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Magnetic resonance imaging in a juvenile type of distal and segmental muscular atrophy of the upper extremities (1994)

Hasuo, K. ; Uchino, A. ; Matsumoto, S. ; [et al.]

Springer

European radiology 4 (1994), S. 119-124

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ISSN: 1432-1084

Keywords: MR ; Cervical myelopathy ; Juvenile amyotrophy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Eight patients with a juvenile type of distal and segmental muscular atrophy of the upper extremities (DSMA), a type of cervical flexion myelophathy, were evaluated using MR imaging. In the neutral position there was no spinal cord compression, but in flexion the spinal cord was displaced anteriorly and was compressed by the posterior surfaces or margins of the vertebrae and/or any herniated disks in all cases. In flexion, compression of the cord was exaggerated in seven patients by the anterior displacement of the posterior margin of the thecal sac, which was accompanied by dilated posterior internal vertebral veins. In patients suspected of having DSMA, MR images made in flexion are regarded essential for verifying the diagnosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231197

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Possible involvement of membrane fluidity in helicoidal microfibrillar orientation in the coenocytic green alga,Boergesenia forbesii (1994)

Mizuta, S. ; Watanabe, A. ; Kimura, S. ; [et al.]

Springer

Protoplasma 180 (1994), S. 82-91

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ISSN: 1615-6102

Keywords: Boergesenia forbesii ; Cellulose synthesizing complex ; Cytoskeleton ; Helicoidal wall ; Membrane fluidity ; Microfibril orientation ; Plasma membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Microfibrillar textures and orientation of cellulose microfibrils (MFs) in the coenocytic green alga,Boergesenia forbesii, were investigated by fluorescence and electron microscopy. Newly formed aplanosporic spherical cells inBoergesenia start to form cellulose MFs on their surfaces after 2 h of culture at 25°C. Microfibrillar orientation becomes random, fountain-shaped, and helicoidal after 2, 4, and 5 h, respectively. The fountain orientation of MFs is usually apparent prior to helicoidal MF orientation and thus may be considered to initiate helicoid formation. Microfibrils continue to take on the helicoidal arrangement during the growth ofBoergesenia thallus. The helicoidal orientation of MFs occurs through gradual counterclockwise change in MF deposition by terminal complexes (TCs) viewed from inside the cell. On the dorsal side of curving TC impressions in helicoidal texture formation on a freeze-fractured plasma membrane, the aggregation of intramembranous particles (IMPs) occurs. Membrane flow may thus possibly affect the regulation of helicoidal orientation inBoergesenia. Following treatment with 3 μM amiprophos-methyl (APM) or 1 mM colchicine, cortical microtubules (MTs) completely disappear within 24 h but helicoidal textures formation is not affected. With 15 μM cytochalasin B or 30 μM phalloidin, however, the helicoidal orientation of MFs becomes random. Treatment with CaCl2 (10 mM) causes the helicoidal MF orientation of cells to become random, but co-treatment with N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide (W-7) (100 mM) prevents this effect, though W-7 has no effect on the helicoidal MF formation. It thus follows that MF orientation inBoergesenia possibly involves actin whose action may be regulated by calmodulin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01379226

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