Leaf anatomy and systematics of Homeriinae (Iridaceae)

Leaf anatomy is described in a range of species of the Old World subtribe Homeriinae, including species from all of the eight genera: Barnardiella, Galaxia, Gynandriris, Hexaglottis, Homeria, Moraea, Rheome and Roggeveldia. Homeriinae have bifacial leaves, otherwise unusual among Iridaceae, and an apomorphy for this group. Leaf anatomy also shows some unusual features, notably an 'extra' row of (inverted) vascular bundles in some specieS. A cladistic analysis using a broad range of data demonstrates that Moraea, the largest genus of the subtribe, is paraphyletic. The smaller genera are consistently clustered within Moraea. Subgenus Moraea is heterogeneous and requires redefinition. Although there are insufficient existing data for satisfactory resolution of the relationships of Homeriinae, information from leaf anatomy provides some useful indicators.     

Morphological and phenological differences in Nothofagus pumilio from contrasting elevations: Evidence from a common garden

Abstract We tested the hypothesis that contrasting elevations select distinct growth patterns and vegetative phenology in Nothofagus pumilio, a winter deciduous tree that dominates mountain forests of Patagonia. Analysis of saplings maintained under common‐garden conditions for 4 years showed a significant decrease in shoot annual growth, leaf size, and a delay in bud‐break, and leaf expansion with increased elevation of their site of origin. Rapid gain in height seems to be advantageous at low elevation in such light‐demanding species. Lower stature high‐elevation plants have wider branching angles and greater branching ratios (number of branches/number of internodes) than low‐elevation plants. Compact growth at high elevation may be related to strong winds and irradiance. Plants from different elevations had distinct growth patterns during the common‐garden experiment. This could be of importance in Mediterranean‐climate areas characterized by highly unpredictable precipitation regimes. Also, liberation of growth‐suppressed seedlings may follow different environmental signals in low‐ and high‐habitats, which might explain such time‐dependent responses to optimal conditions under cultivation. While these greenhouse‐grown N. pumilio saplings showed heritable differences in plant architectural traits and leafing phenology, it was not clear how the genotypes characteristic of particular elevations would respond to longer growing seasons such as those predicted under global warming.     

Use of Tetrahymena pyriformis to Evaluate the Effects of Purine and Pyrimidine Analogs1

SYNOPSIS Eighty-four purine and pyrimidine analogs were evaluated for growth inhibition of Tetrahymena pyriformis. The most toxic were 2-fluoroadenine, 2-fluoroadenosine, 6-methylpurine, a series of 5-fluoropyrimidines, and a series of adenine derivatives substituted in the 9-position. 2-Fluoroadenine was metabolized to the ribonucleoside triphosphate and was incorporated into nucleic acids; its inhibition of growth was reversed by high levels of adenine. 6-Methylthiopurine ribonucleoside was phosphorylated, but only to the monophosphate derivative. Contrasting T. pyriformis with mammalian cells gave clues to the mechanism of action of some of the agents. 6-Mercaptopurine, 6-methylthiopurine ribonucleoside, and 6-thioguanine, all potent pseudofeedback inhibitors of de novo purine biosynthesis in mammalian cells, are not toxic to T. pyriformis, which lacks the de novo purine pathway; this implies that inhibition of de novo purine biosynthesis by them underlies their growth inhibition of mammalian cells.     

Antiviral Activity produced by the Polycytidylic Acid-Hexainosinate System

Experiments with poly C oligo I indicate that both components are necessary for interferon induction and that the secondary structure of the polymer is not critical.     

Genetic and morphological differentiation of the mangrove crab Perisesarma guttatum (Brachyura: Sesarmidae) along an East African latitudinal gradient

The genetic structure and morphometric differentiation of mangrove crab Perisesarma guttatum populations were examined among shelf connected locations along a latitudinal gradient on the East African coast. Over 2200 specimens were sampled from 23 mangrove sites for geometric morphometrics analysis. Population genetic analyses of mitochondrial cytochrome c oxidase subunit I (COI) DNA sequences were used to evaluate connectivity among populations. A total of 73 haplotypes were detected, and almost no haplotypes were found in common between two highly supported phylogeographic clades: southern Mozambique (Inhaca Island and Maputo Bay) and a northern clade that included north Mozambique, Tanzania and Kenya. These two clades were identified based on the species' populations pairwise genetic differentiation and geographical location. Φ_ST values were considerably high between the two clades, indicating the presence of significant population genetic structure between Kenya and South Mozambique. However, each clade was composed of genetically similar populations along the latitudinal gradient, and no significant population structure was found within each clade because the Φ_st values were not significant. The morphometric analysis corroborated the division into two clades (i.e. Inhaca Island/Maputo Bay and northern populations) and also detected less shape variation among populations that were few kilometres apart. The significant spatial genetic structuring between the southern and the northern populations of P. guttatum along the geographic gradient under study, combined with morphological differences, suggests that these populations may be considered as cryptic species. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 99 , 28–46.     

Genetic variation relevant for the conservation of the narrow endemic Senecio carbonensis (Asteraceae) from the southern Andes

We studied morphological variation, reproductive biology and genetic structure of Senecio carbonensis, a narrow endemic from high elevations of the southern Andes, and compared it to Senecio peteroanus, a closely related widespread congeneric species. Using ANOVAs and discriminant analysis we showed that populations of S. carbonensis were more similar to each other in their morphology, had comparatively limited reproductive capacity and presented lower plant density and more reduced plant cover than populations of S. peteroanus. Similar high genetic variation was found at the population and species level in both species, based on isozyme variation at 14 and 11 putative gene loci that were resolved in S. carbonensis and S. peteroanus, respectively. The two species were genetically distinct. However, the small genetic distance between populations of each species suggests that either they were recently founded and that genetic drift did not have time to promote divergence, or that its effects are masked by significant current gene flow. These results show that ecological and reproductive characteristics of S. carbonensis may limit its extension and abundance. In contrast, high genetic variation at the population level is probably favored by self‐incompatibility. Despite the restricted geographical distribution and low plant density of S. carbonensis populations, genetic characteristics do not seem to be limiting their long‐term persistence. This information suggests that populations of S. carbonensis are not at risk of extinction as a result of genetic factors, although it is important to study and monitor population dynamics to further assess the degree of recruitment through time.     

Reduced salinities compromise the thermal tolerance of hypersaline specialist diving beetles

Inland saline waters are globally threatened habitats that harbour unique assemblages of specialist invertebrates. In many Mediterranean regions, irrigation associated with intensive agriculture is lowering the salinity of these habitats, resulting in the loss of their specialist biota, although the mechanisms by which reductions in salinity lead to species loss are poorly understood. In the present study, the effects of reduced salinity on the temperature tolerance and thermal acclimatory abilities of two related species of hypersaline water beetles, Nebrioporus baeticus (Schaum) and Nebrioporus ceresyi (Aubé), are explored. Both upper (UTL) and lower thermal limits (LTL) are assessed, and both salinity and temperature are found to influence the thermal biology of Nebrioporus. Mean UTLs are greater in individuals of both species acclimated at high salinities, with salinity appearing to be more important than acclimation temperature in determining UTL. In both taxa, the lowest mean LTLs are recorded in individuals acclimated at the highest salinities and lowest temperatures; temperature‐dependent acclimation is only reported after exposure to relatively high salinities. The data show that salinity influences the thermal tolerance and acclimatory ability of these hypersaline beetles, and that lowered salinity compromises the ability of adult Nebrioporus to cope with both heat and cold. Such an effect may partly explain why specialist species are lost from hypersaline habitats subject to salinity reductions, and suggests that ongoing reduction in salinity may compromise the ability of such specialist taxa to cope with rapid climate change.     

Systematics of Ruscaceae/Convallariaceae: a combined morphological and molecular investigation

This paper discusses the intrafamilial systematics of Ruscaccae sensu lata by means of a combined molecular-morphological analysis. Ruscaceae sensu lata (including former Con-vallariaceae. Dracaenaceae and Nolinaccac, as well as Comospermum and Eriospermum ) represent a well-supported clade in other molecular analyses and are further linked by the absence of phytomclan in the seed coat. Within this clade there is an unusual lack of sequence divergence for such a morphologically varied group of taxa, but the combined morphological-molecular analysis indicates some groupings: (1) Eriospermum , (2) Comospermum , (3) nolinoids (former Nolinaceac) plus Ophiopogon and Liriope (Ophiopogonae, excluding Peliosanthes ), (4) dracaenoids (former Dracaenaceae), (5; Polygonatae and (6) a clade comprising Convallarieac (including Aspidistra ) and the ruscoids (Ruscaccae sensu stricto ) plus Peliosanthes. In the morphological analysis Peliosanthes is embedded in Convallarieae, and in the molecular analysis it is sister to all other Ruscaceae except Eriospermum: in neither case does it fall with Ophiopogon and Liriope (Ophiopogonae), with which it was traditionally placed. Peliosanthes has several characters in common with some Convallarieae, e.g. filaments fused into a column surrounding the gynoecium, and a thick, fleshy corona with the stigma more or less filling the narrow floral opening. On the other hand, there arc also some notable differences, such as in karyotype, leaf anatomy, pollen morphology and nectaries. Since there is a considerable range of morphological variation in the taxon currently designated as Peliosanthes. more taxonomic work is needed to establish the monophyly of this genus before there can be confidence in its relationships within Ruscaccae sensu lata.     

Alternate Junctions and Microheterogeneity of Tlr1, a Developmentally Regulated DNA Rearrangement in Tetrahymena thermophila

ABSTRACT. A large number of developmentally regulated DNA rearrangements occur during the development of the macronucleus in Tetrahymena thermophila , Tlr1 is a deletion element which has large inverted repeats near the rearrangement junctions and deletes more than 13 kbp of internal DNA. Previous analysis of caryonidal lines revealed alternate left junctions for the Tlr1 rearrangement in B strain cells. We show here that C2 strain Tetrahymena also use alternate rearrangement junctions. We have mapped and sequenced two additional rearrangement variants and find that both the left and right can vary over a range of approximately 200 bp. We also demonstrate the presence of sequence microheterogeneity in the most commonly found Tlr1 rearrangement product.