Multiwavelength fluorescence studies of Bacillus bacterial spores

Sarasanandarajah, Sivananthan

January 2007

Fluorescence techniques are being considered for the detection and identification of bacterial spores. This thesis sets out to empirically characterize the detailed autofluorescence spectroscopic properties of spores and their target molecules. The multiwavelength fluorescence studies from a unique endogenous biomarker, dipicolinic acid (DPA) and its calcium salt (CaDPA) in bacterial spores are found to be useful for fluorescence characterization of spores. A systematic determination of the fluorescence profile of the major chemical components of Bacillus spores and the effect of UV irradiation on them has been performed in dry samples, wet paste and in aqueous solution. The thesis applies reliable tools for accurately describing complex nature of spectral profile from bacterial spores, and for interpreting and identifying their spectral properties. We show that multiwavelength fluorescence technique combined with Principal Component Analysis (PCA) clearly indicates identifiable grouping among dry and wet Bacillus spore species. Differences are also observed between dried, wet and redried spores, indicating the stark effect of hydration on fluorescence fingerprints. The study revealed that changes in fluorescence of spores due to hydration/drying were reversible and supports a recent model of a dynamic and dormant spore structure. The spectra were analysed with PCA, revealing several spectroscopically characteristic features enabling spore species separation. The identified spectral features could be attributed to specific spore chemical components by comparing the spore sample signals with spectra obtained from the target molecules. PCA indicated underlying spectral patterns strongly related to species and the derived components were correlated with the chemical composition of the spore samples. More importantly, we examined and compared the fluorescence of normal spores with a mutant of the same strain whose spores lack DPA. We discovered that the dramatic fluorescence enhancement of Bacillus spores can be caused by UV irradiation in the spectral region of this unique biomarker without any pre treatment. Differences between spectra of spores, spore strains and other biological samples are very marked and are due to the dominance of the dipicolinate features in the spore spectra. This could lead to a cheap, more sensitive, faster and reagentless bacterial spore detector.

Fluorescence

Excitation-Emission matrix

Hydration

Bacillus bacterial spores

Principal Components Analyis

Dipicolinic acid

UV irradiation

Multiwavelength fluorescence studies of Bacillus bacterial spores

Sarasanandarajah, Sivananthan

January 2007

Fluorescence techniques are being considered for the detection and identification of bacterial spores. This thesis sets out to empirically characterize the detailed autofluorescence spectroscopic properties of spores and their target molecules. The multiwavelength fluorescence studies from a unique endogenous biomarker, dipicolinic acid (DPA) and its calcium salt (CaDPA) in bacterial spores are found to be useful for fluorescence characterization of spores. A systematic determination of the fluorescence profile of the major chemical components of Bacillus spores and the effect of UV irradiation on them has been performed in dry samples, wet paste and in aqueous solution. The thesis applies reliable tools for accurately describing complex nature of spectral profile from bacterial spores, and for interpreting and identifying their spectral properties. We show that multiwavelength fluorescence technique combined with Principal Component Analysis (PCA) clearly indicates identifiable grouping among dry and wet Bacillus spore species. Differences are also observed between dried, wet and redried spores, indicating the stark effect of hydration on fluorescence fingerprints. The study revealed that changes in fluorescence of spores due to hydration/drying were reversible and supports a recent model of a dynamic and dormant spore structure. The spectra were analysed with PCA, revealing several spectroscopically characteristic features enabling spore species separation. The identified spectral features could be attributed to specific spore chemical components by comparing the spore sample signals with spectra obtained from the target molecules. PCA indicated underlying spectral patterns strongly related to species and the derived components were correlated with the chemical composition of the spore samples. More importantly, we examined and compared the fluorescence of normal spores with a mutant of the same strain whose spores lack DPA. We discovered that the dramatic fluorescence enhancement of Bacillus spores can be caused by UV irradiation in the spectral region of this unique biomarker without any pre treatment. Differences between spectra of spores, spore strains and other biological samples are very marked and are due to the dominance of the dipicolinate features in the spore spectra. This could lead to a cheap, more sensitive, faster and reagentless bacterial spore detector.

Fluorescence

Excitation-Emission matrix

Hydration

Bacillus bacterial spores

Principal Components Analyis

Dipicolinic acid

UV irradiation

THE ANALYSIS OF BIOLOGICAL COMPOUNDS AND THREAT AGENTS WITH TERAHERTZ TIME-DOMAIN SPECTROSCOPY AND IMAGING

Hufnagle, David C.

03 December 2012

No description available.

Analytical Chemistry

Terahertz spectroscopy

terahertz imaging

terahertz

amino acid

anthrax

dipicolinic acid

teraview

millimeter wave

Rapid Analysis of Spores and Swiss Cheese Bacterial Cultures by Infrared Microspectroscopy

Prabhakar, Veena

January 2009

No description available.

Food Science

FTIR

Swiss cheese

starter cultures

non-starter cultures

spores. dipicolinic acid

Optimizing the Release and Methylation of Bacterial Endospore Dipicolinic Acid

Nackos, Aaron N.

01 November 2009

Rapid, portable detection of biological threat agents such as Bacillus anthracis endospores (“spores”) is extremely important given the real and perceived threats of bioterrorism. Gas chromatography-mass spectrometry (GC-MS) is an excellent general means for chemical detection, although special sample preparation and specialized equipment are required to employ GC-MS for detecting biological agents such as spores in the field. A GC sample introduction probe consisting of a helical wire that can be retracted inside a syringe needle, called a coiled wire filament (CWF), was employed as a simple, passively-heated means to introduce the mixture of spores plus reagents for thermochemolysis methylation (TCM) into the pre-heated GC inlet. There, reactions between spore biomarkers and the TCM reagent mixture occur between 250-290°C. At these conditions, monomethyl sulfate salt mixtures are convenient and efficient TCM reagents for the rapid conversion of a key unique spore biomarker, dipicolinic acid (DPA), to its dimethyl ester (Me2DPA). By this process, Me2DPA yields from spores were quantitatively assessed for different combinations of tetramethylammonium hydroxide (TMA+OH−), sodium hydroxide (Na+OH−), and hydrogen monomethyl sulfate (H+MeSO4−). The best reagent mixture was found by varying the combinations of the ions within the neutral or basic system containing TMA+, Na+, OH−, and MeSO4− according to a novel scheme for design of experiments termed ionic mixtures design of experiments (IMDOE). A combination of the above ions was found that is near-quantitative in its methylation of DPA to Me2DPA; this mixture contained a 1:3:1:3 mole ratio of TMA+:Na+:OH−:MeSO4−. This yield of Me2DPA was approximately a ten-fold increase over the best performance observed at the same conditions with tetramethylammonium hydroxide alone, the TCM reagent widely-used for GC. The reactions involving MeSO4− and TMA+ as methylating reagents, plus relevant hydrolysis and methylation reactions involving acid and base plus water and methanol, were investigated. An overall model is presented and mechanisms are proposed for reasons why basic mixtures of MeSO4− salts are more effective in methylating DPA compared to TMA+ salts at the conditions employed.

dipicolinic acid

methyl sulfate salts

thermochemolysis methylation

bacterial endospores

ionic mixtures

gas chromatography mass spectrometry

Chemical Engineering

Differentiation of <em>Bacillus</em> Endospores from Gas Chromatography-Mass Spectrometry of Biomarkers Produced by Thermochemolysis Methylation

Truong, Tai Van

20 April 2011

Methods for fast, simple detection of biomarkers to detect and differentiate closely related Bacillus endospores including Bacillus anthracis (BA), Bacillus thuringiensis (BT), Bacillus atrophaeus (BG), and Bacillus cereus (BC) using thermochemolysis and methylation (TCM), coiled wire filament (CWF), solid phase micro extraction (SPME) and gas chromatography-mass spectrometry (GC-MS) were developed. The main biomarkers detected and used for differentiation include dipicolinic acid methyl ester (DPAME), fatty acid methyl esters (FAMEs), 3-methyl-2-butenoic acid methyl ester (3M2BAME), 2-butenoic acid methyl ester (2BAME), and several methylated sugars. TCM of endospores was performed based on hydrolysis and methylation at elevated temperature after the endospores were mixed with sulfuric acid (H2SO4) with or without addition of tetramethylammonium hydroxide (TMAH) in methanol (MeOH). TCM products were then introduced into a heated GC injector port using a coiled wire filament (CWF) or solid phase microextraction (SPME) for detection and differentiation of the endospores by GC-MS.The CWF, which consisted of a tiny platinum helical wire coil attached to a retractable plunger that moved the coil in and out of a syringe needle housing, allowed for sampling to be accomplished by dipping the CWF in an endospore sample suspension, evaporating the suspension liquid, and then introducing the CWF into the injection port to enable on-line TCM. New SPME techniques, including half-half extraction, coated-needle extraction (CNE), and a new home-made polymer coated needle were used to speed up solid phase micro extraction of biomarkers produced from TCM. These simplified the detection of anthrose and other biomarkers. TCM with a CWF and TCM with SPME produced high intensity profiles of DPAME, FAMEs, 2BAME, 3M2BAME and methylated sugars. While the presence of DPAME can be used for the general detection of endospores (Bacillus and Clostridium) and the presence of 3M2BAME for the detection of BA, specific saturated and unsaturated C15, C16, and C17 fatty acid methyl esters and methylated sugars provide additional information for differentiating various Bacillus species grown at different temperatures and in different media. DPAME was detected in samples containing as few as 2,500 and 6,000 endospores using TCM-CWF with and without a concentration step, respectively. GC-MS peak area percent reproducibility for FAMEs using TCM and CWF varied from 3 to 13% (RSD). Better than 97% correct predictability of Bacillus species identity was obtained from a blind experiment consisting of 145 samples using DPAME and specific FAMEs. Conventional SPME and a modified form of "in-needle" extraction allow for detection of the biomarkers in less than 35 min. The detection limits with SPME sample introduction injection were approximately 5 x 103 endospores.Using these approaches, differentiation of Bacillus endospores and other biological agents grown under different conditions were based on the following characteristics: (1) presence of DPAME and specific FAMEs (iso or anteiso C15:0 and iso or anteiso C17:0) in Bacillus endospores, (2) unique presence of 3M2BAME (anthrose by-product) in BA, (3) absence of 2-butenoic acid methyl ester in BG, and (4) presence and absence of specific methylated monosaccharides in various Bacillus species. Clostridium endospores and non-sporulating bacteria, such as Yersinia pestis (YP) and Francisella tularensis (FT) could also be easily distinguished from Bacillus endospores based on the presence and absence of several specific sugar derivatives and fatty acid methyl esters (FAMEs), such as iso or anteiso C15:0 and iso or anteiso C17:0, and > C18 FAMEs which were simultaneously produced during TCM.

Bacillus

Endospores

Anthrax

Differentiation

Thermochemolysis methylation

Solid phase micro extraction

Coiled wire filament

Coated-needle extraction

Gas chromatography-mass spectrometry

Dipicolinic acid

Fatty acid

Sugars

Anthrose

Biochemistry

Chemistry

Nano-sondes hybrides luminescentes pour la détection du cancer de la prostate / Hybrid luminescent nanoparticles for the prostate cancer diagnosis

Adumeau, Pierre

26 February 2014

Ce travail de thèse a consisté en la conception et la réalisation d’une nano-sonde hybride luminescente visant à permettre la détection précoce du cancer de la prostate. La première partie de ce projet a été consacré à la synthèse, par une voie de chimie click, d’une bibliothèque d’acides 4-triazolyl dipicoliniques substitués en position 4 du triazole par une large gamme de substituants. Ces diacides ont permis d’obtenir les complexes d’europium(III) et de terbium(III) correspondant, qui ont montré d’excellentes propriétés optiques, avec des rendements quantiques de luminescence sous excitation UV pouvant atteindre 60% et 36%, pour les complexes d’europium(III) et deterbium(III) respectivement. D’autre-part, ces fluorophores ont pu être excités efficacement en régime biphotonique, à la fois au travers des transitions S0 ®S1 et S0 ®T1. Sur la base de ces résultats, certains de ces chélates ont été sélectionnés afin de les incorporer dans des nanoparticules de silice. Le procédé d’élaboration par microémulsion inverse s’est révélé efficace pour l’incorporation des complexes électriquement neutres, mais n’a pas permis celle de nanohybrides incorporant des complexes chargés négativement. Ces nanohybrides présentent des propriétés optiques caractéristiques des lanthanides, avec des rendements quantiques allant jusqu’à 30%. La surface de ces nano-objets a ensuite été fonctionnalisée par des groupements amino, qui ont permis le greffage de bras espaceur et d’un vecteur ciblant la PSMA, l’un des signaux du cancer de la prostate, nous donnant ainsi accès à un modèle de nano-sonde luminescente. Un autre volet de ce travail a été dédié à l’étude de nouveaux analogues du NAAG, substrat naturel de la PSMA. Bien que la synthèse des deux composés cibles, sélectionnés parmi une vingtaine de structures par modélisation moléculaire, n’ait pu aboutir, elle a été largement avancée. Enfin, la dernière partie de ce travail décrit les premiers résultats obtenus in vitro et in vivo avec les nanosondes. Ces études ont porté sur l’évaluation de la cytotoxicité des nanoparticules ainsi que sur leur biodistribution chez la souris saine et chez la souris porteuse d’une tumeur prostatique. Cette étude a révélé une élimination rapide des nanoparticules par l’organisme, mais n’a malheureusement pas pu mettre en évidence un marquage des zones tumorales par les nanosondes. / The aim of this project was the design of a luminescent nanoprobe allowing the early prostate cancer detection.The first part of this project was the synthesis, through a click chemistry approach, of a library of 4-triazolyl dipicolinic acid substituted in position 4 of the triazole by a wide range of substitutive groups. These diacids were used to synthesise the corresponding europium(III) and terbium(III) complexes, which showed excellent optical properties, with photoluminescence quantum yield under UV excitation reaching 60% for europium(III) complexes and 36% for terbium(III) complexes. Moreover, these phosphores have been efficiently excited in biphotonic regime through the transitions S0 ®S1 and S0 ®T1. The more interesting chelates were selected for their further embedding into silica nanoparticles. The water-in-oil emulsion process showed a great efficiency for the incorporation of electrically neutral complexes, but did not allow the embedding of negatively charged ones. The resulting nanohybrids showed optical properties typical of lanthanides, presenting photoluminescence quantum yields up to 30%. The nanoparticles surface was then functionalised by amino groups, which were used to graft a spacer then a prostate tumour cells vector, giving us a luminescent nanoprobe model. The third section of this work was devoted to the study of new analogues of NAAG, the natural substrate of the PSMA, one of the prostatic cancer signals. Although the synthesis of the two target compounds, selected from more than 20 structures by molecular modelling, was uncompleted, they are now within easy reach. The last part describes the preliminary results obtained in vitro and in vivo with the nanoprobes. These studies were focused on the nanoparticles cytotoxitcity assessment, depending on the surface functionalisation, and on their distribution, in healthy and in prostatic tumour bearing mice. This study revealed the fast elimination of the nanoparticles by the organism, but did not show any concentration of nanoprobes in tumoral area.

CuAAC

Acide 4-triazolyl dipicolinique

Complexes de lanthanide

Luminescence

Biphotonique

Nanohybrides

Sol-gel

Fonctionnalisation de surface

Cancer de la prostate

Analogues du NAAG

CuAAC

4-triazolyl dipicolinic acid

Lanthanide complexes

Luminescence

Biphotonic

Nanohybrids

Sol-gel

Surface functionalisation

Prostate cancer

NAAG analogues