Francesca Di Noce scite author profile

Francesca Di Noce

5Publications

83Citation Statements Received

70Citation Statements Given

How they've been cited

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101

Affiliations

Institute of Genetics and Biophysics

Publications

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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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Genotyping for known Mediterranean -thalassemia point mutations using a multiplex amplification refractory mutation system

Lacerra¹,

Musollino²,

Noce³

et al. 2007

Haematologica

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We report the conditions of a multiplex-amplifiction refractory mutation system (ARMS) for genotyping for nine known mutations of the α α2-globin gene and of the ARMS assay for the detection of α α1 Hb J-Oxford and -α α3.7 -AC. The method is reproducible, reliable, simple, rapid, inexpensive and provides genotype diagnosis in >70% of pointmutation carriers in Mediterranean countries. Moreover, it allows investigation of the structure of mutated alleles by sequencing ARMS-amplicons. Haematologica 2007; 92:254-255 α-thalassemia is a hereditary microcytic anemia caused by structural defects involving one or both of the duplicated 5'-3' α2 (833 bp) and α1 (841 bp) globin genes, clustered in tandem on chromosome 16 and showing >96% homology.

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Role of nonsense-mediated decay and nonsense-associated altered splicing in the mRNA pattern of two new α-thalassemia mutants

Cardiero

Scarano

Musollino

et al. 2017

The International Journal of Biochemistry & Cell Biology

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Genotype-Phenotype Relationship of the δ-Thalassemia and Hb A₂Variants: Observation of 52 Genotypes

et al. 2010

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The increase of Hb A(2) (α2δ2) beyond the upper limit [2.0-2.2/3.3-3.4% of the total hemoglobin (Hb)] is an invaluable tool in the hematological screening of β-thalassemia (β-thal) carriers. Factors decreasing Hb A(2) percentages can hinder correct diagnosis. In order to analyze the genotype-phenotype relationship, we characterized δ-, β- and α-globin genotypes in 190 families where the probands had Hb A(2) values of ≤2.0% or were β-thal heterozygotes with normal Hb A(2) levels. Hb A(2) was measured with cation exchange high performance liquid chromatography (HPLC). Mutations were detected with allele-specific methods or DNA sequencing; two multiplex-ARMS (amplification refractory mutation system) assays were set up. The molecular basis underlying the decrease in Hb A(2) was extremely heterogeneous. Nineteen δ-globin alleles (Hb A(2)-S.N. Garganico was new) were detected; their interaction with α- or β-globin alleles (10 and eight, respectively) led us to observe 52 genotypes in 261 carriers. The type of δ-globin mutations, the relative genotypes, the interaction with α(0)-thal traits, are the most important factors in decreasing the Hb A(2) percentage. These results are extremely useful in addressing the molecular diagnosis of hemoglobinopathies and thalassemias.

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Molecular evidences of single mutational events followed by recurrent crossing-overs in the common δ-globin alleles in the Mediterranean area

Lacerra

Musollino

Scarano

et al. 2008

Gene

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