Human 18 kDa phosphotyrosine protein phosphatase (ACP1) polymorphism: studies of rare variants provide evidence that substitutions within or near alternatively spliced exons affect splicing result.

The mammalian low molecular weight phosphotyrosine protein phosphatase is expressed as two distinct isoforms. The human 'fast' and 'slow' isoforms differ only in the sequence of an internal segment of 34 residues, and the ACP1 gene contains two adjacent exons (E3F and E3S) which encode these segments. We have previously suggested that the fast and slow isoforms are generated by mutually exclusive pre-mRNA splicing of E3F and E3S. The common alleles ACP1*A, *B and *C express the fast and slow isoforms in different ratios. The *A and *C alleles differ from *B by C --> T transitions in E3S and E3F respectively. To test the idea that the fast : slow ratio is determined by nucleotide substitutions in the E3F-I3F-E3S region, four groups of rare ACP1 variants with unusual fast : slow ratios and the rare *E and *R alleles, expressing fast∶slow ratios similar to *C and *B, respectively, were analysed. Gene segments of the I2-I3S region were amplified by PCR and analysed by SSCP and variant bands were excised and sequenced. For each of the rare isozymic variants one of six different nucleotide substitutions in E3F (nts+42, +85, +109, +110), I3F (nt+1) and I3S (nt+8) was observed. The *E and *R alleles showed C and B sequence, respectively, in accordance with the fast : slow ratio. The results support the hypothesis that the fast : slow ratio is constitutive.

The next wave: protein tyrosine phosphatases enter T cell antigen receptor signalling.

Recent years have seen an exponentially increasing interest in the molecular mechanisms of signal transduction. Much of the focus has been on protein tyrosine kinase-mediated signalling, while the study of protein tyrosine phosphatases has lagged behind. We predict that the phosphatases will become a "hot topic" in the field within the next few years. This review summarizes the current state-of-the-art in our understanding of the structure, regulation and role of protein tyrosine phosphatases in T lymphocyte activation.

Rapid and simple determination of hereditary haemochromatosis mutations by multiplex PCR-SSCP: detection of a new polymorphic mutation.

Hereditary haemochromatosis is a common inherited disorder leading to excessive accumulation of iron in various organs. Two missense substitutions at the HFE-gene have recently been associated with the disease, 187C G and 845G-->A (mutations H63D and C282Y, respectively). We present a simple, rapid PCR-SSCP multiplex screening method allowing the simultaneous detection of both substitutions. Furthermore, testing the method on 420 Danish blood donors revealed the presence of a hitherto undetected third substitution in 13 individuals. The new substitution, a 193A-->T transversion, affects codon 65 changing the code for serine to that of cysteine (S65C). It may thus have functional consequences for the HLA class protein encoded by the HFE-gene. The allele frequencies observed were: H63D 14.8%, C282Y 6.2% and S65C 1.5%, which for the two former alleles are in agreement with frequencies reported for other North European population samples.