1. Baden M, Roach M. Dead Reckoning: The New Science of Catching Killers. New York, NY: Simon & Schuster; 2001.

2. Vos P, Hogers R, Bleeker M, Reijans M, van de Lee T, Hornes M, Frijters A, Pot J, Peleman J, Kuiper M, Zabeau M. AFLP: a new technique for DNA fingerprinting. Nucl Acids Res 1995;23:4407-4414.

3. Jackson PJ, Hill KK, Laker MT, Ticknor LO, Keim P. Genetic comparison of Bacillus anthracis and its close relatives using amplified fragment length polymorphism and polymerase chain reaction analysis. J Appl Microbiol 1999;87:263-269.

4. Keim P, Price LB, Klevytska AM, Smith KL, Schupp JM, Okinaka R, Jackson, PJ, Hugh-Jones ME. Multiple-Locus Variable-Number Tandem Repeat analysis reveals genetic relationships within Bacillus anthracis. J Bacteriol 2000;182:2928-2936.

5. Dang JL, Heroux K, Kearney J, Arasteh A, Gostomski M, Emanuel PA. Bacillus spore inacti-vation methods affect detection assays. Appl Environ Microbiol 2001;67:3665-3670.

6. Binning G, Quate CF Gerber C. Atomic force microscope. Phys Rev Lett 1986;56:930-933.

7. Hansma PK, Cleveland JP, Radmacher M, Walters DA, Hillner PE, Bezanilla M, Fritz D, Vie D, Hansma HG, Prater CB, Massie J, Fukunage L, Gurley J, Elings V. Tapping mode atomic force microscopy in liquids. Appl Phys Lett 1994;64:1738-1740.

8. Muller DJ, Amrein M, Engel A. Adsorption of biological molecules to a solid support for scanning probe microscopy. J Struct Biol 1997;119:172-188.

9. Muller DJ, Schoenenberger CA, Schabert F, Engel A. Structural changes in native membrane proteins monitored at subnanometer resolution with the atomic force microscope: A review. J Struct Biol 1997;119:149-157.

10. Lyubchenko YL, Schlyakhtenko LS. Visualization of supercoiled DNA with atomic force microscopy in situ. Proc Natl Acad Sci USA 1997;94:496-501.

11. Han W, Lindsay SM, Dlakic M, Harrington RE. Kinked DNA. Nature 1997;386:563.

12. Bustamante C, Rivetti C. Visualizing protein-nucleic acids interactions on a large scale with the scanning force microscope. Annu Rev Biophys Biomol Struct 1996;25:395-429.

13. Kuznetsov YG, Malkin AJ, Lucas RW, Plomp M, McPherson A. Imaging of viruses by atomic force microscopy. J Gen Virology 2001;82:2025-2034.

14. Plomp M, Rice MK, Wagner EK, McPherson A, Malkin AJ. Rapid visualization at high resolution of pathogens by atomic force microscopy: Structural studies of Herpes Simplex Virus-1. Am J Pathology 2002;160:1959-1966.

15. Malkin AJ, McPherson A, Gershon PD. Structure of intracellular mature vaccinia virus visualized by in situ AFM. J Virology 2003;77:6332-6340.

16. Canady MA, Larson SB, Day J, McPherson A. Crystal structure of turnip yellow mosaic virus. Nat Struct Biol 1996;3:771-781.

17. Malkin AJ, Kuznetsov YG, Lucas RW, McPherson A. Surface processes in the crystallization of turnip yellow mosaic virus visualized by atomic force microscopy. J Struct Biol 1999;127: 35-43.

18. Baker TS, Olson NH, Fuller SD. Adding the third dimension to virus life cycles: Three-dimensional reconstruction of icosahedral viruses from cryo-electron micrographs. Microbol Mol Biol Reviews 1999;63:862-922.

19. Dai H, Hafner JH, Rinzler AG, Colbert DT, Smalley RE. Nanotubes as nanoprobes in scanning probe microscopy. Nature 1996;384:147-151.

20. Hafner JH, Cheung CL, Lieber CM. Growth of nanotubes for force microscopy tips. Nature 1999;398:761-762.

21. Hafner JH, Cheung CL, Woolley AT, Lieber CM. Structural and functional imaging with carbon nanotube AFM probes. Progr Biophys Mol Biol 2001;77:73-110.

22. Hafner JH, Cheung CL, Oosterkamp TH, Lieber CM. High-yield assembly of individual singlewalled carbon nanotube tips for scanning probe microscopies. J Phys Chem 2001;B105: 743-746.

23. Raman CV, Krishnan KS. A new type of secondary radiation. Nature 1928;121:501.

24. Raman CV A change of wavelength in light scattering. Nature 1928;121:619.

25. Lewis IR, Edwards HGM (eds). Handbook of Raman Spectroscopy. Practical Spectroscopy, Vol. 28. New York: Marcel Dekker; 2001.

26. Twardowski J, Anzenbacher P, Raman CV IR spectroscopy in biology and biochemistry. In Masson M, Tyson JF, Stockwell P (eds). Ellis Horwood Series in Analytical Chemistry. London: Ellis Horwood; 1994.

27. Spiro TJ. Biological Applications of Raman Spectroscopy. New York, NY: John Wiley & Sons; 1989.

28. Naumann D. FT-infrared and FT-Raman spectroscopy in biomedical research. Appl Spectrosc Rev 2001;36:239-298.

29. Choo-Smith LP, et al. Medical applications of Raman spectroscopy: From proof of principle to clinical implementation. Biopolymers 2002;67:1-9.

30. Nelson WH, Manoharan R, Sperry JF UV resonance Raman studies of bacteria. Appl Spectrosc Rev 1992;27:67-124.

31. Shibata H, et al. Laser Raman spectroscopy of lyophilized bacterial spores. Microbiol Immunol 1986;30:307-313.

32. Ghiamati E, et al. UV resonance Raman spectra of bacillus spores. Appl Spectrosc 1992;46:357-364.

33. Esposito AP, Talley CE, Huser T, et al. Analysis of single bacterial spores by micro-Raman spectroscopy. Appl Spectrosc 2003;57:868-871.

34. Kneipp K, Kneipp H, Itzkan I, et al. Ultrasensitive chemical analysis by Raman spectroscopy. Chem Rev 1999;99:2957-2975.

35. Kneipp K, Wang Y, Kneipp H, et al. Single molecule detection using surface-enhanced Raman scattering (SERS). Phys Rev Lett 1997;78:1667-1670.

36. Nie S, Emory SR. Probing single molecules and single nanoparticles by surface-enhanced Raman scattering. Science 1997;275:1102-1106.

37. Suess DT, Prather KA. Mass spectrometry of aerosols. Chemical Reviews 1999;99:3007-3035.

38. Gard EE, Kleeman MJ, Gross DS, Hughes LS, Allen JO, Morrical BD, Fergenson DP, Dienes T, Galli ME, Johnson RJ, Cass GR, Prather KA. Direct observation of heterogeneous chemistry in the atmosphere. Science 1998;279:1184-1187.

39. Gard EE, Mayer JE, Morrical BD, Dienes T, Fergenson DP, Prather KA. Real-time analysis of individual atmospheric aerosol particles—Design and performance of a portable ATOFMS. Anal Chem 1997;69:4083-4091.

40. Song XH, Hopke PK, Fergenson DP, Prather KA. Classification of single particles analyzed by ATOFMS using an artificial neural network, ART-2A. Anal Chem 1999;71:860-865.

41. Phares DJ, Rhoads KP, Wexler AS, Kane DB, Johnston MV. Application of the ART-2a algorithm to laser ablation aerosol mass spectrometry of particle standards. Anal Chem 2001;73:2338-2344.

42. Trimborn A, Hinz KP, Spengler B. Online analysis of atmospheric particles with a transportable laser mass spectrometer. Aerosol Sci Technol 2000;1-2:191-201.

43. Hinz KP, Greweling M, Drews F, Spengler B. Data processing in on-line laser mass spectrometry of inorganic, organic, or biological airborne particles. J Am Soc for Mass Spect 1999;10:648-660.

44. Benninghoven A, Ruedenauer FG, Werner HW. Secondary Ion Mass Spectrometry Basic Concepts, Instrumental Aspects, Applications and Trends. New York, NY: John Wiley & Sons; 1987.

45. Vickerman JC, Brown A, Reed NM. Secondary Ion Mass Spectrometry, Vol. 17. Oxford, UK: Clarendon Press; 1989.

46. Briggs D, Brown A, Vickerman JC. Handbook of Static Secondary Ion Mass Spectrometry. New York, NY: John Wiley & Sons; 1989.

47. Schueler BW. Microscope imaging by time-of-flight secondary ion mass spectrometry. Microsc Microanal Microstruct 1992;3:119-140.

48. Delcorte A, Bertrand P, Wischerhoff E, Laschewsky A. Adsorption of polyelectrolyte on polymer surfaces. Langmuir 1997;13:5125-5236.

49. Arlinghaus HF, Hueppener C, Drexler J. TOF-SIMS characterization of DNA and PNA biosensor chips. In Benninghoven A, Bertrand P, Migeon HN, Werner HW (eds). Secondary Ion Mass Spectrometry XII. Amsterdam, The Netherlands: Elsevier Science; 2000:951-954.

50. Walker AV, Winograd N. Prospects for imaging with TOF-SIMS using gold liquid metal ion sources. Applied Surf Sci 2002:9233-9234.

51. Wu KJ, Odom RW. Matrix-enhanced secondary ion mass spectrometry: A method for molecular analysis of solid surfaces. Anal Chem 1996;68:873-882.

52. Wagner MS, Castner DG. Characterization of adsorbed protein films by time-of-flight secondary ion mass spectrometry with principal component analysis. Langmuir 2001;17: 4649-4660.

53. Wagner MS, Tyler BJ, Castner DG. Interpretation of static time-of-flight secondary ion mass spectra of adsorbed protein films by multivariate pattern recognition. Anal Chem 2002;74:1824-1835.

54. Todd PJ, McMahon JM, Short RT, McCandlish CA. Organic SIMS of biological tissues. Anal Chem 1997;69:529A-535A.

55. Pacholski ML, Winograd N. Imaging with mass spectrometry. Chem Rev 1999;99:2977-3005.

56. Roddy TP, Cannon DM, Meserole CA, Winograd N, Ewing AG. Imaging of freeze-fractured cells with in situ fluorescence and time-of-flight secondary ion mass spectrometry. Anal Chem 74:4011-4019.

57. Cannon DM, Pacholski ML, Winograd N, Ewing AG. Molecule specific imaging of freeze-fracture frozen-hydrate model membrane systems using mass spectrometry. J Am Chem Soc 2000;122:603-610.

58. Cahill TA, Cliff SS, Jimenez-Cruz M, Shackelford JF, Dunlap M, Meier M, Kelly PB, Riddle S, Selco J, Bench G, Grant PG, Ueda D, Perry KD, Leifer R. Analysis of Aerosols from the World Trade Center Collapse Site, New York, October 2 to October 30, 2001, Aerosol Sci Technol 2004;38:165-183.

59. Bench G, Carlson TM, Grant PG, Wollett JS Jr, Martinelli RE, Lewis JL, Divine KK. Olfactory bulb uptake and determination of biotransfer factors in the California ground squirrel (Spermophilus beecheyi) exposed to manganese and cadmium in environmental habitats. Environ Sci Technol 2001;35:270-277.

60. Vogel JS, Grant PG, Buchholz BA, Dingley K, Turteltaub KW. Attomole quantification of protein separations with accelerator mass spectrometry. Electrophoresis 2001;22:2037-2045.

61. Hu Z, Bonifas JM, Beech J, Bench G, Shigihara T, Ogawa H, Ikeda S, Mauro T, Epstein HE. Mutations in ATP2C1, encoding a calcium pump, cause Hailey-Hailey disease. Nature Genetics 2000;24:61-65.

62. Bench G, Corzett MH, De Yebra L, Oliva R, Balhorn R. Protein and DNA contents in sperm from an infertile human male possessing protamine defects that vary over time. Mol Reprod Devel 1998;50:345-353.

63. Roberts ML, Grant PG, Bench GS, Brown TA, Frantz BR, Morse DH, Antolak AJ. The standalone microprobe at Livermore. Nucl Instr & Meth 1999;B158:24-30.

64. Levin I, Kromer B. Twenty years of atmospheric 14CO2 observations at Schauinsland Station, Germany. Radiocarbon 1997;39:205.

65. Stuiver M, Polach HA. Discussion: Reporting of 14C data. Radiocarbon 1977;19:355.

66. Vogel JS, Nelson DE, Southon JR. 14C background levels in an accelerator mass spectrometry system. Radiocarbon 1987;29:323.

67. Vogel JS. Accelerator mass spectrometry as a bioanalytical tool. In Heys JR, Melillo DG (eds). Synthesis and Applications of Isotopically Labelled Compounds. New York, NY: John Wiley & Sons; 1997:11-19.

68. Plomp M, Leighton TJ, Wheeler KE, Malkin AJ. The high-resolution architecture and structural dynamics of Bacillus spore. Biophys J 2005;88:603-608.

69. Dufrene YF, Boonaert CJP, Gerin PA, Asther M, Rouxhet PG. Direct probing of the surface ultrastructure and molecular interactions of dormant and germinating spores of Phanerochaete chrysosporium. J Bacteriol 1999;181:5350-5354.

70. van der Aa BC, Asther M, Dufrene YF Surface properties of Aspergillus oryzae spores investigated by atomic force microscopy. Colloids surfaces B. Biointerfaces 2002;24:277-284.

71. Wu KJ. Manuscript in preparation.

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