Etude du régime alimentaire des carnivores par des techniques moléculaires

Shehzad, Wasim

14 December 2011

La caractérisation des réseaux trophiques est nécessaire pour comprendre le fonctionnement des écosystèmes et les mécanismes impliqués dans leur stabilité. Il est parfois difficile de déterminer les régimes alimentaires notamment pour des espèces discrètes et difficiles à observer comme les grands carnivores. Cependant, ces espèces jouent un rôle clé dans les écosystèmes dont elles influencent le fonctionnement et la biodiversité. Ainsi, connaitre le régime alimentaire des grands prédateurs avec précision est essentiel pour établir des stratégies de conservation. Diverses méthodes basées sur le monitoring, l'analyse d'échantillons invasifs ou non ont été utilisées pour étudier les régimes alimentaires. Elles sont généralement biaisées ou peu résolutives. Les méthodes basées sur l'identification des fragments d'ADN dans les fèces ont le potentiel de fournir une meilleure information, notamment dans le cadre d'une approche métabarcoding. Il s'agit de caractériser simultanément l'ensemble des espèces dont l'ADN est présent dans un échantillon environnemental, en utilisant les Nouvelles Techniques de Séquençage. Dans ce cas, les amorces universelles nécessaires pour amplifier toutes les proies potentielles amplifient également l'ADN du prédateur s'il y a proximité taxonomique (par exemple mammifères). Ainsi les produits PCR obtenus à partir des fèces sont essentiellement composés d'ADN du prédateur et ne reflètent pas l'ensemble du régime alimentaire. L'utilisation d'un oligonucléotide de blocage limitant spécifiquement l'amplification de l'ADN du prédateur peut résoudre ce problème. Nous avons développé une méthode de ce type basée sur l'utilisation d'amorces universelles pour les vertébrés (amplifiant la région 12SV5) et d'oligonucléotides de blocage. Bien que non quantitative, cette méthode s'est montrée robuste, adaptée à l'étude de prédateurs à très large spectre de proies, et très résolutive pour identifier les proies au niveau du genre et de l'espèce. Nous l'avons appliquée à l'étude du régime alimentaire du chat léopard (Prionailurus bengalensis) qui s'est avéré très diversifié (mammifères, oiseaux, amphibiens et poissons) dans les deux populations du Pakistan étudiées. Avec la même approche, nous avons démontré la réalité du conflit entre l'homme et le léopard commun (Panthera pardus) dont le régime est presque exclusivement composé d'animaux domestiques. Enfin, nous avons pu proposer des actions de conservations pertinentes après avoir montré que le régime de la très menacée panthère des neiges (Panthera uncia) est principalement composé d'ongulés sauvages.

L'ADN mitochondrial

DNA barcoding

Sequençages des nouvelle generation

Les Oligonucleotides bloquage

Zeolites as key-components for electronics and biomedicine

Lülf, Henning

13 December 2013

The aim of this thesis titled "Zeolites as key-components for electronics and biomedicine" is the synthesis, functionalization and applications of zeolite-L particles for applications in electronics and biomedicine. This thesis is organized into 8 chapters, starting in chapter 1 with giving a general overview about nanotechnology and biomedicine. After that the concept of using nanocontainer in biomedicine are briefly discussed. In the following the nanocontainer zeolite-L is introduced and a summary of zeolite- L for applications in nanomedicine is given. Finally, the self-assembly of zeolites in monolayers and their further functionalization is discussed. Chapter 2 describes the zeolite-L synthesis, functionalization and their assembly into functional materials in detail. Three different types of zeolite-L have been used in this thesis: Nanozeolite-L particles with a size of just a few tenths of nanometers, disc-shaped zeolite-L with a diameter of around 200 nm and micrometer sized crystals with a length of about 1000 nm. Then different methods to functionalize the crystals with the desired groups and to obtain specific properties of the crystals are reported. In detail, the exchange with different counter cations, the insertion of guest molecules and the functionalization of the external crystal surface are reported. Finally the assembly into monolayers and their further functionalization by soft lithography is discussed. [...]

[CHIM:OTHE] Chemical Sciences/Other

[CHIM:OTHE] Chimie/Autre

Zeolites

Nanotechnology

Biomedicine

Magnetoresistance

Drug delivery

Gene therapy

Self assembly

Oligonucleotides

Part 1: Controlling barriers to charge transfer in DNA Part 2: DNA-directed assembly of conducting oligomers

Güler, Gözde

17 November 2008

A series of anthraquinone-linked DNA oligonucleotides was prepared and the efficiency of long-distance radical cation migration was measured. In one set of oligonucleotides, two GG steps are separated by either a TATA or an ATAT bridge. In these two compounds, the efficiency of radical cation migration from GG to GG differs by more than an order of magnitude. Replacement of the thymines in the TATA or ATAT bridges with 3-methyl-2-pyridone (t, a thymine analog) results in the much more efficient radical cation migration across the bridge in both cases. This is attributed to a decrease in the oxidation potential of t to a value below that of A. In contrast, replacement of the thymines in the TATA or ATAT bridges with difluorotoluene (f, a thymine analog with high oxidation potential) does not measurably affect radical cation migration. These findings are readily accommodated by the phonon-assisted polaron-hopping mechanism for long-distance charge transfer in duplex DNA and indicate that DNA in solution behaves as a polaronic semiconductor. Oligomers containing thiophene-pyrrole-thiphene (SNS) monomers were covalently linked to the nucleobases of DNA. Treatment of these oligomers with horseradish peroxidase and hydrogen peroxide lead to the formation of conducting oligomers conjoined to the DNA. The DNA template aligns the oligomers along one strand of the duplex and limits the intermolecular reaction of monomers. This method enables utilization of the unique self-recognizing properties and programmability of DNA to create tailored oligomers.

Charge transfer

DNA

Horseradish peroxidase

Polythiophene

DNA-directed assembly

DNA

Charge transfer in biology

Oligomers

Anthraquinones

Oligonucleotides

Cations

Développement d'une stratégie thérapeutique anti-réplicative via l'exploitation de la voie d'import des ARN dans les mitochondries humaines / Development of an anti-replicative strategy by exploiting RNA import pathway into human mitochondria

Tonin, Yann

27 September 2013

Les mitochondries sont impliquées dans de nombreuses voies métaboliques, et des mutations au sein de leur génome (ADNmt) conduisent à l’apparition de nombreuses pathologies. A l’heure actuelle, il n’existe aucun traitement contre ces affections mais différentes pistes thérapeutiques sont envisagées. L’objectif de ce travail a consisté en la mise au point d’une telle stratégie, dite anti-réplicative via l’exploitation de la voie d’import naturelle des ARN dans les mitochondries. De petits ARN artificiels importables dans les mitochondries humaines ont ainsi été utilisés comme vecteurs pour y importer une séquence capable de s’hybrider spécifiquement à l’ADNmt mutant et d’en stopper sa réplication. Les résultats obtenus ont permis de prouver la validité de cette stratégie vis-à-vis d’une large délétion et de mutations ponctuelles liées à divers cas pathologiques et de caractériser l’effet de modifications chimiques sur la stabilité, l’import et l’efficacité de ces ARN recombinants. / Mitochondria are involved in many metabolic pathways, and mutations in their genome (mtDNA) can cause a wide range of human disorders. No efficient treatment against these pathologies is currently available. The objective of this work consisted in the development of a therapeutic approach, called anti-replicative, based on the use of the natural pathway of RNA import into mitochondria. Small artificial RNA molecules able to be imported into human mitochondria have been used as vectors to address oligoribonucleotides capable to hybridize specifically to mutant mtDNA and to stop its replication. The effect of various chemical modifications on the stability, import and efficiency of these recombinant RNA has been characterized. All the data obtained prove the validity of the anti-replicative strategy for mtDNA containing a large deletion or pathogenic point mutations and can be considered as an important step to further develop an efficient therapy of mitochondrial diseases.

Mitochondrie

Import d'ARN

Stratégie thérapeutique

Oligonucléotides antiréplicatif

Hétéroplasmie

Mitochondria

RNA import

Oligonucleotides

Therapeutic strategy

Heteroplasmy

Anti-replicative

572.8

Funcionalidade e caracterização das propriedades físico-químicas, biológicas e estruturais da uricase modificada por PEGlação. / Functionality and characterization of physiscal-chemical, biological and structural properties of uricase modified by PEGlation.

Debora da Silva Freitas

28 February 2011

A PEGlação é uma bem sucedida estratégia nano-biotecnológica que envolve a ligação covalente do polietilenoglicol (PEG) a uma droga para melhorar sua farmacocinética, farmacodinâmica e perfil imunológico, e portanto, aumentar seu efeito terapêutico. Atualmente, a PEGlação é usada para modificar proteínas, peptídeos, oligonucleotídeos e fragmentos de anticorpos. A Uricase (EC 1.7.3.3, UC) é uma enzima pertencente à classe das oxidorredutases, responsável pela oxidação do ácido úrico, produzindo alantoína. Essa enzima é encontrada em muitos organismos vivos como: bactérias, leveduras, fungos, vegetais e animais. Entretanto, durante a evolução das espécies o gene da UC tornou-se inativo, por isso, em humanos a UC é inativa. Nesse sentido, a UC adquiriu destaque como um potencial fármaco uricolítico, devido à necessidade do desenvolvimento de novos agentes terapêuticos no tratamento de hiperuricemia e gota. Neste estudo, a uricase recombinante purificada de Candida sp (UC-r) e a de rim bovino (UC-b) foram modificadas por PEGlação com mPEG-p-nitrofenil carbonato (mPEG-pNP) e 2-O-mPEG-4,6-dicloro-s-triazina (mPEG-CN), produzindo conjugados com considerável atividade enzimática residual UC-r-mPEG-pNP (87%), UC-r-mPEG-CN (75%) e UC-b-mPEG-pNP (75%), UC-b-mPEG-CN (50%).Além disso, os conjugados obtidos com a UC-r e UC-b apresentaram valores de KM menores do que as enzimas nativas, indicando que a PEGlação conferiu uma interessante propriedade aos conjugados, que permitiu um aumento da afinidade da UC-r e UC-b pelo ácido úrico. O efeito do pH e da temperatura sobre a UC-r e UC-b modificadas indicou que os conjugados obtidos foram mais ativos em pH próximo ao fisiológico e mais estáveis do que a respectiva enzima nativa. As formas PEGladas da UC-r e UC-b foram mais resistentes à ação de diferentes proteases e mantiveram-se estáveis em soro humano, indicando que a PEGlação favoreceu a resistência a degradação proteolítica. Análises espectroscópicas de dicroísmo circular (CD) e infravermelho (FTIR) não apresentaram nenhuma diferença relevante entre a estrutura protéica da UC-r nativa e PEGlada. Estudos in vivo com coelho e camundongos Balb/c mostraram que a UC-r nativa induziu uma intensa resposta imune sendo altamente imunogênica. Por outro lado, a UC-r PEGlada quando injetada cronicamente em camundongos não induziu qualquer resposta detectável de anticorpos. Esses resultados indicam uma suficiente redução da imunogenicidade dessa enzima, devido à conjugação do mPEG-pNP ou mPEG-CN, tornando-a adequada para um possível uso terapêutico. Portanto, nesse trabalho, os resultados obtidos com a UC-r de Candida sp, mostram que dois conjugados apresentaram interessantes propriedades físico-química, biológicas e imunológicas, que permitiram um significativo avanço na transformação de uma enzima de origem fúngica em uma droga, com uma possível aplicação terapêutica no tratamento de hiperuricemia e gota. / PEGylation is a successful nanobiotechnology strategy that involves the covalent attachment of polyethylene glycol (PEG) to a drug to improve its pharmacokinetic, pharmacodynamic, and immunological profiles, and thus, enhance its therapeutic effect. Currently, PEGylation is used to modify proteins, peptides, oligonucleotides, antibody fragments, and small organic molecules. Uricase (EC 1.7.3.3, UC) is an enzyme belonging to the class of oxidorreductases responsible for the oxidation of uric acid, producing allantoin. This enzyme is found in many living organisms such as bacteria, yeasts, fungi, plants and animals. However, during the evolution of the species gene became inactive UC, therefore, in humans UC is inactive. Accordingly, UC has acquired prominence as a potential drug uricolytic due to the need of developing new therapeutic agents for the treatment of hyperuricemia and gout. In this study, purified recombinant uricase from Candida sp (UC-r) and ox kidney (UC-b) were modified by PEGylation with mPEG-p-nitrophenyl-carbonate (mPEG-pNP) and 2-O-mPEG-4,6-dichloro-s-triazine (mPEG-CN), producing conjugates with considerable residual enzyme activity UC-r-mPEG-pNP (87%), UC-r-mPEG-CN (75%) and UC-b-mPEG-pNP (75%),UC-b-mPEG-CN (50%). In addition, conjugates obtained with the UC-r and UC-b had lower KM values than native enzymes, indicating that the PEGylation gave an interesting property the conjugate that increased the affinity of UC-r and UC-b by uric acid. The effect of pH and temperature on the modified UC-r and UC-b indicated that the conjugates were more active at pH close to the physiological and more stable than its native enzyme. PEGylated forms of UC-r and UC-b were more resistant to the action of different proteases and remained stable in human serum, indicating that the PEGylation favored resistance to proteolytic degradation. Spectroscopic analysis of circular dichroism (CD) and infrared (FTIR) did not show any relevant difference in protein structure between native and PEGylated UC-r. In vivo studies with rabbit and Balb/c mice showed that UC-r native elicited an intense immune response being highly immunogenic. On the other hand, the PEGlated UC-r when chronically injected into mice did not induce any detectable response to antibodies. These results indicate a sufficient reduction of immunogenicity of this enzyme, due to conjugation of mPEG-pNP or mPEG-CN, making it suitable for possible therapeutic use. Therefore, the results obtained with the UC-r of Candida sp, showed that two conjugates have interesting physical-chemical, biological and immunological, which allowed a significant advance in the transformation of an enzyme of fungal origin in a drug with a possible application therapeutic in the treatment of hyperuricemia and gout.

Ativação enzimática

Enzimas proteolíticas

Fenômenos biológicos

Nucleotídeos

Oligonucleotídeos

Testes enzimáticos

Biological phenomena

Enzyme activation

Enzyme tests

Nucleotides

Oligonucleotides

Proteolytic enzymes

Role Rnf207b v hematopoéze Danio rerio / Role of Rnf207b in zebrafish hematopoiesis

Vondráková, Zuzana

January 2019

Hematopoiesis is the process of proliferation, differentiation and self-renewal of hematopoietic stem cells. Regulation of hematopoiesis is a complex process, which takes place on many different levels and is directed by many signals. RNF207 is one of the perspective genes chosen based on a screen in chicken model, where obtained data show its role in hematopoiesis. The aim of this work was to confirm the role of rnf207b as a new regulator of hematopoiesis in Danio rerio and to find out on which level of hematopoiesis is active. Danio rerio is an excellent model to study the function of genes in vivo, thanks to the easy manipulation of genetic expression and wide range of phenotypes during the development. To study the effect of rnf207b in hematopoiesis of Danio rerio we performed the knock-down of this gene by microinjection of morpholino oligonucleotides into one cell stage embryos. In these injected fish, we saw the effect in both thrombocyte and erythroid lineage, suggesting that rnf207b could be a regulator at the hierarchical level of progenitors or even more upstream. The results of developmental and tissue specific expression analysis then show that expression of rnf207b begins as early as 18 hpf, at the time of primitive hematopoiesis. Although rnf207b is expressed in the kidney (an...

Preparative chromatographyfor modified oligonucleotides : Method development for modified oligonucleotides, fromanalytical to preparative chromatography / Preparativ kromatografi för modifierade oligonukleotider : Metodutveckling för modifierade oligonukleotider, från analytisk tillpreparativ kromatografi

Jasinski, Rebecka

January 2021

Synthetic oligonucleotides, which are short strings of DNA or RNA, are a grooving area of importance for the pharmaceutical industry and for companies that manufacture diagnostic components. The manufacturing process of synthetic oligonucleotides involves many complex processes that use separation and purification techniques like ion-exchange chromatography, ion-pair reversed phase chromatography and ultra-performance liquid chromatography. In this study, the focus lies on the purification process, where the main aim is to develop a separation and purification method for modified oligonucleotides that can be applied on different scales, from an analytical to a preparative scale. Three modified oligonucleotides, and one unmodified with 44 bases, provided by Scandinavian Gene Synthesis (Västerås, Sweden), were analysed and purified on an ultra-performance liquid chromatography and on a preparative-system. Several parameters were investigated, e.g. mobile phase composition, gradients and concentration. Practical analysis and purification were made in two scales; analytical and semi-preparative.  The results showed that the samples contained impurities that were hard to separate from the main sample. The scaling-up tests showed that, with increasing concentration, the impurities become more aggregated with the main product. Fraction analysis showed that several pure fractions were collected from the semi-preparative purification, and therefore some amount of pure sample were collected from the semi-preparative run. In conclusion, the method developed in this master thesis worked well as a significant amount of samples were purified in the semi-preparative purification, and the method worked on modified and unmodified oligonucleotides, containing different amount of modifications. / Syntetiska oligonukleotider, vilket är korta strängar av DNA eller RNA, är ett framväxande område i läkemedelsindustrin och för företag som tillverkar diagnostiska komponenter. Tillverkningsprocessen för syntetiska oligonukleotider involverar många komplexa processer som använder separation- och reningstekniker som jonbyteskromatografi, jonparskromatografi och ultra-performance kromatografi. I denna studie ligger fokus på reningsprocessen där det huvudsakliga syftet är att utveckla en separation- och renings metod för modifierade oligonukleotider som kan appliceras på olika skalor – från analytisk till preparativ skala.  Tre modifierade oligonukleotider, samt en omodifierad med 44 baser, tillhandahållet av Scandinavian Gene Synthesis (Västerås, Sverige), analyserades och renades på ett ultra-performance kromatografi system och ett preparativt reningssystem. Flertal parametrar undersöktes, bland annat mobilfasens komposition, gradienter och koncentration. Analys och rening utfördes i två skalor; analytisk och semi-preparativ skala.  Resultatet visade att proverna innehöll föroreningar som var svåra att separera från huvudkomponenten. Uppskalningstesterna visade att föroreningarna blandade sig mer med huvudkomponenten då koncentrationen ökade. Fraktionsanalyser visade att flera rena fraktioner blev ihopsamlade från den semi-preparativa reningen, som därav visade att en betydelsefull mängd rent prov blev renat i den semi-preparativa reningen. Sammanfattningsvis, den metod som utvecklats i denna uppsats fungerade bra då betydelsefulla mängder oligonukleotider kunde renas till olika grad vid den semi-preparativa reningen, samt att metoden fungerade för både modifierade och icke-modifierade oligonukleotider som innehöll olika mängder modifikationer.

oligonucleotides

preparative chromatography

scaling-up

ion-pair chromatography

dibutylamine

oligonukleotider

preparativ kromatografi

uppskalning

jonparskromatografi

dibutylamin

Chemical Engineering

Kemiteknik

New Algorithms for EST clustering

Ptitsyn, Andrey

January 2000

Philosophiae Doctor - PhD / Expressed sequence tag database is a rich and fast growing source of data for gene expression analysis and drug discovery. Clustering of raw EST data is a necessary step for further analysis and one of the most challenging problems of modem computational biology. There are a few systems, designed for this purpose and a few more are currently under development. These systems are reviewed in the "Literature and software review". Different strategies of supervised and unsupervised clustering are discussed, as well as sequence comparison techniques, such as based on alignment or oligonucleotide compositions. Analysis of potential bottlenecks and estimation of computation complexity of EST clustering is done in Chapter 2. This chapter also states the goals for the research and justifies the need for new algorithm that has to be fast, but still sensitive to relatively short (40 bp) regions of local similarity. A new sequence comparison algorithm is developed and described in Chapter 3. This algorithm has a linear computation complexity and sufficient sensitivity to detect short regions of local similarity between nucleotide sequences. The algorithm utilizes an asymmetric approach, when one of the compared sequences is presented in a form of oligonucleotide table, while the second sequence is in standard, linear form. A short window is moved along the linear sequence and all overlapping oligonucleotides of a constant length in the frame are compared for the oligonucleotide table. The result of comparison of two sequences is a single figure, which can be compared to a threshold. For each measure of sequence similarity a probability of false positive and false negative can be estimated. The algorithm was set up and implemented to recognize matching ESTs with overlapping regions of 40bp with 95% identity, which is better than resolution ability of contemporary EST clustering tools This algorithm was used as a sequence comparison engine for two EST clustering programs, described in Chapter 4. These programs implement two different strategies: stringent and loose clustering. Both are tested on small, but realistic benchmark data sets and show the results, similar to one of the best existing clustering programs, 02_cluster, but with a significant advantage in speed and sensitivity to small overlapping regions of ESTs. On three different CPUs the new algorithm run at least two times faster, leaving less singletons and producing bigger clusters. With parallel optimization this algorithm is capable of clustering millions of ESTs on relatively inexpensive computers. The loose clustering variant is a highly portable application, relying on third-party software for cluster assembly. It was built to the same specifications as 02_ cluster and can be immediately included into the STACKPack package for EST clustering. The stringent clustering program produces already assembled clusters and can apprehend alternatively processed variants during the clustering process.

Tentative Human Consensus (THC)

Expression Analysis Tool (VEAT)

Expressed Gene Anatomy Database (EGAD)

Receiver Operator Characteristic (ROC)

Nucleotide

Oligonucleotides

The dependence of chromatographic conditions for separation of oligonucleotides in different AEX-HPLC columns / Kromatografiska betingelsers påverkan på separation av oligonukleotider med olika anjonbytarkolonner

Nylander, Julia

January 2020

Oligonucleotides (ONs) are widely used in different applications in life science, forensic, in i.e. family tree DNA test for humans and in diagnostic applications in several fields. The use of ONs in biopharmaceutical therapeutic areas also generates new challenges handling more complex molecules which results in the need of further developed analytical techniques. Anion exchange chromatography (AEX) is a common separation technique for biomolecules and is based on charge attraction between the analyte and the stationary phase. The chromatographic system is complex and often high pH and a high salt concentration is needed for the elution to occur, which in some systems can be corrosive for both the column and the instrument. The aim of this study was to evaluate new mobile phase compositions with lower salt concentrations, organic modifier, and usage of a buffer to increase the control of the pH. This was done by evaluation of three columns developed for AEX and uses different chemical and methodical modification of the mobile phase to control the retention to the stationary phase. The influence of pH, temperature, and methanol (MeOH) content in the buffer were studied by evaluation of resolution, asymmetry, and efficiency responses. Three oligonucleotides with 16, 18 and 19 T-bases in the chain were used in the study of three AIE columns. High pH, elevated temperature and the addition of an organic modifier were used for unfolding of the oligonucleotide chain and generating more efficient separations. Other parameters such as gradient slope and initial concentration of the eluting buffer were also studied, and the findings clearly show that the chromatographic conditions influence the resolution, asymmetry, and efficiency. / Oligonukleotider används i flera olika branscher som forensik och inom life sience till diagnostiska och medicinska applikationer. Eftersom applikationsområdena ökar och forskningen går framåt så blir molekylerna mer komplexa, vilket i sin tur kräver att dom analytiska teknikerna också behöver utvecklas. En vanlig separationsteknik för biomolekyler är anjonbyteskromatografi, då den bygger på laddningsattraktion mellan analyten och den stationära fasen. Oligonukleotider har en negativ nettoladdning på grund av den negativt laddade fosfatgruppen i kedjan. Genom att modifiera de kemiska egenskaperna i den mobila fasen är det därför möjligt att i viss grad kontrollera retentionen till den stationära fasen.       Då det kromatografiska systemet är komplext och det ofta behövs högt pH och/eller en hög saltkoncentration för eluering av analyten kan det i vissa system verka korrosivt för både kolonnen och instrumentet. Det initiala målet med detta arbete var att ta fram olika mobila faser med lägre saltkoncentration, organiskt lösningsmedel och användande av buffer för att kontrollera pH. Detta gjordes genom att utvärdera den kromatografiska kapaciteten hos tre olika anjonbyteskolonner samt använda olika kemiska- och metodiska modifieringar av den mobila fasen för att kontrollera analytens retention. Mer specifikt så kommer påverkan av pH, temperatur och innehåll av metanol i den mobila fasen att studeras genom att utvärdera upplösning, asymmetri och effektivitet i de erhållna kromatogrammen. Analytmixen innehåller tre olika oligonukleotider vilka består av 16, 18 eller 19 T-baser i sekvensen. Genom att höja pH, temperatur och innehåll av metanol i den mobila fasen påvisas mer effektiva separationer. Andra faktorer som gradientlutning och initialkoncentration av den eluerande fasen studeras också med goda resultat när det gäller dess påverkan på upplösning, asymmetri och effektivitet.

ion exchange chromatography

oligonucleotides

anion exchange column

pH

HPLC

Jonbyteskromatografi

oligonukleotider

anjonbytarkolonn

pH

HPLC

Analytical Chemistry

Analytisk kemi

Synthesis and Fate of Oligonucleotides Containing the Oxidative Damage Product 3'-Oxothymidine

Bedi, Fernand Mel

22 October 2015

No description available.

Biochemistry

Biomedical Research

Chemistry

oligonucleotides

oxothymidine

oxidative damage

DNA lesions

phosphoramidite

reverse oligonucleotide synthesis

radicals

hydrogen abstraction