[1] | Chaulk S, Thede GL, Kent OA, Xu Z, Gesner E, Veldhoen RA, Khanna SK, Goping IS, MacMillan AM, Mendell JT, Young H, Fahlman RP & Glover JNM. Role of pri-miRNA Tertiary Structure in miR-17~92 Biogenesis. RNA BIOL. In Press (2011). |
[2] | Fung AW, Ebhardt HA, Abeysundara H, Moore J, Xu Z, Fahlman RP. An alternative mechanism of the catalysis of peptide bond formation by L/F transferase: substrate binding and orientation. J. MOL. BIOL. 409(4): 617-629 (2011). |
[3] | Payoe R, Fahlman RP. Dependence of RelA-mediated (p)ppGpp formation on tRNA identity. BIOCHEMISTRY 50(15): 3075-3083 (2011). |
[4] | Ebhardt HA, Fedynak A, Fahlman RP. Naturally occurring variations in sequence length creates microRNA isoforms that differ in argonaute effector complex specificity. SILENCE. 1:12 (2010). |
[5] | Ebhardt HA, Tsang H, Dai D, Liu, Y, Bostan B, Fahlman RP. Meta-analysis of small RNA sequencing errors reveals ubiquitous post transcriptional RNA modifications. NUCLEIC ACIDS RES. 37 (8): 1202-1210. (2009). |
[6] | Ebhardt HA, Xu Z, Fung AW, and Fahlman RP. Quantification of the posttranlational addition of amino acids to proteins by MALDI-ToF Mass Spectrometry. ANAL. CHEM. 81 (5): 1937-1943 (2009). |
[7] | Dale T, Fahlman RP, Olejniczak M, Uhlenbeck OC. Specificity of the Ribosomal A Site for Aminoacyl-tRNAs. NUCLEIC ACIDS RES. 37 (4): 1202-1210. (2009). |
[8] | Fahlman RP, Olejniczak M, Uhlenbeck OC. Quantitative analysis of deoxynucleotide substitutions in the codon-anticodon helix J. MOL. BIOL. 355 (5): 887-892. (2006). |
[9] | Olejniczak M, Dale T, Fahlman RP, Uhlenbeck OC. Idiosyncratic tuning of tRNAs to achieve uniform ribosome binding. NAT. STR. MOL. BIOL. 12 (9): 788-793. (2005). |
[10] | Fahlman RP, Dale T, Uhlenbeck OC. Uniform binding of aminoacylated transfer RNAs to the ribosomal A and P sites. MOL. CELL 16 (5): 799-805. (2004). |
[11] | Fahlman RP, Uhlenbeck OC. Contribution of the esterified amino acid to the binding of aminoacylated tRNAs to the ribosomal P-and A-sites. BIOCHEMISTRY 43 (23): 7575-7583. (2004). |
[12] | Fahlman RP, Hsing M, Sporer-Tuhten CS, Sen, D. Duplex pinching: A structural switch suitable for contractile DNA nanoconstructions. NANO LET. 3 (8): 1073-1078. (2003) . |
[13] | Fahlman RP, Sharma RD, Sen D. The charge conduction properties of DNA holliday junctions depend critically on the identity of the tethered photooxidant. JOUR. AM. CHEM. SOC. 124 (42): 12477-12485. (2002). |
[14] | Fahlman RP, Sen D. DNA conformational switches as sensitive electronic sensors of analytes. JOUR. AM. CHEM. SOC. 124 (17): 4610-4616. (2002). |
[15] | Fahlman RP, Sen D. "Synapsable" DNA double helices: Self-selective modules for assembling DNA superstructures. JOUR. AM. CHEM. SOC. 121 (48): 11079-11085. (1999). |
[16] | Fahlman RP, Sen D. Cation-regulated self-association of "synapsable" DNA duplexes J. MOL. BIOL. 280 (2): 237-244 (1998). |