Specific Recognition of Cruciform DNA by Nuclear Protein HMG1

24 February 1989

journal article
research article
Published by American Association for the Advancement of Science (AAAS) in Science

Vol. 243 (4894) , 1056-1059
https://doi.org/10.1126/science.2922595

Abstract

Cruciform DNA, a non-double helix form of DNA, can be generated as an intermediate in genetic recombination as well as from palindromic sequences under the effect of supercoiling. Eukaryotic cells are equipped with a DNA-binding protein that selectively recognizes cruciform DNA. Biochemical and immunological data showed that this protein is HMG1, an evolutionarily conserved, essential, and abundant component of the nucleus. The interaction with a ubiquitous protein points to a critical role for cruciform DNA conformations.

This publication has 27 references indexed in Scilit:

An E. coli Promoter That Regulates Transcription by DNA Superhelix-Induced Cruciform Extrusion
Science, 1988
Acid blobs and negative noodles
Nature, 1988
Gene 3 endonuclease of bacteriophage T7 resolves conformationally branched structures in double-stranded DNA
Journal of Molecular Biology, 1987
Purification and Biochemical Characterization of the Promoter-Specific Transcription Factor, Sp1
Science, 1986
Hierarchy of binding sites for chromosomal proteins HMG 1 and 2 in supercoiled deoxyribonucleic acid
Biochemistry, 1985
Isolation of high-mobility-group proteins HMG1 and HMG2 in non-denaturing conditions and comparison of their properties with those of acid-extracted proteins
Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, 1984
An immobile nucleic acid junction constructed from oligonucleotides
Nature, 1983
Conformation and Domain Structure of the Non-histone Chromosomal Proteins, HMG 1 and 2. Isolation of Two Folded Fragments from HMG 1 and 2
European Journal of Biochemistry, 1983
Molecular Mechanisms in Genetic Recombination
Annual Review of Biochemistry, 1982
T4 endonuclease VII cleaves holliday structures
Cell, 1982