[48243 Search Results


frxa gene bh9713  (ATCC)
86
ATCC frxa gene bh9713
Frxa Gene Bh9713, supplied by ATCC, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/frxa gene bh9713/product/ATCC
Average 86 stars, based on 1 article reviews
frxa gene bh9713 - by Bioz Stars, 2026-04
86/100 stars
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voxels  (Cell Signaling Technology Inc)
91
Cell Signaling Technology Inc voxels
(A) VLSM conjunction analysis depicting <t>voxels</t> in which the existence of damage was associated with significant impairment of finger individuation capacity in flexion only (blue), extension only (red), or both (bi-directional, purple) and the major brain areas in which these voxels were detected. The depicted voxels survived a lenient criterion of p < 0.01 (Z > 2.32). Brain <t>structures:</t> <t>M1</t> = primary motor cortex (without lower-limb and trunk); PMC = premotor cortex; CST-M1, CST-PMC = corticospinal tract fibers originating in M1 and PMC, respectively; CRP = cortico-reticulospinal pathway; SLF-II = 2 nd division of the superior longitudinal fasciculus. (B) VLSM results for finger strength overlayed on VLSM conjunction results for individuated fingers movement, together with primary motor cortex and M1-CST (individuation results are the same as the first row of ). Only voxels associated selectively with extension (pale pink) or bi-directional (green) finger-strength are depicted since no voxels were associated selectively with flexion-strength. The depicted voxels survived lenient criterion of p < 0.01 (Z > 2.32). Brain structures: M1 = primary motor cortex (without lower-limb and trunk); CST-M1 = corticospinal tract originating in M1. (C) Contribution of cortico-reticular and corticospinal fibers originating in different areas of the sensory-motor and premotor cortices to finger individuation capacity and strength, in flexion and extension.
Voxels, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/voxels/product/Cell Signaling Technology Inc
Average 91 stars, based on 1 article reviews
voxels - by Bioz Stars, 2026-04
91/100 stars
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pet29b-clbppep-chis (plasmid #48243)  (Addgene inc)
N/A
Standard format: Plasmid sent in bacteria as agar stab
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Image Search Results


(A) VLSM conjunction analysis depicting voxels in which the existence of damage was associated with significant impairment of finger individuation capacity in flexion only (blue), extension only (red), or both (bi-directional, purple) and the major brain areas in which these voxels were detected. The depicted voxels survived a lenient criterion of p < 0.01 (Z > 2.32). Brain structures: M1 = primary motor cortex (without lower-limb and trunk); PMC = premotor cortex; CST-M1, CST-PMC = corticospinal tract fibers originating in M1 and PMC, respectively; CRP = cortico-reticulospinal pathway; SLF-II = 2 nd division of the superior longitudinal fasciculus. (B) VLSM results for finger strength overlayed on VLSM conjunction results for individuated fingers movement, together with primary motor cortex and M1-CST (individuation results are the same as the first row of ). Only voxels associated selectively with extension (pale pink) or bi-directional (green) finger-strength are depicted since no voxels were associated selectively with flexion-strength. The depicted voxels survived lenient criterion of p < 0.01 (Z > 2.32). Brain structures: M1 = primary motor cortex (without lower-limb and trunk); CST-M1 = corticospinal tract originating in M1. (C) Contribution of cortico-reticular and corticospinal fibers originating in different areas of the sensory-motor and premotor cortices to finger individuation capacity and strength, in flexion and extension.

Journal: bioRxiv

Article Title: Direction-dependent neural control of finger dexterity in humans

doi: 10.1101/2023.04.25.538234

Figure Lengend Snippet: (A) VLSM conjunction analysis depicting voxels in which the existence of damage was associated with significant impairment of finger individuation capacity in flexion only (blue), extension only (red), or both (bi-directional, purple) and the major brain areas in which these voxels were detected. The depicted voxels survived a lenient criterion of p < 0.01 (Z > 2.32). Brain structures: M1 = primary motor cortex (without lower-limb and trunk); PMC = premotor cortex; CST-M1, CST-PMC = corticospinal tract fibers originating in M1 and PMC, respectively; CRP = cortico-reticulospinal pathway; SLF-II = 2 nd division of the superior longitudinal fasciculus. (B) VLSM results for finger strength overlayed on VLSM conjunction results for individuated fingers movement, together with primary motor cortex and M1-CST (individuation results are the same as the first row of ). Only voxels associated selectively with extension (pale pink) or bi-directional (green) finger-strength are depicted since no voxels were associated selectively with flexion-strength. The depicted voxels survived lenient criterion of p < 0.01 (Z > 2.32). Brain structures: M1 = primary motor cortex (without lower-limb and trunk); CST-M1 = corticospinal tract originating in M1. (C) Contribution of cortico-reticular and corticospinal fibers originating in different areas of the sensory-motor and premotor cortices to finger individuation capacity and strength, in flexion and extension.

Article Snippet: In the flexion direction such voxels comprised a small single cluster of 10 voxels (zmax = 2.43, MNI coordinates –28 –20 48), of which 6 voxels (60%) were located in M1-CST.

Techniques: