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Mark Paddock, Ph.D University of California, San Diego

Recent Selected Publications: Reaction Center:

Paddock, M.L., Flores, M., Isaacson, R., Shepherd, J.N. and Okamura, M.Y. (2010) EPR and ENDOR investigation of rhodosemiquinone in bacterial reaction centers formed by B-branch electron transfer. Appl. Magn. Reson. 37, 39-48.
Abresch, E.C., Gong, X-M., Paddock, M.L. and Okamura, M.Y. (2009) Electron Transfer from Cytochrome c2 to Reaction Center: A Transition State Model for Ionic Strength Effects due to Neutral Mutations. Biochemistry 48, 11390-11398
Lin, S., Jaschke, P.R., Wang, H., Paddock, M., Tufts, A., Allen, J.P., Rosell, F.I., Mauk, A.G., Woodbury, N.W. and Beatty, J.T. (2009) Electron transfer in the Rhodobacter sphaeroides reaction center assembled with zinc bacteriochlorophyll. Proc Natl Acad Sci USA 106, 8537-8542
Abresch, E.C., Paddock, M.L., Villalobos, M., Chang, C. and Okamura, M.Y. (2008) Interaction between Cytochrome c2 and the Photosynthetic Reaction Center from Rhodobacter sphaeroides: Role of Inter-Protein Hydrogen Bonds in Binding and Electron Transfer. Biochemistry 47, 13318-13325
Paddock, M. L., Flores, M., Isaacson, R., Chang, C., Abresch, E. C. and Okamura, M. Y. (2007) ENDOR Spectroscopy Reveals Light Induced Movement of the H-Bond from Ser-L223 upon Forming the Semiquinone (QB- ) in Reaction Centers from Rhodobacter sphaeroides, Biochemistry 46, 8234-8243.
Paddock, M. L., Isaacson, R. A., Abresch, E. C., and Okamura, M. Y. (2007) Light induced EPR spectra of reaction centers from Rhodobacter sphaeroides at 80K: Evidence for reduction of QB by B-branch electron transfer in native reaction centers, Appl Mag Reson 31, 1-15
Paddock, M.L., Chang, C., Xu, Q., Abresch, E.C., Axelrod, H.L., Feher, G. and Okamura, M.Y. (2005) Quinone (QB) reduction by B-branch electron transfer in mutant bacterial reaction centers from Rhodobacter sphaeroides: quantum efficiency and X-ray structure. Biochemistry 44, 6920-6928
Xu, Q., Axelrod, H.L., Abresch, E.C., Paddock, M.L., Okamura, M.Y. and Feher, G. (2004) X-Ray Structure Determination of Three Mutants of the Bacterial Photosynthetic Reaction Centers from Rhodobacter sphaeroides: Altered Proton Transfer Pathways. Structure 12, 703-715
Paddock, M.L., Feher, G. and Okamura, M.Y. (2003) Proton Transfer Pathways and Mechanism in Bacterial Reaction Centers. Febs Lett. 555, 45-50
Paddock, M.L., Adelroth, P., Beatty, J.T., Feher, G. and Okamura, M.Y. (2002) Determination of Proton Transfer Rates by Chemical Rescue: Application to Bacterial Reaction Centers. Biochemistry 41, 14716-14725
Adelroth, P., Paddock, M.L., Sagle, L.B., Feher, G. and Okamura, M.Y. (2000) Identification of the Proton Pathway in Bacterial Reaction Centers: Metal Ion Binding Decreases the Uptake Rate of Both Protons Associated with Reduction of Q_B to Q_BH₂ Share a Common Entry Point. Proc. Natl. Acad. Sci. USA 97, 13086-13091
Paddock ML, Graige MS, Feher G, Okamura MY. (1999) Identification of the proton pathway in bacterial reaction centers: inhibition of proton transfer by binding of Zn²⁺ or Cd²⁺. Proc Natl Acad Sci USA. 96, 6183-6188

MitoNEET:

Zuris, J.A., Halim, D.A., Conlan, A.R., Abresch, E.C., Nechushtai, R., Paddock, M.L. and Jennings, P.A. (2010) Engineering the Redox Potential over a Wide Range within a New Class of FeS Proteins. J. Am. Chem. Soc. (Communication) 132, 13120-13122
Dicus, M.M., Conlan, A., Nechushtai, R., Jennings, P.A., Paddock, M.L., Britt, R.D. and Stoll, S. (2010) The Binding of Histidine in the (Cys)3(His)1-coordinated [2Fe-2S] Cluster of Human mitoNEET. J. Am. Chem. Soc. 132, 2037-2049
Bak, D.W., Zuris, J.A., Paddock, M.L., Jennings, P.A. and Elliott, S.J. (2009) Redox Characterization of the FeS Protein MitoNEET and Impact of Thiazolidinedione Drug Binding. Biochemistry 48, 10193-10195
Conlan, A.R., Axelrod, H.L., Cohen, A.E., Abresch, E.C., Zuris, J., Yee, D., Nechushtai, R., Jennings, P. and Paddock, M.L. (2009) Crystal structure of Miner1: The redox-active 2Fe-2S protein causative in Wolfram Syndrome 2. J Mol Biol. 392, 143-153
Conlan, A., Paddock, M.L., Axelrod, H.L., Cohen, A.E., Abresch, E.C., Wiley, S., Roy, M., Nechushtai, R. and Jennings, P.A. (2009) The novel 2Fe-2S outer mitochondrial protein mitoNEET displays conformational flexibility in its N-terminal cytoplasmic tethering domain. Acta Crystallogr F 65, 654-659
Tirrell, T.F., Paddock, M.L., Conlan, A., Smoll, E.J., Nechushtai, R., Jennings, P. and Kim, J. (2009) Resonance Raman studies of the (His)(Cys)3 2Fe-2S cluster of mitoNEET: Comparison to the (Cys)4 mutant and implications of the pH effects on the labile metal center. Biochemistry 48, 4747-4752
Paddock, M.L., Wiley, S.E., Axelrod, H.L., Cohen, A. E., Roy, M., Abresch, E. C., Capraro, D., Murphy, A. N., Nechushtai, R., Dixon, J.E. and Jennings, P.A. (2007) MitoNEET is a uniquely folded 2Fe-2S outer mitochondrial membrane protein stabilized by pioglitazone, Proc. Natl. Acad. Sci. USA 104, 14342-14347
Wiley, S.E., Paddock, M.L., Abresch, E. C., Gross, L., van der Geer, P., Nechushtai, R., Murphy, A. N., Jennings, P.A. and Dixon, J.E. (2007) The outer mitochondrial membrane protein mitoneet contains a novel redox active 2Fe-2S cluster. J. Biol. Chem 282, 23745-23749

Full list of publications available here.