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Hpt (Hexose phosphate transporter) |
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Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
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Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
|
Hpt (Hexose phosphate transporter) |
|
Belongs to the organophosphate:inorganic phosphate antiporter (OPA) family, of the major facilitator superfamily of permease. Hpt is the first virulence factor to be identified as specifically involved in the replication phase of a facultative intracellular pathogen. It could be termed "metabolic" virulence factor and represent an example of the concept in the biology of host-pathogen interaction: adaptation to parasitic life often involves the mimicry of eukaryotic host functions by microbial virulence factors. Expression of the Hpt permease is tightly cotrolled by the PrfA. ... |
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