Big flies, small repeats: the "Thr-Gly" region of the period gene in Diptera

The region of the clock gene period (per) that encodes a repetitive tract of threonine-glycine (Thr-Gly) pairs has been compared between Dipteran species both within and outside the Drosophilidae. All the non- Drosophilidae sequences in this region are short and present a remarkably stable picture compared to the Drosophilidae, in which the region is much larger and extremely variable, both in size and composition. The accelerated evolution in the repetitive region of the Drosophilidae appears to be mainly due to an expansion of two ancestral repeats, one encoding a Thr-Gly dipeptide and the other a pentapeptide rich in serine, glycine, and asparagine or threonine. In some drosophilids the expansion involves a duplication of the pentapeptide sequence, but in Drosophila pseudoobscura both the dipeptide and the pentapeptide repeats are present in larger numbers. In the nondrosophilids, however, the pentapeptide sequence is represented by one copy and the dipeptide by two copies. These observations fulfill some of the predictions of recent theoretical models that have simulated the evolution of repetitive sequences.      

Linking intronic polymorphism on the CHD1‐Z gene with fitness correlates in Black‐tailed Godwits Limosa l. limosa

We show that variation in an intronic length polymorphism in the CHD1‐Z gene in Black‐tailed Godwits Limosa l. limosa is associated with fitness correlates. This is the second example of the CHDZ‐1 gene being correlated with fitness, a previous study having established that Moorhens Gallinula chloropus carrying the rare Z* allele have reduced survival. In Godwits, however, carriers of the Z* allele (374 bp) fared better than those with the more frequent Z allele (378 bp) with respect to body mass, plumage ornamentation, reproductive parameters and habitat quality. The Z* allele was found in 14% of 251 adult birds from nature reserves, but was absent from 33 birds breeding in intensively managed agricultural lands. Males and females with the Z* allele had less extensive breeding plumage, and females had a higher body mass, bred earlier and had larger eggs. There were no significant differences in annual survival between birds with and without the Z* allele. DNA isolated from museum skins demonstrated that this polymorphism was present at low frequency in 1929. We speculate that strong asymmetrical overdominance may explain the low frequency of the Z* allele and that genetic linkage to causal genes might be an explanation for the phenotypic correlations. Our findings suggest a degree of cryptic genetic population structuring in the Dutch Godwit population.     

Parthenogenesis in Mites and Ticks (Arachnida: Acari)

SYNOPSIS. Parthenogenesis is discussed according to type (arrhenotoky,thelytoky, deuteroLoky, artificial parthenogenesis, gynogenesis)and presence in various acarine taxa. Evidence for parthenogenesisis based on rearing and/or cytological studies. Arrhenotokyoccurs in Mesostigmata, Prostigmata and Astigmata and usuallydoes not occur sporadically throughout these taxa; when presentit operates in many closely related species as the major typeof reproduction in certain genera, subfamilies or families.Thelytoky is present in Mesostigmata, Metastigmata, Prostigmata,Astigmata and Cryptostigmata, but in no case is the major modeof reproduction in higher taxa, i.e. subfamilies, families.Its sporadic occurrence may or may not be accompanied by polyploidy.Deuterotoky occurs in one acarine group (Listrophoridae) andartificial parthenogenesis is possible in ticks (Metastigmata).Gynogenesis is present in several species of haplo-diploid Mesostigmata(some Dermanyssidae, Phytoseiidae), although it is usually consideredin connection with thelytoky. Current studies of the effectsof ploidy level on morphological variation indicate greatercharacter variability in diploid females than in haploid males.In some species of ticks thelytoky is expressed differentiallyeven on an intraspecific level. One geographic strain of a speciesmay have the ability to reproduce thelytokously, but if matedproduces males and females.     

Performance of a new dynamic model for predicting diurnal time courses of stomatal conductance at the leaf level

Under natural conditions, plants are subjected to continuous changes of irradiance that drive variations of stomatal conductance to water vapour (g_s). We propose a dynamic model to predict the temporal response of g_s at the leaf level using an asymmetric sigmoid function with a unique parameter describing time constants for increasing and decreasing g_s. The model parameters were adjusted to observed data using Approximate Bayesian Computation. We tested the model performance for (1) instant changes of irradiance; or (2) continuous and controlled variations of irradiance simulating diurnal time courses. Compared with the two mostly used steady‐state models, our dynamic model described daily time courses of g_s with a higher accuracy. In particular, it was able to describe the hysteresis of g_s responses to increasing/decreasing irradiance and the resulting rapid variations of intrinsic water‐use efficiency. Compared to the mechanistic model of temporal responses of g_s by Kirschbaum, Gross & Pearcy, for which time constants were estimated with a large variance, our model estimated time constants with a higher precision. It is expected to improve predictions of water loss and water‐use efficiency in higher scale models by using a small number of parameters.     

Gel‐free species identification using melt‐curve analysis

DNA‐based identification of organisms is an important tool in biosecurity, ecological monitoring and wildlife forensics. Current methods usually involve post‐polymerase chain reaction (PCR) manipulations (e.g. restriction digest, gel electrophoresis), which add to the expense and time required for processing samples, and may introduce error. We developed a method of species identification that uses species‐specific primers and melt‐curve analysis, and avoids post‐PCR manipulation of samples. The method was highly accurate when trialled on DNA from six large carnivore species from Tasmania, Australia. Because of its flexibility and cost‐effectiveness, this method should find wide use in many areas of applied biological science.