Robert T. Sauer

Biology Massachusetts Institute of Technology, Cambridge, MA, United States 
Protein function and folding
"Robert T. Sauer"


Mean distance: 7.52


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Mark Ptashne grad student 1979 Harvard
 (Molecular characterization of the [lambda] repressor and its gene [c]I)


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Michael H. Hecht grad student 1984 MIT
Andrew K. Vershon grad student 1986 MIT
James U. Bowie grad student 1989 MIT
Wendell A. Lim grad student 1991 MIT
Joseph H Davis grad student 2005-2010 MIT
Xue Fei post-doc
Sanjay B. Hari post-doc 2014- MIT
Alireza Ghanbarpour post-doc 2021- MIT
Dorothy Beckett post-doc 1986-1987 MIT
Michael C. Mossing post-doc 1986-1990 MIT
Susan Marqusee post-doc 1990-1992 MIT
Virginia W. Cornish post-doc 1999 MIT
Ehud Gazit post-doc 1997-2000 MIT
Alessandro Senes post-doc 2001-2003 MIT
Christopher S. Hayes post-doc 2000-2004 MIT
Daniel N. Bolon post-doc 2002-2005 MIT
Andreas Martin post-doc 2003-2006 MIT (Cell Biology Tree)
Sean D. Moore post-doc 2001-2008 MIT (Microtree)
Karl R. Schmitz post-doc 2010-2017 MIT
Hema Chandra Kotamarthi post-doc 2014-2020 MIT
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Mawla GD, Kamal SM, Cao LY, et al. (2024) The membrane-cytoplasmic linker defines activity of FtsH proteases in Pseudomonas aeruginosa clone C. The Journal of Biological Chemistry. 105622
Ghanbarpour A, Sauer RT, Davis JH. (2023) A proteolytic AAA+ machine poised to unfold a protein substrate. Biorxiv : the Preprint Server For Biology
Ghanbarpour A, Cohen SE, Fei X, et al. (2023) A closed translocation channel in the substrate-free AAA+ ClpXP protease diminishes rogue degradation. Nature Communications. 14: 7281
Kasal MR, Kotamarthi HC, Johnson MM, et al. (2023) Lon degrades stable substrates slowly but with enhanced processivity, redefining the attributes of a successful AAA+ protease. Cell Reports. 42: 113061
Ghanbarpour A, Fei X, Baker TA, et al. (2023) The SspB adaptor drives structural changes in the AAA+ ClpXP protease during ssrA-tagged substrate delivery. Proceedings of the National Academy of Sciences of the United States of America. 120: e2219044120
Morehouse JP, Baker TA, Sauer RT. (2023) FtsH degrades dihydrofolate reductase by recognizing a partially folded species. Protein Science : a Publication of the Protein Society. 31: e4410
Hari SB, Morehouse JP, Baker TA, et al. (2022) FtsH degrades kinetically stable dimers of cyclopropane fatty acid synthase via an internal degron. Molecular Microbiology
Kim S, Fei X, Sauer RT, et al. (2022) AAA+ protease-adaptor structures reveal altered conformations and ring specialization. Nature Structural & Molecular Biology. 29: 1068-1079
Sauer RT, Fei X, Bell TA, et al. (2021) Structure and function of ClpXP, a AAA+ proteolytic machine powered by probabilistic ATP hydrolysis. Critical Reviews in Biochemistry and Molecular Biology. 1-17
Zuromski KL, Kim S, Sauer RT, et al. (2021) Division of labor between the pore-1 loops of the D1 and D2 AAA+ rings coordinates substrate selectivity of the ClpAP protease. The Journal of Biological Chemistry. 101407
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