Open AccessFOUR-STRANDED DNA AS DETERMINED BY ELECTRON MICROSCOPY
Author(s) -
Cecil E. Hall,
Liebe F. Cavalieri
Publication year - 1961
Publication title -
the journal of cell biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.414
H-Index - 380
eISSN - 1540-8140
pISSN - 0021-9525
DOI - 10.1083/jcb.10.3.347
Subject(s) - electron microscope , biology , electron micrographs , dna , helix (gastropod) , microscopy , biophysics , physics , optics , genetics , ecology , snail
Pneumococcus DNA, of weight-average molecular weight 1.6 million by light scattering, had a weight-average length of 4300 A by electron microscopy. Thus, the average mass per unit length was 370 molecular-weight units per A, or approximately two times that expected (208) for a Watson-Crick double helix. This corresponds to an average of 3.6 strands per molecule, which is close to that obtained by other methods. Morphologically, all the particles in the micrographs were relatively stiff, and had a cross-sectional height of 20 to 30 A. Some divided into two stiff branches of the same height, apparently double helical. Where the branches combined into one (minimally four-stranded) structure they apparently lay side by side in close association.
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