ROLE OF SULFUR IN THE CELL DIVISION OF CHLORELLA, WITH SPECIAL REFERENCE TO THE SULFUR COMPOUNDS APPEARING DURING THE PROCESS OF CELL DIVISION II.

1. Chlorella cells, which had been grown synchronously undersulfur-deficient conditions and thus rendered unable to performcell division, were made capable of nuclear and cellular divisionby being supplied with ³⁵S-labeled sulfate and nitrate underphotosynthesizing conditions, and the fate of sulfur duringthese recovery processes was followed. 2. When the S-starved cells were provided with sulfate aloneunder photosynthesizing conditions, cells grew appreciably inmass performing nuclear division but remaining incapable ofcellular division. During these processes most of the ³⁵S wasfound to be incorporated into the protein fraction of algalcells. 3. When the cells which had been stalemated at the above-mentionedstage were supplied with nitrate, they grew further in massand eventually performed cellular division. During this periodthe ³⁵S was found to be distributed not only in the proteinfraction, but also in an appreciable amount in the cold andhot acid-soluble fractions. 4. By paper-electrophoretic experiments it was found that thenature of the sulfur substances appearing in the hot acid-solublefraction changed strikingly during the process of cellular division.Zone electrophoresis and an anion-exchange chromatography ofthese substance isolated from the cells at the completion ofcellular division, disclosed that they were most probably deoxypentosepolynucleotides containing sulfur in some form yet unidentified. 5. It was demonstrated that there exist some antagonistic relationsbetween the protein synthesis and the formation of these sulfur-containingdeoxypentose polynucleotides, and that the former predominatesunder photosynthesizing conditions while the latter outweighsunder nonphotosynthesizing conditions. (Received August 9, 1960; )