A team of researchers have created a new smart anti-microbial treatment that can be chemically programmed in the laboratory to seek out and kill a specific cavity-causing species of bacteria, leaving the good bacteria untouched.

The team developed the experimental treatment called STAMP. The acronym stands for Specifically Targeted Antimicrobial Peptides. Like its postal namesake, STAMPs have a two-sided structure, the first is the short homing sequence of a pheromone, a signaling chemical that can be as unique as a fingerprint to a bacterium and assures the STAMP will find its target. The second is a small anti-microbial bomb that is chemically linked to the homing sequence and kills the bacterium upon delivery.

While scientists have succeeded in the past in targeting specific bacteria in the laboratory, the team claim that this report is unique because of the STAMPs themselves which generally consist of less than 25 amino acids, compared to the relatively bulky, bacteria-seeking antibodies that have fascinated scientists for years. Because of their streamlined design, STAMPs can also be efficiently and rapidly produced on automated solid-phase chemistry machines designed to synthesize small molecules under 100 amino acids, called peptides.

As reported online in the journal Antimicrobial Agents and Chemotherapy, the scientists found they could eliminate the cavity-associated oral bacterium Steptococcus mutans within 30 seconds from an oral biofilm without any collateral damage to related but non-pathogenic species attached nearby.