Global ETD Search

131	Regioselective prenylation of bromocarbazoles by palladium(0)-catalysed cross coupling – synthesis of O-methylsiamenol, O-methylmicromeline and carquinostatin A Thomas, Claudia, Kataeva, Olga, Schmidt, Arndt W., Knölker, Hans-Joachim 02 December 2019 (has links) We describe the regioselective prenylation of 3-bromocarbazole by palladium(0)-catalysed cross coupling with a prenylstannane or a prenylboronate. The procedure is applied to the synthesis of precursors for biologically active carbazole alkaloids. info:eu-repo/classification/ddc/540 ddc:540
132	Topological evolution: from biological to social networks Santos, Francisco C. 18 June 2007 (has links) - / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences de l'ingénieur Informatique générale Neural networks (Computer science) Computer networks Evolutionary computation Biologically-inspired computing Réseaux neuronaux (Informatique) Réseaux d'ordinateurs Evolution of Cooperation Idyotipc Immune networks Evolutionary Dynamics Complex networks
133	AMBIENT IONIZATION MASS SPECTROMETRY FOR HIGH THROUGHPUT BIOANALYSIS Nicolas Mauricio Morato Gutierrez (16635960) 25 July 2023 (has links) <p>The rapid analysis of complex samples using mass spectrometry (MS) provides valuable information in both point-of-care (e.g. drug testing) and laboratory-based applications, including the generation of spectral libraries for classification of biosamples, the identification of biomarkers through large-scale studies, as well as the synthesis and bioactivity assessments of large compound sets necessary for drug discovery. In all these cases, the inherent speed of MS is attractive, but rarely fully utilized due to the widespread use of sample purification techniques prior to analysis. Ambient ionization methodologies can help circumvent this drawback by facilitating high-throughput qualitative and quantitative analysis directly from the complex samples without any need for work-up. For instance, the use of swabs or paper substrates allows for rapid identification, quantification, and confirmation, of drugs of abuse from biofluids or surfaces of forensic interest in a matter of minutes, as described in the first two chapters of this dissertation. Faster analysis can be achieved using an automated desorption electrospray ionization (DESI) platform which allows for the rapid and direct screening of complex-sample microarrays with throughputs better than 1 sample per second, giving access to rich spectral information from tens of thousands of samples per day. The development of the bioanalytical capabilities of this platform, particularly within the context of drug discovery (e.g. bioactivity assays, biosample analysis), is described across most other chapters of this dissertation. The use of DESI, a contactless ambient ionization method developed in our laboratory and whose 20 years of history are overviewed in the introduction of this document, provides an additional advantage as the secondary microdroplets generated through the DESI process act as reaction vessels that can accelerate organic reactions by up to six orders of magnitude, facilitating on-the-fly synthesis of new compounds from arrays of starting materials. Unique implications of this microdroplet chemistry in the prebiotic synthesis of peptides and spontaneous redox chemistry at air-solution interfaces, together with its practical applications to the synthesis of new drug molecules, are also overviewed. The success obtained with the first automated DESI-MS system, developed within the DARPA Make It program, led to increased interest in a new-generation platform which was designed over the past year, as overviewed in the last section of this dissertation, and which is currently being installed for validation prior to the transfer of the technology to NCATS, where we anticipate it will make a significant impact through the consolidation and acceleration of the early drug discovery workflow.</p> Analytical biochemistry Enzymes Analytical spectrometry Bioassays Biologically active molecules Forensic chemistry Mass spectrometry High-throughput screening Ambient ionization Desorption electrospray ionization Drug discovery Biological assays Forensic analysis Microdroplet chemistry High-throughput analysis
134	Exploration of Contextual Influences on the Incorporation of Chemical- and Scenario-Specific Data in the Derivation of Environmental Health and Occupational Exposure Limits for Chemicals Deveau, Michelle Leigh 29 July 2021 (has links) Outputs of dose–response assessments can be used as benchmarks that help to identify the need for risk management measures to reduce population health risks associated with exposure to chemicals. Various approaches can be used to facilitate the incorporation of chemical- or scenario-specific data into dose–response analyses, as a means of replacing or influencing default assumptions and extrapolations. The goal of the first part of this thesis was to examine the evolution of approaches to the incorporation of chemical- and scenario-specific data in dose–response assessments in regulatory settings, and identify contextual factors that serve as barriers and facilitators to the use of approaches. A main focus of the investigation was on physiological modelling, which is the most commonly-used category of approaches enabling extrapolations that depart from default assumptions. Evaluations of the dose–response applications of physiological modelling in the peer-reviewed scientific literature and in regulatory reports were conducted. Similarities between the scientific literature databases and regulatory reports were observed with respect to the evolution of physiological modelling in dose–response assessments, notably related to the timing, quantity, and annual frequency of publications. These similarities indicate that a factor in the low dose–response application of physiological modelling, relative to the overall production of physiological models, is an absence of data. However, variability in adoption of physiological modelling in regulatory dose–response assessments was observed among—and even within—organizations faced with the same data, indicating that other factors influence regulatory uptake of physiological modelling. Analysis of a survey indicated that factors acting as barriers or facilitators to regulatory risk assessors’ incorporation of increasingly data-informed approaches originated in both external and internal contexts. The external context was composed of the regulatory environment, domestic and international alignment, availability of external expertise, background of peer reviewers and stakeholders, availability and accessibility of software and tools, and chemical-dependent factors. The internal context was influenced by problem formulation, time and financial resources, organizational and management support, and training. A conceptual framework demonstrating how these factors impact a risk assessor’s ability to incorporate chemical- and scenario-specific data in dose–response analysis was developed, and subsequently used to provide recommendations on actions that could be taken to increase regulatory adoption of increasingly data-informed approaches. The second part of the thesis focused on the development of a knowledge translation tool designed to assist risk managers in the evaluation of dose–response analyses. The tool was focused on occupational exposure limits (OELs), and provides a guide to occupational hygienists in evaluating the relevance and reliability of individual OELs. When occupational hygienists are faced with multiple varying OELs for a chemical of interest, these evaluations can support the selection of the most appropriate OEL for a given situation. The usefulness of the tool was demonstrated for the selection of OELs for an OEL-rich compound (n-hexane), an OEL-poor compound (methamphetamine), and one additional compound (manganese). Such a tool can improve occupational hygienists’ understanding of the basis of OELs and the levels of protection afforded by each, which can contribute to more informed risk management decisions. occupational exposure limits exposure guidelines environmental health occupational hygiene dosimetry modelling risk assessment dose–response assessment chemical-specific data departure from default
135	TYROSINE PHOSPHORYLATION MEDIATED REMODELING OF THE ERYTHROCYTE MEMBRANE IN SICKLE CELL DISEASE John M Hausman (14043162) 04 November 2022 (has links) <p>The pathological hallmarks of sickle cell disease originate from a single mutation of the beta hemoglobin gene resulting in a valine at position 6 instead of the canonical glutamic acid. This small change perpetuates many factors, manifesting into chronic embolic processes in the microvasculature, causing painful vaso-occlusive episodes and eventual organ failure. There have been numerous therapies developed to reduce the mortality of sickle cell ranging from agents to induce production of fetal hemoglobin to chronic blood transfusions. Although each of these options are effective at improving the quality of life for sickle cell patients, they only treat one aspect of the disease and, for some, become ineffective over time. In the hope of producing a better therapy, a better understanding of the pathogenesis of vaso-occlusive episodes is needed. While many models have been offered to account for these vaso-occlusive events, one recently proposed mechanism stems from the elevated tyrosine phosphorylation of the cytoplasmic domain of the major erythrocyte membrane protein, Band 3. Band 3 serves as a hub for many critical proteins in the red cell. It binds ankyrin, which associates the spectrin cortical cytoskeleton to the red cell membrane, deoxygenated hemoglobin, the kinases Wnk1 and OSR1, which regulate cation transport, and a glycolytic enzyme metabolon that regulates the production of ATP and glutathione. When Band 3 is tyrosine phosphorylated, each of these proteins dissociate, causing significant changes to red cell homeostasis. These changes include an accumulation of reactive oxygen species, vesiculation and release of prothrombotic microvesicles, leakage of cell free hemoglobin, and a decrease in cell volume. Normally, Band 3 exists in a predominantly unphosphorylated state, however, in sickle cell disease, Band 3 is abundantly tyrosine phosphorylated. Reduction in the tyrosine phosphorylation of Band 3 has been documented to prevent the release of microvesicles and hemoglobin from sickle cell red blood cells. Because these microvesicles and cell free hemoglobin contribute to the vaso-occlusive episodes in sickle cell patients, inhibiting the mechanism for their release offers a potential therapeutic option. But to accomplish this, the molecular cause for the elevated tyrosine phosphorylation in sickle cell disease must be identified. Since tyrosine phosphorylation is performed by a tyrosine kinase and removed by a tyrosine phosphatase, the elevation in phosphorylation must be due to changes in both of these processes. Unfortunately, the identity and nature of these kinases and phosphatases are poorly understood. In this dissertation, I identified the tyrosine kinases Syk, Lyn, and Src attributed to Band 3</p> <p>15</p> <p>phosphorylation that facilitates the release of microvesicles and hemoglobin in sickle cell red blood cells. Inhibition of Syk or one of the two Src family kinases is sufficient to prevent the destabilization of the red blood cell membrane. These kinases function in a hierarchy, where one of the three Src family kinase, Lyn phosphorylates Syk, activating it, and promoting the phosphorylation of Band 3 at tyrosines 8 and 21. Prevention of either phosphorylation event prevents the release of microvesicles and cell free hemoglobin. I also report the identification of PTP1B as the tyrosine phosphatase responsible for maintaining Band 3 in an unphosphorylated state. Interestingly, in sickle cell disease, this tyrosine phosphatase is proteolytically cleaved, resulting in a reduction in dephosphorylating potential. It has been reported previously that PTP1B is a substrate of the calcium dependent protease, calpain and that calpain inhibitors improve the cell morphology of sickle erythrocytes. Inhibition of this proteolytic process may offer an additional therapeutic option for the treatment of sickle cell disease.</p> Biologically active molecules Molecular medicine Proteins and peptides Red Blood Cell membrane protein band 3 Tyrosine Kinase Inhibitors Targeting Tyrosine Phosphatases
136	[en] MOTION SYNTHESIS FOR NON-HUMANOID VIRTUAL CHARACTERS / [pt] SÍNTESE DE MOVIMENTOS PARA PERSONAGENS VIRTUAIS NÃO-HUMANÓIDES PEDRO LUCHINI DE MORAES 03 September 2018 (has links) [pt] Nosso trabalho apresenta uma técnica capaz de gerar animações para personagens virtuais. A inspiração desta técnica vem de vários princípios encontrados na biologia, em particular os conceitos de evolução e seleção natural. Os personagens virtuais, por sua vez, são modelados como criaturas semelhantes a animais, com um sistema locomotor capaz de movimentar seus corpos através de princípios simples da física, tais como forças e torques. Como nossa técnica não depende de nenhum pressuposto sobre a estrutura do personagem, é possível gerar animações para qualquer tipo de criatura virtual. / [en] We present a technique for automatically generating animations for virtual characters. The technique is inspired by several biological principles, especially evolution and natural selection. The virtual characters themselves are modeled as animal-like creatures, with a musculoskeletal system that is capable of moving their bodies through simple physics principles, such as forces and torques. Because our technique does not make any assumptions about the structure of the character, it is capable of generating animations for any kind of virtual creature. [pt] ALGORITMO GENETICO [pt] ANIMACAO PROCEDIMENTAL [pt] COMPUTACAO INSPIRADA NA BIOLOGIA [pt] VIDA ARTIFICIAL [pt] SIMULACAO FISICA [pt] INTELIGENCIA ARTIFICIAL [en] GENETIC ALGORITHM [en] PROCEDURAL ANIMATION [en] ARTIFICIAL LIFE [en] PHYSICAL SIMULATION [en] ARTIFICIAL INTELLIGENCE
137	Diversité des champignons endophytes mycorhiziens et de classe II chez le pois chiche, et influence du génotype de la plante Ellouz, Oualid 04 1900 (has links) réalisé en cotutelle avec la Faculté des Sciences de Tunis, Université Tunis El Manar. / Le pois chiche (Cicer arietinum L.) a l’avantage de pouvoir assimiler l'azote atmosphérique grâce à son association symbiotique avec des bactéries du genre Mesorhizobium. Malgré cet effet bénéfique sur les systèmes culturaux, le pois chiche réduit parfois la productivité du blé qui la suit. Cet effet négatif du pois chiche pourrait provenir d’une réaction allélopathique à ses exsudats racinaires ou résidus, ou de changements inopportuns dans la communauté microbienne du sol induits par la plante. L'amélioration des interactions symbiotiques du pois chiche pourrait améliorer la performance économique et environnementale des systèmes culturaux basés sur le blé. L’objectif à long terme de ce travail est d'améliorer l’influence du pois chiches sur son environnement biologique et sur la productivité du système cultural. À court terme, nous voulons 1) vérifier l'effet des champignons endophytes sur la performance de cultivars de pois chiche de type desi et kabuli, particulièrement en conditions de stress hydrique, ainsi que sur celle d’une culture subséquente de blé dur, 2) identifier des cultivars de pois chiche capables d’améliorer la qualité biologique de sols cultivés, 3) vérifier que des composés biologiquement actifs sont présents dans les racines des différents cultivars de pois chiches et 4) définir la nature de l’activité (stimulation ou inhibition) des ces composés sur les champignons endomycorhiziens à arbuscules (CMA), qui sont des microorganismes bénéfiques du sol reconnus. L’inoculation du pois chiche avec des champignons endophytes indigènes en serre a augmenté la tolérance à la sécheresse du cultivar de type kabuli à feuille simple CDC Xena et amélioré la nutrition azotée et phosphatée d’un cultivar de type desi, cv. CDC Nika, cultivé en conditions de stress hydrique. La germination des graines de blé dur fut meilleure lorsque celles-ci étaient semées dans les débris de pois chiche inoculé de type kabuli. Le sol dans lequel le génotype de pois chiche à feuille simple CDC Xena fut cultivé mais duquel tout le matériel végétal de pois chiche fut retiré a fortement inhibé la germination des semences de blé dur, ce qui suggère un effet des exsudats racinaires sur la communauté microbienne du sol associée à cette variété de pois chiche. En champ, les cultivars de pois chiche ont influencé différemment la composition des communautés de champignons de la rhizosphère. Les espèces de champignons pathogènes étaient infréquentes et les espèces saprotrophiques et de CMA étaient fréquentes dans la zone des racines du cultivar de type desi CDC Anna. L’effet des composés contenus dans les fractions séparées par HPLC et solubles en solution de méthanol à 25% et 50% de l’extrait racinaire de ce cultivar sur la germination de spores de CMA a été testé in vitro. Les deux espèces de CMA utilisées ont répondu différemment à l’exposition aux composés testés, révélant un mécanisme impliqué dans l’association préférentielle entre les plantes hôtes et les CMA qui leurs sont associés. Nous concluons que le génotype de pois chiche influence la composition de la communauté microbienne qui lui est associée et que cette influence est reliée au moins en partie aux molécules bioactives produites par les racines de la plante. D’autre part, la productivité du pois chiche et de la culture subséquente pourrait être favorisée par la manipulation de leurs champignons endophytes par inoculation. / Chickpea (Cicer arietinum L.) has the ability to bring free N into cropping systems, but is only a fair rotation crop, leading to lower yield in following wheat crops, as compared to medic, vetch or lentil. The negative effects of a chickpea plant on the following wheat crops could come from chickpea root exudates, their residues or their influence on the soil microbial community. The identification of chickpea cultivars best able to promote soil biological quality and the growth of a subsequent crop in rotation will help farmers in selecting better crop rotations and, thus, will improve crop management in soil zone growing chickpea. The global objective of this research is to improve the fitness of chickpea crops to their biological environment and to improve the ability of the plant to enhance soil biological quality. The specific objectives were (1) to verify that the productivity of chickpea and subsequent crops could be promoted through the inoculation by some indigenous endophytic fungi particularly under drought stress conditions (2) to verify the existence of variation in the rhizospheric associations of field-grown chickpea, as it is a necessary condition for the selection of genotypes with improved compatibility with beneficial microorganisms. (3) to identify the biologically active compounds present in the root extracts of chickpea cultivars with contrasting phenotypes, and assess their effect on beneficial and pathogenic soil microorganisms. The greenhouse experiments show that inoculation with indigenous endophytes increased drought tolerance of the unifoliate Kabuli chickpea CDC Xena and the N and P nutrition of the drought stressed Desi chickpea CDC Nika. Inoculation of both Kabuli chickpea varieties with indigenous endophytes improved wheat seeds germination in tissues amended soil. Residue-free soil previously growing the unifoliate Kabuli chickpea CDC Xena strongly inhibited durum seed germination suggesting an effect of root exudates on the soil microbial community, with this Kabuli chickpea variety. In a field experiment, the fungal diversity in cultivated Prairie dryland appeared to host a large array of fungal groups known to reduced plant nutrient, water and biotic stresses, and chickpea genotypes influenced differently the composition and biomass of the soil microbial community. The Desi chickpea CDC Anna was associated with high diversity of arbuscular mycorrhizal fungi (AMF) and culturable fungi, favored the proliferation of soil bacteria and fungal genus hosting biocontrol agents, and developed high AM root colonization level, as compared to the three Kabuli genotypes examined. The HPLC fractions of the roots of chickpea cultivar CDC Anna were recovered and the effects of these fractions on AM fungal spore germination were assayed in multi-well plates. Root extract fractions affect in a different ways the percentage of spores’ germination of Glomus etunicatum and Gigaspora Rosea. We concluded that the genotype of chickpea plants influences the composition of the associated microbial community, and this influence may be related to molecular signals produced by the plants. Furthermore, the productivity of chickpea and subsequent crops could be promoted through the inoculation with indigenous endophytic fungi. Pois chiche génotypes biodiversité fongique symbiose champignons mycorhiziens à arbuscules champignons endophytes sécheresse allélopathie composés bioactifs amélioration des plantes Chickpea genotypes fungal diversity symbiosis arbuscular mycorrhizae dark septate endophytes drought stress allelopathy biologically active compounds plant breeding
138	Conception et synthèse de nouveaux composés hétéroaromatiques inhibiteurs potentiels de kinases / Design and synthesis of novel heteroaromatic protein kinase inhibitors Esvan, Yannick 27 October 2016 (has links) Depuis la mise en évidence de l’existence des protéines kinases vers la fin des années 1950 cette famille d’enzymes s’est vu attribuer d’importants rôles dans divers mécanismes pathologiques notamment dans des processus de cancérisations. Plus récemment ces enzymes ont été identifiées comme potentiellement impliquées dans d’autres types de maladies telles que les maladies neurodégénératives.Deux projets de recherche seront présentés. Le premier projet expose la conception et la synthèse de nouveaux composés tricycliques de la famille des pyrido[3,4-g]quinazolines. Les propriétés inhibitrices de kinases des premiers dérivés ont été évaluées sur un panel de cinq kinases (CDK5, CK1, GSK3, CLK1 and DYRK1A) connues pour leurs implications dans la maladie d’Alzheimer. L’intérêt de ces nouveaux squelettes tricycliques comme inhibiteurs de kinases a été validé par des activités inhibitrices nanomolaire à l’encontre des kinases DYRK1A et CLK1. D’autre part l’obtention de structures co-crystallographiques d’interaction de deux dérivés avec le site ATP de la kinase CLK1 a permis de rationnaliser la substitution du motif pyrido[3,4-g]quinazoline. Le second projet présente le développement d’un nouveau dérivé de la staurosporine aglycone (K252c) dans lequel la partie lactame a été remplacée par un noyau pyrazole. Une étude préliminaire des propriétés biologiques de l’indolopyrazolocarbazole obtenu met en avant une cytotoxicité, du même ordre de grandeur que K252c, contre les lignées cellulaires K562 (leucémie humaine) et HCT116 (carcinome du colon). En revanche, le composé chef de file s’est révélé être un faible inhibiteur de cibles connues de K252c, les isoformes α and γ de la protéine kinase C et présente un bon potentiel inhibiteur des kinases Pim 1-3. Ce nouveau chemotype pourrait être un inhibiteur de kinases prometteur. / In 1950’s protein kinases were found to play a critical role in cell signaling, rising strong research potential for this enzyme family. Initially investigated for their implications in cancerogenesis they were more recently found to be involved in a wide variety of diseases including neurodegenerative pathologies. Herein will be presented two research projects that offer bright new perspectives for the inhibition of kinases involved whether in neurodegenerative diseases or cancers.First, the design and synthesis of new pyrido[3,4-g]quinazoline derivatives will be described as well as their protein kinase inhibitory potencies toward five CMGC family members (CDK5, CK1, GSK3, CLK1 and DYRK1A) that are known to play a potential role in Alzheimer’s disease. The interest for this original tricyclic heteroaromatic scaffold as modulators of CLK1/ DYRK1A activity was validated by nanomolar potencies. CLK1 co-crystal structures with two inhibitors revealed the binding mode of these compounds within the ATP-binding pocket and led to the synthesis of new diversely substituted pyrido[3,4-g]quinazolines.Then the synthesis of a new derivative of the staurosporine aglycon (K252c), in which the lactam ring was replaced by a pyrazole moiety, will be depicted. The resulting indolopyrazolocarbazole inhibited Pim isoforms 1–3 whereas it did not impair the activity of two known targets of K252c, protein kinase C isoforms α and γ . The lead compound exhibited same cytotoxic activity as K252c toward both human leukemia and colon carcinoma cell lines (K562 and HCT116), strongly suggesting that this new scaffold deserves further investigations for treatment of malignancies associated with kinases activities. Hétéroaromatique Inhibiteurs de Kinases Pyrido[3,4-g]quinazoline Staurosporine aglycone Pyrazole Complexe cristallographique avec CLK1 Modélisation moléculaire Cytotoxicité Composés à activité biologique Heteroaromatic Kinase inhibitors Pyrido[3,4-g]quinazoline Staurosporine aglycon Pyrazole CLK1 binding mode Molecular modeling Cytotoxicity Biologically active compounds
139	Sensory input encoding and readout methods for in vitro living neuronal networks Ortman, Robert L. 06 July 2012 (has links) Establishing and maintaining successful communication stands as a critical prerequisite for achieving the goals of inducing and studying advanced computation in small-scale living neuronal networks. The following work establishes a novel and effective method for communicating arbitrary "sensory" input information to cultures of living neurons, living neuronal networks (LNNs), consisting of approximately 20 000 rat cortical neurons plated on microelectrode arrays (MEAs) containing 60 electrodes. The sensory coding algorithm determines a set of effective codes (symbols), comprised of different spatio-temporal patterns of electrical stimulation, to which the LNN consistently produces unique responses to each individual symbol. The algorithm evaluates random sequences of candidate electrical stimulation patterns for evoked-response separability and reliability via a support vector machine (SVM)-based method, and employing the separability results as a fitness metric, a genetic algorithm subsequently constructs subsets of highly separable symbols (input patterns). Sustainable input/output (I/O) bit rates of 16-20 bits per second with a 10% symbol error rate resulted for time periods of approximately ten minutes to over ten hours. To further evaluate the resulting code sets' performance, I used the system to encode approximately ten hours of sinusoidal input into stimulation patterns that the algorithm selected and was able to recover the original signal with a normalized root-mean-square error of 20-30% using only the recorded LNN responses and trained SVM classifiers. Response variations over the course of several hours observed in the results of the sine wave I/O experiment suggest that the LNNs may retain some short-term memory of the previous input sample and undergo neuroplastic changes in the context of repeated stimulation with sensory coding patterns identified by the algorithm. Cognitive optimization and prediction Support vector machine Microelectrode arrays Cultured cortical networks Neural networks Separation property Information theory Neural coding Communication Power system control Artificial neural networks Living neuronal networks Sensory coding Liquid state machine Hybrid neural microsystem Neural networks (Neurobiology) Neurons Algorithms Sensor networks
140	Signal processing for biologically-inspired gradient source localization and DNA sequence analysis Rosen, Gail L. 12 July 2006 (has links) Biological signal processing can help us gain knowledge about biological complexity, as well as using this knowledge to engineer better systems. Three areas are identified as critical to understanding biology: 1) understanding DNA, 2) examining the overall biological function and 3) evaluating these systems in environmental (ie: turbulent) conditions. DNA is investigated for coding structure and redundancy, and a new tandem repeat region, an indicator of a neurodegenerative disease, is discovered. The linear algebraic framework can be used for further analysis and techniques. The work illustrates how signal processing is a tool to reverse engineer biological systems, and how our better understanding of biology can improve engineering designs. Then, the way a single-cell mobilizes in response to a chemical gradient, known as chemotaxis, is examined. Inspiration from receptor clustering in chemotaxis combined with a Hebbian learning method is shown to improve a gradient-source (chemical/thermal) localization algorithm. The algorithm is implemented, and its performance is evaluated in diffusive and turbulent environments. We then show that sensor cross-correlation can be used in solving chemical localization in difficult turbulent scenarios. This leads into future techniques which can be designed for gradient source tracking. These techniques pave the way for use of biologically-inspired sensor networks in chemical localization. DNA analysis Ficks second law Hebbian learning Biased random walk Sensor cross-correlation Delay-and-Sum beamforming Turbulent plumes Electronic nose Tandem repeats Gradient sensing Bacterial chemotaxis navigation Chemotaxis Biologically-inspired computing Signal processing Sensor networks Nucleotide sequence Nervous system Degeneration Chemotaxis

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