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Macromolecular Syntheses During Germination and Outgrowth of Bacillus subtilis Spores

^a Department of Biology, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139

ABSTRACT

Alanine and glucose used jointly are known to be necessary and sufficient for spore germination in Bacillus subtilis 168. By testing them separately, we have verified that alanine provokes optimal phase-darkening of the spores but inhibits macromolecular syntheses, while glucose is specifically needed for initiating those syntheses. By using them in succession we obtained evidence suggesting that: (i) sporal modifications which lead to phase-darkening must occur before macromolecular synthesis can start; (ii) the amino acid pool, on which the early protein synthesis is solely dependent, expands during incubation in alanine which allows degradative but prevents synthetic activities; and (iii) progression of degradations in alanine not promptly followed by syntheses in glucose produce a metabolic imbalance in the germinating spore. A sharp transition in the origin of building blocks was shown by using a tryptophan-defective mutant. At first the synthesis of proteins depended on pre-existing amino acids from turnover of sporal material since it occurred in the absence of any exogenous amino acid and its rate remained unaltered by supplying either all amino acids except tryptophan or tryptophan alone. Eventually, protein synthesis became dependent strictly on exogenous tryptophan and strongly on the supply of several other amino acids, not required later during vegetative growth. Clearly, by the start of outgrowth, all building blocks must be provided either by endogenous de novo synthesis or by exogenous supply.

¹ Present Address: 22 Harding Terrace, Morristown, N.J.

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