Amy Rosenzweig

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Professor

Amy C. Rosenzweig
Born1967 (age 53–54)
Pittsburgh, PA
NationalityAmerican
Alma materAmherst College (B.S.) (1988)
Massachusetts Institute of Technology (Ph.D) (1994)
AwardsMacArthur Fellowship
Scientific career
FieldsBiochemistry and Chemistry
ThesisStructural studies of the hydroxylase component of methane monooxygenase from methyloccous capsulatus (1994)
Doctoral advisorStephen J. Lippard
Websitegroups.molbiosci.northwestern.edu/rosenzweig/

Amy C. Rosenzweig is a professor of Chemistry and Molecular Biosciences at Northwestern University.[1] She was born in 1967 in Pittsburgh, Pennsylvania. Her current research interests include structural biology and bioinorganic chemistry, metal uptake and transport, oxygen activation by metalloenzymes, and characterization of membrane protein. For her work, she has been recognized by a number of national and international awards, including the MacArthur "Genius" Award in 2003.

Education and training[]

She received her BA in chemistry from Amherst College in 1988, and her Ph.D. from Massachusetts Institute of Technology in 1994. At MIT, Rosenzweig worked under the supervision of Stephen J. Lippard where she pioneered the structural studies of the hydroxylase component of methane monooxygenase from methyloccous capsulatus.

Biological Methane Oxidation[]

Structure of pMMO

Rosenzweig determined the molecular structures of Nature's main methane oxidation catalysts. Methane monooxygenases (MMO) are metalloenzymes found in the family of methanotrophic bacteria. These enzymes belong in the oxidoreductase class. They activate carbon-hydrogen bonds to selectively install oxygen onto their substrate. Two major species of MMO exist—soluble MMO (sMMO) and particulate MMO (pMMO). Despite mediating the same chemical reaction, these two enzymes' structure and mechanism are significantly different.

Since the early 1990s, Rosenzweig has studied MMO enzymes in various biological systems. Her team was the first to solve the crystal structure of particulate MMO in 1993. In the following years, she made major advances in determining the enzyme's bioactivity and chemical constitution, including vast contributions to research on the metal-coordinated active site.[2][3]

The currently proposed mechanism for sMMO involves an Iron (II) coordination complex that is twice oxidized to form a metalloperoxide species. This species then undergoes reduction in the presence of substrate methane to afford the oxidized alkyl methanol. The crystal structure of the sMMO protein-protein complex has been determined.[3][4]

Active site of pMMO

Currently, there remains a mystery in the direct understanding of pMMO-substrate interaction, particularly in diagnosing a complex mechanism. According to Rosenzweig, this elusive problem remains "one of the major unsolved problems in bioinorganic chemistry."[1]

Metal Transport[]

In her work with pMMOs, Rosenzweig elucidated the molecular basis for safe handling of potentially toxic metal ions through direct handoff between protein partners. Methanotrophs secrete methanobactin. Methanobactin chelated with high affinity to copper, and forms a complex (CuMbn) that can be reinternalized by the cell through active transport. There are specific interactions between CuMbn and proteins MbnT and MbnE. These findings reveal mechanisms for recognition and transport of CuMbn.[2]

Metalloprotein Function[]

Rosenzweig determined structures of important metalloproteins, exerting sustained influence on the field of bioinorganic chemistry. Particular proteins which she determined the structure of are E. coli Mn (II) 2-NrdF and Fe (II) 2-NrdF, which have different coordination sites. This suggests distinct initial binding sites for oxidants during cofactor activation with E. coli and nucleotides.[5]

Awards[]

Works[]

  • Lieberman, R. L & Rosenzweig, A. C. "Crystal structure of a membrane-bound metalloenzyme that catalyses the biological oxidation of methane", Nature 2005, 434, 177-182.
  • Lieberman, R. L., Kondapalli, K. C., Shrestha, D. B., Hakemian, A. S., Smith, S. M., Telser, J., Kuzelka, J., Gupta, R., Borovik, A. S., Lippard, S. J., Hoffman, B. M., Rosenzweig, A. C., & Stemmler, T. L. "Characterization of the particulate methane monooxygenase metal centers in multiple redox states by X-ray absorption spectroscopy". Inorg. Chem. 2006, 45, 8372-8381.
  • Sazinsky, M. H., Mandal, A. L, Argüello, J. M., & Rosenzweig, A. C. "Structure of the ATP binding domain from the Archaeglobus fulgidus Cu1+-ATPase". J. Biol. Chem.. 2006, 281, 11161-11166.
  • Yatsunyk, L. A. & Rosenzweig, A. C. "Copper binding and transfer by the N-terminus of the Wilson disease protein", J. Biol. Chem.. 2007, 282, 8622-8631.
  • Rosenzweig, Lippard, "Structure and Biochemistry Methane Monooxygenase Enzyme Systems", Transition metals in microbial metabolism, Editors Günther Winkelmann, Carl J. Carrano, CRC Press, 1997, ISBN 978-90-5702-220-3
  • Rosenzweig, Feng, Lippard, "Studies of Methane Monooxygenase and Alkane Oxidation Model Complexes", Applications of enzyme biotechnology, Editors Jeffery W. Kelly, Thomas O. Baldwin, Springer, 1991, ISBN 978-0-306-44095-3

References[]

  1. ^ Jump up to: a b c "Welcome to the Rosenzweig Group!". groups.molbiosci.northwestern.edu. Retrieved 2017-06-08.
  2. ^ Jump up to: a b Sirajuddin, Sarah; Rosenzweig, Amy C. (2015-04-14). "Enzymatic Oxidation of Methane". Biochemistry. 54 (14): 2283–2294. doi:10.1021/acs.biochem.5b00198. ISSN 0006-2960. PMC 5257249. PMID 25806595.
  3. ^ Jump up to: a b Rosenzweig, Amy C.; Frederick, Christin A.; Lippard, Stephen J.; P& Auml; Nordlund, R (1993-12-09). "Crystal structure of a bacterial non-haem iron hydroxylase that catalyses the biological oxidation of methane". Nature. 366 (6455): 537–543. Bibcode:1993Natur.366..537R. doi:10.1038/366537a0. PMID 8255292. S2CID 4237249.
  4. ^ Lawton, Thomas J; Rosenzweig, Amy C (2016-12-01). "Biocatalysts for methane conversion: big progress on breaking a small substrate". Current Opinion in Chemical Biology. Energy Mechanistic Biology. 35: 142–149. doi:10.1016/j.cbpa.2016.10.001. PMC 5161620. PMID 27768948.
  5. ^ Boal, Amie K.; Cotruvo, Joseph A.; Stubbe, JoAnne; Rosenzweig, Amy C. (2010-09-17). "Structural Basis for Activation of Class Ib Ribonucleotide Reductase". Science. 329 (5998): 1526–1530. Bibcode:2010Sci...329.1526B. doi:10.1126/science.1190187. ISSN 0036-8075. PMC 3020666. PMID 20688982.
  6. ^ "Amy Rosenzweig". National Academy of Sciences. Retrieved 2018-03-22.
  7. ^ "Index of Active Members" (PDF).
  8. ^ "Joseph Chatt Award 2014 Winner". www.rsc.org. Retrieved 2018-04-05.
  9. ^ "Amy C. Rosenzweig CV" (PDF). October 2017.
  10. ^ "Nobel Laureate Signature Award for Graduate Education in Chemistry - American Chemical Society". American Chemical Society. Retrieved 2018-03-22.
  11. ^ "Honorary Degrees & Awards | Recipients by Name | Amherst College". www.amherst.edu. Retrieved 2018-03-23.

External links[]

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