@article{ref1,
title="BOLD data representing activation and connectivity for rare no-go versus frequent go cues",
journal="Data in brief",
year="2016",
author="Meffert, Harma and Hwang, Soonjo and Nolan, Zachary T. and Chen, Gang and Blair, James R.",
volume="7",
number="",
pages="66-70",
abstract="The neural circuitry underlying response control is often studied using go/no-go tasks, in which participants are required to respond as fast as possible to go cues and withhold from responding to no-go stimuli. In the current task, response control was studied using a fully counterbalanced design in which blocks with a low frequency of no-go cues (75% go, 25% no-go) were alternated with blocks with a low frequency of go cues (25% go, 75% no-go); see also &quot;Segregating attention from response control when performing a motor inhibition task: Segregating attention from response control&quot; [1]. We applied a whole brain corrected, paired t-test to the data assessing for regions differentially activated by low frequency no-go cues relative to high frequency go cues. In addition, we conducted a generalized psychophysiological interaction analysis on the data using a right inferior frontal gyrus seed region. This region was identified through the BOLD response t-test and was chosen because right inferior gyrus is highly implicated in response inhibition.<p /> <p>Language: en</p>",
language="en",
issn="2352-3409",
doi="10.1016/j.dib.2016.02.011",
url="http://dx.doi.org/10.1016/j.dib.2016.02.011"
}