A neurocomputational account of the link between social perception and social action.

People selectively help others based on perceptions of their merit or need. Here, we develop a neurocomputational account of how these social perceptions translate into social choice. Using a novel fMRI social perception task, we show that both merit and need perceptions recruited the brain's social inference network.

Neurocomputational models of altruistic decision-making and social motives: Advances, pitfalls, and future directions.

This article discusses insights from computational models and social neuroscience into motivations, precursors, and mechanisms of altruistic decision-making and other-regard. We introduce theoretical and methodological tools for researchers who wish to adopt a multilevel, computational approach to study behaviors that promote others' welfare. Using examples from recent studies, we outline multiple mental and neural processes relevant to altruism.

The multi-functional SNARE protein Ykt6 in autophagosomal fusion processes.

Autophagy is a degradative pathway in which cytosolic material is enwrapped within double membrane vesicles, so-called autophagosomes, and delivered to lytic organelles. SNARE (Soluble N-ethylmaleimide sensitive factor attachment protein receptor) proteins are key to drive membrane fusion of the autophagosome and the lytic organelles, called lysosomes in higher eukaryotes or vacuoles in plants and yeast. Therefore, the identification of functional SNARE complexes is central for understanding fusion processes and their regulation.

Ykt6 mediates autophagosome-vacuole fusion.

Studying the mechanism of autophagosome-vacuole fusion has proven difficult in live yeast cells. Developing a novel fusion assay, we identified Ykt6 as the missing R-SNARE (Soluble -ethylmaleimide sensitive factor attachment protein receptor) in this process and pinpoint the place of action of all four SNAREs involved. Parallel studies have confirmed our findings in other organisms.

Reconstitution reveals Ykt6 as the autophagosomal SNARE in autophagosome-vacuole fusion.

Autophagy mediates the bulk degradation of cytoplasmic material, particularly during starvation. Upon the induction of autophagy, autophagosomes form a sealed membrane around cargo, fuse with a lytic compartment, and release the cargo for degradation. The mechanism of autophagosome-vacuole fusion is poorly understood, although factors that mediate other cellular fusion events have been implicated.