A Possible IIB Superstring Matrix Model with Euler Characteristic and a Double Scaling Limit

We show that a recently proposed Yang-Mills matrix model with an auxiliary field, which is a candidate for a non-perturbative description of type IIB superstrings, captures the Euler characteristic of moduli space of Riemann surfaces. This happens at the saddle point for the Yang-Mills field. It turns out that the large-n limit in this matrix model corresponds to a double scaling limit in the Penner model.Comment: 5 pages, LaTe

Disclosing the double mutualist role of birds on Galápagos.

[eng] Life on oceanic islands deviate in many ways from that on the mainland. Their biodiversity is relatively poor and some groups are well-represented, others not, especially not insects. A scarcity of insects forces birds to explore alternative food, such as nectar and fruit. In this way, island birds may pollinate and disperse seed to an extent unseen on any mainland; they may even first consume floral resources of a plant species and then later harvest the fruit of the same species. Through this biotic reuse, they may act as double mutualists. The latter have never been studied at the level of the network, because they are traditionally considered rare. We sampled pollination and seed-dispersal interactions on Galápagos and constructed a plant-bird mutualism network of 108 plant (12% being double mutualists) and 21 bird species (48% being double mutualists), and their 479 interactions, being either single (95%) or double mutualisms (5%). Double mutualists constitute the core in the pollination-dispersal network, coupling the two link types together. They may also initiate positive feedbacks (more pollination leading to more dispersal), which theoretically are known to be unstable. Thus, double mutualisms may be a necessary, but risky prerequisite to the survival of island biodiversity

Kinetic analysis of yersinia pestis DNA adenine methyltransferase activity using a hemimethylated molecular break light oligonucleotide

Background: DNA adenine methylation plays an important role in several critical bacterial processes including mismatchrepair, the timing of DNA replication and the transcriptional control of gene expression. The dependence of bacterial virulenceon DNA adenine methyltransferase (Dam) has led to the proposal that selective Dam inhibitors might function as broadspectrum antibiotics. Methodology/Principal Findings: herein we report the expression and purification of Yersinia pestisDam and the development of a continuous fluorescence based assay for DNA adenine methyltransferase activity that issuitable for determining the kinetic parameters of the enzyme and for high throughput screening against potential Daminhibitors. The assay utilised a hemimethylated break light oligonucleotide substrate containing a GATC methylation site.When this substrate was fully methylated by Dam, it became a substrate for the restriction enzyme DpnI, resulting inseparation of fluorophore (fluorescein) and quencher (dabcyl) and therefore an increase in fluorescence. The assays weremonitored in real time using a fluorescence microplate reader in 96 well format and were used for the kinetic characterisationof Yersinia pestis Dam, its substrates and the known Dam inhibitor, S-adenosylhomocysteine. The assay has been validated forhigh throughput screening, giving a Z-factor of 0.7160.07 indicating that it is a sensitive assay for the identification ofinhibitors. Conclusions/Significance: the assay is therefore suitable for high throughput screening for inhibitors of DNAadenine methyltransferases and the kinetic characterisation of the inhibitio