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Erp
(Exported repetitive protein) |
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Surface-located protein. No homologue of Erp has been found in other bacterial species, making Erp a mycobacterial signature. ... |
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Erp
(Exported repetitive protein) |
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Surface-located protein. No homologue of Erp has been found in other bacterial species, making Erp a mycobacterial signature. ... |
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| Isocitrate lyase |
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PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
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PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
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PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
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PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
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PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
|
PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
|
PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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| Isocitrate lyase |
|
PDB code: 1F61. Required for persistent infection. Isocitrate lyase is the initial enzyme in the glyoxylate shunt, a secondary metabolic pathway that allows bacteria to utilize fatty acids as carbon and energy sources when the availability of primary carbon sources is limiting. Isocitrate lyase, in combination with malate synthase, catalyzes the conversion of isocitrate to malate, a reaction that allows maintenance of the TCA cycle and synthesize carbohydrates from fatty acids. ... |
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