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ESX-1
(ESAT-6 secretion system-1) |
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The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
|
ESX-1
(ESAT-6 secretion system-1) |
|
The ESX-1 secretion system is encoded by two different loci, the ESX-1 locus and the EspA operon. The exact number of components that are involved in ESX-1 secretion is still debated and seems to vary between different mycobacterial species. All the known ESX-1 substrates, Rv3616c(EspA), Rv3615c, ESAT-6 and CFP-10 are mutually dependent on each other for secretion. ... |
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