A protein antigen of Mycobacterium leprae is related to a family of small heat shock proteins.

The gene encoding an immunologically important 18-kilodalton protein antigen of Mycobacterium leprae has been sequenced, and the amino acid sequence of the antigen has been deduced. The 18-kilodalton antigen is strikingly similar in size and sequence to a family of eucaryotic heat shock proteins.     

Chalcone isomerase family and fold: no longer unique to plants

Chalcone isomerase, an enzyme in the isoflavonoid pathway in plants, catalyzes the cyclization of chalcone into (2S)-naringenin. Chalcone isomerase sequence family and three-dimensional fold appeared to be unique to plants and has been proposed as a plant-specific gene marker. Using sensitive methods of sequence comparison and fold recognition, we have identified genes homologous to chalcone isomerase in all completely sequenced fungi, in slime molds, and in many gammaproteobacteria. The residues directly involved in the enzyme's catalytic function are among the best conserved across species, indicating that the newly discovered homologs are enzymatically active. At the same time, fungal and bacterial species that have chalcone isomerase-like genes tend to lack the orthologs of the upstream enzyme chalcone synthase, suggesting a novel variation of the pathway in these species.     

Molecular phylogeny and systematics of flowering plants of the family Crassulaceae DC

Crassulaceae (orpine or stonecrop family) is the most species-rich (ca. 1400 spp) family in the order Saxifragales. Most members of the family are succulent plants. Phenotypic diversity and large number of species complicates systematics of the family and obscures reconstruction of relationship within it. Phylogenetic analyzes based on morphological and molecular markers placed Crassulaceae as one of the crown clades of Saxifragales. In this contribution a review of phylogenetic studies on the family Crassulaceae, based on DNA nucleotide sequence comparisons is presented; major clades established in the family are characterised; their structure and polyphylesis of some genera are discussed. It is shown that the traditional taxonomic structure of Crassulaceae contradicts pattern of phylogenetic relationships between its members. We critically analyzed recent taxonomic systems of the family and stress that homoplasy of morphological characters does not allow to use them to reconstruct relationships between crassulacean taxa even at the low taxonomic levels.     

A membrane-associated metalloprotease of Taenia solium metacestode structurally related to the FACE-1/Ste24p protease family

The CaaX proteases are intimately involved in the post-translational modification of prenylated proteins and play a critical role in the activation/stabilization of membrane-bound or secreted molecules constituting the CAAX protein family. In this study, we have isolated a full-length cDNA putatively encoding a type I CaaX protease of the Taenia solium metacestode (TsM), which an agent causative of human neurocysticercosis. The cDNA, designated TsSte24p, comprised 1,505 bp and coded for an open reading frame of 472 amino acids with predicted Mr 54.5 kDa. This monoexonic TsSte24p gene existed as a single copy within the TsM genome and constantly expressed in the parasite from metacestode to adult stages. The TsSte24p exhibited the typical CaaX protease topology, including seven transmembrane domains and a metalloprotease segment with a zinc-binding motif. It shared a significant degree of sequence identity with the type I CaaX proteases such as Saccharomyces cerevisiae Ste24p and Caenorhabditis elegans CeFACE-1. A comparative phylogenetic analysis demonstrated that this protein family is tightly conserved across taxa, from bacteria to mammals. The bacterially expressed recombinant TsSte24p showed proteolytic activity, with an optimal pH of 7.5. The enzyme activity was significantly inhibited by EDTA. Its activity was increased in the presence of low concentrations of the Zn2+(0.001-0.01 mM); but was reversibly down-regulated at high doses (over 0.1 mM). The native TsSte24p appeared to function as a homodimer, the subunits of which were linked to each other via covalent disulfide bond. The protein was localized in the bladder wall and scolex with differential patterns of distribution. Our results indicated that TsSte24p is a zinc-dependent metalloprotease, which belongs to the FACE-1/Ste24p protease family.     

A new class of membrane-associated calcium-binding proteins

Calcium ions act as modulators of many fundamental processes in eukaryotic cells. Although these processes apparently involve initial interactions between calcium ions and cell membranes, the identity of the putative membrane Ca²⁺-binding proteins has until recently been obscure. This article describes a recently discovered family of mammalian membrane proteins, of perhaps ancient origin, that may fulfil this function.     

Pherophorins: a family of extracellular matrix glycoproteins fromVolvox structurally related to the sex-inducing pheromone

Pherophorins are extracellular matrix (ECM) glycoproteins from Volvox that share homology with the sex-inducing pheromone. A novel pherophorin (pherophorin III) was characterized both with respect to expression pattern and proteolytic processing in vivo. Furthermore, it was shown that the pherophorins represent a protein family of ECM glycoproteins exhibiting a modular composition: their N-terminally located domain is a homolog of a domain found in the ECM glycoprotein SSG 185. Together with SSG 185, pherophorin I is a main component of the cellular zone within the ECM. The Volvox genome contains a tandem arrangement of genes encoding pherophorin II-related polypeptides. Inhibition of proteolytic processing of pherophorin II and III in vivo appears to result in the suppression of sexual induction.Abbreviations ECM extracellular matrix - PCR polymerase chain reaction - RACE rapid amplification of cDNA endsWe wish to thank Dr. R. Deutzmann (Universität Regensburg, Germany) for sequencing peptides. This work was supported by the Deutsche Forschungsgemeinschaft (SFB43).     

A plasma membrane-associated hyaluronidase is localized to the posterior acrosomal region of stallion sperm and is associated with spermatozoal function.

Sperm hyaluronidase has been implicated in sperm penetration of the extracellular matrix of the cumulus oophorus and may play a crucial role in gamete interaction and fertility in mammals. The objectives of this study were to characterize the enzyme activity of equine sperm hyaluronidase and to investigate its cellular distribution. Zymography of stallion sperm plasma membrane extracts was used to identify hyaluronidase activity in protein bands. Affinity-purified polyclonal IgG raised against equine sperm hyaluronidase was used to label fresh and capacitated stallion sperm, followed by indirect immunofluorescence. Equine sperm plasma membrane extracts displayed 3 major protein bands with potent hyaluronidase activity of approximately 54, 59, and 83 kDa. Under reducing conditions, a single protein band was observed at 62 kDa, although the reduced sample exhibited no enzyme activity. The polyclonal IgG labeled the postacrosomal region of stallion sperm and was redistributed over the acrosomal region during in vitro capacitation in a significant percentage of sperm cells. These studies suggest that a specific protein localized to the equine sperm head displays hyaluronidase activity, gets redistributed over the acrosomal region during capacitation, and may be important in fertility in this species.     

Proteins homologous to leaf glycoproteins are abundant in stems of dark-grown soybean seedlings. Analysis of proteins and cDNAs

We report here the cloning and sequence analysis of cDNAs for a pair of closely related proteins from soybean (Glycine max [L.] Merr. cv. Williams 82) stems. Both proteins are abundant in soluble extracts of seedling stems but not of roots. One of these proteins (M_r=28 kDa) is also foundd in the cell wall fraction of stems and actumulates there when seedlings are exposed to mild water deficit for 48 h. The mRNA for these proteins is most abundant in the stem region which contains dividing cells, less abundant in elongating and mature stem cells, and rare in roots. Using antiserum against the 28 kDa protein, we isolated cDNA clones encoding it and an antigenically related 31 kDa protein. The two cDNAs are 80% homologous in nucleotide and amino acid coding sequence. The predicted proteins have similar hydropathy profiles, and contain putative NH₂-terminal signal sequences and a single putative N-linked glycosylation site. The two proteins differ significantly in calculated pI (28 kDa=8.6; 31 kDa=5.8), and the charge difference is demonstrated on two-dimensional gels. The proteins described here may function as somatic storage proteins during early seedling development, and are closely related to glycoproteins which accumulate in vacuoles of paraveinal mesophyll cells of fully expanded soybean leaves when plants are depodded.     

Spanish population of Gremmeniella abietina is genetically unique but related to type A in Europe

Genetic structure of the European Gremmeniella abietina var. abietina was analyzed in this study. Ninety-two Spanish isolates, six Swiss isolates of Alpine biotype, 76 Finnish isolates of biotype A and 54 Finnish and seven Russian isolates of biotype B were collected. Genetic variation of different populations was analyzed using sequence analysis of specifically amplified markers GAAA1000, GAAA800 and ACA900. Variation in the GAAA1000 marker was significant, and composed of 33 alleles divided into the following four studied populations: five alleles in the Alpine type, 12 in biotype B, 16 in biotype A and two in the Spanish population. Based on variation in GAAA1000 marker, a subset of isolates were further analyzed using GAAA800 and ACA900 sequences, which showed lower overall genetic variability, and no variation among the Spanish population. Genetic differentiation analysis revealed a high genetic differentiation among populations. Finally, clustering analysis of GAAA1000 sequences showed that the Spanish isolates clearly separated from the rest of the biotypes, whereas the Alpine type was closely related to the B type. However, one of the A-type isolates had an identical GAAA1000 allele with the prevailing allele among Spanish isolates. Altogether, our data suggest that the Spanish population is genetically highly differentiated from any other G. abietina population in Europe with a probable A-type origin.     

Immunologically unique and common domains within a family of proteins related to the retina Ca2+-dependent cell adhesion molecule, NcalCAM

Rabbit polyclonal antibodies raised to gp90, a fragment of the embryonic chick neural retina Ca2+-dependent adhesive molecule, gp130, recognize gp130 and inhibit Ca2+-dependent cell-cell adhesion. When tested against a panel of 10-day embryonic tissues, one of these antisera recognizes a component with a molecular weight identical to that of gp130 in embryonic chick cerebrum, optic lobe, hind brain, spinal cord and neural retina only; the second antiserum recognizes a similar component in all of the embryonic chick tissues tested. These data imply the existence of an extended family of closely related cell surface components with immunologically distinct subgroups each of which may mediate Ca2+-dependent cell-cell adhesion. As the term CAM, or cell adhesion molecule, has become common usage we propose to refer to these molecules as calCAMs, reflecting their calcium dependence. Analysis of fragments and endoglycosidase digests of NcalCAM have allowed a comparison of its structure with similar molecules from different tissues and species that have been implicated in Ca2+-dependent cell-cell adhesion.