HYBRIDIZATION PROPERTIES OF DNA SEQUENCES DIRECTING THE SYNTHESIS OF MESSENGER RNA AND HETEROGENEOUS NUCLEAR RNA

doi:10.1083/jcb.50.3.774

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ARTICLE

HYBRIDIZATION PROPERTIES OF DNA SEQUENCES DIRECTING THE SYNTHESIS OF MESSENGER RNA AND HETEROGENEOUS NUCLEAR RNA

Jay R. Greenberg ¹ and Robert P. Perry ¹

¹ From The Institute for Cancer Research, Fox Chase, Philadelphia, Pennsylvania 19111

The relationship of the DNA sequences from which polyribosomalmessenger RNA (mRNA) and heterogeneous nuclear RNA (NRNA) ofmouse L cells are transcribed was investigated by means of hybridizationkinetics and thermal denaturation of the hybrids. Hybridizationwas performed in formamide solutions at DNA excess. Under theseconditions most of the hybridizing mRNA and NRNA react at valuesof D_ot (DNA concentration multiplied by time) expected for RNAtranscribed from the nonrepeated or rarely repeated fractionof the genome. However, a fraction of both mRNA and NRNA hybridizeat values of D_ot about 10,000 times lower, and therefore mustbe transcribed from highly redundant DNA sequences. The fractionof NRNA hybridizing to highly repeated sequences is about 1.7times greater than the corresponding fraction of mRNA. The hybridsformed by the rapidly reacting fractions of both NRNA and mRNAmelt over a narrow temperature range with a midpoint about 11°Cbelow that of native L cell DNA. This indicates that these hybridsconsist of partially complementary sequences with approximately11% mismatching of bases. Hybrids formed by the slowly reactingfraction of NRNA melt within 4°–6°C of nativeDNA, indicating very little, if any, mismatching of bases. Hybridsof the slowly reacting components of mRNA, formed under conditionsof sufficiently low RNA input, have a high thermal stability,similar to that observed for hybrids of the slowly reactingNRNA component. However, when higher inputs of mRNA are used,hybrids are formed which have a strikingly lower thermal stability.This observation can be explained by assuming that there issufficient similarity among the relatively rare DNA sequencescoding for mRNA so that under hybridization conditions, in whichthese DNA sequences are not truly in excess, reversible hybridsexhibiting a considerable amount of mispairing are formed. Thefact that a comparable phenomenon has not been observed forNRNA may mean that there is less similarity among the relativelyrare DNA sequences coding for NRNA than there is among the raresequences coding for mRNA.

Submitted on December 2, 1970
Revised on February 9, 1971

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