Gaetano Santulli
AC Matin, PhD
Professor of Microbiology and Immunology

Stanford University School of Medicine
Stanford, California, USA
Phone: (650) 725-4745
E-mail: A.Matin@stanford.edu

Education

  • PhD, University of California, Microbiology (1969)

Biography

Dr. AC Martin is a professor of Microbiology and Immunology from Stanford University School of Medicine. He was born in USA and completed his PhD in the year 1969 in the field of microbiology from University of California, Los Angeles.  Professor Martin is having a teaching knowledge of around 55 years. He is an active member for many microbiological and immunological societies and association. Professor Martin received the Fulbright Scholar award in the year 1964-1971. He is the author for 142 publications along with few patents. He has been a part of many scientific conferences during his teaching and educational career. He had received the funding from reputed organization for his research work. His current research interest includes immunology, Microbiology, Cancer, Genetics studies etc. Currently Professor Martin is working on Exosome (EV) project and also on the Extension of the ongoing antibiotic work.

Research Interest

  • Cancer chemotherapy
  • Bioremediation
  • Microbial biofilms
  • Cellular resistance to antimicrobial agents
  • Microbial stress response

Scientific Activities:

Professional Activities

Patents

  • Nitroreductase enzymes for bioremediation, Patent Number: US7,754,470 B
  • Use of bacterial magnetite in clinical MRI imaging: Patent Number: US2010135912-A1
  • Nitroreductase enzymes, Patent Number: US 07687474

University Service

  • Revised the Bulletin description of Departmental Undergraduate Major, 1977
  • Member, Stanford Recombinant DNA Panel, 1979-1982
  • Chairman, Stanford Recombinant DNA Panel, 1982
  • Member, Department Admissions Committee, 1975-1988; Chair of the Committee, 85 - 88
  • Member, Steering Committee of Departmental Training Grant 1988-2000
  • Faculty Preceptor, Training Grant in Cellular and Molecular Biology 1980-82; 1985- present
  • Chairman, Committee to reorganize Introductory Microbiology course series, 1989-91
  • Member, Departmental Curriculum Committee, 1989-2000
  • Member, Departmental Search Committee for a position in Microbiology, 1990
  • Coordinator (for several years), Internal Department seminar series
  • Coordinator, Microbiology and Immunology External Speaker Seminar series, 1976-78; 1984-85
  • Departmental Representative to the Committee on Pauling lectureship, 1985
  • Departmental senator 1977-80; Alternate senator, 2001 - 2005
  • Departmental Senator, 2006 – 2011
  • Member, Steering Committee, Medical School Senate, 2007-2011
  • Chair, Medical School Post-doctoral Student Task Force, 2007-2011
  • Advisor, Departmental Undergraduate Major/Program, 1990-1995
  • Member, Search Committee, position in eukaryotic microbiology, Dept. of Microbiology & Immunology
  • Freshman adviser, 1975 – 2009 (in various years)

Funding Sources for Sponsored Research

  • National Science Foundation
  • National Institutes of Health
  • National Cancer Institute
  • Department of Energy
  • Environmental Protection Agency
  • Center for Biotechnology Research
  • American Cancer Society
  • Keck Foundation
  • National Aeronautics and Space Administration
  • State of California Office of Competitive Technology
  • Oak Ridge National Laboratory
  • Western Region Hazardous Substances Research
  • NATO
  • Alberta Research Council
  • Stanford Institute for Energy Research
  • Genentech
  • Veteran’s Administration
  • Marie Curie Foundation
  • California Institute for Regenerative Medicine
  • Department of Defense
  • National Center for Advancing Translational Research

Professional Societies

  • American Association for Cancer Research
  • American Association of Gene Therapy
  • American Society for Clinical Oncology
  • American Chemical Society
  • American Society for Microbiology
  • Biophysical Society
  • American Association for the Advancement of Science
  • International Society for Microbial Ecology
  • Society for Industrial Microbiology
  • New York Academy of Sciences
  • American Aerospace Medical Association
  • American Society for Gravitational and Space Biology
  • European Low Gravity Research Association
  • Society of the Sigma XI
  • American Association of University Professors
Honors and Awards
  • M.S.  & Ph. D. degrees with distinction
  • Fulbright Scholar: 1964-1971
  • Elected Fellow, American Academy of Microbiology (elected in 1995)
  • Two times recipient of Environmental Protection Agency’s Star Award: August 1991-it accompanied research support for three years (Award No. R817958)
  • Second award: August 1995 -- this too accompanied research support for three years (Award number R823390)
  • ASM Foundation for Microbiology Lecturer: 1991-1993
  • Board Member, Northern Branch of the Society for Industrial Microbiology: 1990-1991
  • Participant: Department of Energy plan development for Natural and Accelerated Bioremediation Research Program (NABIR), 1998.
  • Member: Stanford Recombinant DNA Panel: 1983-84
  • Chair: Stanford Recombinant DNA Panel: 1984-85
  • Member: Stanford Biosafety Committee: 1992-1994
  • Member Stanford Institutional Review Board: 2005 – 2007
  • Departmental representative to Stanford Medical School Senate: 2006 - 2011
  • Elected to the Steering Committee of Stanford Medical School Senate, 2008 – 2011
  • Chair, Medical School Senate Task Force for Postdoctoral Affairs, 2010 – 2011
  • Elected Associate Fellow, American Aerospace Medical Association (AsMA): 2011
  • Chair Reception Committee, American Aerospace Medical Association: 2012

Publications

Original Papers
  1. AC Matin, J-H Wang, Mimi Keyhan, Rachna Singh, Michael Benoit, Macarena P. Parra, Michael R. Padgen, Antonio J. Ricco,* Matthew Chin, Charlie R. Friedericks, Tori N. Chinn, Aaron Cohen, Michael B. Henschke, Timothy V. Snyder, Matthew P. Lera, Shannon S. Ross, Christina M. Mayberry, Sungshin Choi, Diana T. Wu, Ming X. Tan, Travis D. Boone, Christopher C. Beasley, and Stevan M. Spremo. Payload hardware and experimental protocol for testing the effect of space microgravity on the resistance to gentamicin of stationary-phase uropathogenic Escherichia coli and its s-deficient mutant. Submitted
  2. Wang JH, Endsley AN, Green C, Matin AC. Utilizing native  fluorescence  imaging, modeling and simulation to examine pharmacokinetics and therapeutic regimen of a novel anticancer prodrug. BMC Cancer (2016) 16:524 (DOI 10.1 186/s12885-016-2508-6
  3. Kanada M, Bachmann MH, Hardy JW, Frimannsson DO, Bronsart L, Wang A, Sylvester MD, Schmidt TL, Kaspar RL, Butte MJ, Matin AC, Contag CH. Differential fates of biomolecules delivered to target cells via extracellular vesicles. Proc Natl Acad Sci. E1433– E1442
  4. Zhang H, Cohen AL, Krishnakumar S, Wapnir IL, Veeriah S, Deng G, Coram MA, Piskun CM, Longacre TA, Herrler M, Frimannsson DO, Telli ML, Dirbas FM, Matin AC, Dairkee SH, Larijani B, Glinsky GV, Bild AH, Jeffrey SS. Patient-derived xenografts of  triple- negative breast cancer reproduce molecular features of patient tumors  and  respond  to mTOR inhibition. Breast Cancer Res. 2014 Apr 7;16(2)
  5. J-H Wang, R Singh, M Benoit, M Keyhan, M Sylvester, M Hsieh, A Tathireddy, Y-J Hsieh, AC Matin. 2014. Sigma S-dependent antioxidant defense protects stationary phase Escherichia coli against the bactericidal antibiotic gentamicin. Antimicrob. Agents Chemother. 58(10): 5964-5975
  6. Eswaramoorthy, S, Poulain, S, Hienerwadel, R, Bremond, N, Sylvester, M, Zhang, Y, Berthomieu, C, Van Der Lelie, D, Matin, A. 2012. Crystal structure of ChrR – A quinone reductase with the capacity to reduce chromate. PLoS One, April 2012 | Volume 7
  7. Benoit, MR, Conant, C, Ionescu-Zanetti, C, Schwartz, M, and Matin, A. New device for high throughput viability screening of flow-biofilms. 2010. Applied and Environmental Microbiology 76 (13): 4136-4142.
  8. Barak, Y., F. Schreiber, S.H. Thorne, C.H. Contag, D. deBeer, and A Matin. 2010. Role of nitric oxide in Salmonella typhimurium-mediated cancer cell killing. BMC Cancer 10: 146-152
  9. Benoit, M.R., D. Mayer, Y. Barak, I.Y. Chen, W. Hu, Z. Cheng, S.X. Wang,  D.M. Spielman, S.S.  Gambhir, and A Matin. 2009. Visualizing implanted tumors  in mice  with MRI using magnetotactic bacteria. Clinical Cancer Research 15 (16): 5170 – 5177
  10. Thorne, S, Barak, Y., Liang, W., Bachmann, M.H., Rao, J, Contag, C., and Matin, A. CNOB/ChrR6. 2009. A new prodrug enzyme cancer chemotherapy. Molecular Cancer Therapeutics 8: 333-341
  11. Barak, Y., Y. Nov., D. Ackerley, and A. Matin. 2008. Enzyme improvement in the absence of structural knowledge - a novel approach. ISME Journal, 2: 171-179
  12. Lynch, S.V., L. Dixon, M.R. Benoit, E.L. Brodie, M. Keyhan, P. Hu, D.F. Ackerley, G.L. Andersen and A. Matin. 2007. Role of the rapA gene in controlling antibiotic resistance of Escherichia coli biofilms. Antimicrobial Agents and Chemotherapy 51: 3650 – 3658
  13. Barak, Y., D. F. Ackerley, C. J. Dodge, B. Lal, A. Cheng, A. J. Francis, and A. Matin. 2006. Analysis of novel soluble Cr(VI) and U(VI) reductases and generation of improved enzymes using directed evolution. Applied and Environmental Microbiology, 72: 7074-7082
  14. Lynch, S.V., K. Mukundakrishnan, P. Ayyaswami, and A. Matin. 2006. Escherichia coli biofilms formed under low shear simulated microgravity in a ground-based system. Applied & Environmental Microbiology 72: 7701-7710
  15. Ackerley, D.F., Y. Barak, S.V. Lynch, J. Curtin, and A. Matin. 2006. Effect of chromate stress on Escherichia coli K12. Journal of Bacteriology 188: 3371-3381
  16. Barak, Y., S.H. Thorne, D. F. Ackerley, S.V. Lynch, C.H. Contag, and A. Matin. 2006. New enzyme for reductive cancer chemotherapy (YieF) and its improvement by directed evolution. Molecular Cancer Therapeutics 5: 97-103.
  17. Gonzalez, C.F., D.F. Ackerley, S.V. Lynch, and A. Matin. 2005. ChrR, a soluble quinone reductase of Pseudomonas putida that defends against H2O2. The Journal of Biological Chemistry. 280: 22590-22595.
  18. Lynch, S., E.L. Brodie, and A. Matin. 2004. Role and regulation of s in low shear microgravity-conferred general resistance in Escherichia coli. Journal of Bacteriology 186: 8207-8212
  19. Ackerley, D.F., C.F. Gonzalez, C.H. Park, R. Blake II, M. Keyhan, and A. Matin. 2004. Mechanism of chromate reduction by the Escherichia coli protein, NfsA, and the role of different chromate reductases in minimizing oxidative stress during chromate reduction. Environmental Microbiology, 6: 851-860
  20. Ackerley, D.F., C.F. Gonzalez, C.H. Park, R. Blake II, M. Keyhan, and A. Matin. 2004. Chromate reducing properties of soluble flavoproteins from Pseudomonas putida and Escherichia coli. Applied & Environmental Microbiology, 70: 873-882
  21. Ackerley, D.F., C. H. Park, C. F. Gonzalez, M. Keyhan, and A. Matin. 2002 A soluble flavoprotein contributes to chromate reduction and tolerance by Pseudomonas putida.  Acta Biotechnol., 23: 233-239
  22. Stone, G., P. Wood, L. Dixon, M. Keyhan and A. Matin. 2002. Tetracycline rapidly reaches all the constituent cells of uropathogenic Escherichia coli biofilms. Antimicrobial Agents and Chemotherapy 46: 2458-2461.
  23. Xiong, A. A. Gottman, C. Park, M. Baetons, S. Pandza, and A. Matin. 2000. The EmrR protein represses the Escherichia coli emrRAB multidrug resistance operon by directly binding to its promoter region. Antimicrobial Agents and Chemotherapy 44: 2905-2907
  24. Pandza. S., M. Baetens, C-H. Park, T. Au, M. Keyhan, and A. Matin. 2000. The putative G-protein FLHF has a role in polar flagellar placement and general stress response induction in Pseudomonas putida. Molecular Microbiology 36: 414-423
  25. Park, C-H., M. Keyhan, B. Wielinga, S.  Fendorf, and A. Matin. 2000. Purification to homogeneity and characterization of a novel Pseudomonas putida chromate reductase. Applied & Environmental Microbiology 66: 1788-1795
  26. Fraley, C.D., J.H. Kim, M.P. McCann, and A. Matin. 1998. The Escherichia coli starvation gene, cstC, is involved in amino acid catabolism. Journal of Bacteriology: 180:4287-4290.
  27. Ulitzur, S; Matin, A; Fraley, C; and E. Meighen. 1997.  H-NS protein represses transcription of the lux systems of Vibrio fischeri and other luminous bacteria cloned into Escherichia coli. Curr. Microbiol. 35:336-42.
  28. Zgurskaya, H., M. Keyhan, and A. Matin. 1997. The s level in starving Escherichiacolicells increases solely as a result of its increased stability, despite decreased synthesis. Molecular Microbiology, 24 : 643-651.
  29. Schweder, T., K. Lee, O. Lomovskaya, and A. Matin.  1996.  Regulation of Escherichia coli starvation sigma factor (s) by ClpPX protease.  Journal of Bacteriology 178: 470-476.
  30. Lomovskaya, O., F. Kawai, and A. Matin.  1996.  Differential regulation of MCB and EMR operons: role of MCB in multidrug resistance.  Antimicrobial Agents & Chemotherapy 40:1050-1052.
  31. Matin, A., E. Zychlinsky, M. Keyhan, and G. Sachs.  1996.  The capacity of Helicbacter pylori to generate ionic gradients at low pH is similar to that of bacteria which grow under strongly acidic conditions.  Infection & Immunity 64:1434-1436.
  32. Matin, A., C.D. Little, C.D. Fraley, and M. Keyhan.  1995.  Use of starvation promoters to limit growth and selectively express trichloroethylene and phenol transformation activity in recombinant Escherichia coli.  Applied and Environmental Microbiology, 61:3323-3328.
  33. Lomovskaya, O., K. Lewis, and A. Matin. 1995. EmrR is a negative regulator of the Escherichia coli Multidrug Resistance Pump EmrAB. Journal of Bacteriology, 177:2328- 2344.
  34. Kim, Y., L. Watrud, and A. Matin.  1995.  A carbon starvation survival gene of Pseudomonas putida is regulated by 54. Journal of Bacteriology, 177: 1850-1859.
  35. Lomovskaya, O.L., J.P. Kidwell, and A. Matin.  1994.  Characterization of the σ38- dependent expression of a core Escherichia coli starvation gene, pexB.  Journal of Bacteriology,  176:3928-3935.
  36. Kunji, E.R.S., T. Ubbink, A. Matin, B. Poolman, and W.N. Konings.  1993.  Physiological responses of Lactococcus lactis ML3 to alternating conditions of growth and starvation. Archives of Microbiology, 159:372-379.
  37. McCann, M.P., C. Fraley, and A. Matin.  1993.  The putative sigma factor, KatF, is regulated post-transcriptionally during carbon starvation.   Journal of Bacteriology, 175:2143-2149.
  38. Blaisdell, B.E., K.E. Rudd, A. Matin, and S. Karlin.  1993.  Significant dispersed recurrent DNA sequences in the Escherichia coli genome:  several new groups.  Journal of Molecular Biology, 229:833-848.
  39. Tunner, J.R., C.R. Robertson, S. Schippa, and A. Matin.  1992.  Use of glucose starvation to limit growth and induce protein production in Escherichia coli.  Biotechnology and Bioengineering, 40:271-279.
  40. Blum, P., M. Velligan, N. Lin, and A. Matin.  1992.  DnaK-mediated alterations in human growth hormone protein inclusion bodies.   Bio/Technology, 10:301-304.
  41. Blom, T., W. Harder, and A. Matin.  1992.  Unique and overlapping pollutant stress proteins of E. coli.  Applied & Environmental Microbiology, 58:331-334.
  42. McCann, M.P., J.P.Kidwell, and A.Matin.  1991.  The putative sigma factor KatF has a central role in the development of starvation-mediated general resistance in Escherichia coli.  Journal of Bacteriology, 173:4188-4194.
  43. Jenkins, D.E., E. Auger, and A. Matin. 1991. Role of RpoH, a heat shock regulator protein, in Escherichia coli carbon starvation protein synthesis and survival. Journal of Bacteriology,  173:1992-1996.
  44. Schultz, J., and A. Matin.  1991.  Molecular and functional characterization of a carbon starvation gene of Escherichia coli.  Journal of Molecular Biology, 218:129-140.
  45. Blum, P.H., S.B. Jovanovich, M.P. McCann, J.E. Schultz, S.A. Lesley, R.R. Burgess, and A. Matin.  1991.  Cloning and in vivo and in vitro regulation of cyclic AMP-dependent carbon starvation genes from Escherichia coli.  Journal of Bacteriology, 172:3813-3820.
  46. Jenkins, D.E., S. Chaisson, and A. Matin.  1990.  Starvation-induced cross protection against osmotic challenge in Escherichia coli.  Journal of Bacteriology, 172:2779-2781.
  47. McLaggan, D., M. Keyhan, and A. Matin.  1990.  Chloride transport pathways and their bioenergetic implications in the obligate acidophile, Bacillus coagulans.  Journal of Bacteriology,  172:1485-1490.
  48. McLaggan, D., S. Belkin, L. Packer, and A. Matin.  1989.  Electron spin resonance measurements of the effect of ionophores on the transmembrane pH gradient of an acidophilic bacterium.   Archives of Biochemistry, 273:206-214.
  49. Harakeh, S., and A. Matin.  1989.  Influence of nutrient-limited growth on outer- membrane proteins of Yersinia enterocolitica.  Journal of Applied Bacteriology, 67:209-212.
  50. Berg, J.D., J.C. Hoff, P.V. Roberts, and A. Matin.  1988.  Resistance of bacterial subpopulations to disinfection by chlorine dioxide.  Journal of American Water Works Association,  Sept.:115-119.
  51. Jenkins, D.E., J.E. Schultz, and A. Matin.  1988.  Starvation-induced cross protection against heat or H2O2 peroxide challenge in Escherichia coli.  Journal of Bacteriology, 170:3910-3914.
  52. Schultz, J.E., G.I. Latter, and A. Matin.  1988.  Differential regulation by cyclic AMP of starvation proteins in Escherichia coli.  Journal of Bacteriology, 170:3903-3909.
  53. Harakeh, S., A. Illescas, and A. Matin.  1988.  Inactivation of bacteria by purogene. Journal of Applied Bacteriology, 64:459-463.
  54. Read, D.L., and A. Matin.  1987.  Two-dimensional gel resolution of polypeptides specific for autotrophic growth in Thiobacillus versutus.  Journal of Applied Bacteriology, 63:469-472.
  55. Berg, J.D., P.V. Roberts, and A. Matin.  1986.  Effect of chlorine dioxide on selected membrane functions of Escherichia coli.  Journal of Applied Bacteriology, 60:213-220.
  56. Groat, R.G., J. Schultz, E. Zychlinsky, A. Bockman, and A. Matin.  1986.  Starvation proteins in Escherichia coli: kinetics of synthesis and role in starvation survival.  Journal of Bacteriology,  168:486-493.
  57. Groat, G. and A. Matin.  1986.  Synthesis of unique proteins at the onset of carbon starvation in Escherichia coli.  Journal of Industrial Microbiology, 1:69-73.
  58. Goulbourne, Jr., E., M. Matin, E. Zychlinsky, and A. Matin.  1986.  Mechanism of  pH maintenance in active and inactive cells of an obligately acidophilic bacterium.  Journal of Bacteriology, 166:59-65.
  59. Bockman A., C.A. Reeve, and A. Matin.  1986.  Stabilization of glucose starved Escherichia coli K-12 and Salmonella typhimurium LT2 by peptidase deficient mutants. Journal of General Microbiology, 132:231-235.
  60. Berg, J.D., J.C. Hoff, P.V. Roberts, and A. Matin.  1985.  Growth of Legionella pneumophila in continuous culture.  Applied & Environmental Microbiology, 49:1534-1537.
  61. Harakeh, M.S., J. Berg, J.C. Hoff, and A. Matin.  1985.  Susceptibility of chemostat- grown Yersinia enterocolitica and Klebsiella pneumoniae to chlorine dioxide.  Applied & Environmental Microbiology, 49:69-72.
  62. Inloes, D., A. Matin, A.S. Michaels, and C.R. Robertson. 1985. Ethanol production by nitrogen-deficient yeast cells immobilized in a hollow-fiber membrane bioreactor. Applied Microbiology and Biotechnology, 23:85-91.
  63. Reeve, C.A., P.S. Amy, and A. Matin.  1984.  Role of protein synthesis in the survival of carbon-starved Escherichia coli K-12.  Journal of Bacteriology, 160:1041-1046.
  64. Reeve, C.A., A. Bockman, and A. Matin.  1984.  Role of protein degradation in the survival of carbon-starved Escherichia coli and Salmonella typhimurium.  Journal of Bacteriology,  157:758-763.
  65. Abou-Shleib, H., J.D. Berg, and A. Matin.  1983.  Effect of antecedent growth conditions on sensitivity of Escherichia coli to phenylphenol.  FEMS Microbiology Letters, 19:183-186
  66. Zychlinsky, E., and A. Matin.  1983.  Cytoplasmic pH homeostasis in an acidophilic bacterium, Thiobacillus acidophilus.   Journal of Bacteriology, 156:1352-1355.
  67. Zychlinsky, E., and A. Matin.  1983.  Effect of starvation on cytoplasmic pH, proton motive force, and viability of an acidophilic bacterium, Thiobacillus acidophilus.  Journal of Bacteriology,  153:371-374.
  68. Matin, A., and M.K. Matin.  1982.  The protonmotive force and the pH in spheroplasts of an acidophilic bacterium (Thiobacillus acidophilus).  Journal of General Microbiology,  128:3071-3075.
  69. Berg, J.D., A. Matin, and P.V. Roberts.  1982.  Effect of antecedent growth conditions   on sensitivity of Escherichia coli to chlorine dioxide.  Applied & Environmental Microbiology, 44:814-819.
  70. Matin, A., B. Wilson, E. Zychlinsky, and M. Matin.  1982.  Proton motive force and the physiological basis of pH maintenance in Thiobacillus acidophilus.   Journal of Bacteriology,  150:582-591.
  71. Perez, R.C., and A. Matin.  1982.  Carbon dioxide assimilation by Thiobacillus novellus under nutrient-limited mixotrophic conditions.   Journal of Bacteriology, 150:46-51.
  72. Matin, A., and M.K. Matin.  1982.  Cellular levels, excretion, and synthesis rates of cyclic AMP in Escherichia coli grown in continuous culture.  Journal of Bacteriology, 149:801-807.
  73. Leefeldt, R.H., and A. Matin.  1980.  Growth and physiology of Thiobacillus novellus under nutrient-limited mixotrophic conditions.   Journal of Bacteriology, 142:645-650.
  74. Matin, A., M. Schleiss, and R.C. Perez.  1980.  Regulation of glucose transport and metabolism in Thiobacillus novellus.  Journal of Bacteriology, 142:639-644.
  75. Perez, R.C., and A. Matin.  1980.  Growth of Thiobacillus novellus on mixed substrates (mixotrophic growth).   Journal of Bacteriology, 142:633-638.
  76. Matin, A., F.J. Kahan, and R. Leefeldt.  1980.  Growth factor requirement of Thiobacillus novellus.  Archives of Microbiology, 124:91-95.
  77. Matin, A., C. Veldhuis, V. Stegeman, and M. Veenhuis.  1979.  Selective advantage of a Spirillum sp. in a carbon-limited environment:  accumulation of poly-ß-hydroxybutyric acid and its role in starvation.  Journal of General Microbiology, 112:349-355.
  78. Masover, G.K., R. Perez, and A. Matin.  1979.  Cultivation of Ureaplasma urealyticum in continuous culture.  Infection & Immunity, 23:175-177.
  79. Matin, A., and H. Veldkamp.  1978.  Physiological basis of the selective advantage of a Spirillum sp. in a carbon-limited environment.  Journal of General Microbiology, 105:187- 197.
  80. Matin, A., and J.C. Gottschal.  1976.  Influence of dilution rate on NAD(P) and NAD(P)H concentrations and ratios in a Pseudomonas sp. grown in continuous culture.  Journal of General Microbiology, 94:333-341.
  81. Matin, A., A. Grootjans, and H. Hogenhuis.  1976.  Influence of dilution rate on enzymes of intermediary metabolism in two fresh water bacteria grown in continuous culture. Journal of General Microbiology, 94:323-332.
  82. Harder, W., A. Matin, and M.M. Attwood.  1975.  Studies on the physiological significance of the lack of a pyruvate dehydrogenase complex in Hyphomicrobium sp. Journal of General Microbiology, 86:319-326.
  83. Matin, A., W.N. Konings, J.G. Kuenen, and M. Emmens.  1974.  Active transport of amino acids by membrane vesicles of Thiobacillus neapolitanus.  Journal of General Microbiology,  83:311-318
  84. Matin, A., and W.N. Konings.  1973.  Transport of lactate and succinate by membrane vesicles of Escherichia coli, Bacillus subtilis and a Pseudomonas species.  European Journal of Biochemistry, 34:58-67.
  85. Matin, A., and S.C. Rittenberg.  1972.  Kinetics of deoxyribonucleic acid destruction and synthesis during growth of Bdellovibrio bacteriovorus strain 109D in Pseudomonas putida and Escherichia coli.  Journal of Bacteriology, 111:664-673.
  86. Lu, M.C., A. Matin, and S.C. Rittenberg.  1971.  Inhibition of growth of obligately chemolithotrophic Thiobacilli by amino acids.  Archive of Microbiology, 79:354-366.
  87. Matin, A., and S.C. Rittenberg.  1971.  Enzymes of carbohydrate metabolism in Thiobacillus species.  Journal of Bacteriology, 107:179-186.
  88. Matin, A., and S.C. Rittenberg.  1970.  Regulation of glucose metabolism in Thiobacillus intermedius.   Journal of Bacteriology, 104:239-246.
  89. Matin, A., and S.C. Rittenberg.  1970.  Utilization of glucose in heterotrophic media by Thiobacillus intermedius.  Journal of Bacteriology, 104:234-238.
Invited Review Articles/Book Chapters/Research Reports
  1. Singh R, Matin AC. Cellular response of Escherichia coli to microgravity and microgravity analogue culture. In: Effect of spaceflight and spaceflight analogue culture on human and microbial cells: Novel insights into disease mechanisms. New York: Springer, 2016. p. 259-82.
  2. Matin A.C., Stress, Bacterial: General and Specific, Reference Module in Biomedical Sciences. Elsevier. 08-Aug-2015 doi: 10.1016/B978-0-12-801238-3.02461-2 134.
  3. T. Boone, A. Cohen, M. Chin, T. Chinn, C. Friedericks, E. Jackson, M. Keyhan, M. Lera, AC Matin, D. Mayer, C, Middour, M. Parra, A. Ricco, and S. Spremo. E. coli Anti Microbial Satellite (EcAMSat): Science Payload System Development and Test. Proc. 28th Annual AIAA/USU Conference on Small Satellites, The American Institute of Aeronautics and Astronautics: Reston, VA (2014); SSC14-WK-8 (5 pp.) 135.
  4. Matin, A. 2009. Bacterial stress response: specific and general. Encyclopedia of Microbiology. (Moselio Schaechter, Editor), pp. 485-500 Oxford: Elsevier
  5. Matin, A., and S. Lynch, and M. R. Benoit. 2006. Increased bacterial resistance and virulence in simulated microgravity and its molecular basis. Gravitation and Space Biology 19: 31-42
  6. Gonzalez, C., D. Ackerley, M. Keyhan, R. Blake II, and A. Matin. 2005. Evaluation of class II chromate reductases and their bioremediation potential. Paper C6-09, in: R.F. Olfenbuttel and P.J. White (Eds.), Remediation of Contaminated Sediments—2005: Finding Achievable Risk Reduction Solutions. Proceedings of the Third International Conference on Remediation of Contaminated Sediments (New Orleans, Louisiana; Jan 24– 27, 2005). ISBN 1-57477-150-7,  published by Battelle Press, Columbus, OH
  7. Ackerley, D. F., Claudio F Gonzalez, Mimi Keyhan, Robert Blake III, and A Matin. 2005. Biomolecular strategy to decrease chromate toxicity to remediating bacteria. Water Resources Management III, de Conceicao Cunha, M., and Brebbia, C.A., editors, WIT press (www.witpress.com), pp. 259-267
  8. Matin, A. and S.V. Lynch. 2005. Investigating the threat of bacteria in space. ASM News, American Society for Microbiology, Washington, D.C., 71: 235-240
  9. Lynch, S.V, and Matin, A. 2005. Travails of microgravity. Biologist, the Journal of the Institute of Biology, London, UK, Vol. 52, No.2, May 2005, pp 80-87
  10. Matin, A. 2004. Molecular approaches to improve bacterial bioremediation capacity with special reference to chromate bioremediation. In Proceedings of International Symposium of Environmental Biotechnology on Bioenergy and Bioremdiation, Organized by National Cheng Kung University, Taiwan, ROC 21 COE GREEN ENERGY, Nagoaka University of Technology, Japan.
  11. Matin, A.  (2004). Starvation, bacterial. In Desk Encyclopedia of Microbiology, Editor M. Schaechter, Amsterdam: Elsevier Academic Press, pp. 951–959
  12. Keyhan, M, D. F. Ackerley, and A. Matin. 2003. Targets of improvement in bacterial chromate bioremediation. Remediation of Contaminated Sediments—2003. Proceedings of the Second International Conference on Remediation of Contaminated Sediments (Venice, Italy), M. Pellei and A. Porta (Eds.), Battelle Press, Columbus, OH, E-06
  13. Matin, A. 2002. Ion transport in acidophiles. In Theme 6.73 Extremophiles, In Encycloppedia of Life Support Systems (EOLSS), Eolss Publishers, Oxford, U.K. [http://greenplanet.eoloss.net/EolssLogn/LoginForm.aspx]
  14. Park, C.H., C. Gonzales, D. Ackerley, M. Keyhan, and A. Matin. 2002.  Molecular engineering of soluble bacterial proteins with chromate reductase activity.  In: R.E. Hinchee, Porta, and M. Pellei (eds.), Remediation and Reuse of Contaminated Sediments, pp. 103-111. Proceedings of the First International Conference on Remediation of Chlorinated Sediments (Venice, Italy, 10-12 October 2001), Volume S1-3.  Battelle Press, Columbus, Ohio, USA.
  15. Matin, A. 2001. Stress response in bacteria. Encyclopedia of Environmental Microbiology, John Wiley and Sons: New York. Vol 6, pages 3034 – 3046
  16. Matin, A. 2000. Genetics and Physiology of Starving Bacteria. In Encyclopedia of Microbiology, 2nd Edition, (ed.) J. Lederberg. Academic Press, San Diego, CA. Vol 4: 394-403
  17. Matin, A. 1999. pH homeostasis in acidophiles. In the Novartis Foundation Symposium 221 on pH homeostasis, England, pp.152-163.
  18. Matin, A., M. Baetens, S. Pandza, C.H. Park, and S. Waggoner. 1999.  Survival strategies in the stationary phase.  In Microbial Ecology of Infectious Disease (E. Rosenberg, editor), American Society for Microbiology: Washington D.C., pp. 30-48
  19. Saier, M. H., I.T. Paulsen, and A. Matin.  1997.  A Bacterial Model System for Understanding Multidrug Resistance.   Microbial Drug Resistance, 3:289-295.
  20. Matin, A. 1996.  Role of alternate sigma factors in starvation protein synthesis -- novel mechanisms of catabolite repression.  In Research in Microbiology (14th Forum in Microbiology, organizer: M. Saier) 147:494-504
  21. Matin, A. 1995.  Starvation in Bacteria, S. Kjelleberg, ed. Plenum Press: London, New York.  The Quarterly review of Biology, 70:222.
  22. Kim, Y.J., and A. Matin.  1995.  Starvation genes, promoters and starvation survival fusion mutants of Pseudomonas putida.  In Biotechnology Risk Assessment: USEPA/USDA, Environment Canada, University of Maryland, College Park, Maryland.  pp.344-356.
  23. Matin, A.  1994.  Starvation promoters of Escherichia coli:  their function, regulation & use in bioprocessing and bioremediation.  Recombinant DNA Technology II, Annals of New York Academy of Sciences, 722:277-291.
  24. Matin, A.  1992.  Genetics of bacterial stress response and its applications.  Biochemical Engineering VII, Annals of New York Academy of Sciences, 665: 1-15.
  25. McCann, M.P., J. Kidwell, and A. Matin.  1992.  Genetics of microbial starvation survival.  In Encyclopedia of Microbiology, Vol. 3, (ed.) J. Lederberg.  Academic Press, Inc., Orlando, FL.  pp. 159-170.
  26. Matin, A.  1991.  Physiology, molecular biology and applications of the bacterial starvation response.  Journal of Applied Bacteriology Symposium Supplement. 73:49s- 57s.
  27. Little, C.D., C.D. Fraley, M. McCann, and A. Matin.  1991.  Use of bacterial stress promoters to induce biodegradation under conditions of environmental stress.  In Proceedings of In situ and On-site Bioreclamation Battelle Symposium, San Diego, CA, 19- 21 March 1991, (ed.) R.E. Hichee.  Butterworth-Heinemann, Stoneham, MA.  pp. 493-498
  28. Matin, A.  1991.  The molecular basis of carbon starvation-induced general resistance in E. coli.  Molecular Microbiology, 5:3-11.
  29. Matin, A., and S. Harakeh.  1990.  Effect of starvation on bacterial resistance to disinfectants.  In Drinking Water Microbiology, (ed.) G.A. McFeters.  Springer-Verlag, New York.  pp. 88-103.
  30. Matin, A.  1990.  Molecular analysis of the starvation stress in E. coli.  FEMS Microbiology and Ecology, 74:185-96.
  31. Matin, A.  1990.  Bioenergetics parameters and transport in obligate acidophiles. Biochimicha Biophysica Acta, 1018:267-270.
  32. Matin, A.  1990.  Keeping a neutral cytoplasm: the bioenergetics of obligate acidophiles. FEMS Microbiology Review, 75:307-318.
  33. Matin, A., E. Auger, P. Blum, and J. Schultz.  1989.  Genetic basis of starvation survival in non-differentiating bacteria.  Annual Review of Microbiology, 43:293-316.
  34. Schultz, J.E. and A. Matin. 1987. Regulation of carbon starvation genes in Escherichia coli. Homeostatic Mechanisms in Microorganisms, Federation of European Microbiology Societies Symposium No. 44: pp. 50-60.
  35. McLaggan, D. and A. Matin.  1987.  Stability of pH, chloride permeability and chloride pump in an acidophile.  In Proceedings of the Membrane Protein Symposium, (ed.) S.C. Goheen.  Biorad Laboratories.  pp. 415-425.
  36. Matin, A.  1987.  Role of Protein turnover in starvation survival of Escherichia coli.  In Proceedings of IV International Symposium on Microbial Ecology.  pp. 435-441.
  37. McLaggan, D., and A. Matin.  1986.  Chloride permeability and chloride transport in the acidophile, Bacillus coagulans.  In Fourth European Bioenergetics Conference Reports. p. 417.
  38. Harakeh, S., and A. Matin.  1985.  Response of chemostat grown bacteria to chlorine dioxide.  In Water Chlorination: Environmental Impact and Health Effects, Vol. 5, (eds.) R.L. Jolley et al.   Ann Arbor Science Publishers, Michigan.  p. 165
  39. Berg, D.B., J.C. Hoff, P.V. Roberts, and A. Matin.  1985.  Disinfection resistance of Legionella pneumophila and Escherichia coli grown in continuous and batch cultures.  In Water Chlorination, Vol. 5, (eds.) R.L. Jolley, et al., Ann Arbor Science Publishers, Michigan.  pp. 603-613.
  40. Matin, A.  1984.  Mixotrophy and chemiosmotic aspects of acidophilism in facultative thiobacilli.  In Microbial growth on C-1 Compounds, (eds.) R.L. Crowford and R.S. Hanson. American Society for Microbiology, Washington, DC.  pp. 62-71.
  41. Matin, A.  1984.  Mixotrophy in facultative thiobacilli.  In Microbial Chemoautotrophy, (eds.) W.R. Strohl and O.H. Tuovinen.  Ohio State University Press, Columbus, OH.  pp. 57-78.
  42. Berg, J.D., J.C. Hoff, P.V. Roberts, and A. Matin.  1984.  Growth of Legionella pneumophila in continuous culture and its sensitivity to inactivation by chlorine dioxide.  In Microbiology, (eds.) C. Thornsberry, A. Balows, J. Feeley, and W. Jakubowski.  American Society for Microbiology, Washington, DC.  pp. 68-70.
  43. Berg, J.D., A. Matin, and P.V. Roberts.  1983.  Growth of disinfection-resistant bacteria and simulation of natural aquatic environments in the chemostat.  In Proceedings of Fourth Conference on Water Chlorination: Environmental Impact and Health Effects, Vol. 4, (ed.) R. Jolley.  Ann Arbor Science Publishers, Ann Arbor, MI.  pp. 1137-1147.
  44. Matin, A.  1979.  Microbial regulatory mechanism at low nutrient concentrations as studied in chemostat.  In strategies of Microbial Life in Extreme Environments:  Dahlem Konferenzen, Life Sciences Research Report, Berlin, Vol. 13, (ed.) M. Shilo.  Verlag Chemie, Weinheim, NY pp.323-339.
  45. Matin, A.  1981.  Regulation of enzyme synthesis as studied in continuous culture.  In Continuous Culture of Cells, Vol. II, (ed.) P.H. Calcott.  CRC Press, Inc., Florida.  pp. 69-97.
  46. Matin, A.  1978.  Organic nutrition of chemolithotrophic bacteria.  Annual Review of Microbiology,  32:433-468.
  47. Harder, W.J., J.G. Kuenen, and A. Matin.  1977.  Microbial selection in continuous culture.  Journal of Applied Bacteriology, 43:1-24.
Conference Papers
  1. Jing-Hung Wang, Masako Harada, Alexis Forterre, Alain Delcayre, Travis Antes, Archana Gupta, Masamitsu Kanada, Carol Green, Stefanie Jeffrey, Mark Pegram, Christopher Contag, AC Matin. HER2-targeted extracellular vesicles delivery of therapeutic mRNA for enzyme prodrug therapy. NIH Extracellular RNA Communication Consortium 7th Investigators’ Meeting November 3rd and 4th, 2016 Bethesda North Marriott Hotel, Rockville, MD
  2. Harada, Masako, Jing-Hung Wang, Alexis Forterre, Alain Delcayre, Masamitsu Kanada, Christopher Contag, Stefanie Jeffrey, AC Matin. Targeted delivery of  therapeutic microRNA to HER2-positive breast cancer. The 2016 American Society for Exosomes and Microvesicles Annual Meeting, Oct. 20-24, 2016, Asilomar, CA, Abstract, 068
  3. M. Kanada, B.D. Kim, J. Ronald, T.J. Ge, M.H. Bachmann, J.W. Hardy, S.S. Gambhir, A.C. Matin, R. Paulmurugan, C.H. Contag, Extracellular vesicle-mediated delivery of minicircle DNA encoding prodrug-converting enzymes for cancer therapy. The 2016 American Society for Exosomes and Microvesicles Annual Meeting, Oct. 20- 24, 2016, Asilomar, CA, Abstract, 075
  4. Wang JH, Harada M, Delcayre A, Antes TJ, Gupta A, Kanada M, Green C,  Jeffrey S, Pegram M, Contag C, Matin AC. HER2-targeted extracellular vesicles delivery of therapeutic mRNA for enzyme prodrug therapy. Abstract submitted to Gordon Research Conference Extracellular Vesicles, Aug 21-26, 2016, Sunday River, Newry,  ME
  5. Masamitsu Kanada, John Ronald, Bryan D. Kim, Ramasamy Paulmurugan, Jessie Ge, Michael H. Bachmann, Jonathan W. Hardy, Sanjiv Sam Gambhir, A.C. Matin, Christopher H. Contag. Efficient delivery of minicircle DNA by extracellular vesicles as assessed by bioluminescence imaging. World Molecular Imaging Conference, 2016
  6. Wang JH, Harada M, Delcayre A, Antes TJ, Gupta A, Kanada M, Jeffrey S, Pegram M, Wilson C, Grant G, Contag C, Matin AC. HER2-targeted extracellular vesicles delivery of therapeutic mRNA for enzyme prodrug therapy – possibility for targeting brain metastasis. NIH Trans agency blood brain interface Workshop, Exosome Therapeutics Session; June 2016
  7. Harada M, Wang JH, Delcayre A, Kanada M, Contag CH, Jeffrey SS, Matin AC. Construction of dual-function extracellular vesicles for imaging, delivery and targeting in cancer therapy. NIH EERC April 2016 meeting, Bethesda, MD
  8. Wang JH, Harada M, Delcayre A, Antes TJ, Gupta A, Kanada M, Jeffrey S, Pegram M, Wilson C, Grant G, Contag C, Matin AC. HER2-targeted extracellular vesicles delivery of therapeutic mRNA for enzyme prodrug therapy. NIH EERC April 2016 meeting, Rockville, MD.
  9. A.C. Matin, M. Benoit1, M. Chin2, T.N. Chinn2, A. Cohen2, C. Friedericks2, M.B. Henschke2, M. Keyhan1, M.P. Lera2, M.R. Padgen2, M.P. Parra2, A.J. Ricco2, R. Singh1, Snyder2, S.M. Spremo2, J. Wang EcAMSat: Effect of Spaceflight on Antibiotic Resistance of a Pathogenic Bacterium and its Genetic Basis. ASGSR November 2015
  10. Wilson C, C, Contag C, Matin AC, Grant G. The potential of EVs to cross the blood brain barrier. NIH EERC April 2015 meeting, Rockville, MD.
  11. Wang JH, Delcayre A, Antes TJ, Gupta A, Kanada M, Jeffrey S, Pegram M, Wilson C, Grant G, Contag C, Matin AC. Targeted extracellular vesicles to deliver a new prodrug regimen to HER2+ve breast cancer. exRNA Communication Consortium Investigators’ Meeting Nov., 2015, Rockville, MD
  12. Masamitsu Kanadaa, Michael H. Bachmanna, Jonathan W. Hardya, Laura Bronsarta, Andrew Wanga, Daniel Omar Frimannsonb, Matthew D. Sylvesterb, Tobi L. Schmidta, Roger L. Kaspard, Manish J. Buttea, A.C. Matin, Christopher H. Contag. Differential fates of biomolecules delivered to target cells via extracellular  vesicles. exRNA Communication Consortium  Investigators’  Meeting,  November  2015,  Rockville, MD
  13. M Kanada, MH Bachmann, JW Hardy, DO Frimannson, L Bronsart, A Wang, MD Sylvester, TL Schmidt, RL Kaspar, MJ Butte, AC Matin, CH Contag, Bioluminescence imaging reveals tissue specificity of extracellular vesicle-mediated biomolecule transfer in vivo, World Molecular Imaging Congress 2015, Hawaii, Sep. 2-5, 2015
  14. Matin AC. Use of a new visualizable prodrug regimen for specific targeting of Her2 positive breast cancer using exosomes, ASEMV2015 Marco Island Marriott Resort, Marco Island, Florida, October 16-20, 2015
  15. M Kanada, MH Bachmann, JW Hardy, L Bronsart, A Wang, DO Frimannson, MD Sylvester, TL Schmidt, RL Kaspar, MJ Butte, AC Matin, CH Contag. Extracellular vesicle-mediated delivery of prodrug-converting enzymes for cancer therapy, ASEMV2015 Marco Island Marriott Resort, Marco Island, Florida, October 16-20, 2015
  16. Frimannsson DO, Sylvester M, Pegram M, Jeffrey S, Contag C, Delcayre, A and Matin AC. 2014. Specific delivery of cholesterol-tagged genetic material using HER2- targeted single-chain variable fragment (ScFv) exosomes. NIH Extracellular RNA Consortium 3rd  Investigator’s Meeting., #26; page 30
  17. M Kanada, MH Bachmann, JW Hardy, L Bronsart, A Wang, DO Frimannson, MD Sylvester, TL Schmidt, RL Kaspar, MJ Butte, AC Matin, CH Contag, Differential fates of biomolecules delivered to target cells via extracellular vesicles, American Society of Exosomes & Microvesicles 2014, Asilomar, Oct. 10-13, 2014
  18. Tori Chinn, Travis Boone, Matthew Chin, Aaron Cohen, Charlie Friedericks, Evan Jackson, Matthew Lera, AC Matin, Christopher Middour, Macarena Parra, Antonio  Ricco, Stevan Spremo. EcAMSat Fluidic System: Lessons Learned for Reduced Gravity Biological Research.  ASGSR; September 2014; Pasadena, CA. Session 10, October  25, 2014
  19. M Kanada, MH Bachmann, JW Hardy, L Bronsart, A Wang, DO Frimannson, TL Schmidt, MJ Butte, AC Matin, CH Contag, Imaging of functional molecule transfer by tumor-derived microvesicles, World Molecular Imaging Congress 2014, Korea, Sep. 17- 20, 2014
  20. AC Matin, D. Frimannsson, M. Tanaka, C. Contag, A. Delcayre, M. Pegram and Jeffrey. Extracellular vesicle-mediated delivery of components of a new prodrug therapeutic regimen. Poster #31: NIH Extracellular RNA Communication Consortium, 2nd Investigators’ Meeting, Monday May 19th – Tuesday May 20th, 2014
  21. M Kanada, MH Bachmann, J Hardy, L Bronsart, A Wang, DO Frimannson, T Schmidt, MJ Butte, AC Matin, CH Contag. Imaging of functional molecule transfer by tumor-derived microvesicles. World Molecular Imaging Congress (WMIC) 2014.
  22. AC Matin, D Frimannsson, M Kanada, S Jaffrey, M Pegram, A Delcayre, C. Contag. Extracellular vesicle-mediated delivery of components of a new prodrug therapeutic regimen. ISEV 2014, Rotterdam, The Netherlands, May 2014, P4C-190
  23. A.C. Matin, A.J. Ricco, M. Parra, K. Ronzano, M. Lera, D. Wu, M. Tan, S. Ross, M. Keyhan, C. Mayberry, C. Beasley, S. Choi, M. Benoit, J. Wang, R. Singh. Nanosatellite microfluidic payload will determine spaceflight effects on bacterial antibiotic resistance and its genetic basis. ELGRA News, vol 28, September 2013.
  24. M. Lera, M. Parra, D. Wu, M. Tan, A. J. Ricco, K. Ronzano, S. Ross, C. Mayberry, C. Beasley, S. Choi, A.C. Matin, and M. Keyhan. Newly Modified Microfluidics Hardware with Flight Heritage Provides Platform for Conducting Inexpensive On-Orbit Microbiology Experiments (2012), 28th Annual Meeting of the American Society for Gravitational and Space Research, New Orleans, 11/28-12/2/12, abstr IPS-14. 3.
  25. A.C. Matin, A.J. Ricco, M. Parra, K. Ronzano, M. Lera, D. Wu, M. Tan, S. Ross, M. Keyhan, C. Mayberry, C. Beasley, and S. Choi EcAMSat: Nanosatellite Microfluidic Payload Determines Spaceflight Effects on Bacterial Antibiotic Resistance and Their Genetic Basis (2012), 28th Annual Meeting of the American Society for Gravitational and Space Research, New Orleans, 11/28-12/2/12, abstr TVI-6. 2.
  26. Ludmila Alexandrova, Jing-Hung Wang, A Matin, and Allis Chien. 2012. Quantification of Sedoheptulose 7-Phosphate in bacteria cell extracts by liquid chromatography-mass spectrometry. American Society for Mass Spectrometry 60th Annual Conference in Vancouver, Canada (May 24-26, 2012)
  27. Wang JH and Matin A. Utilizing native fluorescence imaging to assess pharmacokinetics of a novel anticancer prodrug. In: Proceedings of the 4th World Molecular Imaging Congress; 2011 Sep 7-10; San Diego,  CA:  WMIC  2011  Abstract P110.
  28. Wang JH and Matin, A. Pharmacokinetics and Pharmacodynamics correlation of a novel fluorescent anticancer prodrug activated by a bacterial nitroreductase. In: Annual meeting of American Association of Pharmaceutical Scientists; 2011 Oct  23-27; Washington, DC. New York (NY): AAPS Journal 13(S2):2547
  29. Sebastien Poulain, Subramaniam Eswaramoorthy, Rainer Hienerwadel, Nicolas Bremond, Matthew D.Sylvester, Virginie Chapon, Catherine Berthomieu, and  A.C. Matin. Molecular basis of ChrR improvement for metal and radionuclide bioremediation, EGU General Assembly 2011, Vienna, Australia, BG9
  30. Amanda M. Hamilton, Paula Foster, Michael R.  Benoit,  A. C. Matin,  Brian  K. Rutt, P634. Magnetic resonance imaging of a metastatic breast cancer cell line using the endogenous magnetic resonance imaging (MRI) reporter, magA. September 9, 2011
  31. Jing-Hung Wang, A. C. Matin. Utilizing native fluorescence imaging to assess pharmacokinetics of a novel anticancer prodrug. P110, September 7, 2011
  32. Wang JH, Zhao M, Barak Y, Hoffman RM and Matin A, Preclinical studies of a novel anti-tumor prodrug therapy. In: 12th Annual Meeting of the American Society of Gene Therapy; 2009 May 27-30; San Diego, CA. New York (NY), Molecular Therapy 17(1):S109
  33. B. Kalisky, J.R. Kirtley , L.C. Qian , B.L. Dwyer , K.A. Moler , J. Ngai , Y. Segal, J. Reiner , F. Walker , C. Ahn , A. M. Hamilton , B. Rutt , A.C. Matin , O.M. Auslaender , D.A. Bonn , R. Liang , W.N. Hardy , J.G. Analytis , J.-H. Chu  ,  I.R.  Fisher.  High sensitivity SQUID susceptibility measurements. D16.00007. Bulletin of the American Physical Society, March 21, 2011
  34. Qian, L, Kalisky, B, Hamilton, A, Dwyer, B, Matin, A.C, Moler, K. Magnetic Characterization of Individual Magnetotactic Bacteria. Bulletin of the American Physical Society, D16.00008, March 21–25, 2011; Dallas, Texas
  35. Wang JH and Matin A. Assessment  of  Pharmacokinetics  and Pharmacodynamics correlation of a novel fluorescent anticancer prodrug [abstract]. In: Proceedings of the 101th Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC., AACR; 2010
  36. Qian, L, Kalisky, B, Kirtley, J, Kim, J, Benoit, M, Sun, S, Matin, A, Moler, K. 2010. Abstract: X34.00010: Nanomagnet characterization using scanning SQUID Microscopy. Bulletin of the American Physical Society, APS March Meeting  2010, Volume 55, Number 2
  37. Wang JH and Matin A. Quantitative fluorescence imaging to non-invasively measure in vivo kinetics of a novel anticancer prodrug [abstract]. In: Annual meeting of American Association of Pharmaceutical Scientists;  2009  Nov  8-12;  Washington,  DC. New York (NY): AAPS Journal 11(S2):1503
  38. Benoit, MR, Matin, A. New Methods for High Throughput Screening of Biofilms. American Society for Microbiology, 109th  General Meeting. Philadelphia, PA. May 18, 2009.
  39. Benoit, MR, Mayer, M, Barak, Y, Chen, IY, Hu, W., Cheng, Z., Wang, SX, Spielman, DM, Gambhir, SS, Matin, A. Visualizing Implanted Tumors in Mice with MRI Using Magnetotactic Bacteria. American Society for Microbiology, 109th  General Meeting. Philadelphia, PA. May 18, 2009.
  40. Benoit, M.R., Mayer, D., Barak, Y., Chen, I., Hu, W., Keren, S., Wang, S., Spielman, D.,  Gambhir, S.S., Matin, A. Magnetotactic Bacteria as a Potential MRI Contrast Agent.  Joint Molecular Imaging Conference. Providence, RI, September 9, 2007.
  41. Barak Y, Schrieber F, Thorne SH, Contag CH, de-Beer D, Matin A. (2007). Therapeutic Implications of Nitric oxide generation by tumor-targeting Salmonella typhimurium strains. Second International nitrite meeting. NIH.
  42. Barak Y, Thorne SH, Rao J, Contag CH, Matin A. (2007). Discovery of a novel prodrug for reductive cancer chemotherapy that can be visualized in-vivo. American Society for Cancer Research. Proceeding of the American Society for Cancer Research. 48:1335.
  43. Barak, Y., Ackerley, D.F., Dodge, C.J., Lal, B., Cheng, A., Nov, Y., Francis, A.J, Matin, A.  Enzyme improvement for combined Cr(VI) and U(VI) bioremediation using directed evolution and rational design. 11th  International Society for Microbial Ecology (ISME). Vienna 2006. (Invited        lecture).
  44. Barak, Y., Thorne, S.H., Ackerley, D.F., Jaiswal, S., Contag, C.H. and Matin, A. (2006). A new evolved enzyme for prodrug chemotherapy and a novel method for monitoring prodrug reducing activity within HeLa cells. Proceeding of the American Society for Cancer Research. 47:1282
  45. Barak, Y., Thorne, S.H., Ackerley, D.F., Lynch, S.V., Contag, C.H. and Matin, A. (2005). Improvement of a novel enzymes, generated by DNA shuffling, for reductive cancer chemotherapy. Clin Cancer Res. 11(24 Suppl): 8973.
  46. Barak, Y., D. F. Ackerley, C. J. Dodge, A. Chang, Y. Nov, A.J. Francis, and A. Matin. 2006. Enzyme improvement for combined Cr(VI) and U(VI) bioremediation using directed evolution and rational design. Abstracts of 11th  International symposium  on microbial ecology, Vienna, Austria, 20-25 August, 2006, p. A476
  47. Nov, Y., Barak, Y., and A. Matin. 2006. A novel stochastic method for protein design EMR-IBS  conference
  48. Barak, Y., D. Ackerley, C. Dodge, A. Cheng, Y. Nov, A. Francis, and A. Matin. 2006. Generation of a novel high-activity enzyme with combined Cr(VI) and U(VI) reductase activities using directed evolution and rational design. DOE NABIR P.I. Workshop, Warrenton, Va. P.43
  49. Francis, A.J., and A. Matin. 2006. Molecular mechanisms of uranium reduction by Clostridia and its manipulation, DOE NABIR P.I. Workshop, Warrenton, Va. P.50
  50. Yoram Barak, Stephen H. Thorne, Yuval Nov, Christopher H. Contag, Jianghong Rao, and A. Matin. 2006 Improved prodrug chemotherapy through directed enzyme evolution and discovery of a new prodrug. International Journal of Oncology
  51. Barak, Y., S. Thorne, D. Ackerley, S. Lynch, C. Contag, and A. Matin. Improved enzymes, generated by DNA shuffling, for reductive cancer chemotherapy. AACR-NCI- EORTC International Conference on Molecular Targets and Cancer Therapeutics. November 14-18, 2005, Philadelphia, PA
  52. Matin, A. Effect of simulated microgravity on the resistance of bacterial planktonic and biofilm cells and its molecular physiology. 2005. Gravitational and Space Biology, 19: 2 (A4).
  53. Lynch, S. E. Brodie, and A. Matin. 2005. Molecular mechanisms underlying low-shear simulated microgravity induced stress resistance in planktonic and biofilm Escherichia coli cultures. Abstracts of the 105th  General Meeting of American Soc. for Microbiology, Atlanta, GA, June 5-9, 2005, Abstract no. K-097.
  54. Ackerley, D, C. Gonzalez, S. Lynch, and A. Matin. 2005. ChrR is a chromate reducing flavoprotein of Pseudomonas putida that also defends against oxidative stress in vivo. Abstracts of the 105th General Meeting of American Soc. for Microbiology, Atlanta, GA, June 5-9, 2005, Abstract no. K-094.
  55. Lynch, S., E.L. Bradie, and A. Matin. 2004. Molecular basis of increased resistance of planktonic and biofilm Escherichia coli cultures. Proceedings of 15th Humans in Space Symposium, Graz, Austria, # 1.5. 1-2, page 48
  56. Lynch, S., E. L. Brodie, and A. Matin. 2005. Molecular mechanisms underlying low- shear simulated microgravity increased stress resistance in planktonic and biofilm Escherichia coli cultures, 2005 NASA Cell Science Conference, Moody Gardens, Galveston, Texas. Abstract # 16
  57. Ackerley, D., and A. Matin. 2004. Chromate-reducing flavoenzymes that guard against oxidative stress. West Coast Bacterial Physiologist Meeting, Asilomar, California
  58. 216.      A.C. Matin, D. Ackerley, C. Gonzalez and Y. Barak. Engineering bacteria for superior Chromate bioremediation, Annual NABIR PI Meeting - April 18, 2005, Warrenton, VA
  59. Ackerley, D., C. Gonzalez, M. Keyhan, S. Gandler, R. Blake II, and A. Matin. 2005. Biomolecular strategy to decrease chromate toxicity to remediating Bacteria. Third international conference one water resources management, 11 to 30 April 2005, Algrave, Portugal
  60. Ackerley, D., C. Gonzalez, M. Keyhan, S. Gandler, R. Blake II, and A. Matin. 2005. Engineering bacteria for superior chromate bioremediation. Third international conference on remediation, New Orleans, January 24 to 30, 2005
  61. Ackerley, D., C. Gonzalez, M. Keyhan, S. Gandler, R. Blake II, and A. Matin. 2005. Engineering bacteria for superior chromate bioremediation. Third international conference on remediation, New Orleans, January 24 to 30, 2005
  62. Ackerley, D., C. Gonzalez, M. Keyhan, R. Blake II, and A. Matin. 2004.  Biomolecular strategy to decrease chromate toxicity to remediating bacteria, Abstract #93, Joint ACS 59th Rocky Mountain Regional Meeting, June 6 – 9, 2004, Logan, Utah.
  63. Ackerley, D., C. Gonzalez, M. Keyhan, and A. Matin. 2004. Role of bacterial “chromate” reductases in antioxidant defense in bacteria. 103rd  General meeting of the American Society for Microbiology, Washington D.C., May 2004
  64. A.C. Matin, D. Ackerley, C. Gonzalez, M. Keyhan, C.H. Park. Bacterial genes and proteins involved in chromate reduction, Applied and Environmental Microbiology Gordon Research Conference 2003, Connecticut College in New London, Connecticut, July 27 through August 1
  65. Gonzalez, C., D. Ackerley, M. Keyhan, R. Blake II, and A. Matin. 2003.  Molecular biology and biology of bacterial chromate reduction.  DOE NABIR P.I. Workshop. Warrenton, Va. P.40
  66. Gonzalez, C., D. Ackerley, M. Keyhan, R. Blake II, and A. Matin. 2003. Molecular biology and biology of bacterial chromate reduction. Abstracts of the 102nd  General meeting of the American Society for Microbiology, Washington D.C., May 18-22, 2003, O-123
  67. Dixon, L. G., and A. Matin. 2003. The enhanced resistance of bacterial biofilms to antimicrobial agents. Abstracts of the 102nd  General meeting of the American Society for Microbiology, Washington D.C., May 18-22, 2003, A-103
  68. Lynch, S. V., and A. Matin. 2003. The stress response of Escherichia coli to conditions of simulated microgravity. Abstracts of the 102nd  General meeting of the American Society for Microbiology, Washington D.C., May 18-22, 2003, A-127
  69. Ackerley, D.E., C. F. Gonzalez, M. Keyhan, C. Park, and A. Matin. 2002. Bacterial genes and proteins involved in chromate reduction. Abstracts of the 102nd General meeting of the American Society for Microbiology, Utah, May 19-23, 2002, Q-419
  70. Dixon, L. G., G. Stone, P. Wood, I. Foley, and A. Matin. 2002. The molecular basis of enhanced antibiotic resistance of bacterial biofilms. Abstracts of the 102nd  General meeting of the American Society for Microbiology, Utah, May 19-23, 2002, A-127
  71. Gonzales, C, C. H. Park, M. Keyhan, D. Ackerley and A. Matin. 2002. Molecular biology of bacterial chromate reductases. International Society for Environmental Biotechnology Meeting, Veracruz, Mexico
  72. Gonzales, C, C. H. Park, M. Keyhan, D. Ackerley and A. Matin. 2002. Molecular approaches for improving chromate bioremediation. Abstracts of the Twelfth Annual West Coast Conference on Contaminated Soils, Sediments and water, AEHS. San Diego CA. (3/18 – 3/21/02)
  73. Ackerley, D.E., C. F. Gonzalez, M. Keyhan, C. Park, and A. Matin. 2001.  Bacterial genes and proteins involved in chromate reduction.  DOE NABIR PI Workshop Abstracts.  Warrenton, Virginia, March 18-20, P.42
  74. Park, C-H., M. Keyhan, C. Gonzales, and A. Matin. 2001. Molecular characterization and physiology of the soluble bacterial chromate reductases. Annual Meeting of the Natural and Accelerated Bioremediation Research Program, Department of Energy, Airlie Center, Arlington. March 12 –14, 2001
  75. Park, C-H., S. Pandza, M. Baetons, M. Keyhan, and A. Matin. 2000. Molecular and biochemical approaches to remediate Cr(VI) using chromate reductase. Book of Abstracts, American Chemical Society 220th  National Meeting, Washington, DC, August 20-24, 2000.
  76. Pandza, Y-J. Kim, M. Baetens, C-H. Park, M. Keyhan, and A. Matin. The G-protein FlhF is located at the cell pole and determines polar flagellar placement and regulation of the general stress response. American Society for Microbiology, 100th  Annual Meeting, Los Angeles, May 22, 2000, K-20
  77. Park, C.-H., M. Keyhan, S. Fendorf, and A. Matin. 1999.  Molecular characterization of P. putida chromate reductase. ASM Sub-surface Meeting Abstracts, Vail, Colorado, August 27, 1999
  78. Park, C.-H., M. Keyhan, and A. Matin. 1999. Purification, physiology, and properties of chromate reductase in Pseudomonas putida. Wetlands and remediation: an international conference, Salt Lake City, Utah, USA.
  79. Park, C.H., M. Keyhan, and A. Matin. 1999. Purification and characterization of chromate reductase in Pseudomonas putida. Bioreduction of metals, Q-18: 99th ASM General Meeting, Chicago, IL, USA.
  80. Matin, A., H. Zgurskaya, K-H. Lee, and T. Schweder. 1997. s, the starvation response sigma factor of Eescherichia coli, attains highest levels during slow growth due entirely to increased stability. Molecular Genetics of Bacteria and Phages, University of Wisconsin, Madison.
  81. Woolfardt, D., D. Korberg, A. Matin, and D. Caldwell. 1996. Role of a Pseudomonas starvation gene in a biofilm community as studied by confocal laser microscopy.  Poster H-31. Annual Meeting of the American Society for Microbiology, New Orleans.
  82. Kim, Y., and A. Matin.  1995.  A carbon starvation survival gene of Pseudomonas putida is regulated by σ54.  Abstracts of the Annual Meeting of the American Society for Microbiology, Washington, DC.  Abstract H-172.
  83. Lee, K.H., T. Schweder, O. Lomovskaya, and A. Matin. 1995.  ClpPX proteolytic activity plays a major role in lowering σ38 levels in exponential phase Escherichia coli. Abstracts of the Annual Meeting of the American Society for Microbiology, Washington, DC.  Abstract H-100.
  84. Kim, Y, and A. Matin.  1994.  The use of starvation promoters of Pseudomonas putida for in situ bioremediation.  Abstracts of the Annual Meeting of the American Society for Microbiology, Las Vegas, NV.  Abstract Q-177.
  85. Lomovskaya, O., J. Kidwell, and A. Matin.  1994.  σ38-regulated promoter region of a carbon starvation gene.         Abstracts of the Annual Meeting of the American Society for Microbiology, Las Vegas, NV.  Abstract H-78.
  86. Fraley, C., M. McCann, M. Keyhan, and A. Matin. 1994. 38-and oxyR-Mediated resistance in E. coli to oxidative stress. Abstracts of the Annual Meeting of the American Society for Microbiology, Las Vegas, NV. Abstract H-98.
  87. Fraley, C., and A. Matin.  1993.  Construction by PCR and characterization of E. coli expression systems induced by nutrient limitation for the overproduction of toluene-4- monooxygenase. Abstracts of the Annual Meeting of the American Society for Microbiology, Atlanta, GA. 16-20 May, 1993.  Abstract Q-306.
  88. Kim, J.H., E. Auger, R. Soly, and A. Matin.  1993.  E. coli starvation genes: cloning and analysis of pexA. Abstracts of the Annual Meeting of the American Society for Microbiology, Atlanta, GA. 16-20 May, 1993.  Abstract I-52.
  89. McCann, M., J. Kidwell, J. Kim, D. Jenkins, and A. Matin.  1991.  Role of minor sigma factors in starvation-induced general stress resistance in Escherichia coli.  Stress Proteins and the Heat Shock Response, Cold Harbor, New York, April 29-May 2, 1991. Abstract 64.
  90. Matin, A.  1991.  Molecular basis of the bacterial starvation response and its biotechnological implications.   Biochemical Engineering VII--Cellular and Reactor Engineering, Santa Barbara, CA, 3-8 March 1991.
  91. Rhie, H.G., T. Leighton, and A. Matin.  1991.  Cloning and characterization of Escherichia coli homologs of Bacillus subtilis spoOA C-terminal region.  Abstracts of the Annual Meeting of the American Society for Microbiology, Dallas, TX, 5-9 May 1991. Abstract I-40.
  92. McCann, M.P., and A. Matin.  1991.  KatF is a global regulator required for the development of the stress resistant state in Escherichia coli.  Abstracts of the Annual Meeting of the American Society for Microbiology, Dallas, TX, 5-9 May 1991.  Abstract H-39.
  93. Little, C.D., M. Keyhan, C.D. Fraley, M.P. McCann, and A. Matin.  1991.  Use of a stress-induced promoter to enhance trichloroethylene biodegradation in nutrient-limited recombinant E. coli.  Abstracts of the Annual Meeting of the American Society for Microbiology, Dallas, TX, 5-9 May 1991.  Abstract Q-109.
  94. Kidwell, J., and A. Matin.  1991.  Reverse cloning of the pexB gene in Escherichia coli. Abstracts of the Annual Meeting of the American Society for Microbiology, Dallas, TX, 5- 9 May 1991.  Abstract H-40.
  95. Little, C.D., C.D., Fraley, and A. Matin.  1991.  Use of bacterial stress promoters to induce biodegradation under conditions of environmental stress.  In situ and On-Site Bioreclamation, San Diego, CA, March 19-21, 1991.
  96. Little, C.D., M.P. McCann, and A. Matin. 1990. Use of carbon starvation promoter in trichloroethylene degradation by non-growing bacterial cultures. ASM Conference on Biotechnology Chicago, IL, 7-10 June 1990.
  97. Blum, P., J. Kim, N. Lin, J. Jost, and A. Matin.  1990.  Use of carbon starvation  promoters to express human growth hormone in postexponential phase E. coli.  Abstracts of the Annual Meeting of the American Society for Microbiology, Abstract 0-40, Annaheim, California, 13-17 May 1990.
  98. Auger, E.A., and A. Matin.  1990.  Characterization of a cyclic AMP-independent carbon starvation-inducible lacZ fusion of Escherichia coli.  Abstracts of the Annual Meeting of the American Society for Microbiology, Abstract H-118, Annaheim, California, 13-17 May 1990.
  99. McCann, M.P., J.E. Schultz, and A. Matin.  1990.  Cloning and characterization of two carbon-starvation genes in Escherichia coli.  Abstracts of the Annual Meeting of the American Society for Microbiology, Abstract H-7, Annaheim, California, 13-17 May 1990.
  100. Blum, P., S. Jovanovich, M. McCann, J. Schultz, E. Auger, S. Leslie, R. Burgess, and A. Matin.  1989.  In vivo and in vitro expression of cloned carbon-starvation genes from Escherichia coli.  Cold Spring Harbor Laboratory: Molecular Genetics of Bacteria and Phages.  Prokaryotic Gene Regulation, p. 161.
  101. Auger, E., and A. Matin.  1989.  Characterization of lacZ fusions to cyclic AMP/CRP- independent stress (pex) genes of Escherichia coli K-12.  Abstracts of the Ann. Meeting: ASM, Washington, D.C. p. 174 (H-28).
  102. Schultz, J.E., and A. Matin.  1989.  Carbon starvation protein synthesis in Escherichia coli: cellular distribution and mutant characterization.  Abstracts of the Ann. Meeting: ASM, Washington, D.C. p. 174 (H-26).
  103. Smith, W.J., C.R. Robertson, A. Matin, S.N. Cohen, and A.S. Michaels.  1988. Noninvasive biomass estimation in hollow-fiber membrane reactors.  AICHE Ann. Meeting, Washington, D.C.
  104. Schultz, J.E., D.E. Jenkins, G.I. Latter, and A. Matin.  1988.  Starvation proteins in Escherichia coli: regulation by crp and cya genes and cross protection against heat and oxidative stress.  1988 Abstracts of the ASM Ann. Meeting, Miami Beach, FL, H-159.
  105. Schultz, J.E. and A. Matin.  1987.  Regulation by cyclic AMP of starvation protein synthesis in Escherichia coli.  1987 Abstracts of the ASM Ann. Meeting, Atlanta, GA, I- 46.
  106. McLaggan, D., M. Matin and A. Matin.  1987.  Chloride permeability and chloride transport in the acidophile Bacillus coagulans.  1987 Abstracts of the ASM Ann. Meeting, Atlanta, GA, K-96.
  107. Groat, R.G., J. Schultz, E. Zychlinsky, A. Bockman, and A. Matin.  1986.  Specific gene expression at the onset of nutrient starvation in Escherichia coli and its role in starvation survival.  Abstracts of the XIV International Congress of Microbiology, Manchester, England, p. 17.
  108. McLaggan, D., and A. Matin.  1986.  Preliminary evidence for the existence of a chloride pump in the acidophile B. coagulans.  XIV Int'l Congress of Microbiology Abstracts p. 118, Manchester, England.
  109. McLaggan, D., and A. Matin.  1986.  Membrane features responsible for chloride fluxes in Bacillus coagulans.  Membrane Protein Symposium Proceedings.  San Diego, CA.
  110. Harakeh, S., and A. Matin.  1986.  Influence of nutrient limited growth on pathogenesis associated outer membrane proteins (OMPs) of Yersinia sp.  American Society for Microbiology Abstracts, B-247, p. 65.
  111. Groat, R.G., J. Schultz, E. Zychlinsky, A. Bockman, and A. Matin.  1986.  Specific gene expression at the onset of nutrient starvations in Escherichia coli and its role in starvation survival.  American Society for Microbiology Abstracts, H-50, p. 135.
  112. McLaggan, D. and A. Matin.  1986.  Chloride permeability of the acidophile, Bacillus coagulans.  Biophysical Journal: Abstracts of the 30th Annual Meeting.  M-Pos 86, p. 94a.
  113. Matin, A., C. Reeve, G. Groat, J. Schultz, E. Zychlinsky, and A. Bockman.  1985. Survival proteins in starving bacteria.  Society for Industrial Microbiol News 35:61.
  114. Goulbourne, E., Jr., M. Matin, and A. Matin.  1985.  Generation of the positive membrane potential in the acidophilic bacterium, PW2.  American Society for Microbiology Abstracts, p. 189.
  115. Berg, J.D., J.C. Hoff, P.V. Roberts, and A. Matin.  1985.  Growth of Legionella pneumophila in a chemostat.  American Society for Microbiology Abstracts, p. 222.
  116. Berg, J.D., A. Matin, and P. Roberts.  1984.  Effect of the antecedent growth  environment on the sensitivity of Legionella pneumophila and Escherichia coli to chlorine dioxide.  Universities Forum, American Water Works Association Annual Conference.
  117. Harakeh, M.S., J.C. Hoff, and A. Matin.  1984.  Sensitivity of chemostat-grown Yersinia enterocolitica and Klebsiella pneumoniae to chlorine dioxide.  American Society for Microbiology Abstracts, p. 233.
  118. Goulbourne, Jr., E., A. Matin, and E. Zychlinsky. 1984. Passive maintenance of pH and p in the acidophilic heterotrophic bacterium PW2. American Society for Microbiology Abstracts, p. 153.
  119. Amy, P.S., and A. Matin.  1984.  Lon- strains of Escherichia coli K12:  their construction, characterization and effect on viability during carbon starvation.  American Society for Microbiology Abstracts, p. 158.
  120. Harakeh, M.S., and A. Matin.  1984.  The response of chemostat-grown enteric bacteria to antimicrobial agents.  Second Kuwait International Medical Sciences Conference, Kuwait.
  121. Smith, W.J., D.S. Inloes, A. Matin, C.R. Robertson, and S.N. Cohen.  1984.  Integration of fermentation and recovery in a hollow fiber membrane reactor.  AICHE Annual Meeting
  122. Reeve, C.A., A. Bockman, and A. Matin.  1983.  Role of protein synthesis and degradation in survival of Escherichia coli during starvation.  American Society for Microbiology Abstracts, p. 209.
  123. Berg, J.D., J.C. Hoff, P.V. Roberts, and A. Matin.  1983.  Growth of Legionella pneumophila in continuous culture.  Conference on Legionella, Atlanta, Georgia, USA.
  124. Robertson, C., D. Inloes, S. Libicki, W. Smith, S. Cohen, and A. Matin. 1982. Hollow Fiber Membrane Bioreactors. Biochemical Engineering III, Santa Barbara, California, USA.
  125. Inloes, D.S., S.N. Cohen, A. Matin, A.S. Michaels, and C.R. Robertson.  1982. Immobilization of bacterial and yeast cells in hollow-fiber membrane bioreactors.  AICHE Meeting, Los Angeles, California, USA.
  126. Smith, W.J., D.S., Inloes, A. Matin, C.R. Robertson, and S.N. Cohen.  1982. Biosynthesis of aspartase and production of aspartic acid in a hollow-membrane fiber immobilized cell reactor.  Proceedings of Society for Industrial Microbiology, Minnesota, USA.  SIM News 32 (Vol 4):44.
  127. Berg, J.D., A. Matin, and P.V. Roberts.  1982.  Influence of growth environment on phenotype and resistance to inactivation of Legionella pneumophila and Escherichia coli. XIIIth International Congress of Microbiology, Boston, Massachusetts, USA.
  128. Inloes, D.S., S.B. Libicki, A. Matin, A.S. Michaels, and C.R. Robertson.  1982.  Ethanol fermentation by nitrogen-deficient yeast cells immobilized in a hollow-fiber membrane. XIIIth International Congress of Microbiology, Boston, Massachusetts, USA.
  129. Zychlinsky, E., and A. Matin.  1982.  Effect of inhibitors and ionophores on cytoplasmic pH of Thiobacillus acidophilus as monitored by ion-selective electrodes.  XIIIth International Congress of Microbiology, Boston, Massachusetts, USA.
  130. Wilson, B., and a. Matin.  1982.  H+-glucose symport in an acidophilic bacterium (Thiobacillus acidophilus).  American Society for Microbiology Abstracts, p. 139.
  131. Zychlinsky, E., and A. Matin. 1982. Effect of starvation on the cytoplasmic pH and viability of an acidophilic bacterium (Thiobacillus acidophilus). American Society for Microbiology Abstracts, p. 139.
  132. Schleiss, M.R., and A. Matin.  1979.  Regulation of glucose transport in Thiobacillus novellus.  American Society for Microbiology Abstracts, p.175.
  133. Perez, R.C., and A. Matin.  1979.  The mixotrophic growth of Thiobacillus novellus.
  134. American Society for Microbiology Abstracts, p. 170.
  135. Matin, A.  1977.  Mixotrophic growth of Thiobacillus novellus in batch and continuous cultures.  American Society for Microbiology Abstracts, p.155.
  136. Matin, A., H. Hogenhuis, and A. Grootjans.  1975.  Derepression of enzymes of intermediary metabolism at low growth rates.  American Society for Microbiology Abstracts, p. 122.
  137. Matin, A., and H. Veldkamp.  1974.  Physiological basis of different substrate affinities of two fresh water organisms.  American Society for Microbiology Abstracts, p. 50.
  138. Matin, A., W.N. Konings, J.G. Kuenen, and M. Emmens.  1974.  Active transport of amino acids by membrane vesicles of Thiobacillus neapolitanus.  American Society for Microbiology Abstracts, p. 154.
  139. Matin, A., and W.N. Konings.  1972.  Active transport of lactate and succinate in membrane vesicles of Escherichia coli, Bacillus subtilis, and a fresh water Pseudomonas sp.  FEBS Abstracts VIII.
  140. Matin, A. 1972. Kinetics of DNA destruction and synthesis during growth of Bdellovibrio bacteriovorus on Pseudomonas putida and Escherichia coli. Antonie van Leeuwenhoek, 38:630.
  141. Matin, A., and S.C. Rittenberg. 1970. Regulation of glucose metabolism in Thiobacillus novellus.  Bacteriol. Proc., p. 137.
  142. Matin, A., and S.C. Rittenberg.  1968.  Regulation of glucose catabolism in Thiobacillus intermedius by thiosulfate and glucose.  Bacteriol. Proc., p. 142.

 

 

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