AI Article Synopsis
- - Memory in dogs is influenced more by non-genetic factors than genetics, making it the least heritable cognitive trait in canines.
- - A study of 27 young dogs showed that memory scores tend to improve with age, but there's also significant variability.
- - The research found a specific bacterial species linked to better memory performance, while traditional factors like sex, litter, and breed had less impact; this suggests exploring gut bacteria could help enhance dog memory and learning.
Article Abstract
Memory has been identified as the least heritable cognitive trait in canines, suggesting a significant influence of non-genetic factors. We observed a trend that overall memory scores (OMS) improve with age in a cohort of 27 young dogs, but considerable plasticity exists. Employing linear discriminant analysis of gut microbiome data from dogs exhibiting low and high OMS, a single bacterial species, , was identified and confirmed to be correlated with elevated OMS. Subsequent analysis using a random forest regression model revealed that sex, litter, and breed identity had minimal predictive importance. Age had some predictive value but failed to achieve statistical significance in this dataset. In sharp contrast, the abundance of 17 bacterial taxa in the microbiome showed a stronger predictive capacity for memory performance. Our findings provide insights into microbiome underpinnings of mammalian cognitive functions and suggest avenues for developing psychobiotics to enhance canine memory and learning.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11024906 | PMC |
| http://dx.doi.org/10.1016/j.isci.2024.109611 | DOI Listing |
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