Litter parameters and spontaneous abnormalities in Himalayan rabbits

A joint study was undertaken in three testing facilities to evaluate cumulative background data of Himalayan rabbits. All litters were derived from control does. The conception rate was high (84.0-95.1%) but the average numbers of corpora lutea (7.9-8.7), implantation sites (6.5-7.5) and viable fetuses (5.8-6.9) were somewhat lower than that of most other strains of rabbit. Altogether 90 malformed fetuses (1.12%) and 425 fetuses with variations (5.27%) occurred among 8,060 virable fetuses.     

Identification of two types of keratin polypeptides within the acidic cytokeratin subfamily I

Cytoskeletal filaments of the α-keratin type (cytokeratins) are a characteristic of epithelial cells. In diverse mammals (man, cow and rodents) these cytokeratins consist of a family of approximately 20 polypeptides, which may be divided into the more acidic (I) and the more basic (II) subfamilies. These two subfamilies show only limited amino acid sequence homology. In contrast, nucleic acid hybridization experiments and peptide maps have been interpreted to show that polypeptides of the same subfamily share extended sequence homology.We compare two polypeptides of the acidic cytokeratin subfamily, VIb (M_r 54,000) and VII (M_r 50,000), which are co-expressed in large amounts in bovine epidermal keratinocytes. These two epidermal keratins can be distinguished by specific antibodies and show different patterns of expression among several bovine tissues and cultured cells. In addition, they differ in the stability of their complexes with basic keratin polypeptides and in their tryptic peptide maps. The amino acid sequences deduced from the nucleotide sequences of complementary DNA clones containing the 3′ ends of the messenger RNAs for these keratins are compared with each other and with available amino acid sequences of human, murine and amphibian epidermal keratins. Bovine keratins VIb and VII share considerable sequence homology in the α-helical portion (68% residues identical) but lack significant homology in the extrahelical portion. Bovine keratin VIb shows, in its α-helical region, a pronounced sequence homology (88% identity) to the murine epidermal keratin of M_r 59,000. In addition, the non-helical carboxy-terminal regions of both proteins are glycinerich and contain a canonic sequence GGG^S_GYGG, which may be repeated several times. Moreover, their mRNAs present a highly conserved stretch of 236 nucleotides containing, in the murine sequence, the end of the coding and all of the non-coding region (81% identical nucleotides). Bovine keratin VII is considerably different from the murine M_r 59,000 keratin but is almost identical to the human cytokeratin number 14 of M_r 50,000, both in the α-helical and in the non-α-helical regions of the proteins, and the mRNAs of the human and the bovine keratins also display a high homology in their 3′ non-coding ends.The results show that in the same species keratins of the same subfamily can differ considerably, whereas equivalent keratin polypeptides of different species are readily identified by characteristic sequence homologies in the α-helical and the non-helical regions as well as in the 3′ non-coding portions of their mRNAs. Among the members of the acidic subfamily I of cytokeratin polypeptides that are co-expressed in bovine epidermis, at least two types can be distinguished by their carboxy-terminal sequences. One type is characterized by its abundance of glycine residues, a consensus GGG^S_GYGG heptapeptide sequence, which may be repeated several times, and an extended stretch of high RNA sequence homology in the 3′ non-coding part. The other type shows a predominance of serine and valine residues, a subterminal GGG^S_GYGG sequence (which has been maintained in Xenopus, cow and man) and also a high level of homology in the 3′ non-coding part of the mRNA. The data indicate that individual keratin type specificity overrides species diversity, both at the protein and the mRNA level. We discuss the evolutionary conservation and the tissue distribution of these two types of acidic keratin polypeptides as well as their possible biological functions.     

Direct binding of peptide to empty MHC class I molecules on intact cells and in vitro

MHC class I molecules devoid of peptide are expressed on the cell surface of the mouse mutant lymphoma cell line RMA-S upon culture at reduced temperature. Empty class I molecules are thermolabile at the cell surface and in detergent lysates, but can be stabilized by the addition of presentable peptide; peptide binding appears to be a rapid process. Furthermore, class I molecules on the surface of RMA-S (H-2b haplotype) cells cultured at 26 degrees C can efficiently and specifically bind iodinated peptide presented by H-2Kb. Binding of iodinated peptide is also observed at a lower level for nonmutant cells (RMA) cultured at 26 degrees C. These experiments underscore the role for peptide in maintenance of the structure of class I molecules and, more importantly, provide two assay systems to study the interactions of peptides with MHC class I molecules independent of the availability of T cells that recognize a particular peptide-MHC class I complex.     

An Integrated Map with Cosmid/PAC Contigs of a 4-Mb Down Syndrome Critical Region

The major phenotypic features of Down syndrome have been correlated with partial trisomies of chromosome 21, allowing us to define the candidate gene region to a 4-Mb segment on the 21q22.2 band. We present here a high-resolution physical map with megabase-sized cosmid/PAC contigs. This ordered clone library has provided unique material for the integration of a variety of mappable objects, including exons, cDNAs, restriction sites, etc. Furthermore, our results have exemplified a strategy for the completion of the chromosome 21 map to sequencing.     

The intrinsic electrophysiological characteristics of fly lobula plate tangential cells: I. Passive membrane properties

The passive membrane properties of the tangential cells in the fly lobula plate (CH, HS, and VS cells, Fig. 1) were determined by combining compartmental modeling and current injection experiments. As a prerequisite, we built a digital base of the cells by 3D-reconstructing individual tangential cells from cobalt-stained material including both CH cells (VCH and DCH cells), all three HS cells (HSN, HSE, and HSS cells) and most members of the VS cell family (Figs. 2, 3). In a first series of experiments, hyperpolarizing and depolarizing currents were injected to determine steady-state I-V curves (Fig. 4). At potentials more negative than resting, a linear relationship holds, whereas at potentials more positive than resting, an outward rectification is observed. Therefore, in all subsequent experiments, when a sinusoidal current of variable frequency was injected, a negative DC current was superimposed to keep the neurons in a hyperpolarized state. The resulting amplitude and phase spectra revealed an average steady-state input resistance of 4 to 5 M and a cut-off frequency between 40 and 80 Hz (Fig. 5). To determine the passive membrane parameters R _m (specific membrane resistance), R _i (specific internal resistivity), and C _m (specific membrane capacitance), the experiments were repeated in computer simulations on compartmental models of the cells (Fig. 6). Good fits between experimental and simulation data were obtained for the following values: R _m = 2.5 kcm², R _i = 60 cm, and C _m = 1.5 F/cm² for CH cells; R _m = 2.0 kcm², R _i = 40 cm, and C _m = 0.9 F/cm² for HS cells; R _m = 2.0 kcm², R _i = 40 cm, and C _m = 0.8 F/cm² for VS cells. An error analysis of the fitting procedure revealed an area of confidence in the R _m -R _i plane within which the R _m -R _i value pairs are still compatible with the experimental data given the statistical fluctuations inherent in the experiments (Figs. 7, 8). We also investigated whether there exist characteristic differences between different members of the same cell class and how much the exact placement of the electrode (within ±100 m along the axon) influences the result of the simulation (Fig. 9). The membrane parameters were further examined by injection of a hyperpolarizing current pulse (Fig. 10). The resulting compartmental models (Fig. 11) based on the passive membrane parameters determined in this way form the basis of forthcoming studies on dendritic integration and signal propagation in the fly tangential cells (Haag et al., 1997; Haag and Borst, 1997).     

Activation of a keratinocyte phospholipase A2 by bradykinin and 4 beta-phorbol 12-myristate 13-acetate. Evidence for a receptor-GTP-binding protein versus a protein-kinase-C mediated mechanism.

The release of arachidonic acid from cellular phospholipids and its subsequent conversion to eicosanoids is the common early response of skin keratinocytes to a wide variety of exogenous or endogenous agonists including irritant skin mitogens such as the phorbol ester, 4 beta-phorbol 12-myristate 13-acetate (PMA) or the inflammatory peptide bradykinin. In mouse keratinocytes labeled with [14C]arachidonic acid, both PMA and bradykinin induced the release of the fatty acid in a dose-dependent and time-dependent manner. Three lines of evidence indicate phospholipase A2 activity to be involved in arachidonic acid release: (a) its inhibition by mepacrine, (b) the concomitant generation of lysophosphatidylcholine from [3H]choline-labeled cells and (c) an increase in arachidonic acid release from 14C-labeled phosphatidylcholine in particulate fractions from PMA-treated and bradykinin-treated keratinocytes. Inhibition or down regulation of protein kinase C (PKC) led to a suppression of PMA-induced but not bradykinin-induced arachidonic acid release, indicating a critical involvement of this kinase in phorbol-ester-induced activation of epidermal phospholipase A2 activity. Bradykinin-induced activation of phospholipase A2 was however, shown to be mediated by specific B2 receptors coupled to GTP-binding proteins (G protein). In support of this mechanism it was demonstrated that the bradykinin-induced phospholipase A2 activity was increased in the presence of non-hydrolysable GTP but decreased upon addition of non-hydrolysable GDP analogues. Moreover, cholera toxin stimulated both basal and bradykinin-induced phospholipase A2 activity in a cAMP-independent manner, whereas pertussis toxin was found to be inactive in this respect. The data suggest that epidermal phospholipase A2 activity can be stimulated by bradykinin via a B2 receptor-G-protein-dependent pathway, which is independent of PKC and a PKC-dependent pathway which is activated by phorbol esters such as PMA.     

Amino acid substrate specificity of Escherichia coli phenylalanyl-tRNA synthetase altered by distinct mutations

Neither the tertiary structure nor the location of active sites are known for phenylalanyl-tRNA synthetase (PheRS; alpha 2 beta 2 structure), a member of class II aminoacyl-tRNA synthetases. In an attempt to detect the phenylalanine (Phe) binding site, two Escherichia coli PheRS mutant strains (pheS), which were resistant to p-fluorophenylalanine (p-F-Phe) were analysed genetically. The pheS mutations were found to cause Ala294 to Ser294 exchanges in the alpha subunits from both independent strains. This alteration (S294) resided in the well-conserved C-terminal part of the alpha subunit, precisely within motif 3, a typical class II tRNA synthetase sequence. We thus propose that motif 3 participates in the formation of the Phe binding site of PheRS. Mutation S294 was also the key for proposing a mechanism by which the substrate analogue p-F-Phe is excluded from the enzymatic reaction; this may be achieved by steric interactions between the para-position of the aromatic ring and the amino acid residue at position 294. The Phe binding site model was then tested by replacing the alanine at position 294 as well as the two flanking phenylalanines (positions 293 and 295) by a number of selected other amino acids. In vivo and in vitro results demonstrated that Phe293 and Phe295 are not directly involved in substrate binding, but replacements of those residues affected PheRS stability. However, exchanges at position 294 altered the binding of Phe, and certain mutants showed pronounced changes in specificity towards Phe analogues. Of particular interest was the Gly294 PheRS in which presumably an enlarged cavity for the para position of the aromatic ring allowed an increased aminoacylation of tRNA with p-F-Phe. Moreover, the larger para-chloro and para-bromo derivatives of Phe could interact with this enzyme in vitro and became highly toxic in vivo. The possible exploitation of the Gly294 mutant PheRS for the incorporation of non-proteinogenic amino acids into proteins is discussed.     

Nucleic Acid Tools for Invasive Fungal Disease Diagnosis

Current Fungal Infection Reports - This review has incorporated the knowledge and experience of the leads of each of the laboratory working parties of the fungal PCR initiative in order to provide...     

The Crown Pearl: a draft genome assembly of the European freshwater pearl mussel Margaritifera margaritifera (Linnaeus, 1758)

Since historical times, the inherent human fascination with pearls turned the freshwater pearl mussel Margaritifera margaritifera (Linnaeus, 1758) into a highly valuable cultural and economic resource. Although pearl harvesting in M. margaritifera is nowadays residual, other human threats have aggravated the species conservation status, especially in Europe. This mussel presents a myriad of rare biological features, e.g. high longevity coupled with low senescence and Doubly Uniparental Inheritance of mitochondrial DNA, for which the underlying molecular mechanisms are poorly known. Here, the first draft genome assembly of M. margaritifera was produced using a combination of Illumina Paired-end and Mate-pair approaches. The genome assembly was 2.4 Gb long, possessing 105,185 scaffolds and a scaffold N50 length of 288,726 bp. The ab initio gene prediction allowed the identification of 35,119 protein-coding genes. This genome represents an essential resource for studying this species’ unique biological and evolutionary features and ultimately will help to develop new tools to promote its conservation.