Science - USA (2021-11-12)

(Antfer) #1

P=0.03andrGPi:Pearson’srdifference =
0.79;P= 0.007; Fig. 2, A to F, and supple-
mentary text). The difference was not sig-
nificant for the lCau (Pearson’srdifference =



  • 0.08;P= 0.64).
    Overall, these findings establish that tool
    use and syntax rely on neural activity within
    common anatomical territories in the BG. The
    activity independently elicited by the two tasks
    displays similar spatial distribution, which is
    consistent with common neural resources. It
    has been documented that when two func-
    tions share neural resources and cognitive pro-


cesses, learning transfer occurs ( 41 ): Training
a specific ability can therefore benefit an un-
trained one ( 41 , 42 ). Therefore, we predicted
cross-domain learning transfer between tool
use and syntactic skills in language.

Learning transfer from tool use to syntactic
skills in language
In Experiment 2, we tested whether tool-use
training improves syntactic skills in language.
We used the same syntactic task as in Experi-
ment 1 to measure syntactic skills in 26 naïve,
healthy adults before and after tool-use train-

ing (Fig. 3A). The specificity of tool use was
controlled for by testing a distinct group (n=
26) undergoing an identical training regime
but with the free hand. A third passive control
group (n= 26) was also included to quantify
potential test-retest effects. These participants
were assessed in the same syntactic task be-
fore and after watching natural documentary
videos for an equivalent amount of time as the
two active groups engaged in motor training.
The three groups were comparable in terms of
relevant sociodemographic characteristics (see
the supplementary text).

Thibaultet al.,Science 374 , eabe0874 (2021) 12 November 2021 4of14


ABC

DEF

Fig. 2. Experiment 1: Functional link between tool-use planning and syntax
in the BG.(AtoC) Distribution, after 10,000 permutations, of differences of
PearsonÕsrcomputed for the correlations between patterns of brain activity for
object-relative clauses and those for motor planning of tool use and free hand
separately for the lCau (A), lGPi (B), and rGPi (C). Larger positive differences
indicate stronger similarity between tool-use planning and object-relative


processing compared with free-hand planning and object-relative processing. The
black line indicates the observed difference, and the red dotted line indicates
theP-value threshold set at 0.05. (DtoF) Spatial distribution of neural activity
for tool-use planning, object-relative planning, and free-hand planning in the
BG. Each single colored square represents a single voxel for the lCau (D), lGPi
(E), and rGPi (F).

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