Rugby ball at the chromosome core.The shape of the protein structure around which DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. wraps in plant and animal chromosomes resembles a rugby ball, report scientists at Johns Hopkins University Johns Hopkins University, mainly at Baltimore, Md. Johns Hopkins in 1867 had a group of his associates incorporated as the trustees of a university and a hospital, endowing each with $3.5 million. Daniel C. in Baltimore, Md., in the May 3 SCIENCE. The shape they have just determined using X-ray crystallography X-ray crystallography, the study of crystal structures through X-ray diffraction techniques. When an X-ray beam bombards a crystalline lattice in a given orientation, the beam is scattered in a definite manner characterized by the atomic structure of the lattice. differs dramatically from the previous model, proposed by British scientists in 1977. The protein structure, called the histone octamer, organizes DNA into supercoils to keep genes compact and untangled. It also may play a role in controlling which of a cell's many genes are expressed. Hopkins scientists Rufus W. Burlingame, Evangelos N. Moudrianakis and their colleagues report the basic eight-part assemblage of histone histone (hĭs`tōn), any of a class of protein molecules found in the chromosomes of eukaryotic cells. They complex with the DNA (see nucleic acid) and pack the DNA into tight masses of chromatin, which have the structure of coiled coils, much proteins is a "prolate ellipsoid" with a tripartite organization. The central portion contains four subunits. This sturcture is flanked by two sets of two subunits. The scientists speculate that the DNA helix DNA helix n. See double helix. , coiled like a spring, wraps around the histone octamer and holds the three sections together. They suggest that the degree to which these DNA supercoils tighten and loosen influences which genes are active in a cell. They have identified channels in the histone octamer through which small molecules may influence the shape of the complex and the interactions between protein and DNA. |
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