Analysis of Bacillus subtilis hut operon expression indicates that histidine-dependent induction is mediated primarily by transcriptional antitermination and that amino acid repression is mediated by two mechanisms: regulation of transcription initiation and inhibition of histidine transport.

Expression of the Bacillus subtilis hut operon is induced by histidine and subject to regulation by carbon catabolite repression and amino acid repression. A set of hut-lacZ transcriptional fusions was constructed and used to identify the cis-acting sites required for histidine induction and amino acid repression. Histidine induction was found to be primarily mediated by transcriptional antitermination at a palindromic sequence located immediately downstream of the first structural gene in the hut operon, hutP. High levels of histidine induction were observed only in hut-lacZ fusions which contained this palindromic sequence. The hutC1 mutation, which results in constitutive expression of the hut operon, was sequenced and found to contain a GC to TA transversion located within the stem-loop structure. Transcription of hut DNA in vitro revealed that the palindromic structure functions as a transcriptional terminator with wild-type hut DNA but not with hutC1 DNA. Two sites were found to be involved in amino acid repression of hut expression: (i) an operator, hutOA, which lies downstream of the hut promoter, and (ii) the hut terminator. The rate of [14C]histidine uptake in amino acid-grown cells was sixfold lower than that seen in cells grown without amino acids. Thus, inhibition of histidine transport in amino acid-grown cells indirectly regulates hut expression by interfering with histidine induction at the hut terminator.