Publications: American Chemical Society

  1. One bead, two capture sequences,” JACS, 138:11067, Aug. 29, 2016.
  2. Group II intron splicing mechanism revealed,” JACS, 138:10373, Aug. 24, 2016.
  3. Nucleotide analogue minimizes off-target RNA interference,” JACS, 138:9325, Aug. 3, 2016.
  4. Metalloprotein mimicry with biotin-streptavidin,” JACS, 138:8984, July 27, 2016.
  5. Secrets of protein-polysaccharide interactions revealed,” JACS, 138:8983, July 27. 2016.
  6. Protein photocycle comes into focus,” JACS, 138:8319, July 13, 2016.
  7. Immuno-editing with epitope surrogates,” JACS, 138:6313, May 12, 2016.
  8. “’Molecular glue’ makes enzymes ATP-responsive,” JACS, 138:6075, May 10, 2016.
  9. Polyketide biosynthesis unraveled,” JACS, 138:4694, April 5, 2016.
  10. Suicide enzyme mechanism revealed,” JACS, 138:4269, March 29, 2016.
  11. Peptides form asymmetric functional bilayers,” JACS, 138:3254, March 8, 2016.
  12. Direct hit on an elusive antibiotic target,” JACS, 138:1725, Feb. 17, 2016.
  13. New drug delivery strategies improve therapeutic efficacy,” JACS, 138:1465, Feb. 10, 2016.
  14. Protein side chain structures by NMR,” JACS, 137:14829, Nov. 20, 2015.
  15. Sequencing RNA from both sides,” JACS, 137:13991, Nov. 3, 2015.
  16. Chemoenzymatic approach to glycan synthesis,” JACS, 137, 12421, Oct. 7, 2015.
  17. Chorismatase reaction mechanisms deciphered,” JACS, 137:10851, Aug. 25, 2015.
  18. New strategy eats up Alzheimer’s protein plaques,” JACS, 137:10017, Aug. 11, 2015.
  19. New probe captures reactive cysteines in live cells,” JACS, 137:7251, June 8, 2015.
  20. Researchers build functional aptamers using six-base alphabet,” JACS, 137:6725, June 3, 2015.
  21. Oxygenase reaction specificity probed,” JACS, 137:6973–4, June 2, 2015.
  22. DesII reaction mechanism probed with fluorinated analogues,” JACS, 137:4875, April 14, 2015.
  23. Semisynthetic strategy enables Parkinson’s disease studies,” JACS, 137:4593, April 7, 2015.
  24. Role of phosphodianion-gated conformational changes revealed,” JACS, 137:1383, Jan. 28, 2015.
  25. Molecular modeling clarifies phosphoryl transfer reaction mechanisms,” JACS, 137:1007, Jan. 17, 2015.
  26. Probing the ribonucleotide reductase mechanism,” JACS, 137:1, Jan. 14, 2015.
  27. Building a better uranyl-binding protein,” JACS, 136:17891, Dec. 19, 2014.
  28. Click chemistry drives in vivo glycomics,” JACS, 136:17357–8, Dec. 3, 2014.
  29. Efficient hepatic gene knockdown with small interfering RNA,” JACS, 136:17357–8, Dec. 3, 2014.
  30. Thermophoresis tracks molecular motion within cells,” JACS, 136:15807, Nov. 4, 2014.
  31. Melanin nanoparticles as three-way imaging agents,” JACS, 136:15439, Oct. 28, 2014.
  32. QM/MM modeling deciphers HPPD reaction mechanism,” JACS, 136:14321–2, Oct. 7, 2014.
  33. Computational model predicts transmembrane protein interactions,” JACS, 136:14321–2, Oct. 7, 2014.
  34. Modeling the mammalian membrane,” JACS, 136:13941, Sept. 30, 2014.
  35. Novel peptide ‘gatekeepers’ control drug release from silica nanoparticles,” JACS, 136:13469, Sept. 23, 2014.
  36. New pipet dispenses single cells,” JACS, 136:11555, Aug. 20, 2014.
  37. Probing protein structure with UVPD,” JACS, 136:10173, July 15, 2014.
  38. Catalase-peroxidase reaction mechanism deciphered,” JACS, 136:7188, May 21, 2014.
  39. Molecular dynamics expose ATP synthase secrets,” JACS, 136:7517, May 19, 2014.
  40. Fast, fair, and all-natural,” JACS, 136:6149, April 21, 2014.
  41. ’Bump-hole’ strategy identifies ADP-ribosylation substrates,” JACS, 136:5819, April 15, 2014.
  42. New fluorophores extend spinach’s color palette,” JACS, 136:1157, Jan. 29, 2014.
  43. Efficient pyrophospopeptide synthesis,” JACS, 136:821, Jan. 22, 2014.
  44. Researchers extend genetic alphabet with unnatural base pair,” JACS, 136:821, Jan. 22, 2014.
  45. New method detects protein-specific glycosylation events,” JACS, 136:527, Jan. 7, 2014.
  46. New oligo probes are fit to be bright,” JACS, 135:19047, Dec. 13, 2013.
  47. Location, location, location,” JACS, 135:13221, Sept. 11, 2013.
  48. Engineering a nerve agent-destroying enzyme,” JACS, 135:12151, Aug. 21, 2013.
  49. Expect the unexpected: A Perspective on dynamic combinatorial chemistry,” JACS, 135:10581, July 24, 2013.
  50. On the antioxidant activity of vitamin E,” JACS, 135:8431, June 12, 2013.
  51. Diced electrophoresis gel assigns biochemical activity to proteins,” JACS, 135:7389, May 22, 2013
  52. Europe to ban neonicotinoid pesticides for 2 years,” ACS e!-Dispatch, 2[5], May 2013.
  53. Crystallizing conformationally dynamic proteins? Try tethering,” JACS, 135:4161, Mar. 20, 2013.
  54. Spatial control of protein labeling? It’s logical,” JACS, 135:4161, Mar. 20, 2013.
  55. Super sensitive chemical detection with star-shaped paper devices,” Chem Eng News, published Mar. 1, 2013.
  56. Polyketide synthase mechanism probed in vitro,” JACS, 135:2865–6, Feb. 27, 2013.
  57. Computer models probe membrane-protein insertion,” JACS, 135:2385, Feb. 11, 2013.
  58. A new mechanism for decarboxylation,” JACS, 135:1166, Jan. 30, 2013.
  59. Computational modeling yields possible celiac therapeutic,” JACS, 135:529, Jan. 8, 2013.
  60. Toward a better HIV antiviral,” JACS, 134:20567, Dec. 13, 2012.
  61. Researchers devise reversible protein monolayers,” JACS, 134:19951, Nov. 30, 2012.
  62. Chemosensors enable two-color nucleoside polyphosphate detection in vivo,” 134:19499, Nov. 20, 2012.
  63. Tunable method yields stable DNA-quantum dot conjugates,” JACS, ePub Nov. 13, 2012.
  64. Single-molecule study untangles Alzheimer-associated protein aggregates,” JACS, 134:18151–2, Oct. 29, 2012.
  65. Dual optical nanosensor measures intracellular pH and oxygen,” JACS, 134:18151–2, Oct. 29, 2012
  66. Antiferrocene antibody offers non-radioactive kinase assays,” JACS, ePub Oct. 2, 2012.
  67. One-pot histone deacetylase probe,” JACS, ePub Sept. 18, 2012. DOI:10.1021/ja308994k
  68. ’Dimple machine’ probes single-molecule interactions,” JACS, ePub Sept. 10, 2012.
  69. Lipid rafts influence enzyme affinity,” JACS, 134:14266, Aug. 22, 2012.
  70. Computer modeling untangles protein chaperone biology,” JACS, 134:12322, July 18, 2012.
  71. Novel theragnostic couples targeted cytotoxicity with molecular imaging,” JACS, 134:11831–2, July 10, 2012.
  72. Novel lantibiotic synthetase works back-to-front,” JACS, 134:11300, July 2, 2012.
  73. New probe captures histidine kinase activity,” JACS, 134:10715–6, June 13, 2012.
  74. A sugar-sensing molecular logic gate? Sweet!” JACS, 134:9535, May 29, 2012.
  75. A model to predict nanoparticle toxicity,” Chem Eng News, published Apr. 23, 2012.
  76. Nanoparticles release drugs on demand,” Chem Eng News, published Mar. 13, 2012.
  77. A better disulfide reducing agent,” Chem Eng News, published Feb. 29, 2012.
  78. A slow burn for nanotube detection,” Chem Eng News, published Feb. 2, 2012.
  79. Printer toner seals the deal,” Chem Eng News, published Jan. 19, 2012.
  80. SERS floatation devices create Lab-on-a-Bubble,” JACS, 134:745, Dec. 27. 2011.
  81. SERS floatation devices create Lab on a Bubble,” Chem Eng News, published Nov. 23, 2011.
  82. Fluorescent nanoparticles fresh from the microwave,” Chem Eng News, published Nov. 3, 2011.
  83. Sniffing for sea mines,” Chem Eng News, published Oct. 10, 2011.
  84. New device monitors oxygen levels during surgery,” Chem Eng News, published Aug. 26, 2011.
  85. Making light of enzymes that methylate DNA,” Chem Eng News, published May 13, 2011.
  86. The wide open (dynamic) range,” Chem Eng News, published Mar. 3, 2011.
  87. Desperately seeking Staphylococci,” Chem Eng News, published Feb. 22, 2011.
  88. That’s how breast cancer cells roll,” Chem Eng News, published Jan. 13, 2011.
  89. What a cell wants – chemically speaking,” Chem Eng News, published Nov. 3, 2010.
  90. Turning up the heat on DNA methylation,” Chem Eng News, published Oct. 25, 2010.
  91. Counting carbon,” Chem Eng News, published online Sept. 28, 2010.
  92. Fishing for methylmercury in streams,” Chem Eng News, published online Aug. 26, 2010.
  93. Comparative proteomics study suggests germ-cell-derived stem cells can stand in for ESCs,” J Proteome Res, published online Nov. 13, 2009.
  94. iTRAQ gets put to the test,” J Proteome Res, published online Oct. 15, 2009.
  95. Novel twist on the biotin switch cracks endothelial cell S-nitrosoproteome,” J Proteome Res, published online Sept. 16, 2009.
  96. Rites of (stem cell) passage,” J Proteome Res, published online Mar. 26, 2009.
  97. Shrimp study exposes mechanisms of innate immunity,” J Proteome Res, published online Jan. 23, 2009.
  98. Pesticide monitoring with a quartz crystal microbalance,” Anal Chem, published online Dec. 16, 2008.
  99. A cool way to learn about climate change,” Anal Chem, 80[21]:7908, Nov. 1, 2008.
  100. Neuropeptidomics study profiles hypothalamic ‘nucleus,’ individual cells,” J Proteome Res, Web release date: Sept. 25, 2008.
  101. Snake venomics uncoils venom composition, evolution,” J Proteome Res, 7[8]:3067, August 2008.
  102. A chemical killer unmasked,” Anal Chem, 80[13]:4789, July 1, 2008.
  103. SPAMS: fast, autonomous, and accurate multiagent threat detection,” Anal Chem, 80[13]:4784, July 1, 2008.
  104. Tag! You’re a phosphopeptide,” Anal Chem, 80[7]:2287, April 1, 2008.
  105. At last, large-scale functional glycomics,” Anal Chem, 80[5]:1354, Mar. 1, 2008.
  106. Metabolomics, transcriptomics, proteomics, oh my!” J Proteome Res, 7[3]:839, March 2008.
  107. Proteomic profiling reveals vascular differences in atherosclerosis,” J Proteome Res, 6[12]:4545, December 2007.
  108. No-fuss quantitative proteomics with pseudo-internal standards,” Anal Chem, 79:8827, Dec. 1, 2007.
  109. A molecular picture of chocoholics,” J Proteome Res, 6[11]:4105, November 2007.
  110. Explosive results in 10 minutes or less!” Anal Chem, 79:7234, Oct. 1, 2007.
  111. Better PFA detection through isomer separation,” Anal Chem, 79:6437, Sept. 1, 2007.
  112. Selenium sensing sans calibration,” Anal Chem, 79:4747, July 1, 2007.

 
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