The role of motor cortex in motor sequence execution depends on demands for flexibility.

The role of the motor cortex in executing motor sequences is widely debated, with studies supporting disparate views. Here we probe the degree to which the motor cortex's engagement depends on task demands, specifically whether its role differs for highly practiced, or 'automatic', sequences versus flexible sequences informed by external cues. To test this, we trained rats to generate three-element motor sequences either by overtraining them on a single sequence or by having them follow instructive visual cues.

Local cryptic diversity in salinity adaptation mechanisms in the wild outcrossing .

It is normally supposed that populations of the same species should evolve shared mechanisms of adaptation to common stressors due to evolutionary constraint. Here, we describe a system of within-species local adaptation to coastal habitats, and detail surprising strategic variability in adaptive responses to high salinity. These different adaptive responses in neighboring populations are evidenced by transcriptomes, diverse physiological outputs, and distinct genomic selective landscapes.

Development and Genome-Wide Analysis of a Blast-Resistant Rice Variety.

Rice is one of the most important crops in the world, and its production is severely affected by the rice blast disease caused by the fungus . Several major blast resistance genes and QTLs associated with blast resistance have been described and mostly identified in rice varieties. In this work, we report the obtention of a blast-resistant rice breeding line derived from crosses between the resistant variety CT13432 and the elite cultivar JSendra (highly susceptible to blast).

Motor cortex is required for flexible but not automatic motor sequences.

How motor cortex contributes to motor sequence execution is much debated, with studies supporting disparate views. Here we probe the degree to which motor cortex's engagement depends on task demands, specifically whether its role differs for highly practiced, or 'automatic', sequences versus flexible sequences informed by external events. To test this, we trained rats to generate three-element motor sequences either by overtraining them on a single sequence or by having them follow instructive visual cues.

Dissociating the contributions of sensorimotor striatum to automatic and visually guided motor sequences.

The ability to sequence movements in response to new task demands enables rich and adaptive behavior. However, such flexibility is computationally costly and can result in halting performances. Practicing the same motor sequence repeatedly can render its execution precise, fast and effortless, that is, 'automatic'.