Your search keyword '"Zhu, X. H."' showing total 6 results

1. Distinct leukemia phenotypes in transgenic mice and different corepressor interactions generated...

Author

Cheng, G.-X. and Zhu, X.-H.

Subjects

*GENE fusion, *TRANSGENIC organisms, *MORPHOLOGY, *HISTOCHEMISTRY, LEUKEMIA genetics

Abstract

Studies the leukemogenic potential of the fusion genes in vivo. Construction of transgenes; Detection of transgene interaction; Morphological and histochemical analyses; Immunofluorescence; Results and discussion.

Published

1999

2. Localized 1H NMR measurement of glucose consumption in the human brain during visual stimulation.

Author

Chen, W, Novotny, E J, Zhu, X H, Rothman, D L, and Shulman, R G

Abstract

Spatially localized 1H NMR spectroscopy has been applied to measure changes in brain glucose concentration during 8-Hz photic stimulation. NMR spectroscopic measurements were made in a 12-cm3 volume centered on the calcarine fissure and encompassing the primary visual cortex. The average maximum change in glucose levels was 0.34 mumol.g-1 (n = 5) at 15 min; glucose level had turned toward resting level at 25 min. The glucose change was used to calculate the increase of glucose cerebral metabolic rate in the visual cortex region for individual subjects by using the Michaelis-Menten model of glucose transport on the assumption of constant transport kinetics. The glucose cerebral metabolic rate was calculated to increase over the nonstimulated rate by 22% during the first 15 min of photic stimulation. A model in which the glucose metabolic rate gradually decreases during stimulation was proposed as a possible explanation for the recovery of brain glucose and previously measured lactate concentrations to prestimulus values after 15 min.

Published

1993

3. An approach to probe some neural systems interaction by functional MRI at neural time scale down to milliseconds.

Author

Ogawa S, Lee TM, Stepnoski R, Chen W, Zhu XH, and Ugurbil K

Subjects

Animals, Electric Stimulation, Evoked Potentials, Female, Humans, Rats, Rats, Sprague-Dawley, Central Nervous System physiology, Magnetic Resonance Imaging methods

Abstract

In this paper, we demonstrate an approach by which some evoked neuronal events can be probed by functional MRI (fMRI) signal with temporal resolution at the time scale of tens of milliseconds. The approach is based on the close relationship between neuronal electrical events and fMRI signal that is experimentally demonstrated in concurrent fMRI and electroencephalographic (EEG) studies conducted in a rat model with forepaw electrical stimulation. We observed a refractory period of neuronal origin in a two-stimuli paradigm: the first stimulation pulse suppressed the evoked activity in both EEG and fMRI signal responding to the subsequent stimulus for a period of several hundred milliseconds. When there was an apparent site-site interaction detected in the evoked EEG signal induced by two stimuli that were primarily targeted to activate two different sites in the brain, fMRI also displayed signal amplitude modulation because of the interactive event. With visual stimulation using two short pulses in the human brain, a similar refractory phenomenon was observed in activated fMRI signals in the primary visual cortex. In addition, for interstimulus intervals shorter than the known latency time of the evoked potential induced by the first stimulus ( approximately 100 ms) in the primary visual cortex of the human brain, the suppression was not present. Thus, by controlling the temporal relation of input tasks, it is possible to study temporal evolution of certain neural events at the time scale of their evoked electrical activity by noninvasive fMRI methodology.

Published

2000

4. Molecular cloning, characterization, and promoter analysis of the human 25-hydroxyvitamin D3-1alpha-hydroxylase gene.

Author

Kong XF, Zhu XH, Pei YL, Jackson DM, and Holick MF

Subjects

Base Sequence, Cholestanetriol 26-Monooxygenase, Cloning, Molecular, Humans, Molecular Sequence Data, Sequence Analysis, DNA, Promoter Regions, Genetic, Steroid Hydroxylases genetics

Abstract

The human 25-hydroxyvitamin D3-1alpha-hydroxylase (1alpha-OHase) gene has been cloned. It contained nine exons and eight introns spanning approximately 6.5 kb and a 1.4-kb 5'-flanking region. The 5'-flanking region contains consensus or highly conserved sequences for TATA, Pu, and CCAAT boxes, four cAMP response elements, two activator protein-1 (AP-1) response elements, two AP-2 response elements, three specific protein-1 (Sp1) response elements, and four NF-kappaB binding sites, but no vitamin D response element. By using luciferase reporter gene constructs of truncated forms of the 1alpha-OHase promoter transfected into a modified pig kidney cell line, AOK-B50, we identified regulatory regions of the 1.4-kb 1alpha-OHase promoter for parathyroid hormone 1-34 [PTH(1-34)], forskolin, and 1,25-hydroxyvitamin D3 [1,25(OH)2D3]. The 1.4-kb 1alpha-OHase promoter (AN1) modestly (1.7-fold) induced luciferase activity, whereas 1,100- (AN2), 827- (AN3), 672- (AN4), 463-(AN5), and 363-bp (AN6)-truncated promoters greatly stimulated luciferase activity by 494-fold, 18.4-fold, 55.3-fold, 643-fold, and 56.4-fold, respectively. PTH(1-34) and forskolin stimulated the activity of all constructs to varying degrees with significantly greater responsiveness for both compounds on AN2 and AN5. 1,25(OH)2D3 suppressed PTH(1-34)-induced activity on AN2 and AN5 constructs by 58% and 52%, respectively, but had no effect on the other constructs. These studies characterize the regulatory regions of the human 1alpha-OHase gene and provide insight into the physiologic basis for regulation of the expression of this gene by PTH and 1,25(OH)2D3.

Published

1999

5. Retinotopic mapping of lateral geniculate nucleus in humans using functional magnetic resonance imaging.

Author

Chen W, Zhu XH, Thulborn KR, and Ugurbil K

Subjects

Adult, Animals, Functional Laterality, Geniculate Bodies anatomy & histology, Humans, Magnetic Resonance Imaging methods, Photic Stimulation, Primates, Visual Fields, Brain Mapping, Color Perception physiology, Geniculate Bodies physiology, Retina physiology, Visual Cortex physiology, Visual Pathways physiology

Abstract

Subcortical nuclei in the thalamus, which play an important role in many functions of the human brain, provide challenging targets for functional mapping with neuroimaging techniques because of their small sizes and deep locations. In this study, we explore the capability of high-resolution functional magnetic resonance imaging at 4 Tesla for mapping the retinotopic organization in the lateral geniculate nucleus (LGN). Our results show that the hemifield visual stimulation only activates LGN in the contralateral hemisphere, and the lower-field and upper-field visual stimulations activate the superior and inferior portion of LGN, respectively. These results reveal a similar retinotopic organization between the human and nonhuman primate LGN and between LGN and the primary visual cortex. We conclude that high-resolution functional magnetic resonance imaging is capable of functional mapping of suborganizations in small nuclei together with cortical activation. This will have an impact for studying the thalamocortical networks in the human brain.

Published

1999

6. Functional activation in motor cortex reflects the direction and the degree of handedness.

Author

Dassonville P, Zhu XH, Uurbil K, Kim SG, and Ashe J

Subjects

Adult, Female, Hand physiology, Humans, Magnetic Resonance Imaging, Male, Models, Neurological, Motor Cortex anatomy & histology, Movement physiology, Functional Laterality physiology, Motor Cortex physiology

Abstract

Handedness is the clearest example of behavioral lateralization in humans. It is not known whether the obvious asymmetry manifested by hand preference is associated with similar asymmetry in brain activation during movement. We examined the functional activation in cortical motor areas during movement of the dominant and nondominant hand in groups of right-handed and left-handed subjects and found that use of the dominant hand was associated with a greater volume of activation in the contralateral motor cortex. Furthermore, there was a separate relation between the degree of handedness and the extent of functional lateralization in the motor cortex. The patterns of functional activation associated with the direction and degree of handedness suggest that these aspects are independent and are coded separately in the brain.

Published

1997