@article{2952, abstract = {Body axis elongation represents a common and fundamental morphogenetic process in development. A key mechanism triggering body axis elongation without additional growth is convergent extension (CE), whereby a tissue undergoes simultaneous narrowing and extension. Both collective cell migration and cell intercalation are thought to drive CE and are used to different degrees in various species as they elongate their body axis. Here, we provide an overview of CE as a general strategy for body axis elongation and discuss conserved and divergent mechanisms underlying CE among different species.}, author = {Tada, Masazumi and Heisenberg, Carl-Philipp J}, journal = {Development}, number = {21}, pages = {3897 -- 3904}, publisher = {Company of Biologists}, title = {{Convergent extension Using collective cell migration and cell intercalation to shape embryos}}, doi = {10.1242/dev.073007}, volume = {139}, year = {2012}, } @article{2953, author = {Heisenberg, Carl-Philipp J and Fässler, Reinhard}, journal = {Current Opinion in Cell Biology}, number = {5}, pages = {559 -- 561}, publisher = {Elsevier}, title = {{Cell-cell adhesion and extracellular matrix diversity counts}}, doi = {10.1016/j.ceb.2012.09.002}, volume = {24}, year = {2012}, } @article{2958, abstract = {The activity of hippocampal pyramidal cells reflects both the current position of the animal and information related to its current behavior. Here we investigated whether single hippocampal neurons can encode several independent features defining trials during a memory task. We also tested whether task-related information is represented by partial remapping of the place cell population or, instead, via firing rate modulation of spatially stable place cells. To address these two questions, the activity of hippocampal neurons was recorded in rats performing a conditional discrimination task on a modified T-maze in which the identity of a food reward guided behavior. When the rat was on the central arm of the maze, the firing rate of pyramidal cells changed depending on two independent factors: (1) the identity of the food reward given to the animal and (2) the previous location of the animal on the maze. Importantly, some pyramidal cells encoded information relative to both factors. This trial-type specific and retrospective coding did not interfere with the spatial representation of the maze: hippocampal cells had stable place fields and their theta-phase precession profiles were unaltered during the task, indicating that trial-related information was encoded via rate remapping. During error trials, encoding of both trial-related information and spatial location was impaired. Finally, we found that pyramidal cells also encode trial-related information via rate remapping during the continuous version of the rewarded alternation task without delays. These results suggest that hippocampal neurons can encode several task-related cognitive aspects via rate remapping.}, author = {Allen, Kevin and Rawlins, J Nick and Bannerman, David and Csicsvari, Jozsef L}, journal = {Journal of Neuroscience}, number = {42}, pages = {14752 -- 14766}, publisher = {Society for Neuroscience}, title = {{Hippocampal place cells can encode multiple trial-dependent features through rate remapping}}, doi = {10.1523/JNEUROSCI.6175-11.2012}, volume = {32}, year = {2012}, } @article{2959, abstract = {We study maximum likelihood estimation in Gaussian graphical models from a geometric point of view. An algebraic elimination criterion allows us to find exact lower bounds on the number of observations needed to ensure that the maximum likelihood estimator (MLE) exists with probability one. This is applied to bipartite graphs, grids and colored graphs. We also study the ML degree, and we present the first instance of a graph for which the MLE exists with probability one, even when the number of observations equals the treewidth.}, author = {Uhler, Caroline}, journal = {Annals of Statistics}, number = {1}, pages = {238 -- 261}, publisher = {Institute of Mathematical Statistics}, title = {{Geometry of maximum likelihood estimation in Gaussian graphical models}}, doi = {10.1214/11-AOS957}, volume = {40}, year = {2012}, } @article{2966, abstract = {Background: The outcome of male-male competition can be predicted from the relative fighting qualities of the opponents, which often depend on their age. In insects, freshly emerged and still sexually inactive males are morphologically indistinct from older, sexually active males. These young inactive males may thus be easy targets for older males if they cannot conceal themselves from their attacks. The ant Cardiocondyla obscurior is characterised by lethal fighting between wingless (" ergatoid" ) males. Here, we analyse for how long young males are defenceless after eclosion, and how early adult males can detect the presence of rival males.Results: We found that old ergatoid males consistently won fights against ergatoid males younger than two days. Old males did not differentiate between different types of unpigmented pupae several days before emergence, but had more frequent contact to ready-to-eclose pupae of female sexuals and winged males than of workers and ergatoid males. In rare cases, old ergatoid males displayed alleviated biting of pigmented ergatoid male pupae shortly before adult eclosion, as well as copulation attempts to dark pupae of female sexuals and winged males. Ergatoid male behaviour may be promoted by a closer similarity of the chemical profile of ready-to-eclose pupae to the profile of adults than that of young pupae several days prior to emergence.Conclusion: Young ergatoid males of C. obscurior would benefit greatly by hiding their identity from older, resident males, as they are highly vulnerable during the first two days of their adult lives. In contrast to the winged males of the same species, which are able to prevent ergatoid male attacks by chemical female mimicry, young ergatoids do not seem to be able to produce a protective chemical profile. Conflicts in male-male competition between ergatoid males of different age thus seem to be resolved in favour of the older males. This might represent selection at the colony level rather than the individual level. © 2012 Cremer et al.; licensee BioMed Central Ltd.}, author = {Cremer, Sylvia and Suefuji, Masaki and Schrempf, Alexandra and Heinze, Jürgen}, journal = {BMC Ecology}, publisher = {BioMed Central}, title = {{The dynamics of male-male competition in Cardiocondyla obscurior ants}}, doi = {10.1186/1472-6785-12-7}, volume = {12}, year = {2012}, }