Johannes Klein scite author profile

There is much interest in using magnetic resonance diffusion imaging to provide information on anatomical connectivity in the brain by measuring the diffusion of water in white matter tracts. Among the measures, the most commonly derived from diffusion data is fractional anisotropy (FA), which quantifies local tract directionality and integrity. Many multi-subject imaging studies are using FA images to localize brain changes related to development, degeneration and disease. In a recent paper, we presented a new approach, tract-based spatial statistics (TBSS), which aims to solve crucial issues of cross-subject data alignment, allowing localized cross-subject statistical analysis. This works by transforming the data from the centers of the tracts that are consistent across a study's subjects into a common space. In this protocol, we describe the MRI data acquisition and analysis protocols required for TBSS studies of localized change in brain connectivity across multiple subjects.

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Human Motor Corpus Callosum: Topography, Somatotopy, and Link between Microstructure and Function

Wahl¹,

Lauterbach-Soon²,

Hattingen³

et al. 2007

J. Neurosci.

384

330

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The corpus callosum (CC) is the principal white matter fiber bundle connecting neocortical areas of the two hemispheres. Although an object of extensive research, important details about the anatomical and functional organization of the human CC are still largely unknown. Here we focused on the callosal motor fibers (CMFs) that connect the primary motor cortices (M1) of the two hemispheres. Topography and somatotopy of CMFs were explored by using a combined functional magnetic resonance imaging/diffusion tensor imaging fiber-tracking procedure. CMF microstructure was assessed by fractional anisotropy (FA), and CMF functional connectivity between the hand areas of M1 was measured by interhemispheric inhibition using paired-pulse transcranial magnetic stimulation. CMFs mapped onto the posterior body and isthmus of the CC, with hand CMFs running significantly more anteriorly and ventrally than foot CMFs. FA of the hand CMFs but not FA of the foot CMFs correlated linearly with interhemispheric inhibition between the M1 hand areas. Findings demonstrate that CMFs connecting defined body representations of M1 map onto a circumscribed region in the CC in a somatotopically organized manner. The significant and topographically specific positive correlation between FA and interhemispheric inhibition strongly suggests that microstructure can be directly linked to functional connectivity. This provides a novel way of exploring human brain function that may allow prediction of functional connectivity from variability of microstructure in healthy individuals, and potentially, abnormality of functional connectivity in neurological or psychiatric patients.

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Alternative mRNA Splicing Produces a Novel Biologically Active Short Isoform of PGC-1α

Zhang

Huypens

Adamson

et al. 2009

Journal of Biological Chemistry

133

296

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The transcriptional co-activator PGC-1␣ regulates functional plasticity in adipose tissue by linking sympathetic input to the transcriptional program of adaptive thermogenesis. We report here a novel truncated form of PGC-1␣ (NT-PGC-1␣) produced by alternative 3 splicing that introduces an in-frame stop codon into PGC-1␣ mRNA. The expressed protein includes the first 267 amino acids of PGC-1␣ and 3 additional amino acids from the splicing insert. NT-PGC-1␣ contains the transactivation and nuclear receptor interaction domains but is missing key domains involved in nuclear localization, interaction with other transcription factors, and protein degradation. Expression and subcellular localization of NT-PGC-1␣ are dynamically regulated in the context of physiological signals that regulate fulllength PGC-1␣, but the truncated domain structure conveys unique properties with respect to protein-protein interactions, protein stability, and recruitment to target gene promoters. Therefore, NT-PGC-1␣ is a co-expressed, previously unrecognized form of PGC-1␣ with functions that are both unique from and complementary to PGC-1␣.

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Johannes Klein

Hormonal Regulation of Adiponectin Gene Expression in 3T3-L1 Adipocytes

Acquisition and voxelwise analysis of multi-subject diffusion data with Tract-Based Spatial Statistics

Human Motor Corpus Callosum: Topography, Somatotopy, and Link between Microstructure and Function

Alternative mRNA Splicing Produces a Novel Biologically Active Short Isoform of PGC-1α

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