Summary
Two temperature-sensitive mutants ofSalmonella typhimurium defective in cell division (divA anddivC) have been isolated. Cell division in these mutants is arrested at elevated temperature while DNA and protein synthesis are unaffected. This results in formation of long filaments. Filaments returned to permissive temperature divide after a short lag. Inhibition of DNA synthesis by nalidixic acid does not block these divisions. This suggests that the thermosensitive step is required late in the division cycle. Chloramphenicol prevents the division of filaments shifted back to permissive temperature in one of these mutants (divA) and allows limited division to take place in the other mutant (divC). The arrest of cell division at elevated temperature may be phenotypically cured by high osmolarity of the medium. The mutationdivA has been mapped betweenrha andmetB and the mutationdivC betweenleu andaziA.
If the filaments ofdivA are starved for thymine and then returned to permissive temperature with the simultaneous restoration of thymine the start of their division is delayed in comparison with the division of the control (unstarved) filaments. The argument is raised that a proper ratio of terminated chromosomes to cell mass must be attained to allow division.
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Cieśla, Z., Bagdasarian, M., Szczurkiewicz, W. et al. Defective cell division in thermosensitive mutants ofSalmonella typhimurium . Molec. gen. Genet. 116, 107–125 (1972). https://doi.org/10.1007/BF00582221
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DOI: https://doi.org/10.1007/BF00582221