G. Gantt scite author profile

Proteins in peripheral nervous system and central nervous system myelin and homogenates of sciatic nerve and brain from young and adult mice and rats were characterized with affinity-purified anti-P2 and anti-myelin basic protein sera after electrophoretic transfer from sodium dodecyl sulfate-polyacrylamide gels to nitrocellulose sheets. Using this method we have identified a component of rodent peripheral nervous system myelin as P2 protein. Peripheral nervous system myelin also showed the presence of four basic proteins in addition to P2 protein. These were found to be analogous to the 14, 17, 18.5, and 21.5K species found in the central nervous system myelin. A number of high-molecular-weight proteins were also detected with anti-myelin basic protein serum in peripheral nervous system, as well as central nervous system myelin. In addition, we report the presence of a high-molecular-weight P2 cross-reactive protein in rodent brain stem homogenates, but not in central nervous system myelin. Key Words: Basic proteins--PNS myelin--CNS myelin--Immunocharacterization. Greenfield S. et al. Basic proteins of rodent peripheral nerve myelin: Immunochemical identification of the 21.5K, 18.5K, 17K, 14K, and P2 proteins.

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Expression of myelin protein genes in quaking mouse brain

Konat

Trojanowska

Gantt

et al. 1988

J of Neuroscience Research

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The expression of myelin proteins in actively myelinating quaking and control brains was studied. RNA was extracted from the brains of 18- and 27-day-old mice and analyzed by northern blot using cDNA probes for proteolipid protein (PLP), basic protein (BP), and myelin-associated glycoprotein (MAG). Two PLP transcripts of 3.2 and 2.4 kb (kilobase) were found, whereas PB and MAG probes hybridized to single regions of 2.2 and 2.5 kb, respectively. No abnormality in the transcript pattern was detectable in the quaking brain at either 18 or 27 days of age. Over this 9-day period the level of PLP and BP message in the control brain decreased by approximately 10%, whereas the level of MAG message decreased by approximately 50%. In the 18-day-old quaking brain the expression of PLP and BP was severely reduced amounting to one-third and one-half of the control values, respectively. The reduction at the age of 27 days was less. On the other hand, the quaking brain produced more MAG mRNA amounting to 1.6- and 3.2-fold control on the 18th and 27th day. The results indicate a reduced expression of the PLP and BP genes and a developmental delay in the mutant, whereas the genetic expression of MAG is enhanced and appears to be progressively dysregulated.

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Peroxidative aggregation of myelin membrane proteins

Konat

Gantt

Gorman³

et al. 1986

Metab Brain Dis

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The exposure of CNS myelin to reactive oxygen species (ROS) generated by a Cu2+-H2O2 system results in the aggregation of membrane proteins. Integral and peripheral membrane proteins are equally vulnerable and the denaturation is not mediated by the SH groups. The aggregated proteins retain their original antigenicity as determined by immunoblot technique. The aggregation of proteins is not limited to myelin and can be elicited in the preparation of other cerebral membranes. The effect of ROS on membrane proteins can also be demonstrated in cerebral slices incubated in the presence of the ROS-generating system. Furthermore, the peroxidation inactivates membrane-bound enzymes as exemplified by myelin cyclic nucleotide phosphatase (CNP). Competitive inhibition studies with various scavengers and quenchers of ROS implicate singlet oxygen as a major mediator in the Cu2+-H2O2 oxidizing system responsible for the peroxidative aggregation of membrane proteins.

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Abnormal glycosylation of myelin-associated glycoprotein in quaking mouse brain

Konat

Hogan

Leskawa

et al. 1987

Neurochemistry International

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Distribution of calcium-activated neutral proteinase activity in quaking mouse brain: a subcellular study

et al. 1987

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G. Gantt

Basic Proteins of Rodent Peripheral Nerve Myelin: Immunochemical Identification of the 21.5K, 18.5K, 17K, 14K, and P₂ Proteins

Expression of myelin protein genes in quaking mouse brain

Peroxidative aggregation of myelin membrane proteins

Abnormal glycosylation of myelin-associated glycoprotein in quaking mouse brain

Distribution of calcium-activated neutral proteinase activity in quaking mouse brain: a subcellular study

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G. Gantt

Basic Proteins of Rodent Peripheral Nerve Myelin: Immunochemical Identification of the 21.5K, 18.5K, 17K, 14K, and P2 Proteins

Expression of myelin protein genes in quaking mouse brain

Peroxidative aggregation of myelin membrane proteins

Abnormal glycosylation of myelin-associated glycoprotein in quaking mouse brain

Distribution of calcium-activated neutral proteinase activity in quaking mouse brain: a subcellular study

Contact Info

Product

Resources

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Basic Proteins of Rodent Peripheral Nerve Myelin: Immunochemical Identification of the 21.5K, 18.5K, 17K, 14K, and P₂ Proteins