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MYELIN BASIC PROTEIN PHOSPHATASE ACTIVITY IN RAT BRAIN
Author(s) -
McNamara J. O.,
Appel S. H.
Publication year - 1977
Publication title -
journal of neurochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.75
H-Index - 229
eISSN - 1471-4159
pISSN - 0022-3042
DOI - 10.1111/j.1471-4159.1977.tb03920.x
Subject(s) - phosphatase , myelin , cytosol , biochemistry , alkaline phosphatase , phosphorylation , enzyme , specific activity , in vivo , chemistry , myelin basic protein , acid phosphatase , biology , central nervous system , endocrinology , microbiology and biotechnology
— Previous work from this and other laboratories has demonstrated phosphorylation of myelin BP in vivo and in vitro. The rapid turnover of BP phosphate has suggested the presence of a phosphatase. The present studies have identified two BP phosphatases. One is present in the cytosol of rat brain homogenate. It has the highest specific activity (37 pmol/min/mg) and total activity of BP phosphatase present in any subcellular fraction. The partially purified cytosol enzyme can readily dephosphorylate soluble 32 P‐labelled BP but is only half as effective in dephosphorylating membrane‐bound BP. Conversely, the phosphatase which remains associated with highly purified myelin is 2.3 times as effective on BP in the membrane (7.2 pmol/min/mg) as on soluble BP (3.2 pmol/min/mg). The myelin phosphatase is tightly bound to the membrane and cannot be removed with concentrated salt solutions. During development the specific activity of the cytosol phosphatase remains constant. The specific activity of the myelin phosphatase, however, is twice as high during the period of maximum myelin formation (6.8 pmol/min/mg at 18 days) as it is in adult myelin (3.2 pmol/min/mg at 12 weeks). In order to compare enzyme effectiveness under the various conditions employed in these studies, we have assumed that both soluble and particulate substrates are phosphorylated at equivalent sites on the polypeptide. We have further assumed that soluble and/or particulate substrates are dephosphorylated at equivalent sites on the polypeptide chain and that the various particulate and soluble enzymes have comparable access to the substrate. Within the limitations of these assumptions, our data suggest myelin phosphatase may play a significant role in phosphate turnover of BP.

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