M. Piantanida scite author profile

Hereditary haemorrhagic telangiectasia (HHT) is a genetically heterogeneous dominant disorder. Two disease loci have been mapped to chromosomes 9q3 and 12q. In a large pedigree, with an unusually high number ofpatients with liver vascular malformations, both previously mapped loci have been excluded. The loci for two other inherited vascular malformation diseases, cerebral cavernous malformations and multiple cutaneous and mucosal venous malformations, have also been excluded. Thus we conclude that at least a third, as yet unmapped, HHT locus does exist, possibly associated with high frequency of liver involvement.

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Ataxic gait and mental retardation with absence of the paternal chromosome 8 and an idic(8)(p23.3): imprinting effect or nullisomy for distal 8p genes?

Piantanida

Dellavecchia

Floridia

et al. 1997

Human Genetics

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A female child with mild dysmorphisms, motor and mental retardation had a 45,XX,-8,-8,+psu dic(8)(p23.3) karyotype in blood lymphocytes, skin fibroblasts and in a lymphoblastoid cell line. DNA analysis showed that the proposita was nullisomic for the 8pter region distal to D8S264, at less than 1 cM from the telomere. Analysis of DNA polymorphisms of 38 loci spread along the entire chromosome 8 revealed that only maternal alleles were present, distributed in four heterozygous and four homozygous regions. This finding indicated that the rearrangement occurred during maternal meiosis in a chromosome recombinant with a minimum of seven crossovers. To our knowledge this is the first case of uniparental maternal disomy for chromosome 8 and of nullisomy for the distal 1-cM portion of the short arm. The available data are in favour of the assumption that no imprinted genes are present on chromosome 8. Thus, dysmorphisms, motor and mental retardation of the proposita are likely to be caused by the nullisomy for the region distal to D8S264, a region in which a recessive gene for epilepsy with progressive mental retardation is known to be located.

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Deletion of specific sequences or modification of centromeric chromatin are responsible for Y chromosome centromere inactivation

et al. 1990

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Stable dicentric chromosomes behave as monocentrics because one of the centromeres is inactive. The cause of centromere inactivation is unknown; changes in centromere chromatin conformation and loss of centromeric DNA elements have been proposed as possible mechanisms. We studied the phenomenon of inactivation in two Y centromeres, having as a control genetically identical active Y centromeres. The two cases have the following karyotypes: 45, X/46,X,i(Y)(q12) and 46,XY/47,XY,+t(X;Y) (p22.3;p11.3). The analysis of the behavior of the active and inactive Y chromosome centromeres after Da-Dapi staining, CREST immunofluorescence, and in situ hybridization with centromeric probes leads us to conclude that, in the case of the isochromosome, a true deletion of centromeric chromatin is responsible for its stability, whereas in the second case, stability for its stability, whereas in the second case, stability of the dicentric (X;Y) is the result of centromere chromatin modification.

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M. Piantanida

Hepatic vascular malformations in hereditary hemorrhagic telangiectasia: Doppler sonographic screening in a large family

Hepatic vascular malformations in hereditary hemorrhagic telangiectasia: imaging findings.

Hereditary haemorrhagic telangiectasia with extensive liver involvement is not caused by either HHT1 or HHT2.

Ataxic gait and mental retardation with absence of the paternal chromosome 8 and an idic(8)(p23.3): imprinting effect or nullisomy for distal 8p genes?

Deletion of specific sequences or modification of centromeric chromatin are responsible for Y chromosome centromere inactivation

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