Advanced search
Publication Cover
Spectroscopy Letters
An International Journal for Rapid Communication
Volume 41, 2008 - Issue 1
Submit an article Journal homepage
96
Views
8
CrossRef citations to date
0
Altmetric
Short Communication

Effects of Toxic Organotin Compounds on Bacteria Investigated by Micro‐Raman Spectroscopy

Ph. Daniel Laboratoire de Physique de l'État Condensé (LPEC UMR CNRS 6087), Université du Maine, Le Mans, 72085, FranceCorrespondence[email protected]
,
P. Picart École Nationale Supérieure d'Ingénieurs du Mans (ENSIM), Université du Maine, Le Mans, France
,
L. Bendriaa Laboratoire de Physique de l'État Condensé (LPEC UMR CNRS 6087), Université du Maine, Le Mans, 72085, France
,
G. D. Sockalingum Unité Médian (UMR CNRS 6142), UFR de Pharmacie, Université de Reims (IFR53), Reims, France
,
I. Adt Unité Médian (UMR CNRS 6142), UFR de Pharmacie, Université de Reims (IFR53), Reims, France
,
Th. Charrier Université Nantes, UMR CNRS 6144 GEPEA/ERTint 1052 CBAC, IUT GB, Campus de la Courtaisiere, La Roche sur Yon, France
,
M. J. Durand Université Nantes, UMR CNRS 6144 GEPEA/ERTint 1052 CBAC, IUT GB, Campus de la Courtaisiere, La Roche sur Yon, France
,
F. Ergan Laboratoire d'applications des lipases (LALUM), Université du Maine, IUT de Laval Génie Biologique, Laval, France
,
M. Manfait Unité Médian (UMR CNRS 6142), UFR de Pharmacie, Université de Reims (IFR53), Reims, France
&
G. Thouand Université Nantes, UMR CNRS 6144 GEPEA/ERTint 1052 CBAC, IUT GB, Campus de la Courtaisiere, La Roche sur Yon, France
 show all
Pages 19-28 | Received 09 Sep 2006, Accepted 28 Aug 2007, Published online: 17 Apr 2008

References

  • Fent , K. 1996 . Ecotoxicology of organotin compounds . Crit. Rev. Toxicol. , 2 : 1 – 117 .
  • Decision No. 2455/2001/EC of the European Parliament and of the Council of 20 November establishing the list of priority substances in the field of water policy and amending Directive 2000/62/EC . 2001 . Official Journal of European Communties , L331 44 December 15
  • Bendriaa , L. , Picart , P. , Daniel , Ph. , Horry , H. , Durand , M. J. and Thouand , G. 2004 . Versatile device for on‐line and in‐situ measurement of growth and light production of bioluminescent cells . Sensors Actuators B , 103 ( 1–2 ) : 115 – 121 .
  • Dalterio , R. A. , Nelson , W. H. , Britt , D. , Sperry , J. and Purcell , F. J. 1986 . A resonance Raman microprobe study of chromobacteria in water . Appl. Spectrosc. , 40 ( 2 ) : 271 – 272 .
  • Dalterio , R. A. , Baek , M. , Nelson , W. H. , Britt , D. , Sperry , J. and Purcell , F. J. 1987 . The resonance Raman microprobe detection of single bacterial‐cells from a chromobacterial mixture . Appl. Spectrosc. , 41 ( 2 ) : 241 – 244 .
  • Puppels , G. J. , De Mul , F. F. M. , Otto , C. , Robert‐Nicoud , M. , Arndt‐Jovin , J. and Jovin , J. 1990 . Studying single living cells and chromosomes by confocal Raman microspectroscopy . Nature , 347 : 301 – 303 .
  • Puppels , G. J. , Colier , W. , Olminkhof , J. H. F. , Otto , C. , De Mul , F. F. M. and Greve , J. 1991 . Description and performance of a highly sensitive confocal microspectrometer . J. Raman Spectrosc. , 22 ( 4 ) : 217 – 225 .
  • Schrader , B. , Dippel , B. , Fendel , S. , Keller , S. , Löchte , T. , Riedl , M. , Schulte , R. and Tatsch , E. 1997 . NIR FT Raman spectroscopy—a new tool in medical diagnostics . J. Mol. Struct. , 408–409 : 23 – 31 .
  • Goodacre , R. , Timmins , E. M. , Burton , R. , Kaderbhai , N. , Woodward , A. M. , Kell , D. B. and Rooney , P. J. 1998 . Rapid identification of urinary tract infection bacteria using hyperspectral whole organism fingerprinting artificial neural networks . Microbiology , 144 : 1157 – 1170 .
  • Schrader , B. , Dippel , B. , Erb , I. , Keller , S. , Löchte , T. , Schulz , H. , Tatsch , E. and Wessel , S. 1999 . NIR Raman spectroscopy in medicine and biology: results and aspects . J. Mol. Struct. , 480–481 : 21 – 32 .
  • Maquelin , K. , Choo‐Smith , L.‐P. , van Vreeswijk , T. , Endtz , H. Ph. , Smith , B. , Bennett , R. , Bruining , H. A. and Puppels , G. J. 2000 . Raman spectroscopic method for identification of clinically relevant microorganisms growing on solid culture medium . Anal. Chem. , 72 ( 1 ) : 12 – 19 .
  • Maquelin , K. , Choo‐Smith , L.‐P. , Endtz , H. Ph. , Bruining , G. J. and Puppels , G. J. 2000 . Raman spectroscopic studies on bacteria . Proc. SPIE , 4161 : 144 – 150 .
  • Schuster , K. C. , Urlaub , E. and Gapes , J. R. 2000 . Single‐cell analysis of bacteria by Raman microscopy: spectral information on the chemical composition of cells and on the heterogeneity in a culture . J. Microbiol. Methods , 42 ( 1 ) : 29 – 38 .
  • Maquelin , K. , Kirschner , C. , Choo‐Smith , L.‐P. , van den Braak , N. , Endtz , H. Ph. , Smith , B. , Naumann , D. and Puppels , G. J. 2002 . Identification of medically relevant microorganisms by vibrational spectroscopy . J. Microbiol. Methods , 51 ( 3 ) : 255 – 271 .
  • Rösch , P. , Schmitt , M. , Kiefer , W. and Popp , J. 2003 . The identification of microorganisms by micro‐Raman spectroscopy . J. Mol. Struct. , 661–662 : 363 – 369 .
  • López‐Diéz , E. C. and Goodacre , R. 2004 . Characterization of microorganisms using UV resonance Raman spectroscopy and chemometrics . Anal. Chem. , 76 ( 3 ) : 585 – 591 .
  • Huang , W. E. , Griffiths , R. I. , Thompson , I. P. , Bailey , M. J. and Whiteley , A. S. 2004 . Raman microscopic analysis of single microbial cells . Anal. Chem. , 76 ( 15 ) : 4452 – 4458 .
  • Naumann , D. 1998 . Infrared and NIR Raman spectroscopy in medical microbiology . Proc. SPIE , 3257 : 245 – 257 .
  • Naumann , D. 2000 . “ Infrared and Raman spectroscopy of biological materials ” . In Practical Spectroscopy Series Edited by: Gremlich , H. U. and Yan , B. 323 – 377 . New‐York : Marcel Dekker .
  • Kirschner , C. , Maquelin , K. , Pina , P. , Ngo Thi , N. A. , Choo‐Smith , L. P. , Sockalingum , G. D. , Sandt , C. , Ami , D. , Orsini , F. , Doglia , S. M. , Allouch , P. , Mainfait , M. , Puppels , G. J. and Naumann , D. 2001 . Classification and identification of Enterococci: a comparative phenotypic, genotypic, and vibrational spectroscopic study . J. Clin. Microbiol. , 39 ( 5 ) : 1763 – 1770 .
  • Hutsebaut , D. , Vandroemme , J. , Heyrman , J. , Dawyndt , P. , Vandenabeele , P. , Moens , L. and de Vos , P. 2006 . Raman microspectroscopy as an identification tool within the phylogenetically homogeneous ‘Bacillus subtilis’–group . Syst. Appl. Microbiol. , 29 : 650 – 660 .
  • Yang , H. and Irudayaraj , J. 2003 . Rapid detection of foodborne microorganisms on food surface using Fourier transform Raman spectroscopy . J. Mol. Struct. , 646 ( 1 ) : 35 – 43 .
  • Maquelin , K. , Dijkshoorn , L. , van der Reijden , T. J. K. and Puppels , G. J. 2006 . Rapid epidemiological analysis of Acinetobacter strains by Raman spectroscopy . J. Microbiol. Methods , 64 ( 1 ) : 126 – 131 .
  • Ibelings , M. S. , Maquelin , K. , Endtz , H. P. , Bruining , H. A. and Puppels , G. J. 2005 . Rapid identification of Candida spp. in peritonitis patients by Raman spectroscopy . Clin. Microbiol. Infection , 11 ( 5 ) : 353 – 358 .
  • De Gelder , J. , De Gussem , K. , Vandenabeele , P. , de Vos , P. and Moens , L. 2007 . Methods for extracting biochemical information from bacterial Raman spectra: an explorative study on Cupriavidus metallidurans . Anal. Chim. Acta , 585 ( 2 ) : 234 – 240 .
  • Huang , W. E. , Griffiths , R. I. , Thompson , I. P. , Bailey , M. J. and Whiteley , A. S. 2004 . Raman microscopic analysis of single microbial cells . Anal. Chem. , 76 ( 15 ) : 4452 – 4458 .
  • Choo‐Smith , L. P. , Maquelin , K. , van Vreeswijk , T. , Bruining , H. A. , Puppels , G. J. , Ngo Thi , N. A. , Kirschner , C. , Naumann , D. , Ami , D. , Villa , A. M. , Orsini , F. , Doglia , S. M. , Lamfarraj , H. , Sockalingum , G. D. , Manfait , M. , Allouch , P. and Endtz , H. P. 2001 . Investigating microbial (micro)colony heterogeneity by vibrational spectroscopy . Appl. Environ. Microbiol. , 67 ( 4 ) : 1461 – 1469 .
  • Manoharan , R. , Ghiamati , E. , Dalterio , R. A. , Britton , K. A. , Nelson , W. H. and Sperry , J. F. 1990 . UV resonance Raman spectra of bacteria, bacterial spores, protoplasts and calcium dipicolinate . J. Microbiol. Methods , 11 ( 1 ) : 1 – 15 .
  • Ghiamati , E. , Manoharan , R. , Nelson , W. H. and Sperry , J. F. 1992 . UV Resonance raman spectra of Bacillus spores . Appl. Spectrosc. , 46 ( 2 ) : 357 – 364 .
  • Nelson , W. H. , Manoharan , R. and Sperry , J. F. 1992 . UV Resonance Raman studies of bacteria . Appl. Spectrosc. Rev. , 27 ( 1 ) : 67 – 124 .
  • Wu , Q. , Hamilton , Th. , Nelson , W. H. , Elliot , S. , Sperry , J. F. and Wu , M. 2001 . UV Raman spectral intensities of E. coli and other bacteria excited at 228.9, 244.0, and 248.2 nm . Anal. Chem. , 73 : 3432 – 3440 .
  • Jarvis , R. M. and Goodacre , R. 2004 . Ultra‐violet resonance Raman spectroscopy for the rapid discrimination of urinary tract infection bacteria . FEMS Microbiol. Lett. , 232 ( 2 ) : 127 – 132 .
  • Cheng , J. X. and Xie , X. S. 2004 . Coherent anti‐Stokes Raman scattering microscopy: instrumentation, theory, and applications . J. Phys. Chem. B , 108 ( 3 ) : 827 – 840 .
  • Sockalingum , G. D. , Lamfarraj , H. , Beljebbar , A. , Pina , P. , Delavenne , M. , Witthuhun , F. , Allouch , P. and Manfait , M. 1999 . Vibrational spectroscopy as a probe to rapidly detect, identify, and characterize micro‐organisms . SPIE Proc. Biomed. Appl. Raman Spectrosc. , 3608 : 185 – 194 .
  • Zeiri , L. , Bronk , B. V. , Shabtai , Y. , Czégé , J. and Efrima , S. 2002 . Silver metal induced surface enhanced Raman of bacteria . Colloids Surfaces Physicochem. Eng. Aspects , 208 ( 1–3 ) : 357 – 362 .
  • Jarvis , R. M. and Goodacre , R. 2004 . Discrimination of bacteria using surface‐enhanced Raman spectroscopy . Anal. Chem. , 76 ( 1 ) : 40 – 47 .
  • Jarvis , R. M. , Brooker , A. and Goodacre , R. 2004 . Surface‐enhanced Raman spectroscopy for bacterial discrimination utilizing a scanning electron microscope with a Raman spectroscopy interface . Anal. Chem. , 76 ( 17 ) : 5198 – 5202 .
  • Yan , F. and Vo‐Dinh , T. 2007 . Surface‐enhanced Raman scattering detection of chemical and biological agents using a portable Raman integrated tunable sensor . Sensors Actuators B , 121 ( 1 ) : 61 – 66 .
  • Xie , C. G. , Dinno , M. A. and Li , Y. Q. 2002 . Near‐infrared Raman spectroscopy of single optically trapped biological cells . Optics Lett. , 27 : 249 – 251 .
  • Xie , C. G. and Li , Y. Q. 2003 . Confocal micro‐Raman spectroscopy of single biological cells using optical trapping and shifted excitation difference techniques . J. Appl. Phys. , 93 ( 5 ) : 2982 – 2986 .
  • Xie , C. G. , Li , Y. Q. and Tang , W. 2003 . Study of dynamical process of heat denaturation in optically trapped single microorganisms by near‐infrared Raman spectroscopy . J. Appl. Phys. , 94 ( 9 ) : 6138 – 6142 .
  • Chan , J. W. , Motton , D. , Rutledge , J. C. , Keim , N. L. and Huser , T. 2005 . Raman spectroscopic analysis of biochemical changes in individual triglyceride‐rich lipoproteins in the pre‐ and postprandial state . Anal. Chem. , 77 ( 18 ) : 5870 – 5878 .
  • Creely , C. M. , Singh , G. P. and Petrov , D. 2005 . Dual wavelength optical tweezers for confocal Raman spectroscopy . Optics Commun. , 245 ( 1–6 ) : 465 – 470 .
  • Creely , C. M. , Volpe , G. , Singh , G. P. , Soler , M. and Petrov , D. 2005 . Raman imaging of floating cells . Optics Express , 13 ( 16 ) : 6105 – 6110 .
  • Singh , G. P. , Volpe , G. , Creely , C. M. , Grotsh , H. , Geli , I. M. and Petrov , D. 2006 . The lag phase and G1 phase of a single yeast cell monitored by Raman microspectroscopy . J. Raman Spectrosc. , 37 ( 8 ) : 858 – 864 .
  • Chan , J. W. , Esposito , A. P. , Talley , C. E. , Hollars , C. W. , Lane , S. M. and Huser , T. 2004 . Reagentless identification of single bacterial spores in aqueous solution by confocal laser tweezers Raman spectroscopy . Anal. Chem. , 76 : 599 – 603 .
  • Xie , C. G. , Mace , J. , Dinno , M. A. , Li , Y. Q. , Tang , W. , Newton , R. J. and Gemperline , P. J. 2005 . Identification of single bacterial cells in aqueous solution using confocal laser tweezers Raman spectroscopy . Anal. Chem. , 77 : 4390 – 4397 .
  • Taylor , D. S. , Chan , J. W. , Zwerdling , T. , Lane , S. M. , Tuscano , J. and Huser , T. 2005 . Laser tweezers Raman spectroscopy detects differences between normal human lymphocytes, activated lymphocytes and leukaemia . Blood (ASH Annual Meeting Abstracts) , 106 ( 11 ) : 4530
  • Taylor , D. S. , Chan , J. W. , Zwerdling , T. , Lane , S. M. , Ihara , K. and Huser , T. 2004 . Laser tweezers Raman spectroscopy detects individual neoplastic and normal hemotopoietic cells . Blood (ASH Annual Meeting Abstracts) , 106 ( 11 ) : 4531
  • Notingher , I. and Hench , L. L. 2006 . Raman microspectroscopy: a non invasive tool for studies of individual living cells in vitro . Expert Rev. Med. Devices , 3 ( 2 ) : 215 – 234 .
  • Naumann , D. 2001 . FT‐infrared and FT‐Raman spectroscopy in biomedical research . Appl. Spectrosc. Rev. , 36 ( 2–3 ) : 239 – 298 .
  • Petrich , W. 2001 . Mid‐infrared and Raman spectroscopy for medical diagnostics . Appl. Spectrosc. Rev. , 36 ( 2–3 ) : 181 – 237 .
  • Petry , R. , Schmitt , M. and Popp , J. 2003 . Raman spectroscopy—a prospective tool in the life sciences . Chem. Phys. Chem. , 4 ( 1 ) : 14 – 30 .
  • Durand , M. J. , Thouand , G. , Dancheva‐Ivanova , T. , Vachon , P. and DuBow , M. S. 2003 . Specific detection of organotin compounds with a recombinant luminescent bacteria . Chemosphere , 52 ( 1 ) : 103 – 111 .
  • Guzzo , A. and DuBow , M. S. 1991 . Construction of stable, single‐copy luciferase gene fusions in Escherichia coli . Arch. Microbiol. , 156 : 444 – 448 .
  • Briscoe , S. F. , Diorio , C. and DuBow , M. S. 1996 . “ Luminescent biosensors for the detection of tributyltin and dimethyl sulfoxide and the elucidation of their mechanism of toxicity ” . In Environmental biotechnology: principles and applications Edited by: Moo–young , M. , Anderson , W. A. and Chakrabarty , A. M. 645 – 655 . Dordrecht, Boston, London : Kluwer Academic Press .
  • Horry , H. , Durand , M. J. , Picart , P. , Bendriaa , L. , Daniel , Ph. and Thouand , G. 2004 . Development of a biosensor for the detection of organotin compounds . Environ. Toxicol. , 19 : 342 – 345 .
  • Piot , O. , Autran , J. C. and Manfait , M. 2002 . Assesment of cereal quality by micro‐Raman analysis of the grain molecular composition . Appl. Spectrosc. , 56 ( 9 ) : 1132 – 1138 .
  • Radecka , H. , Zielinska , D. and Radecki , J. 1999 . Interaction of organic derivatives of tin (IV) and lead (IV) with model lipid membranes . Sci. Total Environ. , 234 ( 1–3 ) : 147 – 153 .
  • Zielinska , D. , Radecka , H. and Radecki , J. 2000 . Contribution of membrane surface charge in the interaction of lead and tin derivatives with model lipid membranes . Chemosphere , 40 ( 3 ) : 327 – 330 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.