news and features index
Five-Year News and Features Articles Index Bioanalytical
Quest for New Prion Tests. Laura Ruth. 75: 32 A–36 A Measuring DNA Synthesis Rates with Stable Isotopes. Gavin Black and Fred Abramson. 75: 56 A–63 A Seeking the Proteomic/Genomic Researcher. Cheryl Harris. 75: 114 A–118 A SELDI-TOF MS for Diagnostic Proteomics. Haleem J. Issaq, Thomas P. Conrads, DaRue A. Prieto, Radha krishna Tirumalai, and Timothy D. Veenstra. 75: 148 A–155 A Responsive Drug Delivery Systems. Sapna K. Deo, Elissavet A. Moschou, Serban F. Peteu, Leonidas G. Bachas, Sylvia Daunert, Patricia E. Eisenhardt, and Marc J. Madou. 75: 206 A–213 A Lectins: Proteins That Interpret the Sugar Code. Carol L. Nilsson. 75: 348 A–353 A So What’s the Deal with Metabono mics? Elaine Holmes, John C. Lindon, and Jeremy K. Nicholson. 75: 384 A–391 A Tailoring Thresholds for GMO Testing. Laura Ruth. 75: 392 A–396 A Clinical Proteomics: Are We There Yet? Katie Cottingham. 75: 472 A–476 A Biomolecular Interaction Analysis and MS. Benedetta Mattei, Jonas Borch, and Peter Roepstorff. 76: 18 A–25 A Profiling and Imaging Proteins in Tissue Sections by MS. Pierre Chaurand, Sarah A. Schwartz, and Richard M. Caprioli. 76: 86 A–93 A Name That Peptide. Katie Cottingham. 76: 94 A–97 A Chemistry of Thought: Neurotransmitters in the Brain. Jeffrey N. Stuart, Amanda B. Hummon, and Jonathan V. Sweedler. 76: 120 A–128 A Top-Down Proteomics. Neil L. Kelleher. 76: 196 A–203 A © 2 0 0 7 A m e r i ca n C h e m i ca l S o c i e t y
Single-Cell Scene. Katie Cottingham. 76: 235 A–238 A Don’t Waste Your Breath. Rajendrani Mukhopadhyay. 76: 273 A–276 A Ion Channel Sensors Based on Artificial Receptors. Yoshio Umezawa and H iroshi Aoki. 76: 320 A–326 A IR Spectroscopy in Clinical and Diagnostic Applications. Janie Dubois and R. Anthony Shaw. 76: 360 A–367 A Do You Believe in Lipid Rafts? Katie Cottingham. 76: 403 A–406 A Bringing up MRFM. Rajendrani Mukhopadhyay. 76: 449 A–452 A
Immunoaffinity CE for Proteomics Studies. Norberto A. Guzman and Terry M. Phillips. 77: 60 A–67 A Aptamers Are Ready for the Spotlight. Rajendrani Mukhopadhyay. 77: 114 A–118 A Systems Biology: A Boon for Analytical Chemists? Katie Cottingham. 77: 197 A–200 A Quest for High-Speed and Low-Volume Bioanalysis. Thomas Laurell, Johan Nilsson, and György Marko-Varga. 77: 264 A–272 A Quantitative MS for Proteomics: Teach-
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ing a New Dog Old Tricks. Michael J. MacCoss and Dwight E. Matthews. 77: 294 A–302 A Rapid LC/MS/MS Method Development for Drug Discovery. Xiaoying Xu, Jing Lan, and Walter A. Korf macher. 77: 389 A–394 A MS on the Bioterror Front Lines. Katie Cottingham. 78: 18–23 Watching Silica Nanoparticles Glow in the Biological World. Lin Wang, Kemin Wang, Swadeshmukul Santra, Xiaojun Zhao, Lisa R. Hilliard, Joshua E. Smith, and Weihong Tan. 78: 646–654 In Vivo Measurements of Neurotransmitters by Microdialysis Sampling. Christopher J. Watson, B. Jill Venton, and Robert T. Kennedy. 78: 1391–1399 Devices To Drool For. Rajendrani Mukhopadhyay. 78: 4255–4259 Making Inroads on Malaria. Thomas Hayden. 78: 5252–5260 Challenges for Clinical Diagnostic Devices. Randal C Willis. 78: 5261–5265 Hinge-Motion Binding Proteins: Unraveling Their Analytical Potential. Elizabeth A. Moschou, Leonidas G. Bachas, Sylvia Daunert, and Sapna K. Deo. 78: 6692–6700 In Vivo Chemical Sensors: Tackling Biocompatibility. Megan Frost and Mark E. Meyerhoff. 78: 7370–7377 Dynamic Single-Cell Analysis for Quantitative Biology. Dino Di Carlo and Luke P. Lee. 78: 7918–7925 Neuropeptidomics: MS Applied to the Discovery of Novel Peptides from the Brain. Marcus Svennson, Karl Sköld, Anna Nilsson, Maria Fälth, Katarina Nydahl, Per Svenningsson, and Per E. Andrén. 79: 14–21 Chemical Analysis of Single Mammalian Cells with Microfluidics. Alexander K. 8848
Price and Christopher T. Culbertson. 79: 2614–2621 MicroRNA Detection Challenges for the Analytical Chemist. Kyle A. Cissell, Suresh Shrestha, and Sapna K. Deo. 79: 4754–4761 Analysis of Cationic-Lipid–Plasmid DNA Complexes. C. Russell Middaugh and Joshua D. Ramsey. 79: 7240–7248 Electron Tomography: A 3D View of the Subcellular World. Kenneth H. Downing, Haixin Sui, and Manfred Auer. 79: 7949–7957 The Way of the Array. Jennifer Griffiths. 79: 8833–8837
Data handling
Breaking up is hard to . . . predict. Katie Cottingham. 76: 291 A Beyond the t-Test: Statistical Equivalence Testing. Giselle B. Limentani, Moira C. Ringo, Feng Ye, Mandy L. Bergquist, Ellen O. McSorley. 77: 221 A–226 A Comparing MS/MS search engines. Katie Cottingham. 78: 643 Holistic therapy for proteomics experiments. Katie Cottingham. 79: 7237
Education
Analytical Chemistry in the Developing World. Theodros Solomon, Malin Åkerblom, and Erik W. Thulstrup. 75: 106 A–113 A Scientists Create Bonds with Artists. Michael J. Felton and Rachel Petkewich. 75: 166 A–173 A Problem-Solving Case Studies. Stephen Summerfield, Tina Overton, and Simon Belt. 75: 181 A–182 A The Physicist and His Patents. Cheryl Harris. 75: 252 A–257 A Teaching Undergraduate Analytical Science with the Process Model. Brian W.
A n a l y t i ca l C h e m i s t r y / D E C e m b e r 1 , 2 0 0 7
Woodget. 75: 307 A–310 A Controlling the Climate in Your Classroom. Thomas J. Wenzel. 75: 311 A–314 A Analytical Sciences Digital Library. Cynthia K. Larive, Theodore Kuwana, and Stuart Chalk. 76: 398 A–402 A Instrumental Analysis in the Undergraduate Curriculum. Angela Fahey and Julian Tyson. 78: 4249–4254 Linking Community Service, Learning, and Environmental Analytical Chemistry. Joseph A. Gardella, Jr., Tammy M. Milillo, Gaurav Sinha, Gunwha Oh, David C. Manns, and Eleanor Coffey. 79: 810–818
Electroanalytical
Psychoanalytical Electrochemistry: Dopamine and Behavior. B. Jill Venton and R. Mark Wightman. 75: 414 A–421 A Electrochemical Impedance Spectroscopy for Better Electrochemical Measurements. Su-Moon Park and JungSuk Yoo. 75: 455 A–461 A Prospects of Clay Mineral Electrodes. Jyh-Myng Zen and Annamalai Senthil Kumar. 76: 205 A–211 A Redox and Photoactive Dendrimers in Solution and on Surfaces. Héctor D. Abruña. 76: 310 A–319 A Changing the Look of Voltammetry. Alan M. Bond, Noel W. Duffy, SiXuan Guo, Jie Zhang, and Darrell Elton. 77: 186 A–195 A Random Walk through Electron-Transfer Kinetics. Ryan J. White and Henry S. White. 77: 214 A–220 A When Voltammetry Reaches Nanoseconds. Christian Amatore and Emmanuel Maisonhaute. 77: 303 A–311 A Organic Thin-Film Transistors as Plastic Analytical Sensors. Luisa Torsi and Ananth Dodabalapur. 77: 380 A–387 A Analytical Challenges in Molecular Electronics. Richard L. McCreery. 78: 3490–3497
Environmental
Rock Varnish and the Manganese Oxide Connection. Barry E. DiGregorio. 77: 433 A–438 A Water Analysis in the Developing World. Deborah L. Illman. 78: 5266– 5272
news and features index
High-Resolution and Accurate Mass Analysis of Xenobiotics in Food. E. Michael Thurman, Imma Ferrer, and Jerry A. Zweigenbaum. 78: 6702– 6708; 78: 7905 Challenges in Perfluorocarboxylic Acid Measurements. Barbara S. Larsen and Mary A. Kaiser. 79: 3966–3973
Forensics
Finding a Real Gem. Rachel Petkewich. 75: 71 A–74 A Detection of Explosives by Electronic Noses. Jehuda Yinon. 75: 98 A–105 A FBI Laboratory. Wilder D. Smith. 76: 175 A–178 A Ion Mobility Spectrometers in National Defense. G. A. Eiceman and J. A. Stone. 76: 390 A–397 A Vinland: An Inky Controversy Lives. Rex Graham. 76: 407 A–412 A Forensic Chemistry Education. José R. Almirall. 77: 69 A–72 A Hunt for Counterfeit Medicine. Rajendrani Mukhopadhyay. 79: 2622–2627 Catching Doping Athletes. Rajendrani Mukhopadhyay. 79: 5522–5528 Broadband Detection of Environmental Neurotoxicants. Thomas J. O’Shaughnessy and Joseph J. Pancrazio. 79: 8838–8845
Mass spectrometry
Chiral Analysis by MS. W. Andy Tao and R. Graham Cooks. 75: 25 A–31 A Sulfonic Acid Derivatives for Peptide Sequencing by MALDI MS. Thomas Keough, R. Scott Youngquist, and Martin Lacey. 75: 156 A–165 A Electron Ionization for LC/MS. Achille Cappiello, Giorgio Famiglini, and Pierangela Palma. 75: 496 A–503 A Arsenic Speciation. X. Chris Le, Xiufen Lu, and Xing-Fang Li. 76: 26 A–33 A Plasma Source TOFMS. Denise M. McClenathan, Steven J. Ray, William C.
Wetzel, and Gary M. Hieftje. 76: 158 A–166 A Petroleomics: MS Returns to Its Roots. Ryan P. Rodgers, Tanner M. Schaub, and Alan G. Marshall. 77: 20 A–27 A Magic of Cluster SIMS. Nicholas Winograd. 77: 142 A–149 A MS Detectors. David Koppenaal, Charles J. Barinaga, M. Bonner Denton, Roger Sperline, Gary M. Hieftje, Gregory D. Schilling, Francisco J. Andrade, and James H. Barnes, IV. 77: 418 A–427 A Native Protein MS and Ion Mobility: Large Flying Proteins with ESI. Catherine S. Kaddis and Joseph A. Loo. 79: 1778–1784 Using the Electrochemistry of the Electrospray Ion Source. Gary J. Van Berkel and Vilmos Kertesz. 79: 5510–5520 Viking GC/MS and the Search for Organics on Mars. Rajendrani Mukhop adhyay. 79: 7249–7256
Microscale
Organic and Biomimetic Designs for Microfluidic Systems. Jaisree Moorthy and David J. Beebe. 75: 292 A–301 A New Generation of Microvalves. Michael J. Felton. 75: 429 A–432 A Thermal Lens Microscopy and Microchip Chemistry. Takehiko Kitamori, Manabu Tokeshi, Akihide Hibara, and Kiichi Sato. 76: 52 A–60 A Internet-Scale Sensing. Dermot Diamond. 76: 278 A–286 A Patch Clamping Moves to Chips. Hanns-J. .Neubert. 76: 327 A–330 A Barcoding the Microworld. Nancy H. Finkel, Xinhui Lou, Cuiying Wang, and Lin He. 76: 352 A–359 A Microfluidic Systems for Integrated, High-Throughput DNA Analysis. Ryan T. Kelly and Adam T. Woolley. 77: 96 A–102 A Molecular Motors Meet Microfluidic Systems. Rajendrani Mukhopadhyay. 77: 249 A–252 A When Microfluidic Devices Go Bad. Rajendrani Mukhopadhyay. 77: 429 A–432 A Diving into Droplets. Rajendrani Mukhopadhyay. 78: 1401–1404 Nanowire-Based Biosensors. Fernando Patolsky, Gengfeng Zheng, and
Charles M. Lieber. 78: 4260–4269 Chemical Analysis in Nanoscale Surfactant Networks. Roger Karlsson, Anders Karlsson, Andrew Ewing, Paul Dommersnes, Jean-Francois Joanny, Aldo Jesorka, and Owe Orwar. 78: 5960–5968 What Does Nanofluidics Have To Offer? Rajendrani Mukhopadhyay. 78: 7379–7382 Portraits of Life, One Molecule at a Time. Randall C Willis. 79: 1785– 1788 When PDMS Isn’t the Best. Rajendrani Mukhopadhyay. 79: 3248–3253
Separations
Unified Chromatography with CO2Based Binary Mobile Phases. P. S. Wells, S. Zhou, and J. F. Parcher. 75: 18 A–24 A Shrinking the LC Landscape. Cheryl Harris. 75: 64 A–69 A CD Simplicity. Michael J. Felton. 75: 302 A–306 A Molecularly Imprinted Polymers: The Next Generation. Karsten Haupt. 75: 376 A–383 A GC × GC. J.-M. D. Dimandja. 76: 167 A–174 A Characterizing HPLC Stationary Phases. Katarzyna Krupczyn´ ska, Bogusław Buszewski, and Pavel Jandera. 76: 226 A–234 A Micellar Electrokinetic Chromatography. Shigeru Terabe. 76: 240 A–246 A Chromatographic Separation of Ful lerenes. Yoshihiro Saito, Hatsuichi Ohta, and Kiyokatsu Jinno. 76: 266 A–272 A Shear-Driven Flow Approaches to LC and Macromolecular Separations. David Clicq, Kris Pappaert, Sarah Vankrunkelsven, Nico Vervoort, Gino V. Baron, and Gert Desmet. 76: 430 A–438 A
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Columns. L. R. Snyder, J. W. Dolan, and P. W. Carr. 79: 3254–3262 Electrochemical Aspects of IonicLiquid|Water Two-Phase Systems. Takashi Kakiuchi. 79: 6442–6449
Spectroscopy
Biosensor Alternative: Frontal Affinity Chromatography. David C. Schriemer. 76: 440 A–448 A Multiple Detection in Size-Exclusion Chromatography of Macromolecules. André M. Striegel. 77: 104 A–113 A Using NMR to Develop Insights into Electrokinetic Chromatography. Kevin F. Morris, Angela L. Froberg, Bridget A. Becker, Valentino K. Almeida, Jepkoech Tarus, and Cynthia K. Larive. 77: 254 A–263 A Search for Organic Molecules on Mars. Barry E. DiGregorio. 77: 348 A–353 A Advancing LC Performance with Smaller Particles and Higher Pressure. Jeffrey R. Mazzeo, Uwe D. Neue, Marianna Kele, Robert S. Plumb. 77: 460 A–467 A Chiral Recognition Mechanisms. Alain Berthod. 78: 2093–2099 Monolithic Materials: Promises, Challenges, Achievements. Frantisek Svec and Christian G. Huber. 78: 2100–2107 Ionic Liquids in Analytical Chemistry. Jared L. Anderson, Daniel W. Armstrong, and Guor-Tzo Wei. 78: 2892– 2902; 79: 4247 Affinity-Based Strategies for Protein Purification. Kalyani Mondal, Munishwar N. Gupta, and Ipsita Roy. 78: 3499–3504 Separation Media for Microchips. Mary Wirth. 79: 800–808 New Look at the Selectivity of RPC
8850
FTIR Spectra Database of Inorganic Art Materials. Kepa Castro, Maite Pérez, Maria Dolores Rodríguez-Laso, and Juan Manuel Madariaga. 75: 214 A–221 A Mid-IR Fiber-Optic Sensors. Boris Mizaikoff. 75: 258 A–267 A Laser Ablation-ICPMS. Bodo Hattendorf, Christopher Latkoczy, and Det lef Günther. 75: 341 A–347 A Dynamic Reaction Cell ICPMS for Trace Metal Analysis of Semiconductor Materials. Katsu Kawabata, Yoko Kishi, and Robert Thomas. 75: 422 A–428 A Analytical Bioluminescence and Chemi luminescence. Aldo Roda, Massimo Guardigli, Elisa Michelini, Mara Mirasoli, and Patrizia Pasini. 75: 462 A–470 A Chiral Analysis Using Mid-IR Vibrational CD Spectroscopy. Prasad L. Polavarapu and Jiangtao He. 76: 61 A–67 A Numerical Simulation of Aerosol Transport in Atomic Spectrometry. Joachim Koch, Gerhard Schaldach, Harald Berndt, and Kay Niemax. 76: 130 A–136 A Planar Integrated Optical Waveguide Spectroscopy. John Thomas Bradshaw, Sergio B. Mendes, and S. Scott Saavedra. 77: 28 A–36 A Traceability of Single-Element Calibration Solutions. Marc L. Salit and Gregory C. Turk. 77: 136 A–141 A Exploring Life by Single-Molecule Fluorescence Spectroscopy. Hannes Neuweiler and Markus Sauer. 77: 178 A–185 A Surface-Enhanced Raman Spectroscopy. Christy L. Haynes, Adam D. McFarland, Richard P. Van Duyne. 77: 338 A–346 A Quantum Dots Leave the Light On. Katie Cottingham. 77: 354 A–357 A Emission Enhancement Mechanisms in Dual-Pulse LIBS. Jon Scaffidi, S. Michael Angel, and David A. Cremers. 78: 24–32
A n a l y t i ca l C h e m i s t r y / D E C e m b e r 1 , 2 0 0 7
Extraordinary IR Transmission with Metallic Arrays of Subwavelength Holes. James V. Coe, Shaun M. Williams, Kenneth R. Rodriguez, Shannon Teeters-Kennedy, Alexandra Sudnitsyn, and Frank Hrovat. 78: 1384–1390 Femtosecond Stimulated Raman Spectroscopy. Philipp Kukura, Sangwoon Yoon, Richard A. Mathies. 78: 5952–5959 Raman Spectroscopy for Medical Diagnosis. Jennifer Griffiths. 79: 3975–3978
AC detective
Finding acrylamide. Britt E. Erickson. 76: 247 A–248 A Tracing the origin of perchlorate. Britt E. Erickson. 76: 388 A–389 A Piecing together the perfluorinated puzzle. Rebecca Renner. 77: 15 A–16 A An impurity in cold medicine. Britt E. Erickson. 77: 94 A–95 A When trees talk. K. Christen. 77: 165 A Following PBDEs. Rebecca Renner. 77: 289 A–290 A Vultures in decline. Rebecca Renner. 77: 335 A Bacteria rescue fresco. Rajendrani Mukhopadhyay. 77: 457 A–458 A Drugs in the water. Karen Ross. 78: 13 Finding designer steroids. Britt Erickson. 78: 641 Long-term effects of Exxon Valdez. Rebecca Renner. 78: 2091–2092 Unraveling the mystery of the solar system. Barry E. DiGregorio. 78: 3498 Colors of a 17th-century Swedish battleship. Rajendrani Mukhopadhyay. 78: 6690–6691 Chilean fertilizer leaves perchlorate legacy. Vida Foubister. 78: 7914–7915 How Stradivari and Guarneri got their music. Rajendrani Mukhopadhyay. 79: 819–820
news and features index
What made the rain red in India? Barry E. DiGregorio. 79: 3238 Chasing down drugged racehorses. Rajendrani Mukhopadhyay. 79: 4749–4750 Testing their metal. Jennifer Griffiths. 79: 5507–5508 Fingerprints reveal drug habits. Rajendrani Mukhopadhyay. 79: 5521 All you need is sound. Barry E. DiGregorio. 79: 7236
AC webworks
XML model for analytical instrument data. Don Kuehl. 75: 125 A–127 A Scanning the web for scanning probe microscopy. Steve Miller. 75: 433 A–434 A MassSpectator: Fully automated peak picking and integration. William E. Wallace, Anthony J. Kearsley, and Charles M. Guttman. 76: 183 A– 184 A
Bio sphere
Measuring cellular forces with micro needles. Katie Cottingham. 76: 69 A Scanning electron microscopy gets drenched. Rajendrani Mukhopadhyay. 76: 293 A Using dispersion to detect binding. Katie Cottingham. 76: 368 A Finding cancer cells with quantum dots. Linda Sage. 76: 453 A Peering into the depths of embryos. Katie Cottingham. 77: 54 A Microarrays for drug screening. Linda Sage. 77: 135 A Where the lipids are. Katie Cottingham. 77: 213 A New spin on MRI. Linda Sage. 77: 288 A Analyzing networks in embryos. Rajendrani Mukhopadhyay. 77: 379 A Fishing for MAGIC targets. Linda Sage 77: 417 A
Metabolite biomarkers for tumors. Laura Tomky Cassiday. 77: 456 A Old alginates solve new problems. Sarah Webb. 78: 15 A versatile glycomics tool. Laura Tomky Cassiday. 78: 644 Cell tracking in vivo with MRI. Erika Gebel. 78: 1400 Schizophrenia leaves its signature in the blood. Linda Sage. 78: 2877 Detecting mucins in vivo. Linda Sage. 78: 4246 Delving deep into the parasite proteome. Katie Cottingham. 78: 5277 MS puts a number on enzymatic activity. Rajendrani Mukhopadhyay. 78: 5950 Following cellular traffic with CARS. Karen Ross. 78: 6701 Microfluidic field-effect device for heparin. Rajendrani Mukhopadhyay. 78: 7917 Weighing ribosomes with MS. Laura Tomky Cassiday. 78: 7926 Overcoming the challenges of mammalian neuropeptidomics. Katie Cottingham. 79: 12 Probing complex biological systems with simple chemistry. Thomas Hayden. 79: 22 By their genes you shall know them. Linda Sage. 79: 799 Gene analysis on a single chip. Joe Alper. 79: 809 Proteomics of the uncultured endosymbiont of Riftia pachyptila. Jennifer Griffiths. 79: 2612 Directly counting proteins in a cell. Rajendrani Mukhopadhyay. 79: 2628 Deciphering cellular conversations. Rajendrani Mukhopadhyay. 79: 3962 Programming bugs. Jennifer Griffiths. 79: 6441 Solution-phase NMR of live cells. Jennifer Griffiths. 79: 7257
First, catch a worm. Linda Sage. 79: 7948 How shipworms get their nitrogen fix. Rajendrani Mukhopadhyay. 79: 8831 Spotting bird flu drop by drop. Christine Piggee. 79: 8832
Books
HPLC Solvent Guide. F. Dondi. 75: 79 A Analysis of Environmental Endocrine Disruptors. Edward Furlong. 75: 183 A Hyphenated Techniques in Speciation Analysis. Janusz Pawliszyn. 76: 248 A Bioanalytical Chemistry. Andreas Manz. 76: 373 A Analytical and Physical Electrochemistry. Zhifeng Ding. 76: 415 A Modern Practice of Gas Chromatography. Harold McNair. 77: 77 A Chemometrics: From Basics to Wavelet Transform. B. Lavine. 77: 77 A–78 A More Practical Problem Solving in HPLC. Ira Krull. 77: 318 A Modern Raman Spectroscopy: A Practical Approach. Michael Morris. 78: 33 Identification of Microorganisms by Mass Spectrometry. Carol Nilsson. 78: 7383 Advances in Chromatography, Vol. 44. Ira Krull. 79: 24 Surface-Enhanced Vibrational Spectroscopy. Bruce Chase. 79: 7964 Analytical Electrochemistry. David O. Wipf. 79: 8846
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news and features index
Editorials and letters to the editor
Chips and More Chips. Royce W. Murray. 75: 5 A Big Science versus Small Science. Edward Yeung. 75: 85 A Analytical Chemistry and the Weather. Royce W. Murray. 75: 133 A New Angles and Cavities. Royce W. Murray. 75: 189 A Organizing Supporting Information. Royce W. Murray. 75: 237 A Clarity First: Language in Research Articles. Royce W. Murray. 75: 277 A Electrochemical Evolution and Invitation to the Future. Royce W. Murray. 75: 325 A On the Value of an Open Discussion. Royce W. Murray. 75: 365 A Reviewer Standards for Authors. Royce W. Murray. 75: 405 A Science Projects and (Very) Young Analytical Chemists. Royce W. Murray. 75: 445 A Brand Loyalty and the Age of Acquisition. Royce W. Murray. 75: 485 A Synthesis Is the Bow of the Chemical Boat. Royce W. Murray. 76: 5 A Pittcon Preview. Royce W. Murray. 76: 45 A This Journal’s A-Page Foundation. Royce W. Murray. 76: 77 A Cost of Chemical Analysis in Space. Royce W. Murray. 76: 109 A “Cadmium Horses” and Glucose. Royce W. Murray. 76: 149 A Words with Multiple Meanings. Royce W. Murray. 76: 189 A Read the Instructions. Royce W. Murray. 76: 220 A Cross-Over Research. Royce W. Murray. 76: 253 A Better Living Through Chemistry, Unless You’re Blattella germanica. Royce W. Murray. 76: 300 A 8852
Analytical Chemistry: The Science of Chemical Measurements. Royce W. Murray. 76: 341 A Mechanisms of Fullerene Separations. John C. Fetzer. 76: 342 A What’s in a Title—and What’s Missing? Royce W. Murray. 76: 381 A Analytical Chemistry for the American People! Royce W. Murray. 76: 421 A Enabling Fast GC Separations. Royce W. Murray. 77: 5 A Electronic Noses: Wake Up and Smell the Coffee. David R. Walt. 77: 45 A Good Analytical Chemists Are Good Chemists First. Royce W. Murray. 77: 85 A The Chemical Fertilizer Called New Space. Royce W. Murray. 77: 125 A Chapters of Our Lives. Royce W. Murray. 77: 156 A Editorial Review Policy. Royce W. Murray. 77: 205 A Effects of Having a Department of Homeland Security. Royce W. Murray. 77: 237 A Enabling Monoliths. Royce W. Murray. 77: 277 A Analytical Chemistry and Permafrost. Royce W. Murray. 77: 325 A Responsibilities of Tenure Evaluators. Royce W. Murray. 77: 365 A Rising Cost of an Education. Royce W. Murray. 77: 405 A Moving Targets. Royce W. Murray. 77: 445 A Fifteen Years and Counting. Royce W. Murray. 78: 2 Student Knowledge: Who Owns It? Royce W. Murray. 78: 632 Let’s Continue To Teach About Building Instruments. Royce W. Murray. 78: 1372 Analytical Chemistry Measurement Cop on Buzzwords. Royce W. Murray. 78: 2080
A n a l y t i ca l C h e m i s t r y / D E C e m b e r 1 , 2 0 0 7
Happy 100th Birthday! Royce W. Murray. 78: 2868 Sociology of Science and Scientific Creativity. Royce W. Murray. 78: 3479 Response to an Old-Fashioned Thought Cop. Robin D. Rogers and Kenneth R. Seddon. 78: 3480–3481 Editor responds to Response to an OldFashioned Thought Cop. Royce W. Murray. 78: 3481 Person to Person: Human Interaction and Scientific Creativity. Royce W. Murray. 78: 4237 Public Impact of Science. Royce W. Murray and Catherine Fenselau. 78: 5233 Electronic Counting of What Is Read Most. Royce W. Murray. 78: 5941 Arnold Orville Beckman, 1900–2004. Royce W. Murray. 78: 6679 Educational Budgets (i.e., Time). Royce W. Murray. 78: 7353 U.S. Chemists = Immigrants. Royce W. Murray. 78: 7901 Analytical Chemistry and Chemical Composites. Royce W. Murray. 79: 1 Virtual Analytical Chemistry Laboratories. Royce W. Murray. 79: 790 Analytical Chemistry Is Still the Science of Chemical Measurements. Royce W. Murray. 79: 1765 Letters from Chicago. Royce W. Murray. 79: 2599 Big Energy “Fish” in Need of Some Measurements. Royce W. Murray. 79: 3227 Civility in Chemistry and Discovering the Chemical Secrets of Life. Royce W. Murray. 79: 3951 Single-Molecule Chemistry. Royce W. Murray. 79: 4739 Services Offered by Analytical Chemists. Royce W. Murray. 79: 5495 Michael Faraday’s Advice to the Lecturer. Royce W. Murray. 79: 6425 Influences of High School Science and Math. Royce W. Murray. 79: 7227 EuroAnalysis XIV. Royce W. Murray. 79: 7935 Honors Course in Introductory Analytical Chemistry. Royce W. Murray. 79: 8817
Government and society
Proteomic standards under way. Laura Ruth. 75: 145 A–146 A
news and features index
Low-tech chemical detector badge. Kris Christen. 75: 204 A–205 A Swan song for the spectrochemical award? Wilder D. Smith. 75: 453 A Lowering the bar on perchlorate detection. Kris Christen. 75: 494 A–495 A Prion research wish list. Laura Ruth. 76: 51 A Enzyme-based defense against GHB. Wilder D. Smith. 76: 118 A USDA bans private BSE testing. Katie Cottingham. 76: 225 A Unclogging justice. Laura Ruth. 76: 225 A Chemical genomics network. Britt E. Erickson. 76: 262 A Standards glow with the flow. Laura Ruth. 76: 387 A Reproducible microarrays? Katie Cottingham. 77: 246 A Mars Reconnaissance Orbiter launched. Barry E. DiGregorio. 77: 374 A–375 A FBI bullet-lead tests terminated. Betsy Querna. 77: 414 A Bomb-sniffing dogs. Karen Ross. 77: 453 A Proteomics gets out of a fix. Linda Sage. 77: 454 A–455 A Trans fat free—is it really? Britt Erickson. 78: 7 ACS Division of Analytical Chemistry teams up with Pittcon. Rajendrani Mukhopadhyay. 78: 4243 Platinum paper sparks controversy. Britt Erickson. 78: 5240–5242 Properly Functioning Scientific Equipment in Developing Countries. Cecilia B. Öman, Karniyus Shingu Gamaniel, and Marian E. Addy. 78: 5273–5276 First electrochemistry laboratory to go to Mars. B. E. DiGregorio. 78: 6685 Do microarrays measure up? Linda Sage. 78: 7358–7360 Measuring antibiotics in milk. Hanns-J. Neubert. 78: 7908
Detecting pathogens on produce. Linda Sage. 79: 7–9 Thailand and U.S. strengthen analytical ties. Vida Foubister. 79: 794 The science behind Floyd Landis’s guilty verdict. Rajendrani Mukhop adhyay and Jennifer Griffiths. 79: 8823–8825
In my shoes
Doctors’ view in Peru. Elizabeth Zubritsky. 76: 349 A–350 A Colorful chemistry. Rajendrani Muk hopadhyay. 77: 52 A–53 A Assays that take flight. Elizabeth Zubritsky. 77: 247 A–248 A On the defense. Rajendrani Mukhop adhyay. 77: 291 A–292 A Title IX and chemistry. Elizabeth Zubritsky. 77: 377 A–378 A The road less traveled to nanowire sensors. Elizabeth Zubritsky. 78: 2890–2891 When diagnostic assays don’t go global. Rajendrani Mukhopadhyay. 78: 5278–5279 Early do-it-yourself microfluidics in China. Thanh Wang. 78: 5973 Exploring the proteomics universe. Elizabeth Zubritsky. 78: 7368–7369 The man who discovered life on Mars. Barry E. DiGregorio. 79: 1775–1777 Catching the bad sports. Rajendrani Mukhopadhyay. 79: 3963–3965 Sweet science at the Library of
Congress. Thomas Hayden. 79: 6439–6440 A quest for fun. Rajendrani Mukhop adhyay. 79: 7945–7947
Instrumentals
Thinking outside the MS box. Katie Cottingham. 77: 17 A Braille pins control microfluidic flow. Britt E. Erickson. 77: 93 A Atomic force microscopy on a chip. Raj endrani Mukhopadhyay. 77: 166 A Sideways look by NMR. Steve Miller. 77: 293 A EM enters the fourth dimension. Mary Quirk. 77: 336 A Faster, cheaper DNA sequencing. Linda Sage. 77: 415 A Portable device for live tissue imaging. Steve Miller. 78: 17 Imaging under the surface. Joe Alper. 78: 645 NMR in the woods. Erika Gebel. 78: 2090 Tiny ion traps. Katie Cottingham. 78: 5248 Biological molecules skip past the diffraction barrier. Rajendrani Mukhop adhyay. 78: 7365–7367 Closing the gap in membrane imaging. Thomas Hayden. 78: 7916 Atomic force and optical microscopy align themselves. Rajendrani Mukhop adhyay. 78: 7927 Top-down MS of large proteins: a new record. Katie Cottingham. 79: 13 LC provides peptide sequence information. Elizabeth Zubritsky. 79: 23 AFM tells elements apart. Rajendrani Mukhopadhyay. 79: 3974 It’s getting hot out here. Jennifer Griffiths. 79: 4762 Mass sensor gets very sensitive. Rajen drani Mukhopadhyay. 79: 4768 You spin me round right, baby. Thomas Hayden. 79: 6438 Pump it up—but just a little. Thomas Hayden. 79: 7258
Lab fab
Putting a spin on microdevices. Kim Krieger. 77: 376 A Mobile microfluidic probe unleashed. Sarah Webb. 77: 459 A SERS in the spotlight. Kim Krieger. 78: 16 D E C e m b e r 1 , 2 0 0 7 / A n a l y t i ca l C h e m i s t r y
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Reversible sealing improves arrays. Steve Miller. 78: 642 Cytoskeletal proteins get their own rooms. Sarah Webb. 78: 1382 Electrons ease microfabrication. Rajendrani Mukhopadhyay. 78: 2878 Building microfluidic devices one drop at a time. Joe Alper. 78: 3508 Microparticles of all shapes and chemistries. Rajendrani Mukhopadhyay. 78: 4247 Massively parallel single-cell analyses. Joe Alper. 78: 5249 Closing the loop in 3D fabrication. Raj endrani Mukhopadhyay. 78: 5951 Going from flat to 3D. Rajendrani Mukhopadhyay. 78: 6689 Nanowires and molecular beacons for DNA analysis. Thomas Hayden. 79: 1789 The new deal. Jennifer Griffiths. 79: 3237 Portable protein nanopore. Laura Cassiday. 79: 3979 NMR probe gets new geometry. Rajendrani Mukhopadhyay. 79: 5509 New capabilities for nanocapillary arrays. Thomas Hayden. 79: 6450 First DIBS on protocell networks. Laura Cassiday. 79: 7239
Hydrogels get a new focus. Sarah Webb. 78: 7378 Novel response materializes. Thomas Hayden. 79: 2613 Thinking thin for molecular filtration. Thomas Hayden. 79: 3263 Capturing anions from complex samples. Rajendrani Mukhopadhyay. 79: 7238
Obituaries
Ralph N. Adams (1924–2002). Ted Kuwana. 75: 96 A Howard V. Malmstadt (1922–2003). Stanley Crouch. 75: 374 A Csaba Horváth (1930–2004). Georges Guiochon and Lois Ann Beaver. 76: 195 A Arnold Orville Beckman (1900–2004). Jerry Gallwas. 76: 264 A–265 A George H. Morrison (1921–2004). Héctor D. Abruña. 76: 265 A Robert A. Osteryoung (1927–2004). R. Mark Wightman. 76: 348 A Richard D. Sacks (1942–2006). Megan McGuigan. 78: 2873
Material world
Nanotubes tie the knot. Rajendrani Mukhopadhyay. 76: 336 A Carbon nanotubes take new shape. R ajendrani Mukhopadhyay. 76: 414 A Nanotubes form an antimicrobial magic carpet. Eurona Earl Tilley. 77: 18 A Magnetic dust mobilizes droplets. Rajen drani Mukhopadhyay. 77: 55 A Microdevices flex their muscles. Rajendrani Mukhopadhyay. 77: 167 A Coating for all surfaces. Rajendrani Mukhopadhyay. 77: 253 A Virus serves as nanoshell scaffold. Joe Alper. 77: 337 A E. coli stick to the right. Rajendrani Mukhopadhyay. 77: 428 A Nanotubes probe cellular secrets. Kim Krieger. 78: 1383 Squeezable gel separates cells. Rajendrani Mukhopadhyay. 78: 2879 Vesicle making goes microfluidic. Rajendrani Mukhopadhyay. 78: 4248 Quantum-dot aerogels. Nicole Branan. 78: 5975 8854
Product review
Endearing FTIR spectrophotometer. James P. Smith and Vicki HinsonSmith. 75: 37 A–39 A Raman on the run. Cheryl Harris. 75: 75 A–78 A Plasma opens new doors in isotope ratio MS. Michael J. Felton. 75: 119 A–123 A Real-time PCR takes center stage. Laura DeFrancesco. 75: 175 A–179 A Shedding light on NSOM. Cheryl Harris. 75: 223 A–228 A On the surface with auger electron spectroscopy. Michael J. Felton. 75: 269 A–271 A Hybrid vigor for mass spectrometers. Katie Cottingham. 75: 315 A–319 A Seeing SAW potential. Cheryl M. Harris. 75: 355 A–358 A
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Liquid handling: Dispensing reliability. Michael J. Felton. 75: 397 A–399 A Ion mobility spectrometry rediscovered. Katie Cottingham. 75: 435 A–439 A Prep LC systems for chemical separations. Steve Miller. 75: 477 A–479 A Lab on a chip: Poised on the brink. Michael J. Felton. 75: 505 A–508 A ICPMS: It’s elemental. Katie Cottingham. 76: 35 A–38 A Separations in a monolith. Steve Miller. 76: 99 A–101 A Protein biochips go high tech. Linda Sage. 76: 137 A–142 A Multiple choices for SNPs. Katie Cottingham. 76: 179 A–181 A Old reliable benchtop GC/MS. Rajendrani Mukhopadhyay. 76: 213 A–216 A SFG coming of age. James P. Smith and Vicki Hinson-Smith. 76: 287 A–290 A Integrated proteomics systems bring the pieces together. Katie Cottingham. 76: 331 A–335 A Portable FTIR spectrometers get moving. R. Mukhopadhyay. 76: 369 A–372 A Chemical informatics. James P. Smith and Vicki Hinson-Smith. 77: 37 A–39 A Incredible shrinking flow cytometers. Katie Cottingham. 77: 73 A–76 A Automated union of LC and MALDI MS. Rajendrani Mukhopadhyay. 77: 150 A–152 A Versatile TOFMS. Katie Cottingham. 77: 227 A–231 A Surface plasmon resonance instruments diversify. Rajendrani Mukhopadhyay. 77: 313 A–317 A Seeing (and picking) spots. Katie Cottingham. 77: 395 A–399 A AFM goes mainstream. Rajendrani Mukhopadhyay. 77: 469 A–474 A FTMS: Overcoming challenges. Katie Cottingham. 78: 655–657 CE: Moving away from specialists. Rajendrani Mukhopadhyay. 78: 2109–2111 New era of SAW devices. James P. Smith and Vicki Hinson-Smith. 78: 3505–3507 Versatility of microarrayers. Rajendrani Mukhopadhyay. 78: 5969–5972 Not your run-of-the-mill test tube. Karen Jonscher. 78: 6709–6713 Confocal microscopy: not just for pretty pictures. Rajendrani Mukhopadhyay. 78: 7929–7932
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Raman flexes its muscles. Rajendrani Mukhopadhyay. 79: 3265–3270 Increasing the speed of LC analysis. Steve Miller. 79: 4751–4753 Uncertainty in modern spectrophotometers. Javier Galbán, Susana de Marcos, Isabel Sanz, Carlos Ubide, and Juan Zuriarrain. 79: 4763–4767 Quantitative proteomics comes of age. Jennifer Griffiths. 79: 6451–6454 Liquid NMR probes: Oh so many choices. Rajendrani Mukhopadhyay 79: 7959–7963
Research profiles
Microfluidics takes a page from the trees. Michael J. Felton. 75: 14 A Microchannels pull together to pump. Michael J. Felton. 75: 15 A Integrating micromixer and microcoils for time-resolved NMR. Rachel Petkewich. 75: 94 A Researchers use TR AP to fabricate reversible protein array. Cheryl Harris. 75: 95 A Accurately identifying bacteria. Michael J. Felton. 75: 143 A Liquid array single-handedly detects bounty of BW agents. Cheryl Harris. 75: 202 A On-line particle monitoring. Katie Cottingham. 75: 203 A “Hot” new nanoelectrospray probe. Katie Cottingham. 75: 249 A PCR-based anthrax detector. Katie Cottingham. 75: 289 A Vibrations in situ. Michael J. Felton. 75: 336 A LC-ESI-MS/MS draws the line on doping. Wilder D. Smith. 75: 337 A Real insight from an artificial synapse. Elizabeth Zubritsky. 75: 372 A Welcome to the microfluidic matrix. Michael J. Felton. 75: 413 A SAW chip sniffs out cocaine. Wilder D. Smith. 75: 492 A New approach to shotgun proteomics. Rex Graham. 76: 50 A Universal biosensor. Britt E. Erickson. 76: 84 A Separation and concentration of bacteria in electric fields. Rajendrani Mukhop adhyay. 76: 115 A Discriminating assay for endocrine disrupters. Katie Cottingham. 76: 154 A–155 A
Real-time measurement of diesel exhaust. Britt E. Erickson. 76: 155 A Extracting the nerve agent VX from soil. Rajendrani Mukhopadhyay. 76: 194 A MALDI points to the origin of anthrax spores. Wilder D. Smith. 76: 194 A–195 A SECM meets fluorescence microscopy. Rajendrani Mukhopadhyay. 76: 224 A Peering inside the brain. Katie Cottingham. 76: 258 A ECD in an ion trap. Katie Cottingham. 76: 258 A Imaging tagless DNA. Britt E. Erickson. 76: 259 A Miniaturized rectilinear ion trap. Britt E. Erickson. 76: 305 A Metabolically labeled rat. Katie Cottingham. 76: 306 A Peptides on the brain. Rajendrani Mukhopadhyay. 76: 347 A Enzymatically amplified SPR imaging. Britt E. Erickson. 76: 386 A RNA enzyme reactions on a chip. Britt E. Erickson. 76: 426 A Microsecond mixing device. Britt E. Erickson. 77: 11 A Modular (fill in the blank) biosensor. Britt E. Erickson. 77: 50 A Nano-LC/ESI on a chip. Katie Cottingham. 77: 51 A It looks like a Vermeer . . . . Rajendrani Mukhopadhyay. 77: 91 A Dropping in on single cells. Katie Cottingham. 77: 131 A Measuring drugs in individual organelles. Britt E. Erickson. 77: 160 A An ion source for all seasonings? Katie Cottingham. 77: 161 A Magnetic tweezers tease out dissociation. Rajendrani Mukhopadhyay. 77: 210 A Detecting doping. Britt E. Erickson. 77: 211 A
Drink to your health. Britt E. Erickson. 77: 212 A Mass spectrometer supplants mouse. Rajendrani Mukhopadhyay. 77: 243 A Putting long-range surface plasmons to work. Rajendrani Mukhopadhyay. 77: 244 A Microfluidic device for creating gradients. Rajendrani Mukhopadhyay. 77: 245 A Protein preconcentrator. Britt E. Erickson. 77: 283 A New assay for the prion protein. Britt E. Erickson. 77: 284 A Microfabrication with instant gratification. Rajendrani Mukhopadhyay. 77: 331 A Location, location, location. Katie Cottingham. 77: 332 A Hitting the magic angle for cell wall analysis. Joe Alper. 77: 371 A Analyzing lone lipoproteins. Kim Krieger. 77: 372 A Mapping protein surfaces by MS. James P. Smith and Vicki Hinson-Smith. 77: 373 A Visualizing stress. Amy Hodson Thompson. 77: 410 A Measuring estrogen conjugates in sewage. Rajendrani Mukhopadhyay. 77: 411 A Precise patterning in microfluidic devices. James P. Smith and Vicki HinsonSmith. 77: 412 A Subcellular measurements of d-amino acids. Thomas Hayden. 77: 450 A Camel antibodies. Elizabeth Zubritsky. 77: 451 A Prepping microchips for infinity and beyond. Rajendrani Mukhopadhyay. 78: 10 Raman probe could aid brain surgeons. Eva von Schaper. 78: 11 Real-time assay for GPCRs. Britt Erickson. 78: 12
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Protein conjugates pick polymer phase. Rajendrani Mukhopadhyay. 78: 637 Cranberry juice prevents nonspecific adhesion. Britt Erickson. 78: 639 Two-color nanoparticles identify single molecules. Linda Sage. 78: 1377 SFC separation of peptides. Britt Erickson. 78: 1378 Proteomics reveals proteins in paint. Rajendrani Mukhopadhyay. 78: 1379 Improved assay for adenylyl cyclase. Laura Tomky Cassiday. 78: 2087 Nanoparticle aerosol mass spectrometer. Britt Erickson. 78: 2088 Linear ion trap/Orbitrap mass spectrometer. Britt Erickson. 78: 2089 Multireporter microarray. Linda Sage. 78: 2875 Pesticides in cigarette smoke. Britt Erickson. 78: 3487 Microfluidic IEF without carrier molecules. Nicole Branan. 78: 3488 Gel electrophoresis and MEKC join forces on chip. Rajendrani Mukhopadhyay. 78: 3489 Decoding the chromosome core with top-down MS. Karen R. Jonscher. 78: 4244 Multidimensional IMS. Britt Erickson. 78: 4245 Electrophoresis in compact nanotube networks. Rajendrani Mukhopadhyay. 78: 5245 Nanowire network detects biomolecules without contact. Randall C Willis. 78: 5246 Silicon surface separates DNA of all shapes and sizes. Rajendrani Mukhop adhyay. 78: 5247 Right on target: Controlled dosing of cells. Rajendrani Mukhopadhyay. 78: 5947 The first step toward CE for the clinic. Elizabeth Zubritsky. 78: 5948 Optical lactate sensor. Randall C Willis. 78: 5949
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Extraction of tattoo pigments from human skin. Rajendrani Mukhopadhyay. 78: 6686 Stretching the limit of MALDI MS. Linda Sage. 78: 6687 Screening single viral DNAs without amplification. Randall C Willis. 78: 6688 Now available: chemiluminescent analyzer for arsenic in water. Rajendrani Mukhopadhyay. 78: 7362 Visualizing ion electromigration in capillaries. Randall C Willis. 78: 7363 Modified QTOF for the analysis of large complexes. Katie Cottingham. 78: 7364 MChip: the next generation of influenza surveillance. Laura Tomky Cassiday. 78: 7909 Biosensor to help Crohn’s disease patients. Rajendrani Mukhopadhyay. 78: 7910 Controlling ion-channel desensitization. Rajendrani Mukhopadhyay. 78: 7911 New mitochondrial DNA profiling technique for forensics. Thomas Hayden. 78: 7912 Cell-based indicators visualize NO release. Laura Tomky Cassiday. 79: 10 Multiplex proteomic reactor. Laura Tomky Cassiday. 79: 11 Dipstick for SNP analysis. Rajendrani Mukhopadhyay. 79: 796 Focusing on improved SDS-PAGE separations. Laura Tomky Cassiday. 79: 10 Deep UV Raman imaging for astrobiology. Barry E. DiGregorio. 79: 798 Yellow dyes in pre-Columbian Andean textiles. Rajendrani Mukhopadhyay. 79: 1771 Colorimetric assay for field detection of cholera. Jennifer Griffiths. 79: 1772 Noninvasive testing for counterfeit drugs. Randall C Willis. 79: 1773 Reliable dispensing of attoliter volumes of fluid. Elizabeth Zubritsky. 79: 1774 Population studies of drug metabolites in urine. Linda Sage. 79: 2607 Detecting aerosol particles on surfaces. Randall C Willis. 79: 2608
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Multiplexed IMS/TOFMS: the ion mobility marathon. Laura Tomky Cassiday. 79: 2609 Measuring isoprene in breath. Rajendrani Mukhopadhyay. 79: 2610 Nanofluidic sieves ease separation anxiety. Thomas Hayden. 79: 2611 Detection of 36Cl in nuclear reactor waste. Jennifer Griffiths. 79: 3233 Extracting pharmaceuticals from fish tissue. Rajendrani Mukhopadhyay. 79: 3234 To trap or transmit, that is the question . . . . Karen Jonscher. 79: 3235 Revisiting liquid stationary phases. Elizabeth Zubritsky. 79: 3236 High power for mid-level proteomics. Karen Jonscher. 79: 3959 Concentrating on small molecules. Thomas Hayden. 79: 3960 No-glow tags for Raman spectroscopy. Linda Sage. 79: 3961 Thinking deeply about thin films. Thomas Hayden. 79: 4745 Tracking down traces of gluten in food. Rajendrani Mukhopadhyay. 79: 4746 Selenium sensing sans calibration. Jeffrey M. Perkel. 79: 4747 When good cells go bad: detecting the “use by” date of cardiac myocytes. Jennifer Griffiths. 79: 4748 SPR imaging in living color. Laura Cassiday. 79: 5502 Please squeeze the red blood cells. Jennifer Griffiths. 79: 5503 Continuous separations by acoustic forces. Rajendrani Mukhopadhyay. 79: 5504 Tracking the metabolism of glycosphingolipids in single cells. Rajendrani Mukhopadhyay. 79: 5505 Image and reality in 3D SIMS. Elizabeth Zubritsky. 79: 5506 Single-molecule imaging confirms 2D model of CE. Elizabeth Zubritsky. 79: 6434 Lipid analysis goes to pot. Linda Sage. 79: 6435 Don’t touch that paper. Steve Miller. 79: 6436 Better PFA detection through isomer separation. Jeffrey M. Perkel. 79: 6437 Art of analytical chemistry. Jennifer Griffiths. 79: 7233 Explosive results in 10 minutes or less! Jeffrey M. Perkel. 79: 7234
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Making copies of DNA microarrays. Laura Cassiday. 79: 7235 An interferometric alternative to SPR. Elizabeth Zubritsky. 79: 7941 Analyzing fermented beverages by microCE. Randall C Willis. 79: 7942 SORching for hidden liquid explosives. Rajendrani Mukhopadhyay. 79: 7943 An adventure in electrospray. Jennifer Griffiths. 79: 8826 No-fuss quantitative proteomics with pseudo-internal standards. Jeffrey Perkel. 79: 8827 Drop, stop, and cycle: digital microfluidics meets digital PCR. Christine Piggee. 79: 8828 A completely automated, microfluidic cell-culture chip. Jennifer Griffiths. 79: 8829 Distance of flight: a new paradigm for MS. Laura Cassiday. 79: 8830
Science news
MALDI without the solvent? Go for it! Cheryl Harris. 75: 54 A MALDI, where are the ions from? Michael J. Felton. 75: 55 A Happy highland cows give healthy milk. Veronika Meyer. 75: 55 A Portable CE. Michael J. Felton. 75: 144 A Isolated hydrogel valves. Michael J. Felton. 75: 144 A Brain chemistry with CE. Michael J. Felton. 75: 144 A–145 A Chasing down marijuana’s DNA profile. Wilder D. Smith. 75: 204 A SPME versus ED for drug analysis. Wilder D. Smith. 75: 204 A Mini MS shows big results. Cheryl Harris. 75: 250 A Silica sol–gels for microchannels. Michael J. Felton. 75: 290 A Unusual microfluid flow. Michael J. Felton. 75: 290 A Commercial HHAs fail the test. Wilder D. Smith. 75: 337 A–338 A New LC-MALDI interfaces drop on to the scene. Katie Cottingham. 75: 338 A “Top-down” MS without a magnet? Katie Cottingham. 75: 338 A CPC revitalized. C. Harris. 75: 373 A New gas-separator setup improves arsenic speciation. Cheryl Harris. 75: 373 A
Fragmentation in a drift tube? Katie Cottingham. 75: 452 A Studying large complexes by ESIGEMMA. Katie Cottingham. 75: 452 A–453 A Sensitive mass detectors for national security applications. Steve Miller and M. Bonner Denton. 75: 493 A Underwater MS for defense? Kris Christen. 75: 494 A Tailoring semiconductor nanocrystals. Elizabeth Zubritsky. 76: 12 A Ultrasonic particle switching cleans blood. Elizabeth Zubritsky. 76: 13 A Nanoparticles instead of redox agents? Elizabeth Zubritsky. 76: 14 A Microchip electrophoresis for p53 screening. Rex Graham. 76: 14 A– 15 A Protein digestion on-line with CE/MS. Katie Cottingham. 76: 116 A New alternative to ICAT. Katie Cottingham. 76: 116 A Forensic sample analysis on a microchip. Katie Cottingham. 76: 117 A CE separations reveal new focusing phenomenon. Elizabeth Zubritsky. 76: 156 A–157 A PGC/MS for condom lubricant analysis. Wilder D. Smith. 76: 157 A ECD-like spectra without a magnet. Katie Cottingham. 76: 260 A Detecting newly emerging pathogens by MS. Katie Cottingham. 76: 261 A Microfluidics for Mars. Rajendrani Mukhopadhyay. 76: 307 A Analytical methods for homeland security. Britt E. Erickson. 76: 308 A Nowhere to hide. Kris Christen. 76: 427 A Chips in space. Laura Ruth. 76: 428 A Reconstructing the liver. Rajendrani Mukhopadhyay. 76: 429 A
New wave for wave mixing—proteo mics. Elizabeth Zubritsky. 77: 12 A Manual validation is a hot proteomics topic. Katie Cottingham. 77: 92 A Saliva reveals all. Britt E. Erickson. 77: 132 A –133 A Cell selection on a chip. Rajendrani Mukhopadhyay. 77: 162 A Progress toward a flu chip. Britt E. Erickson. 77: 163 A NIST and early detection of cancer. Natasha Smith. 77: 413 A Obtaining trustworthy data. Rajendrani Mukhopadhyay. 77: 452 A Finding all the mRNA in a single cell. Rajendrani Mukhopadhyay. 78: 6 Molecular movements come to light. Linda Sage. 78: 636 Faster and easier searches for apta mers. Rajendrani Mukhopadhyay. 78: 2085–2086 Breath analysis for diagnosis of respiratory diseases. Rajendrani Mukhopadh yay. 78: 2086 Going solo: Observing single-protein expression. Rajendrani Mukhopadh yay. 78: 2872 Nanopore arrays for DNA sequencing. Kim Krieger. 78: 3486 Overcoming ionization suppression in electrospray. Katie Cottingham. 78: 5239 New DESI-like ionization sources. Katie Cottingham. 78: 5239 Diet and time of day strongly influence metabolomic studies. Elizabeth Zubritsky. 78: 7907 Multifocal plane imaging reveals exocytosis dynamics. Rajendrani Mukhop adhyay. 79: 3958 Microfluidic separation and analysis of whole blood for AIDS diagnosis. Jennifer Griffiths. 79: 6430 LC/MS and NMR together at last. Jennifer Griffiths. 79: 6431
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Five-Year News and Features Authors Index Abramson, Fred 75: 56 A–63 A Abruña, Héctor D. 76: 265 A; 76: 310 A–319 A Addy, Marian E. 78: 5273–5276 Åkerblom, Malin 75: 106 A–113 A Almeida, Valentino K. 77: 254 A–263 A Almirall, José R. 77: 69 A–72 A Alper, Joe 77: 337 A; 77: 371 A; 78: 645; 78: 3508; 78: 5249; 79: 809 Amatore, Christian 77: 303 A–311 A Anderson, Jared L. 78: 2892–2902 Andrade, Francisco J. 77: 418 A–427 A Andrén, Per E. 79: 14–21 Angel, S. Michael 78: 24–32 Aoki, Hiroshi 76: 320 A–326 A Armstrong, Daniel W. 78: 2892–2902; 79: 4247 Auer, Manfred 79: 7949–7957 Bachas, Leonidas G. 75: 206 A–213 A; 78: 6692–6700 Barinaga, Charles J. 77: 418 A–427 A Barnes IV, James H. 77: 418 A–427 A Baron, Gino V. 76: 430 A–438 A Beaver, Lois Ann 76: 195 A Becker, Bridget A. 77: 254 A–263 A Beebe, David J. 75: 292 A–301 A Belt, Simon 75: 181 A–182 A Bergquist, Mandy L. 77: 221 A–226 A Berndt, Harald 76: 130 A–136 A Berthod, Alain 78: 2093–2099 Black, Gavin 75: 56 A–63 A Bond, Alan M. 77: 186 A–195 A Borch, Jonas 76: 18 A–25 A Bradshaw, John Thomas 77: 28 A–36 A Branan, Nicole 78: 3488; 78: 5975 Buszewski, Bogusław 76: 226 A–234 A Cappiello, Achille 75: 496 A–503 A Caprioli, Richard M. 76: 86 A–93 A Carr, P. W. 79: 3254–3262 Cassiday, Laura 77: 456 A; 78: 644; 78: 2087; 78: 7909; 78: 7926; 79: 10; 79: 11; 79: 797; 79: 2609; 79: 3979; 79: 8858
5502; 79: 7235; 79: 7239; 79: 8830 Castro, Kepa 75: 214 A–221 A Chalk, Stuart 76: 398 A–402 A Chase, Bruce 79: 7964 Chaurand, Pierre 76: 86 A–93 A Christen, Kris 75: 204 A–205 A; 75: 494 A–495 A; 75: 494 A; 76: 427 A; 77: 165 A Cissell, Kyle A. 79: 4754–4761 Clicq, David 76: 430 A–438 A Coe, James V. 78: 1384–1390 Coffey, Eleanor 79: 810–818 Conrads, Thomas P. 75: 148 A–155 A Cooks, R. Graham 75: 25 A–31 A Cottingham, Katie 75: 203 A; 75: 249 A; 75: 289 A; 75: 315 A–319 A; 75: 338 A; 75: 435 A–439 A; 75: 452 A; 75: 452 A–453 A; 75: 472 A–476 A; 76: 35 A–38 A; 76: 69 A; 76: 94 A– 97 A; 76: 116 A; 76: 117 A; 76: 154 A–155 A; 76: 179 A–181 A; 76: 225 A; 76: 235 A–238 A; 76: 258 A; 76: 260 A; 76: 261 A; 76: 291 A; 76: 306 A; 76: 331 A–335 A; 76: 368 A; 76: 403 A–406 A; 77: 17 A; 77: 51 A; 77: 54 A; 77: 73 A–76 A; 77: 92 A; 77: 131 A; 77: 161 A; 77: 197 A–200 A; 77: 213 A; 77: 227 A–231 A; 77: 246 A; 77: 332 A; 77: 354 A–357 A; 77: 395 A–399 A; 78: 18–23; 78: 643; 78: 655–657; 78: 5239; 78: 5248; 78: 7364; 79: 12; 79: 13; 79: 7237 Cremers, David A. 78: 24–32 Crouch, Stanley 75: 374 A Culbertson, Christopher T. 79: 2614–2621 Daunert, Sylvia 75: 206 A–213 A; 78: 6692–6700 DeFrancesco, Laura 75: 175 A–179 A de Marcos, Susana 79: 4763–4767 Denton, M. Bonner 75: 493 A; 77: 418 A–427 A
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Deo, Sapna K. 75: 206 A–213 A; 78: 6692–6700; 79: 4754–4761 Desmet, Gert 76: 430 A–438 A Di Carlo, Dino 78: 7918–7925 DiGregorio, Barry E. 77: 348 A–353 A; 77: 374 A–375 A; 77: 433 A–438 A; 78: 3498; 78: 6685; 79: 798; 79: 1775–1777; 79: 3238; 79: 7236 Dimandja, J.-M. D. 76: 167 A–174 A Ding, Zhifeng 76: 415 A Dodabalapur, Ananth 77: 380 A–387 A Dolan, J. W. 79: 3254–3262 Dommersnes, Paul 78: 5960–5968 Dondi, Francesco 75: 79 A Downing, Kenneth H. 79: 7949–7957 Dubois, Janie 76: 360 A–367 A Duffy, Noel W. 77: 186 A–195 A Eiceman, G. A. 390 A–397 A Eisenhardt, Patricia E. 75: 206 A–213 A Elton, Darrell 77: 186 A–195 A Erickson, Britt E. 76: 84 A; 76: 155 A; 76: 247 A–248 A; 76: 259 A; 76: 262 A; 76: 305 A; 76: 308 A; 76: 386 A; 76: 388 A–389 A; 76: 426 A; 77: 11 A; 77: 50 A; 77: 93 A; 77: 94 A–95 A; 77: 132 A–133 A; 77: 160 A; 77: 163 A; 77: 211 A; 77: 212 A; 77: 283 A; 77: 284 A; 78: 7; 78: 12; 78: 639; 78: 641; 78: 1378; 78: 2088; 78: 2089; 78: 3487; 78: 4245; 78: 5240–5242 Ewing, Andrew 78: 5960–5968 Fahey, Angela 78: 4249–4254 Fälth, Maria 79: 14–21 Famiglini, Giorgio 75: 496 A–503 A Felton, Michael 75: 14 A; 75: 15 A; 75: 55 A; 75: 119 A–123 A; 75: 143 A; 75: 144 A; 75: 144 A–145 A; 75: 166 A–173 A; 75: 269 A–271 A; 75: 290 A; 75: 302 A–306 A; 75: 336 A; 75: 397 A–399 A; 75: 413 A; 75: 429 A–432 A; 75: 505 A–508 A Ferrer, Imma 78: 6702–6708; 78: 7905
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Fetzer, John C. 76: 342 A Finkel, Nancy H. 76: 352 A–359 A Foubister, Vida 78: 7914–7915; 79: 794 Froberg, Angela L. 77: 254 A–263 A Frost, Megan 78: 7370–7377 Furlong, Edward 75: 183 A Galbán, Javier 79: 4763–4767 Gallwas, Jerry 76: 264 A–265 A Gamaniel, Karniyus Shingu 78: 5273–5276 Gardella, Joseph A., Jr., 79: 810–818 Gebel, Erika 78: 1400; 78: 2090 Graham, Rex 76: 14 A–15 A; 76: 50 A; 76: 407 A–412 A Griffiths, Jennifer 79: 1772; 79: 2612; 79: 3233; 79: 3237; 79: 3975–3978; 79: 4748; 79: 4762; 79: 5503; 79: 5507–5508; 79: 6430; 79: 6431; 79: 6451–6454; 79: 7233; 79: 7257; 79: 8823–8825; 79: 8826; 79: 8829; 79: 8833–8837 Guardigli, Massimo 75: 462 A–470 A Günther, Detlef 75: 341 A–347 A Guo, Si-Xuan 77: 186 A–195 A Gupta, Munishwar N. 78: 3499–3504 Guttman, Charles M. 76: 183 A–184 A Guzman, Norberto A. 77: 60 A–67 A Harris, Cheryl M. 75: 54 A; 75: 64 A–69 A; 75: 75 A–78 A; 75: 95 A; 75: 114 A–118 A; 75: 202 A; 75: 223 A–228 A; 75: 250 A; 75: 252 A–257 A; 75: 355 A–358 A; 75: 373 A Hattendorf, Bodo 75: 341 A–347 A Haupt, Karsten 75: 376 A–383 A Hayden, Thomas 77: 450 A; 78: 5252– 5260; 78: 7912; 78: 7916; 79: 22; 79: 1789; 79: 2611; 79: 2613; 79: 3263; 79: 3960; 79: 4745; 79: 6438; 79: 6439–6440; 79: 6450; 79: 7258 Haynes, Christy L. 77: 338 A–346 A He, Jiangtao 76: 61 A–67 A He, Lin 76: 352 A–359 A Hibara, Akihide 76: 52 A–60 A Hieftje, Gary M. 76: 158 A–166 A; 77: 418 A–427 A Hilliard, Lisa R. 78: 646–654 Hinson-Smith, Vicki 75: 37 A–39 A; 76: 287 A–290 A; 77: 37 A–39 A; 77: 373 A; 77: 412 A; 78: 3505–3507 Holmes, Elaine 75: 384 A–391 A Hrovat, Frank 78: 1384–1390 Huber, Christian G. 78: 2100–2107 Hummon, Amanda B. 76: 120 A– 128 A Illman, Deborah L. 78: 5266–5272 Issaq, Haleem J. 75: 148 A–155 A
Jandera, Pavel 76: 226 A–234 A Jesorka, Aldo 78: 5960–5968 Jinno, Kiyokatsu 76: 266 A–272 A Joanny, Jean-Francois 78: 5960–5968 Jonscher, Karen R. 78: 4244; 78: 6709–6713; 79: 3235; 79: 3959 Kaddis, Catherine S. 79: 1778–1784 Kaiser, Mary A. 79: 3966–3973 Kakiuchi, Takashi 79: 6442–6449 Karlsson, Anders 78: 5960–5968 Karlsson, Roger 78: 5960–5968 Kawabata, Katsu 75: 422 A–428 A Kearsley, Anthony J. 76: 183 A–184 A Kele, Marianna 77: 460 A–467 A Kelleher, Neil L. 76: 196 A–203 A Kelly, Ryan T. 77: 96 A–102 A Kennedy, Robert T. 78: 1391–1399 Keough, Thomas 75: 156 A–165 A Kertesz, Vilmos 79: 5510–5520
Le, X. Chris 76: 26 A–33 A Lee, Luke P. 78: 7918–7925 Li, Xing-Fang 76: 26 A–33 A Lieber, Charles M. 78: 4260–4269 Limentani, Giselle B. 77: 221 A–226 A Lindon, John C. 75: 384 A–391 A Loo, Joseph A. 79: 1778–1784 Lou, Xinhui 76: 352 A–359 A Lu, Xiufen 76: 26 A–33 A MacCoss, Michael J. 77: 294 A–302 A Madariaga, Juan Manuel 75: 214 A– 221 A Madou, Marc J. 75: 206 A–213 A Maisonhaute, Emmanuel 77: 303 A– 311 A Manns, David C. 79: 810–818 Manz, Andreas 76: 373 A Marko-Varga, György 77: 264 A–272 A Marshall, Alan 77: 20 A–27 A
Kishi, Yoko 75: 422 A–428 A Kitamori, Takehiko 76: 52 A–60 A Koch, Joachim 76: 130 A–136 A Koppenaal, David 77: 418 A–427 A Korfmacher, Walter A. 77: 389 A– 394 A Krieger, Kim 77: 372 A; 77: 376 A; 78: 16; 78: 1383; 78: 3486 Krull, Ira 77: 318 A; 79: 24 Krupczyn´ ska, Katarzyna 76: 225 A– 234 A Kuehl, Don 75: 125 A–127 A Kukura, Philipp 78: 5952–5959 Kumar, Annamalai Senthil 76: 205 A–211 A Kuwana, Theodore 75: 96 A; 76: 398 A–402 A Lacey, Martin 75: 156 A–165 A Lan, Jing 77: 389 A–394 A Larive, Cynthia K. 76: 398 A–402 A; 77: 254 A–263 A Larsen, Barbara S. 79: 3966–3973 Latkoczy, Christopher 75: 341 A– 347 A Laurell, Thomas 77: 264 A–272 A Lavine, Barry K. 77: 77 A–78 A
Mathies, Richard A. 78: 5952–5959 Mattei, Benedetta 76: 18 A–25 A Matthews, Dwight E. 77: 294 A–302 A Mazzeo, Jeffrey R. 77: 460 A–467 A McClenathan, Denise M. 76: 158 A– 166 A McCreery, Richard L. 78: 3490–3497 McFarland, Adam D. 77: 338 A–346 A McGuigan, Megan 78: 2873 McNair, Harold 77: 77 A McSorley, Ellen O. 77: 221 A–226 A Mendes, Sergio B. 77: 28 A–36 A Meyer, Veronika R. 75: 55 A Meyerhoff, Mark E. 78: 7370–7377 Michelini, Elisa 75: 462 A–470 A Middaugh, C. Russell. 79: 7240–7248 Milillo, Tammy M. 79: 810–818 Miller, Steve 75: 433 A–434 A; 75: 477 A–479 A; 75: 493 A; 76: 99 A–101 A; 77: 293 A; 78: 17; 78: 642; 79: 4751– 4753; 79: 6436 Mirasoli, Mara 75: 462 A–470 A Mizaikoff, Boris 75: 258 A–267 A Mondal, Kalyani 78: 3499–3504 Moorthy, Jaisree 75: 292 A–301 A Morris, Kevin F. 77: 254 A–263 A
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Morris, Michael 78: 33 Moschou, Elissavet (Elizabeth) A. 75: 206 A–213 A; 78: 6692–6700 Mukhopadhyay, Rajendrani 76: 115 A; 76: 194 A; 76: 213 A–216 A; 76: 224 A; 76: 273 A–276 A; 76: 293 A; 76: 307 A; 76: 336 A; 76: 347 A; 76: 369 A–372 A; 76: 414 A; 76: 429 A; 76: 449 A–452 A; 77: 52 A–53 A; 77: 55 A; 77: 91 A; 77: 114 A–118 A; 77: 150 A–152 A; 77: 162 A; 77: 166 A; 77: 167 A; 77: 210 A; 77: 243 A; 77: 244 A; 77: 245 A; 77: 249 A–252 A; 77: 253 A; 77: 291 A–292 A; 77: 313 A–317 A; 77: 331 A; 77: 379 A; 77: 411 A; 77: 428 A; 77: 429 A–432 A; 77: 452 A; 77: 457 A–458 A; 77: 469 A–474 A; 78: 6; 78: 10; 78: 637; 78: 1379; 78: 1401–1404; 78: 2085– 2086; 78: 2086; 78: 2109–2111; 78: 2872; 78: 2878; 78: 2879; 78: 3489; 78: 4243; 78: 4247; 78: 4248; 78: 4255–4259; 78: 5245; 78: 5247; 78: 5278–5279; 78: 5947; 78: 5950; 78: 5951; 78: 5969–5972; 78: 6686; 78: 6689; 78: 6690–6691; 78: 7362; 78: 7365–7367; 78: 7379–7382; 78: 7910; 78: 7911; 78: 7917; 78: 7927; 79: 796; 79: 819–820; 79: 1771; 79: 2610; 79: 2628; 79: 3234; 79: 3265– 3270; 79: 3958; 79: 3974; 79: 4746; 79: 4749–4750; 79: 5504; 79: 5505; 79: 5509; 79: 5521; 79: 5522–5528; 79: 7238; 79: 7249–7256; 79: 7943; 79: 7945–7947; 79: 7959–7963; 79: 8823–8825; 79: 8831 Murray, Royce W. 75: 5 A; 75: 133 A; 75: 189 A; 75: 237 A; 75: 277 A; 75: 325 A; 75: 365 A; 75: 405 A; 75: 445 A; 75: 485 A; 76: 5 A; 76: 45 A; 76: 77 A; 76: 109 A; 76: 149 A; 76: 189 A; 76: 220 A; 76: 253 A; 76: 300 A; 76: 341 A; 76: 381 A; 76: 421 A; 77: 5 A; 77: 85 A; 77: 125 A; 77: 156 A; 77: 205 A; 77: 237 A; 77: 277 A; 77: 325 A; 77: 365 A; 77: 405 A; 77: 8860
445 A; 78: 2; 78: 632; 78: 1372; 78: 2080; 78: 2868; 78: 3479; 78: 3481; 78: 4237; 78: 5233; 78: 5941; 78: 6679; 78: 7353; 78: 7901; 79: 1; 79: 790; 79: 1765; 79: 2599; 79: 3227; 79: 3951; 79: 4739; 79: 5495; 79: 6425; 79: 7227; 79: 7935; 79: 8817 Neubert, Hanns-J. 76: 327 A–330 A; 78: 7908 Neue, Uwe D. 77: 460 A–467 A Neuweiler, Hannes 77: 178 A–185 A Nicholson, Jeremy K. 75: 384 A–391 A Niemax, Kay 76: 130 A–136 A Nilsson, Anna 79: 14–21 Nilsson, Carol L. 75: 348 A–353 A; 78: 7383 Nilsson, Johan 77: 264 A–272 A Nydahl, Katarina 79: 14–21 Oh, Gunwha 79: 810–818 Ohta, Hatsuichi 76: 266 A–272 A Öman, Cecilia B. 78: 5273–5276
Orwar, Owe 78: 5960–5968 O’Shaughnessy, Thomas J. 79: 8838–8845 Overton, Tina 75: 181 A–182 A Palma, Pierangela 75: 496 A–503 A Pancrazio, Joseph J. 79: 8838–8845 Pappaert, Kris 76: 430 A–438 A Parcher, J. F. 75: 18 A–24 A Park, Su-Moon 75: 455 A–461 A Pasini, Patrizia 75: 462 A–470 A Patolsky, Fernando 78: 4260–4269 Pawliszyn, Janusz 76: 248 A Pérez, Maite 75: 214 A–221 A Perkel, Jeffrey M. 79: 4747; 79: 6437; 79: 7234; 79: 8827 Peteu, Serban F. 75: 206 A–213 A Petkewich, Rachel 75: 71 A–74 A; 75: 94 A; 75: 166 A–173 A Phillips, Terry M. 77: 60 A–67 A Piggee, Christine 79: 8828; 79: 8832 Plumb, Robert S. 77: 460 A–467 A Polavarapu, Prasad L. 76: 61 A–67 A Price, Alexander K. 79: 2614–2621 Prieto, DaRue A. 75: 148 A–155 A
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Querna, Betsy 77: 414 A Quirk, Mary 77: 336 A Ramsey, Joshua D. 79: 7240–7248 Ray, Steven J. 76: 158 A–166 A Renner, Rebecca 77: 15 A–16 A; 77: 289 A–290 A; 77: 335 A; 78: 2091–2092 Ringo, Moira C. 77: 221 A–226 A Roda, Aldo 75: 462 A–470 A Rodgers, Ryan P. 77: 20 A–27 A Rodriguez, Kenneth R. 78: 1384–1390 Rodriguez-Laso, Maria Dolores 75: 214 A–221 A Roepstorff, Peter 76: 18 A–25 A Rogers, Robin D. 78: 3480–3481 Ross, Karen 77: 453 A; 78: 13; 78: 6701 Roy, Ipsita 78: 3499–3504 Ruth, Laura 75: 32 A–36 A; 75: 145 A–146 A; 75: 392 A–396 A; 76: 51 A; 76: 225 A; 76: 387 A; 76: 428 A Saavedra, S. Scott 77: 28 A–36 A Sage, Linda 76: 137 A–142 A; 76: 453 A; 77: 135 A; 77: 288 A; 77: 415 A; 77: 417 A; 77: 454 A–455 A; 78: 636; 78: 1377; 78: 2875; 78: 2877; 78: 4246; 78: 6687; 78: 7358–7360; 79: 7–9; 79: 799; 79: 2607; 79: 3961; 79: 6435; 79: 7948 Saito, Yoshihiro 76: 266 A–272 A Salit, Marc L. 77: 136 A–141 A Santra, Swadeshmukul 78: 646–654 Sanz, Isabel 79: 4763–4767 Sato, Kiichi 76: 52 A–60 A Sauer, Markus 77: 178 A–185 A Scaffidi, Jon 78: 24–32 Schaldach, Gerhard 76: 130 A–136 A Schaub, Tanner M. 77: 20 A–27 A Schilling, Gregory D. 77: 418 A–427 A Schriemer, David C. 76: 440 A–448 A Schwartz, Sarah A. 76: 86 A–93 A Seddon, Kenneth R. 78: 3480–3481 Shaw, R. Anthony 76: 360 A–367 A Shrestha, Suresh 79: 4754–4761 Sinha, Gaurav 79: 810–818 Sköld, Karl 79: 14–21 Smith, James P. 75: 37 A–39 A; 76: 287 A–290 A; 77: 37 A–39 A; 77: 373 A; 77: 412 A; 78: 3505–3507 Smith, Joshua E. 78: 646–654 Smith, Natasha 77: 413 A Smith, Wilder D. 75: 204 A; 75: 337 A; 75: 337 A–338 A; 75: 453 A; 75: 492 A; 76: 118 A; 76: 157 A; 76: 175 A–178 A; 76: 194 A–195 A Snyder, L. R. 79: 3254–3262 Solomon, Theodros 75: 106 A–113 A
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Sperline, Roger 77: 418 A–427 A Stone, J. A. 76: 390 A–397 A Striegel, André M. 77: 104 A–113 A Stuart, Jeffrey N. 76: 120 A–128 A Sudnitsyn, Alexandra 78: 1384–1390 Sui, Haixin 79: 7949–7957 Summerfield, Stephen 75: 181 A–182 A Svec, Frantisek 78: 2100–2107 Svenningsson, Per 79: 14–21 Svennson, Marcus 79: 14–21 Sweedler, Jonathan 76: 120 A–128 A Tan, Weihong 78: 646–654 Tao, W. Andy 75: 25 A–31 A Tarus, Jepkoech 77: 254 A–263 A Teeters-Kennedy, Shannon 78: 1384–1390 Terabe, Shigeru 76: 240 A–246 A Thomas, Robert 75: 422 A–428 A Thompson, Amy Hodson 77: 410 A Thulstrup, Erik W. 75: 106 A–113 A Thurman, E. Michael 78: 6702–6708; 78: 7905 Tilley, Eurona Earl 77: 18 A Tirumalai, Radhakrishna 75: 148 A– 155 A Tokeshi, Manabu 76: 52 A–60 A Torsi, Luisa 77: 380 A–387 A Turk, Gregory C. 77: 136 A–141 A Tyson, Julian 78: 4249–4254 Ubide, Carlos 79: 4763–4767 Umezawa, Yoshio 76: 320 A–326 A Van Berkel, Gary 79: 5510–5520 Van Duyne, Richard P. 77: 338 A– 346 A Vankrunkelsven, Sarah 76: 430 A– 438 A Veenstra, Timothy D. 75: 148 A–155 A Venton, B. Jill 75: 414 A–421 A; 78: 1391–1399 Vervoort, Nico 76: 430 A–438 A von Schaper, Eva 78: 11 Wallace, William E. 76: 183 A–184 A Walt, David R. 77: 45 A Wang, Cuiying 76: 352 A–359 A Wang, Kemin 78: 646–654
Wang, Lin 78: 654 Wang, Thanh 78: 5973 Watson, Christopher J. 78: 1391–1399 Webb, Sarah 77: 459 A; 78: 15; 78: 1382; 78: 7378 Wei, Guor-Tzo 78: 2892–2902 Wells, P. S. 75: 18 A–24 A Wenzel, Thomas J. 75: 311 A–314 A Wetzel, William C. 76: 158 A–166 A White, Henry S. 77: 214 A–220 A White, Ryan J. 77: 214 A–220 A Wightman, R. Mark 75: 414 A–421 A; 76: 348 A Williams, Shaun M. 78: 1384–1390 Willis, Randall C 78: 5246; 78: 5261– 5265; 78: 5949; 78: 6688; 78: 7363; 79: 1773; 79: 1785–1788; 79: 2608; 79: 7942 Winograd, Nicholas 77: 142 A–149 A Wipf, David O. 79: 8846 Wirth, Mary 79: 800–808 Woodget, Brian W. 75: 307 A–310 A Woolley, Adam T. 77: 96 A–102 A Xu, Xiaoying 77: 389 A–394 A Ye, Feng 77: 221 A–226 A Yeung, Edward 75: 85 A Yinon, Jehuda 75: 98 A–105 A Yoo, Jung-Suk 75: 455 A–461 A Yoon, Sangwoon 78: 5952–5959 Youngquist, R. Scott 75: 156 A–165 A Zen, Jyh-Myng 76: 205 A–211 A Zhang, Jie 77: 186 A–195 A Zhao, Xiaojun 78: 646–654 Zheng, Gengfeng 78: 4260–4269 Zhou, S. 75: 18 A–24 A Zubritsky, Elizabeth 75: 372 A; 76: 12 A; 76: 13 A; 76: 14 A; 76: 156 A–157 A; 76: 349 A–350 A; 77: 12 A; 77: 247 A–248 A; 77: 377 A–378 A; 77: 451 A; 78: 2890–2891; 78: 5948; 78: 7368– 7369; 78: 7907; 79: 23; 79: 1774; 79: 3236; 79: 5506; 79: 6434; 79: 7941 Zuriarrain, Juan 79: 4763–4767 Zweigenbaum, Jerry A. 78: 6702–6708; 78: 7905
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