Efficient distinction of invasive aquatic plant species from non-invasive related species using DNA barcoding.

Biological invasions are regarded as threats to global biodiversity. Among invasive aliens, a number of plant species belonging to the genera Myriophyllum, Ludwigia and Cabomba, and to the Hydrocharitaceae family pose a particular ecological threat to water bodies. Therefore, one would try to prevent them from entering a country. However, many related species are commercially traded, and distinguishing invasive from non-invasive species based on morphology alone is often difficult for plants in a vegetative stage. In this regard, DNA barcoding could become a good alternative. In this study, 242 samples belonging to 26 species from 10 genera of aquatic plants were assessed using the chloroplast loci trnH-psbA, matK and rbcL. Despite testing a large number of primer sets and several PCR protocols, the matK locus could not be amplified or sequenced reliably and therefore was left out of the analysis. Using the other two loci, eight invasive species could be distinguished from their respective related species, a ninth one failed to produce sequences of sufficient quality. Based on the criteria of universal application, high sequence divergence and level of species discrimination, the trnH-psbA noncoding spacer was the best performing barcode in the aquatic plant species studied. Thus, DNA barcoding may be helpful with enforcing a ban on trade of such invasive species, such as is already in place in the Netherlands. This will become even more so once DNA barcoding would be turned into machinery routinely operable by a nonspecialist in botany and molecular genetics.

Genomic cloning and linkage mapping of the Mal d 1 (PR-10) gene family in apple (Malus domestica).

Fresh apples can cause birch pollen-related food allergy in northern and central European populations, primarily because of the presence of Mal d 1, the major apple allergen that is cross-reactive to the homologous and sensitizing allergen Bet v 1 from birch. Apple cultivars differ significantly in their allergenicity. Knowledge of the genetic basis of these differences would direct breeding for hypoallergenic cultivars. The PCR genomic cloning and sequencing were performed on two cultivars, Prima and Fiesta, which resulted in 37 different Mal d 1 gDNA sequences. Based on the mapping of sequence-specific molecular markers, these sequences appeared to represent 18 Mal d 1 genes. Sixteen genes were located in two clusters, one cluster with seven genes on linkage group (LG) 13, and the other cluster with nine genes on the homoeologous LG 16. One gene was mapped on LG 6, and one remained unmapped. According to sequence identity, these 18 genes could be subdivided into four subfamilies. Subfamilies I-III had an intron of different size that was subfamily and gene-specific. Subfamily IV consisted of 11 intronless genes. The deduced amino acid sequence identity varied from 65% to 81% among subfamilies, from 82% to 100% among genes within a subfamily, and from 97.5% to 100% among alleles of one gene. This study provides a better understanding of the genetics of Mal d 1 and the basis for further research on the occurrence of allelic diversity among cultivars in relation to allergenicity and their biological functions.

Mapping of microsatellite loci and association of aorta atherosclerosis with LG VI markers in the rabbit.

Twenty-three rabbit microsatellites were extracted from the EMBL nucleotide database. Nine of these markers, together with nine earlier published microsatellite markers, were found to be polymorphic between the AX/JU and IIIVO/JU inbred strains. By using an F(2) intercross we could integrate five markers into the rabbit linkage map. One anonymous microsatellite marker could be assigned to chromosome 1, and one microsatellite marker, located within the metallothionein-1 gene, could be added to linkage group VI (LG VI). Three microsatellite markers (one anonymous, one located within the PMP2 gene, and one located within the FABP6 gene) constitute a new linkage group (LG XI). We also measured the degree of dietary cholesterol-induced aorta atherosclerosis in the F(2) animals. A significant cosegregation was found between the degree of aorta atherosclerosis and the allelic variation of the biochemical marker Est-2 on LG VI in male rabbits. This association was not found in female rabbits.