Psychiatric disorder in a familial 15;18 translocation and sublocalization of myelin basic protein of 18q22.3.

Two related patients with similar clinical features consisting of a few dysmorphic signs and psychiatric disturbance were reported to have a partial trisomy of chromosomes 15(pter-q13.3) and 18(q23-qter) deriving from a familial translocation t(15;18). One patient is affected by bipolar disorder and the other by schizoaffective disorder.

Molecular defects in CRM+ factor VII deficiencies: modelling of missense mutations in the catalytic domain of FVII.

The molecular defects causing CRM+ factor VII deficiency were investigated in seven unrelated subjects and several members of their families. Four missense mutations located in the catalytic domain of factor VII were found. The previously reported 304Arg-->Gln substitution was present in the homozygous and heterozygous forms, with different polymorphic haplotypes, thus demonstrating that it is recurrent and frequent in the Italian population.

Molecular analysis of factor VII deficiency in Italy: a frequent mutation (FVII Lazio) in a repeated intronic region.

Molecular defects and polymorphic haplotypes of coagulation factor VII gene were studied in eight unrelated Italian subjects with factor VII deficiency, seven having the factor VII- variant, one the factor VIIR variant. An intron 7 mutation, which alters the consensus donor splice site sequence, was found in six subjects. The presence of the founder effect is suggested by their common geographical origin (a mountain area in the Lazio region) and by the identical polymorphic haplotype underlying the mutation.

Study of a protein S gene polymorphism at DNA and mRNA level in a family with symptomatic protein S deficiency.

A protein S gene polymorphism, detectable by restriction analysis of amplified exonic sequences, was investigated in a family with members affected by protein S deficiency, deep vein thrombosis and ictus. The clinical laboratory findings as well as RFLP analysis were consistent with the presence of a type WP III protein S deficiency clearly marked by a polymorphic allele, thus enabling us to determine the carrier status in several subjects. The RFLP analysis, extended to platelet mRNA after reverse transcription and amplification, demonstrated that the mRNA produced by the putative defective gene was present in a subject affected by thrombosis.

Symptomatic type II protein C deficiency caused by a missense mutation (Gly 381-->Ser) in the substrate-binding pocket.

A patient with recurrent deep vein thrombosis and heterozygous type II deficiency, characterized by reduced protein C activity in both amidolytic and clotting functional assays, was investigated by direct sequencing of PCR fragments derived from the coding portion of the protein C gene. AG (8856) to A transition was noted in the patient which was not present in healthy controls. This mutation is predicted to cause the substitution of Ser for Gly 381, an evolutionari'y conserved residue in the substrate binding pocket of serine-proteases (Gly 216, chymotrypsin numbering).

In-frame deletion of von Willebrand factor A domains in a dominant type of von Willebrand disease.

von Willebrand disease (vWD), the most common inherited bleeding disorder in humans, is very heterogeneous and has been classified into several subtypes. Missense mutations have been found to be responsible for the dominant type II vWD, characterized by qualitative abnormalities affecting von Willebrand factor (vWF) function. The breakpoints of a heterozygous vWF gene deletion (31 Kb), occurring 'de novo' in a patient with a variant of type II vWD, were localized to introns 25 and 34 and sequenced.

Characterization of a deleted Y chromosome in a male with Turner stigmata.

A 46,X,+mar karyotype was detected in an 11-year-old male with a clinical picture characterized by obesity, short stature, bilateral cryptorchidism and coarctation of the aorta. The presence of ZFY and SRY genes was demonstrated by PCR amplification, and the origin of the marker chromosome from a deleted Y chromosome was analyzed by in situ hybridization. The proximal limits of a deletion in Yq were defined by the absence of Southern blot hybridization signals upon probing with Yq11 markers.

A polymorphism in the 5' region of coagulation factor VII gene (F7) caused by an inserted decanucleotide.

We describe a polymorphism in the 5' region of the coagulation factor VII (FVII) gene, originating from a decanucleotide (CCTATATCCT) insert present in the less frequent allele. This marker can be detected by restriction analysis of polymerase chain reaction products.

Characterization and mapping of the 5' portion of von Willebrand factor pseudogene.

A genomic fragment containing the 5' boundary of the von Willebrand factor pseudogene was cloned, partially sequenced and used for in situ hybridization experiments on metaphase spreads from a Philadelphia chromosome (Ph1)-positive chronic myelogenous leukemia patient. Data obtained indicate that the von Willebrand factor pseudogenic region is centromeric to the breakpoint cluster region on 22q11.2.

Localization of cloned human DNA sequences and analysis of chromosomal alterations by in situ hybridization.

The in situ hybridization technique was used for the localization on human chromosomes of single-copy and repeated sequences and, in addition, for the characterization of altered human chromosomes. Two anonymous clones, single or low-copy, obtained from a human X chromosome library were localized on the distal part of the long arm and in the paracentromeric region of X chromosome, respectively. A genomic fragment of the single-copy thyroglobulin (TG) gene was used to confirm the localization on the distal part of the long arm of chromosome 8.

Detection of two missense mutations and characterization of a repeat polymorphism in the factor VII gene (F7).

The 3' portion of the coagulation factor VII gene, containing the activation and serine protease domains, was investigated in four subjects with factor VII deficiency by temperature gradient gel electrophoresis and sequencing of polymerase chain reaction (PCR) products. Molecules displaying an altered melting behaviour were detected in three subjects, and direct sequencing showed two mutations. A G-to-T transversion causing a missense mutation, Cys-310 to Phe, suppresses a disulphide bond conserved in the catalytic domain of all serine proteases.

Rapid detection of a protein C gene mutation present in the asymptomatic and not in the thrombosis-prone lineage.

The presence of mutations in the serine protease domain of protein C was investigated by temperature gradient gel electrophoresis of PCR products in five patients with protein C deficiency and thrombosis. Molecules with an altered melting behaviour were detected in one subject with a history of venous and arterial thrombosis. Direct sequencing showed that a G deletion, present in the heterozygous state, caused a reading frame shift at Trp 300 and subsequently a premature termination at the codon 335.

Chromosomal localization of human p85 alpha, a subunit of phosphatidylinositol 3-kinase, and its homologue p85 beta.

The human phosphatidylinositol (PI) 3-kinase p85 alpha subunit gene and its homologue p85 beta were assigned to human chromosomes by analysis of their segregation in a panel of somatic cell hybrids using human-specific polymerase chain reaction primers. The p85 alpha locus was only present in hybrids retaining the human chromosome 5q. The presence of the p85 beta locus coincided with the presence of chromosome 19.

Characterization of the pseudogenic and genic homologous regions of von Willebrand factor.

The homologous pseudogenic and genic regions of von Willebrand factor (vWF) were studied in DNA from a patient with homozygous deletion of vWF genes and compared with a normal control. This analysis indicates informative restriction patterns for the investigation of restriction fragment length polymorphisms (RFLPs) and gene lesions, and for molecular cloning. A useful new genic XbaI RFLP was found and characterized.

Characterization of polymorphic markers in the von Willebrand factor gene and pseudogene.

Three TaqI restriction fragment length polymorphisms (RFLP) detected by the central portion of von Willebrand factor cDNA, which recognizes the true gene and in addition pseudogenic sequences, were characterized and mapped. Small cDNA fragments which hybridized with DNA from families with von Willebrand disease were used. Two of the RFLP, recognized by 1.

A de novo and heterozygous gene deletion causing a variant of von Willebrand disease.

An abnormal von Willebrand factor (vWF) gene restriction pattern has been found in a patient with von Willebrand disease. Because this gene alteration is not present in his parents or in 50 normal and 25 affected subjects, and the restriction fragment length polymorphism haplotypes are inherited normally in the patient's family, we suggest that a de novo mutation is present. Bands with reduced intensity and additional fragments, observed in several restriction digests, hybridize with noncontiguous copy DNA (cDNA) portions, thus indicating the presence of a heterozygous gene deletion.

Direct detection of a missense mutation causing severe hemophilia A by PCR amplification and fluorescence scanning.

The amplification of Factor VIII gene-specific sequences, obtained by polymerase chain reaction, was used for hemophilia A carrier detection. Exon 24 sequences were employed in the carrier status determination of a missense mutation causing severe hemophilia A in two unrelated patients. After agarose gel electrophoresis, the digested DNA was subjected to quantitative determination of fluorescence.

Sublocalization of von Willebrand factor pseudogene to 22q11.22-q11.23 by in situ hybridization in a 46,X,t(X;22)(pter;q11.21) translocation.

The von Willebrand factor pseudogene, previously mapped to chromosome 22, was sublocalized by in situ hybridization using as probe a von Willebrand factor cDNA fragment completely contained in the pseudogenic region. Chromosome spreads were from a patient carrying a unique balanced de novo translocation 46,X,t(X;22)(pter;q11.21).

Partial gene deletion in a family with factor X deficiency.

The presence of gene lesions in coagulation factor X (FX, Stuart factor) was investigated in patients with FX deficiency or an FX abnormality (FX Friuli). The proposita had a heterozygous partial deletion of the FX gene with severe deficiency of FX activity and antigen. The lesion, which was inherited from her mother, removes the 3' portion of the gene coding for the catalytic domain of the factor.

A recurrent missense mutation (Arg----Gln) and a partial deletion in factor VIII gene causing severe haemophilia A.

The presence of gene lesions in coagulation factor VIII (FVIII) gene was investigated in 70 Italian patients severely affected by haemophilia A. cDNA probes specific for exons 14-26 of the FVIII gene were used. In two related patients a gene deletion removes exon 26, a gene lesion similar to that described previously in a British haemophiliac.

Sublocalization of the human protein C gene on chromosome 2q13-q14.

The localization of human protein C gene on chromosome 2 was investigated by in situ hybridization using a partial cDNA for protein C. Silver-grain analysis indicates that the protein C gene is located on 2q13-q14.

A frequent factor XII gene mutation in Hageman trait.

An additional TaqI restriction site was mapped in intron 2 of the factor XII gene. The site was found only in subjects with total or partial factor XII deficiency and thus represents the true gene lesion or a very tightly linked restriction fragment length polymorphism. The altered gene identified by this marker is present in four (three heterozygotes and one homozygote) of five unrelated Hageman trait subjects from different Italian regions.