Substrate masking: binding of RNA by EGTA-inactivated micrococcal nuclease results in artifactual inhibition of RNA processing reactions

doi:10.1093/nar/18.22.6625

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Nucleic Acids Research, 1990, Vol. 18, No. 22 6625-6631
© 1990

ENZYMOLOGY

Substrate masking: binding of RNA by EGTA-inactivated micrococcal nuclease results in artifactual inhibition of RNA processing reactions

Ming Jing Wang and Peter Gegenheimer^*

Departments of Biochemistry and Botany, and Molecular Genetics Program 3038 Haworth Hall, University of Kansas, Lawrence, KS 66045–2106, USA

^* To whom correspondence should be addressed

Received July 16, 1990. Revised October 9, 1990. Accepted October 9, 1990.

Inhibition of an RNA processing reaction after treatment withthe Ca²⁺- dependent micrococcal nuclease (MN) is often usedas a criterion for the presence of a required RNA or ribonucleoprotelncomponent in the system. Following MN digestion, the nucleaseis inactivated with EGTA and radiolabeled substrate is addedto assay for remaining RNA processing activity. We found previouslythat inhibition of RNA processing by MN need not involve RNAhydrolysis: EGTA-inactivated MN can suppress RNA processingif the assay is performed in the absence of carrier RNA. Wenow demonstrate both by native gel electrophoresis and by nitrocellulosefilter retention that EGTA-inactivated MN forms a complex withfree RNA which can be dissociated by addition of synthetic polynucleotldesor heparin. In the absence of Ca²⁺ , nuclease binds to precursortRNA with an apparent K_D $~=$ 1.4 x 10^–6 M, comparable toits reported affinity for DNA. In an assay for endonucleolytlctRNA maturation, inactivated MN bound to radiolabeled pre-tRNAphysically blocks the sites of endonuclease cleavage and preventstRNA processing. We call this phenomenon ‘substrate masking’.Addition of excess carrier RNA competes with pre-tRNA for MNbinding and restores normal processing.

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