Learning And Recognition Of Tactile Temporal Sequences By Mice And Humans

• Published in: bioRxiv
• Main Authors: Bale, Michael R, Bitzidou, Malamati, Pitas, Anna, Brebner, Leonie, Khazim, Lina, Anagnou, Stavros, Stevenson, Caitlin, Maravall, Miguel
• Format: Paper
• Language: English
• Published: Cold Spring Harbor Cold Spring Harbor Laboratory Press 31.03.2017; Cold Spring Harbor Laboratory
• Edition: 1.1
• Subjects: Alternation learning; Neuroscience; Noise; Tactile discrimination learning; Tactile stimuli
• ISSN: 2692-8205; 2692-8205
• DOI: 10.1101/122887

The world around us is replete with stimuli that unfold over time. When we hear an auditory stream like music or speech or scan a texture with our fingertip, physical features in the stimulus are concatenated in a particular order, and this temporal patterning is critical to interpreting the stimulus. To explore the capacity of mice and humans to learn tactile sequences, we developed a task in which subjects had to recognise a continuous modulated noise sequence delivered to whiskers or fingertips, defined by its temporal patterning over hundreds of milliseconds. GO and NO-GO sequences differed only in that the order of their constituent noise modulation segments was temporally scrambled. Both mice and humans efficiently performed tactile sequence learning. Mouse performance relied mainly on detecting relative changes in noise amplitude over time, whereas humans appeared to have access to more cues, including the duration of noise modulation segments.