Research on genetic abnormality in the hemolytic form of hereditary elliptocytosis with homozygosity for the spectrin alpha I/74 variant

We have undertaken to identify the spectrin gene mutation in a patient with a severe hemolytic form of Hereditary Elliptocytosis with homozygosity for the spectrin alpha I/74 variant. This variant corresponds to the presence of a 74,000 peptide which is produced during mild tryptic digestion of spectrin by cleavage at the Arginine-39 of the alpha I/80,000 domain of the spectrin alpha chain (595 amino acids). We hypothesized that the alpha I/74 mutation would be closed to the cleavage site Arg-39. A genomic library built with the patient's DNA was screened with a probe corresponding to a fragment of the alpha spectrin gene. Two clones were isolated, one being of paternal, the other of maternal origin. The subclones obtained contained the alpha spectrin gene exons 2 and 3 which encode for the first 88 amino-acids of the spectrin alpha I domain. The sequences obtained did not show any abnormality. The implications of these results are discussed.     

Molecular basis and haplotyping of the alphaII domain polymorphisms of spectrin: application to the study of hereditary elliptocytosis and pyropoikilocytosis.

Hereditary elliptocytosis (HE) and hereditary pyropoikilocytosis (HPP) are inherited disorders of erythrocyte shape that are frequently associated with abnormalities in alpha-spectrin, one of the principal structural proteins of the erythrocyte membrane skeleton. Five polymorphisms of the alpha-spectrin gene, located in a 6-kb interval of genomic DNA, were identified and analyzed in normal and mutant alpha-spectrin alleles. Three of these polymorphisms are due to single nucleotide substitutions in the alpha-spectrin gene coding region that lead to changes in the amino acid sequence. In combination, these three polymorphisms are responsible for the different peptide phenotypes of the alphaII domain previously observed following limited tryptic digestion of spectrin protein. The most common haplotype, type 1, was found predominantly in Caucasians and was the only haplotype identified in Asians. Haplotypes 2, 3, and 4 were identified predominantly in individuals of African ancestry and were commonly found in patients with HE or HPP. Analysis of coinheritance of alphaII domain polymorphisms with alpha-spectrin gene mutations causing HE or HPP in African-American patients with HE and HPP suggests that, with one exception, a given HE/HPP mutation is present in an alpha-spectrin gene of only one haplotype, indicating a founder effect. The other two polymorphisms located in this region of the alpha-spectrin gene do not change the amino acid sequence of the encoded alpha-spectrin chain and are not in linkage disequilibrium with three of the four alphaII domain haplotypes. A model is proposed for the evolutionary origin of the different haplotypes.     

Evolution of the ATP-binding-cassette transmembrane transporters of vertebrates

The ATP-binding-cassette transmembrane transporters (ABC transporters) known from vertebrates belong to four major subfamilies: (1) the P- glycoproteins (Pgp); (2) the cystic fibrosis transmembrane conductance regulators (CFTR); (3) the Tap proteins encoded with the major histocompatibility complex of mammals; and (4) the peroxisomal membrane proteins. Both Pgp and CFTR have a structure suggesting a past internal gene duplication; a phylogenetic analysis indicated that these duplications occurred independently, while an independent tandem gene duplication occurred in the case of the Tap family. Both the Pgp and Tap proteins show evidence of relationship to bacterial ABC transporters lacking internal duplication, and both are significantly more closely related to the HlyB and MsbA families of transporters from purple bacteria than they are to ABC transporters from nonpurple bacteria. The simplest hypothesis to explain this observation is that eukaryotic Pgp and Tap genes are descended from a mitochondrial gene or genes that were subsequently translocated to the nuclear genome. The Pgp genes of eukaryotes are characterized by a remarkable degree of convergent evolution between the ATP-binding cassettes of their N- terminal and C-terminal halves, whereas no such convergence is seen between the two halves of CFTR genes or between the duplicated Tap genes. Exon 13 of the CFTR gene, which encodes a putative regulatory domain not found in other ABC transporters apart from CFTR, showed high levels of both synonymous and nonsynonymous difference in comparisons among different mammalian species, suggesting that this region is a mutational hot spot.      

Evidence for the presence of β-lactamase inStreptomyces glaucescens and its inhibition by sodium clavulanate

Streptomyces glaucescens is shown to possess -lactamase activity which is inhibitable by clavulanate. This is important in regard to its use as a cloning host for enzymes of \-lactam biosynthesis.     

Analysis of WT1 gene expression during mouse nephrogenesis in organ culture

Summary The temporal and spatial expression patterns of the Wilms tumor gene, WT1, were studied during the organogenesis of the mouse kidneyin vitro. In situ hybridization and immunocytochemistry localized cellular expression of WT1 in whole kidney organ cultures to the induced metanephric mesenchyme and developing podocytes. Organ cultures were further characterized immunocytochemically with antibodies that specifically labeled the different tubular epithelial components and supporting mesenchyme of the developing nephrons. In organ cultures, the WT1 expression pattern could be visualized in induced metanephric mesenchyme and entire cell cohorts of differentiating podocytes. Expression of WT1 and cell specific markers were retained in short-term monolayer cultures of dissociated kidneys. The development of the metanephric kidneyin vitro involves a highly restricted temporal and spatial cellular expression pattern of WT1 which closely follows that observed in tissue sections from gestational kidney isolated during organogenesis in the mouse.