the results of present study suggest that a structural homology exists between ToxR as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
the results of present study suggest that a structural homology exists between MarT as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
the results of present study suggest that a functional homology exists between ToxR as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
the results of present study suggest that a functional homology exists between MarT as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
Some previous reports suggest that a structural homology exists between ToxR as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
Some previous reports suggest that a structural homology exists between MarT as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
Some previous reports suggest that a functional homology exists between ToxR as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .
Some previous reports suggest that a functional homology exists between MarT as i -RRB- MarT can bind to the misL promoter region ; ii -RRB- ToxR is a transcriptional regulator .