Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Putative transcriptional regulator; Match to protein domain PF01381: helix-turn-helix.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Putative transcriptional regulator; Match to protein domain PF01381: helix-turn-helix.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Putative transcriptional regulator; Match to protein domain PF01381: helix-turn-helix.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

DNA binding domain-containing protein; Identified by match to SM00530: Helix-turn-helix XRE-family like proteins. This is a large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

DNA binding domain-containing protein; Identified by match to SM00530: Helix-turn-helix XRE-family like proteins. This is a large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Putative transcriptional regulator; Match to protein domain PF01381: helix-turn-helix.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Putative transcriptional regulator; Match to protein domain PF01381: helix-turn-helix.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Putative transcriptional regulator; Match to protein domain PF01381: helix-turn-helix.

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

DNA binding domain-containing protein; Identified by match to SM00530: Helix-turn-helix XRE-family like proteins. This is a large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

DNA binding domain-containing protein; Identified by match to SM00530: Helix-turn-helix XRE-family like proteins. This is a large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).

HipA-like protein; Identified by match to PF07804 (HipA-like C-terminal domain) and PF07805 (HipA-like N-terminal domain). The HipA protein is known to be involved in high- frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis. When expressed alone, it is toxic to bacterial cells but it is usually tightly associated with HipB and the HipA-HipB complex may be involved in autoregulation of the hip operon. The hip proteins may be involved in cell division control and may interact with cell division genes or their products.

Helix-turn-helix domain-containing protein; Match to PF01381: helix-turn-helix. This is large family of DNA binding helix-turn helix proteins that include a bacterial plasmid copy control protein, bacterial methylases, various bacteriophage transcription control proteins and a vegetative specific protein from Dictyostelium discoideum (Slime mould).