferator-activated receptor (PPAR) ␥2 gene, which encodes a transcription factor involved in insulin signaling, has been inconsistently associated with insulin resistance. This study was aimed at evaluating the combined effect of DIO2 T92A and PPAR␥2 P12A polymorphisms on insulin resistance-related features in 590 non-diabetic whites. A significant gene-gene interaction was observed in the modulation of systolic (p ϭ 0.01) and diastolic (p ϭ 0.02) blood pressure and metabolic syndrome (p ϭ 0.02), with carriers of both DIO2 A92 and PPAR␥2 A12 variants showing the worst phenotype. This latter interaction was also shown by multifactor dimensionality reduction analysis (p ϭ 0.0045). A peroxisome proliferator response element in the DIO2 promoter was identified by in silico analysis and confirmed by in vitro gel shift mobility assay, thus providing a biological plausibility for the observed gene-gene interaction. If confirmed in other populations, comprising several thousand individuals, these data may help identify individuals at risk for insulin resistance-related abnormalities.

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Denaturing HPLC-Based Assay for Molecular Screening of Nondeletional Mutations Causing α-Thalassemias

Guida

Colosimo

Fiorito

et al. 2004

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Hb G-SAN JOSÈ VARIANT LEVELS CORRELATE WITH α-THALASSEMIA GENOTYPES

et al. 2002

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Hb G-San Josè or beta7(A4)Glu-->Gly has been reported in Southern Italian or Mexican families. We have studied four families from Sicily and Campania, Southern Italy. In six carriers, the hemoglobin variant level ranged from 32 to 38%. In four double heterozygotes for Hb G-San Josè and alpha-thalassemia the variant level showed a strong correlation with the alpha-thalassemia genotype. In fact, the variant level was 15% when interacting with the - (alpha)20.5/alphaalpha, 19.6% with the alphaalpha/alphaPoly Aalpha, and 24.8% with alphaalpha/alpha(-5) ntalpha genotypes. In two double heterozygotes for Hb G-San Josè and beta+ -IVS-I-6 (T-->C) the hemoglobin variant level was 67%. These data show that the reduced synthesis of alpha chains causes drastic reduction of probability to form Hb G-San Josè in favor of the formation of Hb A. Moreover, this reduction, (i) correlates with the type of alpha-thalassemia genotype and with the degree of the alpha chain deficiency, and (ii) is, most probably, more marked than the degree of alpha chain reduction. The minor affinity of the beta chain variant for the alpha chains associated with the reduced synthesis of the alpha chains is probably the principal cause of the variant hemoglobin reduction. Moreover, the rapid removal of the abnormal chains by proteolytic enzymes must have an essential role in order to reduce the chain variant pool. These conclusions are in agreement with the results obtained in reticulocyte and in vitro recombination experiments.

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Teenager and Stranger in an Adult “World”

Montemagno

Castorina

Cavina

et al. 2012

Giornale di Tecniche Nefrologiche e Dialitiche

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The primary hyperoxaluria type 1 is caused by mutations in the gene coding for the enzyme L-alanine-glyoxylate amino transferase (AGT), which is expressed in the/by liver. Transmission is autosomal: recessive parents are healthy, unknowing carriers of the mutation (especially if there are no affected relations), while each child has a 25% chance of developing the disease. There is also a second type of disease (primary hyperoxaluria type 2), caused by the deficiency of another enzyme, the D-glycerate dehydrogenase, and a third type (hyperoxaluria type 3), identified most recently and caused by the defect in the gene DHDPSL. On the basis of clinical observation and family history, the diagnosis of primary hyperoxaluria can be made through laboratory analysis (measurement of calcium oxalate in urine and blood) and genetic analysis, searching mutations in the gene involved. This article is a case study which involved the nursing staff for a change of approach and caring for a teenager in a world of adults.

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Mirella Fiorito

Sequence variations of the ?-globin genes: Scanning of high CG content genes with DHPLC and DG-DGGE

Interaction of DIO2 T92A and PPARγ2 P12A Polymorphisms in the Modulation of Metabolic Syndrome

Denaturing HPLC-Based Assay for Molecular Screening of Nondeletional Mutations Causing α-Thalassemias

Hb G-SAN JOSÈ VARIANT LEVELS CORRELATE WITH α-THALASSEMIA GENOTYPES

Teenager and Stranger in an Adult “World”

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