Patterns of kinesin evolution reveal a complex ancestral eukaryote with a multifunctional cytoskeleton

Background  

The genesis of the eukaryotes was a pivotal event in evolution and was accompanied by the acquisition of numerous new cellular features including compartmentalization by cytoplasmic organelles, mitosis and meiosis, and ciliary motility. Essential for the development of these features was the tubulin cytoskeleton and associated motors. It is therefore possible to map ancient cell evolution by reconstructing the evolutionary history of motor proteins. Here, we have used the kinesin motor repertoire of 45 extant eukaryotes to infer the ancestral state of this superfamily in the last common eukaryotic ancestor (LCEA).     

Reassessing Neotropical angiosperm distribution patterns based on monographic data: a geometric interpolation approach

Monographic data rely on specimens deposited in herbaria and museums, which have been thoroughly revised by experts. However, monographic data have been rarely used to map species richness at large scale, mainly because of the difficulties caused by spatially heterogeneous sampling effort. In this paper we estimate patterns of species richness and narrow endemism, based on monographic data of 4,055 Neotropical angiosperm species. We propose a geometric interpolation method to derive species ranges at a 1° grid resolution. To this we apply an inverse distance-weighted summation scheme to derive maps of species richness and endemism. In the latter we also adjust for heterogeneous sampling effort. Finally, we test the robustness of the interpolated species ranges and derived species richness by applying the same method but using a leave-one-out-cross-validation (LOOCV). The derived map shows four distinct regions of elevated species richness: (1) Central America, (2) the Northern Andes, (3) Amazonia and (4) the Brazilian Atlantic coast (‘Mata Atlantica’). The region with the highest estimated species richness is Amazonia, with Central America following closely behind. Centers of narrow endemism are located over the entire Neotropics, several of them coinciding with regions of elevated species richness. Sampling effort has a minor influence on the interpolation of overall species richness, but it substantially influences the estimation of regions of narrow endemism. Thus, in order to improve maps of narrow endemism and resulting conservation efforts, more collection and identification activity is required.     

Regulation of the ban gene containing operon of prophage P1

Summary A physical map of the ban gene of P1 and sites relevant to its regulation has been deduced from cloning of the appropriate regions of P1 wild-type and of P1 ban regulatory mutants. The cloning required the presence of P1 repressor in the cell confirming the existence of a repressible ban operon (Austin et al. 1978). Evidence for additional member(s) of that operon is presented. Of particular interest for understanding the regulation of ban are the relative positions of a binding site for the P1 repressor and of the regulatory mutations bac and crr that render ban expression constitutive. The results reveal a repressible operon-like structure of about 4 kb within the P1 EcoRI-3 fragment that comprises a c1 repressor binding site/bac additional gene(s) — crr/ban in the clockwise direction of the circular map of P1.