Publications
Found 20 results
Author [ Title] Type Year Filters: First Letter Of Last Name is R [Clear All Filters]
Adaptive synergy between catechol and lysine promotes wet adhesion by surface salt displacement. Science. 349(6248):628-32.
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2015. .
2018. Biosynthesis of amphi-enterobactin siderophores by Vibrio harveyi BAA-1116: identification of a bifunctional nonribosomal peptide synthetase condensation domain.. J Am Chem Soc. 136(15):5615-8.
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2014. Biosynthetic considerations of triscatechol siderophores framed on serine and threonine macrolactone scaffolds.. Metallomics. 9(7):824-839.
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2017. A chlorine isotope effect for enzyme-catalyzed chlorination.. J Am Chem Soc. 124(49):14526-7.
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2002. Defining the Catechol-Cation Synergy for Enhanced Wet Adhesion to Mineral Surfaces.. J Am Chem Soc. 138(29):9013-6.
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2016. .
1988. Genomic analysis of siderophore β-hydroxylases reveals divergent stereocontrol and expands the condensation domain family. PNAS. 116(40):19805-19814.
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2019. Genomics-driven discovery of chiral triscatechol siderophores with enantiomeric Fe(iii) coordination.. Chem Sci. 12(37):12485-12493.
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2021. Identification and structural characterization of serobactins, a suite of lipopeptide siderophores produced by the grass endophyte Herbaspirillum seropedicae.. Environ Microbiol. 15(3):916-27.
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2022.
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1996.
Photochemical cycling of iron in the surface ocean mediated by microbial iron(III)-binding ligands.. Nature. 413(6854):409-13.
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2001. Photochemical reactivity of siderophores produced by marine heterotrophic bacteria and cyanobacteria based on characteristic Fe(III) binding groups. Limnol. Oceanogr. 48:1069-1078.
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2003. Precursor-directed biosynthesis of catechol compounds in Acinetobacter bouvetii DSM 14964.. Chem Commun (Camb). 56(81):12222-12225.
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2020. Ruckerbactin Produced by YRB Is a Diastereomer of the Siderophore Trivanchrobactin Produced by DS40M4.. J Nat Prod. 85(1):264-269.
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2022. A Siderophore from a Marine Bacterium with an Exceptional Ferric Ion Stability Constant, . Nature. 366:455-457.
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1993. Studies of Copper-Zinc Superoxide Dismutase: The Role of Zinc and of the Essential Arginyl Residue. Biological and Inorganic Copper Chemistry, Vol 2, (ed, K. Karlin and J. Zubieta) Adenine Press. :53-60.
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1985.