Abstract

This subproject is one of many research subprojects utilizing the resources provided by a Center grant funded by NIH/NCRR. Primary support for the subproject and the subproject's principal investigator may have been provided by other sources, including other NIH sources. The Total Cost listed for the subproject likely represents the estimated amount of Center infrastructure utilized by the subproject, not direct funding provided by the NCRR grant to the subproject or subproject staff. MutM is a bacterial DNA glycosylase that specifically recognizes oxidatively damaged DNA bases and initiates the base excision repair pathway. Given the subtle conformational differences in the lesion base, 8-oxoguanine, and normal DNA base, guanine, and the scarcity of the lesions, a fundamental question arises: how does MutM locate the rare lesion sites among the vast genome? In addition, base flipping, an essential step for DNA glycosylase catalysis, is not well understood, and whether protein is actively promoting base extrusion is currently in debate. Using the disulfide crosslinking strategy, we have covalently trapped ordinarily transient intermediates during the search by MutM for lesions during nucleobase extrusion. These intermediates not only shed light on the mechanism of lesion recognition and catalysis, but have also provided valuable starting points for our computational studies of the base extrusion pathway.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
5P41RR015301-09
Application #
8361618
Study Section
Special Emphasis Panel (ZRG1-BCMB-K (40))
Project Start
2011-04-01
Project End
2012-03-31
Budget Start
2011-04-01
Budget End
2012-03-31
Support Year
9
Fiscal Year
2011
Total Cost
$2,909
Indirect Cost

  Institution

Name
Cornell University
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
872612445
City
Ithaca
State
NY
Country
United States
Zip Code
14850

  Publications

Chen, Wenyang; Mandali, Sridhar; Hancock, Stephen P et al. (2018) Multiple serine transposase dimers assemble the transposon-end synaptic complex during IS607-family transposition. Elife 7:
Eichhorn, Catherine D; Yang, Yuan; Repeta, Lucas et al. (2018) Structural basis for recognition of human 7SK long noncoding RNA by the La-related protein Larp7. Proc Natl Acad Sci U S A 115:E6457-E6466
Fallas, Jorge A; Ueda, George; Sheffler, William et al. (2017) Computational design of self-assembling cyclic protein homo-oligomers. Nat Chem 9:353-360
Krotee, Pascal; Rodriguez, Jose A; Sawaya, Michael R et al. (2017) Atomic structures of fibrillar segments of hIAPP suggest tightly mated ?-sheets are important for cytotoxicity. Elife 6:
Dhayalan, Balamurugan; Mandal, Kalyaneswar; Rege, Nischay et al. (2017) Scope and Limitations of Fmoc Chemistry SPPS-Based Approaches to the Total Synthesis of Insulin Lispro via Ester Insulin. Chemistry 23:1709-1716
Jorda, J; Leibly, D J; Thompson, M C et al. (2016) Structure of a novel 13 nm dodecahedral nanocage assembled from a redesigned bacterial microcompartment shell protein. Chem Commun (Camb) 52:5041-4
Taylor, Noah D; Garruss, Alexander S; Moretti, Rocco et al. (2016) Engineering an allosteric transcription factor to respond to new ligands. Nat Methods 13:177-83
Uppalapati, Maruti; Lee, Dong Jun; Mandal, Kalyaneswar et al. (2016) A Potent d-Protein Antagonist of VEGF-A is Nonimmunogenic, Metabolically Stable, and Longer-Circulating in Vivo. ACS Chem Biol 11:1058-65
Mandal, Kalyaneswar; Dhayalan, Balamurugan; Avital-Shmilovici, Michal et al. (2016) Crystallization of Enantiomerically Pure Proteins from Quasi-Racemic Mixtures: Structure Determination by X-Ray Diffraction of Isotope-Labeled Ester Insulin and Human Insulin. Chembiochem 17:421-5
Dhayalan, Balamurugan; Fitzpatrick, Ann; Mandal, Kalyaneswar et al. (2016) Efficient Total Chemical Synthesis of (13) C=(18) O Isotopomers of Human Insulin for Isotope-Edited FTIR. Chembiochem 17:415-20

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