Characterization of novel genes involved in learning and memory in rodent models

Brouillette, Jonathan.

January 2007

No description available.

Rats.

Scopolamine -- pharmacology.

Memory -- physiology.

Learning -- physiology.

Gene Expression Profiling -- methods.

Hippocampus -- physiology.

Prealbumin -- genetics.

Systems analysis of stress response in plants

Krishnan, Arjun

23 September 2010

The response of plants to environmental stress spans several orders of magnitude in time and space, causing system-wide changes. These changes comprise of both protective responses and adverse reactions in the plant. Stresses like water deficit or drought cause a drastic effect in crop yield, while concomitantly agriculture consumes 1/3rd of the fresh water available to us and there is widespread water scarcity around the world. It is, hence, a fundamental goal of modern biology and applied biotechnology to unravel this complex stress response in laboratory model plants like Arabidopsis and crop models like rice. Such an understanding, especially at the cellular level, will aid in informed engineering of stress tolerance in plants. We have developed and used integrative functional genomics approaches to characterize environmental stress response at various levels of organization including genes, modules and networks in Arabidopsis and rice. We have also applied these methods in problems concerning bioenergy. Since the poor knowledge of the cellular roles of a large portion of plant genes remains a fundamental barrier to using such approaches, we have further explored the problem of 'gene function prediction'. And, finally, as a contribution to the community, we have curated a large mutant resource for the crop model, rice, and established a web resource for exploratory analysis of abiotic stress in this model. All together, this work presents insights into several facets of stress response, offers numerous novel predictions for experimental validation, and provides principled analysis frameworks for systems level analysis of environmental stress response in plants. / Ph. D.

networks

mutant resource

modules

regulatory programs

gene expression profiling

Arabidopsis

rice

drought response

bioenergy

A functional genomic model for predicting prognosis in idiopathic pulmonary fibrosis

Huang, Yong, Ma, Shwu-Fan, Vij, Rekha, Oldham, Justin M., Herazo-Maya, Jose, Broderick, Steven M., Strek, Mary E., White, Steven R., Hogarth, D. Kyle, Sandbo, Nathan K., Lussier, Yves A., Gibson, Kevin F., Kaminski, Naftali, Garcia, Joe G.N., Noth, Imre

January 2015

BACKGROUND: The course of disease for patients with idiopathic pulmonary fibrosis (IPF) is highly heterogeneous. Prognostic models rely on demographic and clinical characteristics and are not reproducible. Integrating data from genomic analyses may identify novel prognostic models and provide mechanistic insights into IPF. METHODS: Total RNA of peripheral blood mononuclear cells was subjected to microarray profiling in a training (45 IPF individuals) and two independent validation cohorts (21 IPF/10 controls, and 75 IPF individuals, respectively). To identify a gene set predictive of IPF prognosis, we incorporated genomic, clinical, and outcome data from the training cohort. Predictor genes were selected if all the following criteria were met: 1) Present in a gene co-expression module from Weighted Gene Co-expression Network Analysis (WGCNA) that correlated with pulmonary function (p < 0.05); 2) Differentially expressed between observed "good" vs. "poor" prognosis with fold change (FC) >1.5 and false discovery rate (FDR) < 2 %; and 3) Predictive of mortality (p < 0.05) in univariate Cox regression analysis. "Survival risk group prediction" was adopted to construct a functional genomic model that used the IPF prognostic predictor gene set to derive a prognostic index (PI) for each patient into either high or low risk for survival outcomes. Prediction accuracy was assessed with a repeated 10-fold cross-validation algorithm and independently assessed in two validation cohorts through multivariate Cox regression survival analysis. RESULTS: A set of 118 IPF prognostic predictor genes was used to derive the functional genomic model and PI. In the training cohort, high-risk IPF patients predicted by PI had significantly shorter survival compared to those labeled as low-risk patients (log rank p < 0.001). The prediction accuracy was further validated in two independent cohorts (log rank p < 0.001 and 0.002). Functional pathway analysis revealed that the canonical pathways enriched with the IPF prognostic predictor gene set were involved in T-cell biology, including iCOS, T-cell receptor, and CD28 signaling. CONCLUSIONS: Using supervised and unsupervised analyses, we identified a set of IPF prognostic predictor genes and derived a functional genomic model that predicted high and low-risk IPF patients with high accuracy. This genomic model may complement current prognostic tools to deliver more personalized care for IPF patients.

Idiopathic pulmonary fibrosis (IPF)

Gene expression profiling

Functional genomic model

Prognosis prediction

DNA microarray analysis of pancreatic malignancies

Brandt, Regine, Grützmann, Robert, Bauer, Andrea, Jesenofsky, Ralf, Ringel, Jörg, Löhr, Matthias, Pilarsky, Christian, Hoheisel, Jörg D.

05 March 2014

Pancreatic ductal adenocarcinoma (PDAC) has an extremely poor prognosis. To improve the prognosis, novel molecular markers and targets for earlier diagnosis and adjuvant and/or neoadjuvant treatment are needed. Recent advances in human genome research and high-throughput molecular technologies make it possible to cope with the molecular complexity of malignant tumors. With DNA array technology, mRNA expression levels of thousand of genes can be measured simultaneously in a single assay. As several studies using microarrays in PDAC have already been published, this review attempts to compare the published data and therefore to validate the results. In addition, the applied techniques are discussed in the context of pancreatic malignancies. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Krebs

Bauchspeicheldrüse

Genexpressionsanalyse

Pankreaskarzinom

Pankreas

Microarray

Pancreatic ductal carcinoma

Microarray

Gene expression profiling

Cancer

pancreas

ddc:610

rvk:XA 10000

Expresní profilování jednotlivých buněk a jejich analýza / Single cells gene expression profiling and analysis

Novosadová, Vendula

January 2014

Cells are the basic units of life. Studying complex tissues and whole organs requires an understanding of cell heterogeneity and responses to stimuli at the single-cell level. Even the cells, which belong to the same cell type, behave differently at a specific moment and contain different amount of mRNA. Quantitative polymerase chain reaction (qPCR) is one the most sensitive methods for the detection of mRNA, however, gene expression profiling in single cells leads to a large amount of missing data due to the fact that the transcript is missing, or is below the level of detection. Therefore, it is necessary to establish a new statistical approach for analysis of single cells. In this thesis the potential of single-cell gene expression profiling using the high throughput instrument Biomark, focusing on data analysis and biological interpretation, is discussed. Data normalization and handling of missing data are two important steps in data analysis that are performed differently at the single-cell level. Single cells are not normalized by reference genes but the number of cells as a normalizer is applied. Missing data are replaced by value, which is equaled one quarter of transcript amount in the cell. Furthermore it is shown how single-cell gene expression data can be viewed and how subpopulations...

"Análise do perfil de expressão gênica do linfoma de células do manto em fase leucêmica com microarrays de oligonucleotídeos" / "Gene expression profiling of mantle cell lymhoma in leukemic phase with oligonucleotide microarrays"

Rizzatti, Edgar Gil

31 January 2005

O linfoma de células do manto é associado à translocação t(11;14)(q13;q32) e à hiperexpressão da ciclina D1. Os pacientes com linfoma de células do manto apresentam-se com doença avançada ao diagnóstico e a fase leucêmica da doença é observada em cerca de um terço dos casos. Os linfócitos B virgens pré-centro germinativo, que ocupam a zona do manto dos folículos linfóides secundários, constituem a origem celular do linfoma de células do manto. A hiperexpressão da ciclina D1, por si só, não é suficiente para a patogênese da neoplasia, e a elucidação das alterações moleculares adicionais poderá fundamentar novas estratégias terapêuticas. Nesse contexto, os métodos de estudo do perfil de expressão gênica em larga escala têm potencial para auxiliar na descoberta dessas alterações moleculares adicionais. Todavia, nos estudos que empregaram esses métodos até o momento, o material genético foi obtido de amostras de gânglios acometidos pelo tumor, que contêm uma proporção variável de células normais do estroma do tecido linfóide. Por isso, ainda não se sabe quais dos genes identificados como alterados no linfoma de células do manto são específicos das células linfomatosas, e quais são dependentes das células normais que perfazem o estroma do gânglio. Com o objetivo de elucidar as alterações moleculares do linfoma de células do manto em nível celular, realizamos um estudo comparativo entre o perfil de expressão gênica de células linfomatosas purificadas e de linfócitos B virgens, utilizando microarrays de oligonucleotídeos. Células linfomatosas e linfócitos B virgens (IgD+CD38±CD27-) foram purificados em colunas magnéticas a partir do sangue periférico de pacientes com linfoma de células do manto em fase leucêmica e de amígdalas de indivíduos normais, respectivamente (pureza > 95%). Três indivíduos foram selecionados em cada grupo e os experimentos foram realizados em duplicatas usando microarrays comerciais modelo CodeLink Human UniSet I, com 10.000 genes. Foram identificados 106 genes com variação de expressão maior do que três vezes, 63 deles induzidos e 43 reprimidos no linfoma de células do manto em relação aos linfócitos B virgens. Dez genes (seis induzidos e quatro reprimidos) foram selecionados para quantificação, por RT-PCR em tempo real, em amostras de sangue periférico de 21 pacientes com linfoma de células do manto em fase leucêmica, além de 14 pacientes com outras doenças linfoproliferativas crônicas e de sete indivíduos sem doenças neoplásicas. Os resultados dos experimentos com microarrays foram confirmados pela quantificação por RT-PCR em tempo real em todos os 10 genes selecionados e os valores de expressão do gene TLR1 obtidos por esse método demonstraram correlação significativa com a sobrevida dos pacientes com linfoma de células do manto. Além de identificar vários genes modulados no linfoma de células do manto em nível celular, este estudo também revelou a expressão aberrante de diversos genes relacionados à apoptose e às vias de sinalização PI3K/AKT, WNT e TGF&#946;. Esses resultados adicionam informações originais à patogênese molecular do linfoma de células do manto e apontam para vias específicas de sinalização molecular como potenciais alvos para novas abordagens terapêuticas. / Mantle cell lymphoma is associated with the translocation t(11;14)(q13;32) and overexpression of cyclin D1. Mantle cell lymphoma is predominantly disseminated at diagnosis and a frank leukemic phase is detected in one third of patients. The pre-germinal-center naive B-cells, which populate the mantle zone of the secondary lymphoid follicles, are the cells of origin of mantle cell lymphoma. Overexpression of cyclin D1 is not sufficient by itself to cause lymphoma, and a better understanding of the additional molecular lesions may provide insights toward new therapeutic approaches. In this context, large scale gene expression studies may be useful in the investigation of such additional molecular lesions. However, the great majority of mantle cell lymphoma cases studied by these methods to date had the genetic material harvested from lymph nodes, which have a variable proportion of normal cells from the lymphoid stroma. It is therefore not known how many genes identified as differentially expressed in mantle cell lymphoma by tumor versus normal experiments are cell-autonomous rather than dependent on the tumor microenvironment. To address this issue, we compared the gene expression profile of mantle cell lymphoma cells and normal naive B-cells using oligonucleotide microarrays. Lymphoma cells and naive B-cells (IgD+CD38±CD27-) were highly purified, by magnetic activated cell sorting, from the peripheral blood of patients with mantle cell lymphoma in the leukemic phase and from tonsils of normal individuals, respectively (purity > 95% in all samples). Three individuals were selected for each group and experiments were performed in replicates using the Amersham CodeLink Human UniSet I Bioarrays, with 10,000 genes. We identified 106 genes differentially expressed with a fold change of at least three-fold, 63 induced and 43 repressed in mantle cell lymphoma in comparison with naive B-cells. Ten genes were selected (six induced and four repressed in lymphoma cells) for quantification by real-time RT-PCR in non-purified peripheral blood samples from 21 patients with mantle cell lymphoma in the leukemic phase, as well as in 14 patients with other chronic lymphoproliferative diseases and seven normal individuals. Microarray results were confirmed by real-time RT-PCR for all selected genes and expression values of the TLR1 gene as quantified by this method showed significant correlation with patient survival in mantle cell lymphoma. In addition to the identification of several modulated genes in mantle cell lymphoma at cellular level, this study revealed that some genes functionally connected through apoptosis or the PI3K/AKT, WNT and TGF&#946; signaling pathways are aberrantly expressed in mantle cell lymphoma. These results add original data to the molecular pathogenesis of mantle cell lymphoma and point to specific molecular signaling pathways related to inhibition of apoptosis as potential targets for new therapeutic approaches.

expressão gênica

gene expression profiling

linfoma de células do manto

linfoma não-Hodgkin

mantle cell lymphoma

microarrays

microarrays

non-Hodgkin’s lymphoma

Genomic and Peptidomic Characterization of the Developing Avian Brain

Scholz, Birger

January 2008

<p>Chicken and Japanese quail are commonly used models in developmental and sex specific neuroendocrine research. There is relatively little known about the mechanisms behind their sex specific brain development, especially regarding the impact of the sex chromosomes (male: ZZ, female ZW) in relation to gonadal hormones. This thesis explores several aspects of these processes. Gene expression analysis with cDNA and Affymetrix arrays on brain tissue from both pre-gonadal embryos and embryos with differentiated gonads indicate a strong sex chromosomal presence in sexual dimorphic somatic tissue development in both chicken and Japanese quail. This sex chromosome pattern seems to remain in adult brain tissue. The data demonstrates that chicken males exhibit a significant level of Z-gene dosage compared to females in both somatic and germ line derived embryonic tissues. Several avian sex determination gene candidates (MHM non-coding RNA, DMRT1, HINTW, and HINTZ) were analyzed by real-time PCR. DMRT1 is dosage compensated in male brain tissue, in contrast to its reported gene dosage in male gonads. Early embryonic ethinylestradiol (EE2) exposure did not affect male or female neural gene expression patterns during later development. A peptidomics analysis on quail embryonic day 12 (ed12) and ed17 diencephalon by LC-MS identified over 60 endogenous peptides and analyzed the expression patterns for 38 of them with regard to age, sex and early EE2 exposure. There was a general upregulation between ed12 and ed17, but no clear sex effects were detected. Multivariate analysis indicates that EE2 exposed individuals differ from control individuals in a gender independent manner, and that Gonadotropin-inhibiting hormone related peptide 2 (GnIH-RP2) is a candidate for EE2 induced peptidomic alterations in male embryonic brain.</p>

Toxicology

Sex differentation

Sex determination

Sex chromosomes

Dosage Compensation

Genetic

Chickens

Coturnix

Gene Expression Profiling

Neuropeptides

Diencephalon

Toxikologi

Gene expression profiling in different stages of development of Arabidopsis thaliana leaftrichomes at the single cell level

Kryvych, Sergiy

January 2007

Each organ of a multicellular organism is unique at the level of its tissues and cells. Furthermore, responses to environmental stimuli or developmental signals occur differentially at the single cell or tissue level. This underlines the necessity of precise investigation of the “building block of life” -the individual cell. Although recently large amount of data concerning different aspects of single cell performance was accumulated, our knowledge about development and differentiation of individual cell within specialized tissue are still far from being complete. To get more insight into processes that occur in certain individual cell during its development and differentiation changes in gene expression during life cycle of A. thaliana leaf hair cell (trichome) were explored in this work. After onset of trichome development this cell changes its cell cycle: it starts endoreduplication (a modified cell cycle in which DNA replication continues in the absence of mitosis and cytokinesis). This makes trichomes a suitable model for studying cell cycle regulation, regulation of cell development and differentiation. Cells of interest were sampled by puncturing them with glass microcapillaries. Each sample contained as few as ten single cells. At first time trichomes in initial stage of trichome development were investigated. To allow their sampling they were specifically labelled by green fluorescent protein (GFP). In total three cell types were explored: pavement cells, trichome initials and mature trichomes. Comparison of gene expression profiles of these cells allowed identification of the genes differentially expressed in subsequent stages of trichome development. Bioinformatic analysis of genes preferentially expressed in trichome initials showed their involvement in hormonal, metal, sulphur response and cell-cycle regulation. Expression pattern of three selected candidate genes, involved in hormonal response and early developmental processes was confirmed by independent method. Effects of mutations in these genes on both trichome and plant development as well as on plant metabolism were analysed. As an outcome of this work novel components in the sophisticated machinery of trichome development and cell cycle progression were identified. These factors could integrate hormone stimuli and network interactions between characterized and as yet unknown members of this machinery. I expect findings presented in this work to enhance and complement our current knowledge about cell cycle progression and trichome development, as well as about performance of the individual cell in general. / Jedes Organ eines vielzelligen Organismus weißt einzigartige Merkmale auf seiner Gewebe und Zellebene auf. Darüber hinaus, werden entwicklungsabhängige sowie aus der Umwelt empfangene Signale zelltypspezifisch interpretiert. Aus dieser Spezialisierung einzelner Zellen ergibt sich somit unmittelbar die Notwendigkeit einzelne Zellen, als Bausteine komplexer Organe, individuell zu untersuchen. Obwohl in den letzten Jahrzehnten große Datenmengen über verschiedene Aspekte einzelner Zellen akkumuliert wurden, ist das Gesamtbild der Differenzierung und Entwicklung individueller Zellen in einem vielzelligen Organismus weitgehend unbekannt. Um der Frage nachzugehen, welche Prozesse sich in einer einzelnen Zelle während ihrer Differenzierung und Entwicklung abspielen, wurden Genexpressionsprofile einzelner Blatthaarzellen der Pflanze Arabidopsis thaliana in verschiedene Entwicklungsstadien erstellt. Nach dem Beginn der Entwicklung einer Protodermalzelle in ein Blatthaar (Trichom) kommt es zu einem Umschalten des Zellzyklus; Endoreduplikation setzt ein. Dies bedeutet, dass DNA repliziert wird, aber keine Zellteilung mehr stattfindet. Aus diesem Grunde eignen sich heranwachsende Trichome besonders gut Mechanismen zu erforschen, die in Verbindung mit der Zellzyklusregulation und Zellentwicklung stehen. Die Inhalte ausgewählter Einzelzellen wurden mit Glasmikrokapillaren extrahiert. Jeweils zehn derartige Einzelzellextrakte wurden daraufhin vereint. Als besonders hervorzuheben gilt, dass es uns in dieser Studie zum ersten mal überhaupt gelang die Inhalte einzelner Trichomzellen in ganz frühen Entwicklungsstadien zu extrahieren und anschließend zu analysieren. Um die Extraktion der Inhalte dieser frühen Zellstadien überhaupt zu ermöglichen, war es erforderlich diese mit dem grün fluoreszierenden Protein (GFP) zu markieren. Neben den Trichominitialzellen wurden ausgewachsene Trichomzellen sowie Epidermiszellen (Pavementzellen) mittels der Einzelzelltechnik untersucht. Ein Vergleich der erstellten Genexpressionsprofile dieser drei Zelltypen ermöglichte es Gene zu identifizieren, die in den ausgewählten Entwicklungsstadien der Trichombildung differentiell induziert wurden. Mittels bioinformatischer Analysemethoden gelang es, Gruppen von Genen zu identifieren, die exklusiv in Trichominitialzellen exprimiert sind und den Kategorien, Hormonregulation, Metallhomeostase, Schwefelstoffwechesol sowie Zellzyklusregulation zuzuordnen sind. Weiterhin wurde das Expressionsmuster dreier ausgewählter Kandidatengene mit alternativen Techniken verifiziert. Die ausgewählten Kandidatengene gehörten den Katergorien, Hormonrespons sowie frühe Entwicklungsprozesse, an. Darüber hinaus wurden Mutanten in allen drei Gene erzeugt und der Einfluss dieser Mutationen auf die Trichomentwicklung analysiert. Ein weiterer Aspekt der Mutantenanalyse lag in der Erstellung von Metabolitenprofilen ausgewählter Mutanten. Als ein wesentliches Ziel dieser Arbeit gelang es mir bisher unbekannte Komponenten in der Trichomentwicklung und damit der Zellzyklusregulation zu identifizieren. Diese neu identifizierten Komponenten führen zu einer Integration der hormonellen Kontrolle der Zellteilung und Entwicklung mit bisher unbekannten Faktoren. Ich erwarte, dass die von mir erbrachten Ergebnisse zu einem tieferen Verständnis der Prozesse, die an der Trichomentwicklung sowie an der Zellzyklusregulation beteiligt sind, beitragen. Insbesondere, zu einem erweiterten Verständnis des Verhaltens individueller Zellen in einem vielzelligen Organismus.

Arabidopsis thaliana

Single cell level

Gene expression profiling

Cell cycle

Plant hormones

Leaf trichomes

Trichome initial cells

Life sciences

Genomic and Peptidomic Characterization of the Developing Avian Brain

Scholz, Birger

January 2008

Chicken and Japanese quail are commonly used models in developmental and sex specific neuroendocrine research. There is relatively little known about the mechanisms behind their sex specific brain development, especially regarding the impact of the sex chromosomes (male: ZZ, female ZW) in relation to gonadal hormones. This thesis explores several aspects of these processes. Gene expression analysis with cDNA and Affymetrix arrays on brain tissue from both pre-gonadal embryos and embryos with differentiated gonads indicate a strong sex chromosomal presence in sexual dimorphic somatic tissue development in both chicken and Japanese quail. This sex chromosome pattern seems to remain in adult brain tissue. The data demonstrates that chicken males exhibit a significant level of Z-gene dosage compared to females in both somatic and germ line derived embryonic tissues. Several avian sex determination gene candidates (MHM non-coding RNA, DMRT1, HINTW, and HINTZ) were analyzed by real-time PCR. DMRT1 is dosage compensated in male brain tissue, in contrast to its reported gene dosage in male gonads. Early embryonic ethinylestradiol (EE2) exposure did not affect male or female neural gene expression patterns during later development. A peptidomics analysis on quail embryonic day 12 (ed12) and ed17 diencephalon by LC-MS identified over 60 endogenous peptides and analyzed the expression patterns for 38 of them with regard to age, sex and early EE2 exposure. There was a general upregulation between ed12 and ed17, but no clear sex effects were detected. Multivariate analysis indicates that EE2 exposed individuals differ from control individuals in a gender independent manner, and that Gonadotropin-inhibiting hormone related peptide 2 (GnIH-RP2) is a candidate for EE2 induced peptidomic alterations in male embryonic brain.

Toxicology

Sex differentation

Sex determination

Sex chromosomes

Dosage Compensation

Genetic

Chickens

Coturnix

Gene Expression Profiling

Neuropeptides

Diencephalon

Toxikologi

Transcriptional patterns in inflammatory disease

Lindberg, Johan

January 2008

In the studies this thesis is based upon, microarrays were applied to profilemRNA populations in biological samples to gain insights into transcriptionalpatterns and their relation to inflammatory disease.Rheumatoid arthritis (RA) is a chronic inflammatory disease, which leads todegradation of cartilage and bone. RA is characterized by synovial inflammationwith varying levels of tissue heterogeneity. This was confirmed by microarrayanalyses of multiple biopsies from the joints of 13 patients, which showed interindividualvariation in transcript populations to be higher than intra‐individualvariationTherapeutic antibodies targeting TNF‐α have revolutionized treatment of RA,although some patients do not respond well. Identification of non‐responders isimportant, not only because anti‐TNF treatment elevates the risk of infections,but also because of the cost of treatment. A proof‐of‐concept study to investigatetranscriptional effects of anti‐TNF treatment demonstrated that differencesbetween response groups could be identified and that these differences revealedbiological themes related to inflammatory disease.A subsequent study was therefore initiated with a larger cohort of 62 patients toinvestigate gene expression patterns in the synovium prior to anti‐TNFtreatment. Here, the heterogeneity was even more pronounced, thetranscriptional patterns were confounded by the presence of synovial aggregatesand only a weak therapy‐correlated signature was detected. The presence oflymphocyte aggregates was found to correlate to response to therapy, which isconsistent with previous findings indicating a higher level of inflammation ingood responding patients.Periodontitis is an inflammatory disease with many similarities to RA. Both areincurable chronic auto‐immune diseases, characterized by tissue destructionwith common genetic associations. Individuals with RA are at higher risk ofaccumulating significant periodontal problems than the general population. PGE2(prostaglandin E2) is known to stimulate inflammation and bone resorption inperiodontitis. In further studies, microarrays were applied in a time seriesdesign on human gingival fibroblats to explore the signal transduction pathwayscontrolling TNF‐α induced PGE2 synthesis in order to identify novel therapeutictargets. The JNK and NF‐kb pathways were identified as being differentiallyaffected by TNF‐a treatment. The transcriptional patterns were further verifiedusing antibodies against phosphorylated JNK/NF‐kb molecules and specificinhibitors of the JNK and NF‐kb signaling cascades. / QC 20100820

Gene expression profiling

transcription

microarray

rheumatoid arthritis

synovial tissue

variability

TNF‐α

anti‐TNF treatment

periodontitis

PGE2

Bioengineering

Bioteknik