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| Legiobactin |
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A nonhydroxamate, nonphenolate siderophore. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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| Mycobactin |
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Mycobacteria produce two classes of siderophores, mycobactins and the exochelins. Pathogenic mycobacteria solely produce mycobactins, whereas saprophytic mycobacteria such as M. smegmatis and Mycobacterium neoarum produce both mycobactins and exochelins. Mycobactins are salicylate containing siderophores, and exochelins are peptidic molecules. Mycobactins are found in two forms that differ in the length of an alkyl substitution and hence in polarity and solubility. The less polar form remains cell associated (mycobactin), whereas the more polar one (carboxymycobactin) is secreted into the medium. ... |
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