Claire Whitton

Defining operational taxonomic units using DNA barcode data

Abstract The scale of diversity of life on this planet is a significant challenge for any scientific programme hoping to produce a complete catalogue, whatever means is used. For DNA barcoding studies, this difficulty is compounded by the realization that any chosen barcode sequence is not the gene ‘for’ speciation and that taxa have evolutionary histories. How are we to disentangle the confounding effects of reticulate population genetic processes? Using the DNA barcode data from meiofaunal surveys, here we discuss the benefits of treating the taxa defined by barcodes without reference to their correspondence to ‘species’, and suggest that using this non-idealist approach facilitates access to taxon groups that are not accessible to other methods of enumeration and classification. Major issues remain, in particular the methodologies for taxon discrimination in DNA barcode data.

The Brugia malayi genome project: expressed sequence tags and gene discovery

To advance and facilitate molecular studies of Brugia malayi, one of the causative agents of human lymphatic filariasis, an expressed sequence tag (EST)-based gene discovery programme has been carried out. Over 22,000 ESTs have been produced and deposited in the public databases by a consortium of laboratories from endemic and non-endemic countries. The ESTs have been analysed using custom informatic tools to reveal patterns of individual gene expression that may point to potential targets for future research on anti-filarial drugs and vaccines. Many genes first discovered as ESTs are now being analysed by researchers for immunodiagnostic, vaccine and drug target potential. Building on the success of the B. malayi EST programme, significant EST datasets are being generated for a number of other major parasites of humans and domesticated animals, and model parasitic species.

Markers close to the dopamine D5 receptor gene (DRD5) show significant association with schizophrenia but not bipolar disorder

Following the description of linkage of markers at chromosome 4p16 to bipolar disorder in several families [Blackwood et al., 1996], and the association of the alleles of a polymorphism closely linked to D5 dopamine receptor gene with schizophrenia [Williams et al., 1997], we have looked for linkage disequilibrium between a series of microsatellite markers from this region and major psychoses including schizophrenia, bipolar disorder, and unipolar major depressive disorder. A significant increase in the frequency of the 148 bp allele of DRD5 (P = 0.024) and the 244 bp allele of D4S615 (P = 0.001) was found in patients with schizophrenia (n = 158 DRD5; n = 133 D4S615), compared with patients with bipolar disorder (n = 270 DRD5; n = 107 D4S615), or controls without psychiatric illness (n = 437 DRD5; n = 309 D4S615). The frequency of the 148 bp allele of DRD5 was also increased in schizophrenia over unipolar major depressive disorder (n = 65). D4S615 was not typed in unipolar disorder. The estimated odds ratios confirmed that the 148 bp allele of DRD5 and the 244 bp allele of D4S615 conferred increased risk of schizophrenia. Estimated Haplotype (EH) analysis of 174 controls and 128 patients with schizophrenia who were typed for both markers confirmed the strong associations with these alleles but did not show evidence that the markers were in linkage disequilibrium with each other even though they lie approximately 150 kb apart. The data are consistent with an association between markers close to the D5 dopamine receptor and schizophrenia, but not bipolar disorder or unipolar major depression.

200 000 nematode expressed sequence tags on the Net

Nematode genomics work in BaNG is supported by the Medical Research Council and the Wellcome Trust. The authors thank their collaborators at the Sanger Centre (Bart Barrell, Neil Hall, Mike Quail and Barbara Harris) and at GSC (Jim McCarter), and their research colleagues who have supplied nematode materials and libraries (Alan Scott, Rick Maizels, David Knox, David Pritchard, Richard Grencis, Doug Jasmer, Bernadette Connolly and Tim Geary).

Expressed sequence tag survey of gene expression in the scab mite Psoroptes ovis: allergens, proteases and free-radical scavengers

Psoroptes ovis, the causative agent of sheep scab, is an important ectoparasitic mite infecting sheep, goats and cattle. Infection is characterized by an extensive dermatitis, scab formation and intense itching. Initial focal lesions spread outwards, coalesce and may extend over the whole body. The host response to infestation has all the characteristics of an immediate-type hypersensitivity reaction but the mite antigens and allergens which initiate this response are almost completely undefined. Here, 507 randomly selected cDNAs derived from a mixed population of P. ovis were sequenced and the resultant nucleotide sequences subjected to Cluster analysis and Blast searches. This analysis yielded 280 clusters of which 49 had > 1 sequence with 24 showing significant Blast X homology to another protein in the databases. There were 231 sequences which appeared on one occasion and 109 of these showed significant Blast X homology to other sequences in the databases. This analysis identified homologues of 9 different types of allergens which have been characterized in other allergic conditions such as responses to house dust mites. It also identified a number of cysteine proteases which may contribute to lesion development as well as several free-radical scavenging enzymes which may protect the mite from host immune effector responses.

Expressed sequence tags: medium-throughput protocols

Generating expressed sequence tags is a simple, cheap, and efficient way to sample the genome of a target organism. An expressed sequence tag (EST) is a single-pass sequence derived from a single complementary DNA (cDNA) clone, and the sequence serves to identify the gene from which it derives. We present a set of tested laboratory protocols for setting up and performing an EST analysis of any chosen species. These medium-throughput protocols do not require dedicated genomics equipment, such as robots, and focus on the use of microtiter plates and multichannels. Using these protocols, a single competent research worker should be able to generate 2000 ESTs in 1 mo. In a nonnormalized library, these 2000 ESTs should identify between 1000 and 1500 different genes, and thus possibly between 10 and 20% of the genes of any target parasite.

The bacterial catalase from filarial DNA preparations derives from common pseudomonad contaminants and not from Wolbachia endosymbionts

Wolbachia are obligatory endosymbionts in many species of filarial nematodes. Certain bacterial molecules induce antibody responses in mammalian hosts infected with filariae, while others activate inflammatory responses that contribute to pathology. These findings, coupled with antibiotic studies demonstrating the dependence of filarial embryogenesis on the presence of Wolbachia, have intensified research on Wolbachia–nematode interactions, and the effects of Wolbachia molecules on the mammalian immune system. By amplification and sequencing of 16S rDNA and catalase sequences, we show that filarial DNA samples prepared from nematodes collected under typical conditions are frequently contaminated with Pseudomonas DNA. Analysis of a published DNA fragment containing a catalase attributed to the Wolbachia of Onchocerca volvulus showed it to be most like Pseudomonas, both in terms of sequence similarity and genomic organization. Additionally, there was no obvious catalase in either of two available Wolbachia genome sequences. Contamination of filarial DNA with bacterial sequences other than Wolbachia can complicate studies of the role of these symbionts in filarial biology.