Mind the gap

Nature presents plenty of examples of cellular behavior that determines the shape of an organ during development, such as epithelial polarity and cell division orientation. Little is known, however, about how organs regenerate or how cellular behavior affects regeneration. One of the most exciting aspects of regeneration biology is understanding how proliferation and patterning are coordinated, since it means that cells not only have to proliferate but also have to do so in an ordered manner so that organs are reconstructed proportionally. Drosophila wing imaginal discs and adult wings are models used in different approaches to investigate this issue; they have recently been used to reveal that, after localized cell death, neighboring cells change their cell division orientation toward the damaged zone. During this process, cell polarity and spindle orientation operate in coordination with cell proliferation to regenerate proper organ size and shape.     

Mind the gap

The unmet needs of biomedical and clinical research are highlighted by reference to drug -induced liver injury(DILI), non-alcoholic fatty liver disease (NAFLD) and its severe form, non-alcoholic steatohepatitis (NASH). Examples in these areas highlight the major limitations of animal models with respect to predicting, examining and managing these clinically significant forms of liver injury. The way in which these knowledge gaps are being bridged by studies involving the use of human tissues and primary cells are described.     

Mind the gap: Encountering contemporary art through play

Knowing how to approach and experience contemporary art is a challenge to many people outside the art world. Emerging contemporary art, as the newest of this genre, is often the most challenging. This article recounts my own early struggles as a researcher in this field, and proposes a way of understanding the interaction between artist, artwork and perceiver based on my observations of how contemporary artists encounter each others' work. I argue that contemporary art, and especially emerging contemporary art, creates a space to play by creating an intentional gap in the physical form and/or the semantic structure of the artwork. The object of play is the co‐investigation of an idea initiated by the artist, facilitated by the form of the work and furthered by the encounter. Play, it is argued, is essential to emerging contemporary art as an activity, a communicative frame and a disposition. I draw from earlier theoretical connections between art, play and liberation, challenging some of these assertions, and bringing others into relevance in the contemporary context.     

Mind the gap: keeping UV lesions in check

Cells respond to genotoxic insults by triggering a DNA damage checkpoint surveillance mechanism and by activating repair pathways. Recent findings indicate that the two processes are more related than originally thought. Here we discuss the mechanisms involved in responding to UV-induced lesions in different phases of the cell cycle and summarize the most recent data in a model where Nucleotide Excision Repair (NER) and exonucleolytic activities act in sequence leading to checkpoint activation in non replicating cells. The critical trigger is likely represented by problematic intermediates that cannot be completely or efficiently repaired by NER. In S phase cells, on the other hand, the replicative polymerases, blocked by bulky UV lesions, re-initiate DNA synthesis downstream of the lesions, leaving behind a ssDNA tract. If these gaps are not rapidly refilled, checkpoint kinases will be activated.     

Mind the gap: genetic distance increases with habitat gap size in Florida scrub jays

Habitat gap size has been negatively linked to movement probability in several species occupying fragmented landscapes. How these effects on movement behaviour in turn affect the genetic structure of fragmented populations at local scales is less well known. We tested, and confirmed, the hypothesis that genetic differentiation among adjacent populations of Florida scrub jays--an endangered bird species with poor dispersal abilities and a high degree of habitat specialization--increases with the width of habitat gaps separating them. This relationship was not an artefact of simple isolation-by-distance, as genetic distance was not correlated with the Euclidean distance between geographical centroids of the adjacent populations. Our results suggest that gap size affects movement behaviour even at remarkably local spatial scales, producing direct consequences on the genetic structure of fragmented populations. This finding shows that conserving genetic continuity for specialist species within fragmented habitat requires maintenance or restoration of preserve networks in which habitat gaps do not exceed a species-specific threshold distance.     

Mind the gap: treefalls as drivers of parental trade‐offs

Tree‐fall gaps are small‐scale disturbances whose formation, colonization, and role in forest dynamics are well documented, but whose effects on animal ecology are still greatly overlooked, except for studies comparing species richness of gaps 6+ months old to that in the closed canopy. Other factors associated with the invasion of fresh tree‐fall gaps such as animal breeding adaptations have been largely neglected. I studied the immediate (within hours and days) arrival of the poison frog Dendrobates tinctorius in new tree‐fall gaps to examine the dynamics of their invasion in relation to tadpole rearing. I found that rearing sites are occupied sooner and tadpoles deposited at higher rates in fresh gaps than in the closed forest, but that the rate of cannibalism is also much greater in the former. This suggests that invading new tree‐fall gaps can be the best parental decision when parents arrive early because they get access to fresh, high‐quality resources, but it could be to the detriment of the offspring if parents arrive late, because of overcrowding and cannibalism. These results highlight the importance of studying the earliest stages of invasions in order to have a better understanding of the composition of communities in disturbed ecosystems at later successional stages.     

Mind the gap: investigating toddlers' sensitivity to contact relations in predictive events

Toddlers readily learn predictive relations between events (e.g., that event A predicts event B). However, they intervene on A to try to cause B only in a few contexts: When a dispositional agent initiates the event or when the event is described with causal language. The current studies look at whether toddlers' failures are due merely to the difficulty of initiating interventions or to more general constraints on the kinds of events they represent as causal. Toddlers saw a block slide towards a base, but an occluder prevented them from seeing whether the block contacted the base; after the block disappeared behind the occluder, a toy connected to the base did or did not activate. We hypothesized that if toddlers construed the events as causal, they would be sensitive to the contact relations between the participants in the predictive event. In Experiment 1, the block either moved spontaneously (no dispositional agent) or emerged already in motion (a dispositional agent was potentially present). Toddlers were sensitive to the contact relations only when a dispositional agent was potentially present. Experiment 2 confirmed that toddlers inferred a hidden agent was present when the block emerged in motion. In Experiment 3, the block moved spontaneously, but the events were described either with non-causal ("here's my block") or causal ("the block can make it go") language. Toddlers were sensitive to the contact relations only when given causal language. These findings suggest that dispositional agency and causal language facilitate toddlers' ability to represent causal relationships.     

Mind the gap: analysis of marker-assisted breeding strategies for inbred mouse strains

The development of congenic mouse strains is the principal approach for confirming and fine mapping quantitative trait loci, as well as for comparing the phenotypic effect of a transgene or gene-targeted disruption between different inbred mouse strains. The traditional breeding scheme calls for at least nine consecutive backcrosses before establishing a congenic mouse strain. Recent availability of genome sequence and high-throughput genotyping now permit the use of polymorphic DNA markers to reduce this number of backcrosses, and empirical data suggest that marker-assisted breeding may require as few as four backcrosses. We used simulation studies to investigate the efficiency of different marker-assisted breeding schemes by examining the trade-off between the number of backcrosses, the number of mice produced per generation, and the number of genotypes per mouse required to achieve a quality congenic mouse strain. An established model of crossover interference was also incorporated into these simulations. The quality of the strain produced was assessed by the probability of an undetected region of heterozygosity (i.e., “gaps”) in the recipient genetic background, while maintaining the desired donor-derived interval. Somewhat surprisingly, we found that there is a relatively high probability for undetected gaps in potential breeders for establishing a congenic mouse strain. Marker-assisted breeding may decrease the number of backcross generations required to generate a congenic strain, but only additional backcrossing will guarantee a reduction in the number and length of undetected gaps harboring contaminating donor alleles. Electronic Supplementary Material Electronic Supplementary material is available for this article at and accessible for authorised users.