Carl C. Correll Associate Professor
(For e-print (pdf files) request click here)
Plantinga, M.J., Korennykh, A.V., Piccirilli, J.A. Correll, C.C. (2011) The ribotoxin restrictocin recognizes its RNA substrate by selective engagement of active site residues. Biochemistry 50, 3004-3013. [medline]
Gérczei, T., Shah, B.N., Anthony J. Manzo, A.J., Walter, N.G. and Correll, C.C. (2009) RNA chaperones stimulate formation and yield of the U3 snoRNA-pre-rRNA duplexes needed for ribosome biogenesis. Journal of Molecular Biology 390, 991-1006. [medline]
Plantinga, M.J., Korennykh, A.V., Piccirilli, J.A. and Correll, C.C. (2008) Electrostatic interactions guide the active site face of a structure-specific ribonuclease to its RNA substrate. Biochemistry 47, 8912-8918. [medline]
Korennykh AV, Plantinga MJ, Correll CC, Piccirilli JA. (2007) Abstract Linkage between Substrate Recognition and Catalysis during Cleavage of Sarcin/Ricin Loop RNA by Restrictocin. Biochemistry 46, 12744-12756. [medline]
Korennykh, A.V., Correll, C.C. and Piccirilli, J.A. (2007) Evidence for the importance of electrostatics in the function of two distinct families of ribosome inactivating toxins. RNA 13, 1391-1396. [medline]
Korennykh, A.V., Piccirilli, J.A. and Correll, C.C. (2006) The electrostatic character of the ribosomal surface enables extraordinarily rapid target location by ribotoxins. Nature Structural & Molecular Biology 13, 436-443. [medline]
Gérczei, T. and Correll, C.C. (2004) Imp3p and Imp4p mediate formation of essential U3-pre-rRNA duplexes, possibly to recruit the small subunit processome to the pre-rRNA. PNAS 101, 15301-15306. [medline]
Correll, C.C., Beneken, J., Plantinga, M.J., Lubbers, M and Chan, Y-L (2003) The common and the distinctive features of the bulged-G motif based on a 1.04 Å resolution RNA structure. Nucleic Acids Research 31, 6806-6818.[medline]
Correll, C.C. and Swinger, K. (2003) Common and distinctive features of GNRA tetraloops based on a GUAA tetraloop structure at 1.4 Å resolution. RNA 9 355-363.[medline]
Yang, X., Gérczei, T., Glover, L. and Correll, C.C. (2001) Crystal structures of restrictocin-inhibitor complexes with implications for RNA recognition and base flipping. Nature Structural Biology 8, 968-973.[medline]
Correll, C.C., Wool, I.G. and Munishkin, A. (1999) The two faces of the Escherichia coli 23 S rRNA sarcin/ricin domain: the structure at 1.11 Å resolution. Journal of Molecular Biology 292 275-287.[medline]
Correll, C.C., Munishkin, A., Chan, Y., Ren, Z., Wool, I.R. and Steitz, T.A. (1998) Crystal structure of the ribosomal RNA loop essential for binding both elongation factors. Proc. Natl. Acad. Sci. USA 95, 13436-14341.
Correll, C.C., Freeborn, B., Moore, P.B., Steitz, T.A. (1997) Metals, motifs, and recognition in the crystal structure of a 5S rRNA domain. Cell 91, 705-712.
Correll, C.C., Ludwig, M.L., Bruns, C.M. and Karplus, P.A. (1993) Structural prototypes for an extended family of flavoprotein reductases: Comparison of phthalate dioxygenase reductase with ferredoxin reductase and ferredoxin. Protein Science 2, 2112-2113.
Correll, C.C., Batie, C.J., Ballou, D.P. and Ludwig, M.L. (1992) Phthalate dioxygenase reductase: A modular structure for electron transfer from pyridine nucleotides to [2Fe-2S]. Science 258, 1604-1610.
Correll, C.C., Batie, C.J., Ballou P.D. and Ludwig, M.L. (1985) Crystallographic characterization of phthalate oxygenase reductase, an iron-sulfur flavoprotein from Pseudomanoas cepacia. Journal of Biological Chemistry 260, 14633-14635.