Chromosomes in Bacillus subtilis Spores and Their Segregation During Germination

AUTOR(ES)

Yoshikawa, Hiroshi

RESUMO

Spores of a thymine-requiring mutant of Bacillus subtilis 168 leucine–, indole–, thymine–) were uniformly labeled with 3H-thymidine. These were seeded on thinlayer agar plates where they germinated into long-chained microcolonies. Autoradiograms were used to measure the distribution of labeled deoxyribonucleic acid in the chains of cells, which ranged in length from 2 to 32 cells. Four major grain clusters appeared in most chains. These clusters were homogeneous in size; their grain numbers were distributed symmetrically from 9 to 15 with an average of 12.0. When three or fewer major clusters appeared in short chains, some of them were composed of two subclusters. However, there were always four clusters per chain when these subclusters were counted as individuals. Groupings containing two to eight grains appeared, as well as the four major clusters in longer chains. These minor groups were fragments of the major clusters. In contrast to the symmetrical distribution of major clusters, fragmented clusters were distributed at random, indicating random fragmentation. The total number of major and minor clusters increased at a constant exponential rate when measured against total cell number per chain, i.e., number of generations. It was calculated from the rate that a detectable fragmentation, at least 16% of a conserved unit (defined as a single strand of the complete chromosome), occurred every 6.0 generations. These results led us to conclude that each B. subtilis spore contained four conserved units or two completed chromosomes. Segregation of the four units into progeny cells was almost random. The one notable exception was a conserved unit which frequently appeared in a terminal cell to which an empty spore coat was attached. The presence of two chromosomes in the spore is consistent with our proposed structure of the completed chromosome, in which two sister chromosomes are covalently linked at the initiation region. This double chromosome may be incorporated into the spore without further structural change.

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