Global ETD Search

231	Detection and Quantification of Variable Viral RNA by Real-Time PCR Assays Muradrasoli, Shaman January 2008 (has links) As the area of nucleic acid based technologies develops, so will our understanding of how structural variations in DNA and RNA pathogens are associated with disease. The overall goal of this thesis is the development of broadly targeted measurement techniques for variable viral RNA by Real-Time PCR (here referred to as quantitative reverse transcriptase PCR, QRT-PCR). In papers I & II, broadly targeted and specific QRT-PCRs were used to study expression of endogenous and exogenous betaretrovirus sequences in human tissues. Results from human tissues demonstrated endogenous betaretrovirus expression in a tissue-specific manner, highest in reproductive tissues. Despite the high sensitivity, no exogenous betaretrovirus was found in human breast cancer samples. The limits of primer and probe degeneracy for detection of a diverse set of retroviral sequences was evaluated. These methods are useful for further investigations on the pathophysiological contribution(s) of endogenous betaretrovirus and to investigate whether an exogenous betaretrovirus is involved in human breast cancer. In papers III & IV, we developed and applied broadly targeted one-step QRT-PCRs for influenza viruses and coronaviruses. In addition to the generic primers, two novel probe design strategies were used in order to be able to broadly amplify these diverse sets of viruses: A triplex system for simultaneous detection and quantification of influenza A, B and C (3QRT-PCR and further developed 3QRT-PCR-MegB; where MegB stands for MegaBeacon) based on TaqMan® and MegB probes, and a pan-CoV QRT-PCR, based on three TaqMan® probes i.e., degeneracy was distributed on three probes. Probe fault tolerance was thus increased in two ways, either with short probes with/without locked nucleic acid (LNA) nucleotides concentrated to conserved stretches, or with long probes (MegB), compensating mismatching positions with many matching ones. Clinical samples, negative by antigen detection with immunofluorescence (IFA), were influenza A positive with 3QPCR-MegB. Avian pooled samples, negative with an earlier pan-CoV QPCR, came out positive with the triple-probe system. Assay evaluation with clinical samples and reference strains revealed good clinical diagnostic potential. Thus, the thesis describes several strategies to counteract sequence variation of RNA viruses and describes a set of broadly targeted QRT-PCRs useful for scientific screening or diagnostics of betaretroviruses and respiratory viruses. Virology Diagnosis of Viral RNA QPCR RNA virus broadly targeted PCR probe design strategy Infectious diseases
232	Clubroot in canola and cabbage in relation to soil temperature, plant growth and host resistance Gludovacz, Thomas 09 May 2013 (has links) The effects of diurnal temperature fluctuation and the utility of degree days for modeling clubroot on canola (Brassica napus L.) caused by Plasmodiophora brassicae Woronin were assessed using microscopy and qPCR, and in field trials. Temperature fluctuation had little effect on pathogen development. The optimal temperature for root hair infection was 25° C. Air and soil degree days and rainfall were used as metrics for estimating clubroot development, with only limited success. Several cultivars of cabbage (Brassica oleracea L. var. capitata) with unknown clubroot resistance mechanism(s) were assessed using staining and microscopy, and qPCR. In field trials, ‘Bronco’ was susceptible to clubroot (100 DSI), ‘Kilaherb’ was resistant (0 DSI), and ‘B-2819’ was intermediate (53 DSI). Plasmodiophora brassicae was present in cortical tissue of all cultivars. A delayed disease phenotype in ‘B-2819’ may indicate a quantitative resistance genotype that could be exploited in research on resistance genes and breeding. Clubroot cabbage canola Plasmodiophora brassicae temperature resistance Quantitative PCR (qPCR) Forecasting disease
233	Molecular Characterization of Toxic Cyanobacteria in North American and East African Lakes Chhun, Aline January 2007 (has links) Toxic cyanobacterial blooms constitute a threat to the safety and ecological quality of aquatic environments worldwide. Cyclic hepatotoxin, especially microcystin, is the most widely occurring of the cyanotoxins. The aim of this study was to identify the cyanobacterial genotypes present including how many toxic genotypes were present in two North American lakes and one African Lake. All three lakes are prone to cyanobacterial blooms and were sampled in 2005 and 2006: Lake Ontario (Bay of Quinte, Canada), Lake Erie (Maumee Bay, Canada) and Lake Victoria (Nyanza Gulf, Kenya). The cyanobacterial genotypic community was assessed using DNA based analyses of the hypervariable V3 region of the 16S rRNA gene. In addition, the aminotransferase (AMT) domain in modules mcyE and ndaF of the microcystin and nodularin gene cluster respectively was used to detect the presence of hepatotoxic genotypes. Denaturing gradient gel electrophoresis (DGGE) results from this study suggested that hepatotoxin producers were present in all study sites sampled and were most likely members of the genus Microcystis. This study was the first to report the potential for microcystin production in the in-shore and off-shore open lake of Nyanza Gulf in Kenya. A seasonal study of the Bay of Quinte and Maumee Bay showed differences in the cyanobacterial genotypic community from early to late summer. In addition, the cyanobacterial genotypic community from the Bay of Quinte differed from 2005 to 2006 and quantification of the North American samples revealed an increase in cyanobacterial cells from early to late summer. The Bay of Quinte saw relatively no change in hepatotoxic cells from early to late summer but in Maumee Bay hepatotoxic cells increased from undetectable in early summer to dominating the cyanobacterial community by late summer. This study demonstrated the use of DGGE and qPCR of the 16S rRNA-V3 and AMT gene region in monitoring the cyanobacterial community of waterbodies susceptible to toxic cyanobacterial blooms. microcystin cyanobacteria quantitative real-time PCR (qPCR)
234	Disruption of thyroid hormone action by environmental contaminants in vertebrates Hinther, Ashley 20 December 2010 (has links) Thyroid hormones (THs) are important hormones involved in developmental processes, including foetal brain maturation. THs are also involved in the maintenance of homeostasis. One in three people in Canada are considered to have some form of thyroid disorder. One reason for the high level of thyroid disorders may be the increasing amount of anthropogenic chemicals released into the environment that affect normal hormone action. Amphibian metamorphosis is completely dependent on TH and provides a model to study such chemicals. This thesis uses the Rana catesbeiana tadpole as a model to study potential TH disrupting chemicals by developing a novel screening assay called the cultured tail fin biopsy assay, or the “C-fin” assay. The C-fin assay uses tail biopsies from premetamorphic tadpoles, Taylor-Kollros stage VI-VIII. The biopsies are cultured in serum-free media along with the test chemical for 48 hours. QPCR is used to measure the mRNA steady-state levels of selected gene transcripts. Two TH-responsive gene transcripts were measured: the up-regulated gene transcript, thyroid hormone receptor β (TRβ) and the down-regulated gene transcript, Rana larval keratin type I (RLKI). Heat-shock protein 30 (HSP30) and catalase (CAT) were used as indicators of cellular stress. Another model system used in this thesis is rat pituitary cells, or GH3 cells. QPCR was used to measure the mRNA steady-state levels of three TH-responsive genes growth hormone (GH), deiodinase I (DIOI), and prolactin (PRL); heat-shock protein 70 (HSP70) was used as an indicator of cellular stress. Nanoparticles, used in various consumer products, were one class of chemicals examined. Using the C-fin assay, nanosilver and quantum dots (QDs) caused perturbations in TH-signalling and also showed signs of cellular stress. There was no overt toxicity observed as was determined by the normalizer, house-keeping gene transcript, ribosomal protein L8. The GH3 cells also detected TH disrupting effects by both nanosilver and QDs; however, nanosilver did not appear to cause cellular stress whereas QDs did. Nitrate and nitrite, major waterway contaminants, were also examined and there were no TH-perturbations observed using the C-fin assay. Finally, two antimicrobials used in many consumer products, triclocarban (TCC), triclosan (TCS) and its metabolite, methyl-TCS (mTCS) were examined using both the C-fin assay and GH3 cells. Both the C-fin assay and the GH3 cells determined mTCS to be more potent than TCS in disrupting TH action. TCC also caused perturbations in TH-signalling as well as causing a significant amount of cellular stress. Overall the C-fin assay and the GH3 cells proved to be excellent models in studying the potential disruptors of the TH axis. The C-fin assay and GH3 cells detected novel TH disruptors and gave further insight into already known disruptors of the TH axis. thyroid hormone Rana catesbeiana mRNA expression QPCR nanometals antimicrobials
235	DNA mismatch repair and mutation avoidance in the ciliate protozoan Tetrahymena thermophila Salsiccioli, Shawn Richard 28 August 2013 (has links) The DNA of all organisms is continuously exposed to exogenous and endogenous genotoxic agents. Fortunately, through the concerted actions of several DNA repair and mutation avoidance pathways, DNA damage can be removed and an organism’s genomic stability maintained. DNA base-base mismatches are generated as a result of the inherent replication errors made by the DNA replication machinery, as well as during the meiotic pairing of homologous but non-identical chromosomes. Through the coordinated actions of the highly conserved DNA mismatch repair (MMR) system, these errors are detected, removed and corrected, thus restoring the integrity of the DNA. In the absence of DNA MMR, genetic instability is unavoidable, resulting in the accumulation of mutations, and in mammals, a susceptibility to cancer. To better understand the roles of the MMR system in mutation avoidance during DNA replication, meiosis, and in nuclear apoptosis, we have utilized the nuclear dimorphic, ciliate protozoan Tetrahymena thermophila. We have identified seven putative MMR homologues; two are similar to eukaryotic MLH1 and PMS2, respectively, and five are similar to eukaryotic MutS homologues, one with eukaryotic MSH2 and four with MSH6. Our studies demonstrate that during conjugation, the relative transcript abundance of each MMR homologue is increased compared to vegetatively growing or nutritionally deprived (starved) cells. Also, the expression profile throughout conjugation is bimodal, corresponding to micronuclear (MIC) meiosis and macronuclear (MAC) anlagen development, both periods in which DNA replication occurs. Cells containing macronuclear knockouts of the PMS2, MSH2 and MSH6_1 genes were unable to successfully pair and complete conjugation, but were viable throughout vegetative growth. Cells in which the macronuclear MSH6_2 gene was knocked out had a phenotype that was similar to wild-type cells, during conjugation and vegetative growth. Interestingly, we observed that the MIC of cells containing MAC knockouts of the PMS2 and TML1 genes appear to have decreased copy number of specific “target sequences”, as determined by qPCR using the Random Mutation Capture (RMC) assay. This decrease reflects neither a loss of micronuclei nor a reduction in total micronuclear DNA content. These studies demonstrate that the PMS2, TML1, MSH2, and MSH6_1 homologues are necessary for the maintenance of micronuclear function and stability during conjugal development and vegetative growth, whereas the remaining MSH6 homologues have less pronounced roles in DNA repair and development. Additionally, macronuclear development in Tetrahymena appears less reliant on the DNA mismatch repair system and perhaps uses alternate surveillance mechanisms to maintain genomic stability during asexual and sexual development. / Graduate / 0306 / 0379 / 0307 Mismatch repair Tetrahymena thermophila Ciliate qPCR Phylogenetics Micronucleus Macronucleus Random Mutation Capture Assay
236	Development and evaluation of procedures and reagents for extraction of proteins from dried blood spots for analysis using Proseek Björkesten, Johan January 2014 (has links) A method for extraction of proteins from dried blood spots (DBS) for analysis using Proseek is developed and evaluated. DBS, as sample format, possesses a number of desirable advantages over for example plasma samples. These advantages include for example minimal patient invasiveness, sampling simplicity and non regulated sample transportation. Highly reproducible quantitative detection of 92 proteins is demonstrated from a 1.2 mm in diameter DBS disk. The DBS inter spot analysis precision (7% coefficient of variance) is comparable to plasma inter assay precision (6% coefficient of variance). Coefficient of variance is the ratio between standard deviation to mean value for the analysed replicates. Proseek analysis of DBS could possibly reveal a unique opportunity to examine health related issues in extremely premature infants hopefully resulting in increased survival rates in the future. DBS dried blood spots PEA Proseek Proseek Multiplex qPCR Protein detection Olink
237	Authentication and investigation of potential hepatotoxicity of Black Cohosh Williams, Sarah January 2017 (has links) Black Cohosh (Actaea racemosa) is one of the highest selling medicinal plants, ranking as the sixth best seller in the US in 2015 (Smith et al., 2016). However, this popularity has been tarnished by claims of hepatotoxicity. The investigation of these reports has determined that implicated products did not contain Black Cohosh plant material. Other reports were shown to be incomplete or had other factors contributing. This has led to the suspicion that cases of adverse reactions may in fact be linked to cases of substitution or adulterations with Asian species of Actaea, rather than to A. racemosa. (Jordan et al., 2010). This shows the need for authentication of Black Cohosh products. In this study various DNA based authentication methods were developed. The first, PlantID is capable of discriminating between Actaea racemosa and four potential adulterant species; Actaea cimicifuga, Actaea cordifolia, Actaea podocarpa and Caulophyllum thalictroides, in a single PCR reaction. The resulting fragments are scrutinized using gel electrophoresis. Other platforms of analysis were trialled with little success. The second was a qPCR based method. These assays are competent in detecting A. racemosa, A. cimicifuga and A. dahurica species and are compared to a generic primer capable of amplification of ten Actaea species. This enables the user to detect specific species in comparison to how much Actaea species are present as a whole. This assay was extensively tested on many materials and products available in the UK and the USA. Out of 34 products assessed it was possible to extract DNA from 32. From the UK market it was found that five products contained undeclared species. From the US market it was found that six products contained undeclared species. All of the THR registered products were found to contain only the authentic species Actaea racemosa. This was a reassuring result from the analysis and adds further value to the scheme of THR. Sequence data from GenBank was used to assist in assigning species to sequenced DNA samples. The data contained on GenBank was scrutinised using various bioinformatics tools. Sequences were organised into molecular taxonomic units using tree diagram software. This showed efficiently and iii visually which sequence entries were reliable to use based upon grouping. This analysis showed that the nuclear internal transcribed spacer (nrITS) was an ideal barcoding region and that maturase K (MatK) was a poor choice for Actaea species. To address the issue of hepatotoxicity claims, cultured human hepatocyte derived cells were treated with 60% ethanol extracts of Actaea racemosa and Asian Actaea. A qPCR array was utilised to assess 84 genes associated with hepatotoxicity across various concentrations of extract. The collective array output gave a plethora of data which was analysed using bespoke online software from the manufacturer. Stringent quality controls were included on the arrays which gave confidence of results. There were small changes noted for Actaea racemosa and some activity for the Asian Actaea treated cells was also seen. An LDH and MTT assay were used to assess cell viability and toxicity in two human hepatocyte derived cell lines. Actaea racemosa showed no significant effects whereas the Asian Actaea extract showed a notable decrease in cell viability and significant release of LDH indicating toxicity. The Asian Actaea material used to manufacture extracts was of questionable species origin but determined to be either A. dahurica or A. cimicifuga. The results from these experiments were unfortunately not as conclusive as hoped, but did show some evidence of a more likely culprit of toxicity originating from Asian Actaea species.
238	DESENHO E VALIDAÇÃO DE UM CONJUNTO DE PRIMERS UNIVERSAIS BACTERIANOS PARA NORMALIZAÇÃO DE ENSAIOS DE PCR QUANTITATIVA EM TEMPO REAL Rocha, Danilo Jobim Passos Gil Da 01 September 2017 (has links) Submitted by Hiolanda Rêgo (hiolandarego@gmail.com) on 2018-02-05T14:14:00Z No. of bitstreams: 1 Dissertação_ICS_ ROCHA, D. J. P. G..pdf: 4034030 bytes, checksum: 7085be9f2fda81bc8248196d4b4e6988 (MD5) / Made available in DSpace on 2018-02-05T14:14:00Z (GMT). No. of bitstreams: 1 Dissertação_ICS_ ROCHA, D. J. P. G..pdf: 4034030 bytes, checksum: 7085be9f2fda81bc8248196d4b4e6988 (MD5) / CNPQ / O método mais comum de normalização em ensaios de quantificação relativa da expressão gênica por PCR quantitativa em tempo real (qPCR) faz uso de um gene de referência, que deve manter sua expressão estável sob diferentes condições experimentais. Em uma meta-análise da literatura e banco de dados de experimentos de análise de expressão gênica em bactérias, os genes gyrA (DNA gyrase subunidade A), gyrB (DNA gyrase subunidade B), dnaG (DNA primase), era (GTPase era) e secA (translocase proteica subunidade secA), figuram entre os mais estáveis em diversas condições experimentais. Neste cenário, este estudo se propõe a desenvolver e construir um conjunto de primers universais para esses genes de referência a partir de organismos modelo de grupos bacterianos de interesse clínico e biotecnológico. As ferramentas de alinhamento, ClustalOmega e PCR virtual, Primer-Blast foram utilizadas para encontrar regiões conservadas entre os genes candidatos em diferentes organismos bacterianos. Dentro do complexo Mycobacterium tuberculosis, todos os genes apresentaram homologia suficiente para o desenho de primers universais, enquanto que em outros grupos bacterianos a homologia de sequência foi restrita a algumas espécies. Potenciais primers universais foram desenhados para diferentes grupos bacterianos e os primers para a família Enterobacteriaceae foram validados por RT-qPCR em Escherichia coli; os resultados foram comparados contra o gene comumente usado, 16S rRNA. Os primers testados apresentaram eficiências de amplificação dentro dos limites esperados e as expressões dos genes de referência foram estáveis nas condições estudadas, tendo sido o gene dnaG o mais estável, de acordo com os softwares NormFinder e RefFinder. Conclui-se que é possível desenhar primers universais funcionais para normalização de RT-qPCR em grupos bacterianos específicos, contudo o baixo nível de conservação gênica de determinados genes pode limitar suas utilizações. Ciências da Saúde RT-qPCR Real time PCR Genes de referência Housekeeping genes Genes de governança Bactérias Normalização
239	Herpesvírus e pestivírus em rebanhos bubalinos do Rio Grande do Sul / Herpesvirus and pestiviruses in buffalo herds in the Rio Grande do Sul Scheffer, Camila Mengue January 2013 (has links) Os herpesvírus bovinos tipo 1 (BoHV-1) e tipo 5 (BoHV-5) e o vírus da diarreia viral bovina (BVDV), são causas importantes de prejuízos sanitários e econômicos na bovinocultura. Estes agentes têm sido eventualmente detectados em búfalos (Bubalus bubalis) embora o papel desses vírus na biologia dessa espécie seja ainda desconhecido. A produção de búfalos vem se desenvolvendo expressivamente no Brasil, onde esses animais são mantidos frequentemente próximos ou associados à criação de bovinos. Como parte inicial de um projeto mais amplo sobre infecções por BoHV-1, BoHV-5, BuHV-1 e BVDV em búfalos, o presente estudo objetivou analisar a presença de anticorpos neutralizantes e genomas virais em amostras de soros bubalinos coletados em rebanhos do Estado do Rio Grande do Sul. Foram examinados 339 soros de animais maiores de 12 meses, de ambos os sexos, de diferentes raças e tipo de exploração. Os animais não eram vacinados para quaisquer vírus de interesse na pesquisa e se apresentavam sem alterações clinicamente aparentes na ocasião da coleta. Para a detecção de anticorpos neutralizantes, as amostras de soro foram examinadas através do teste de soroneutralização (SN) frente a diferentes amostras de herpesvírus: BoHV-1.1 (amostra LA) , BoHV-5b (amostra A663) e BuHV-1 (amostra b6). Cento e oito destas amostras foram examinadas adicionalmente frente ao BoHV-1.1 (amostra EVI123/98) e BoHV-1.2a (amostra SV265/96), para permitir uma avaliação da sensibilidade da SN utilizando como vírus de desafio todas as variantes disponíveis de BoHV-1 e BoHV-5. A sensibilidade da SN foi menor quando considerados os resultados obtidos com cada um dos vírus separadamente. Quando os resultados positivos frente a amostra LA, SV265/96 e A663 foram somados, a prova se apresentou mais sensível. Apesar disso, a SN não permitiu a identificação dos vírus que efetivamente haviam infectado os animais, devido ao elevado grau de reatividade cruzada. Para a verificação da circulação de pestivírus, foram realizados testes de SN utilizando a amostra “Oregon C24V” de BVDV-1 como vírus de desafio. Das 176 amostras analisadas, 19 (10,8 %) apresentaram anticorpos neutralizantes reagentes com o vírus utilizado. Paralelamente, para a detecção de genomas de pestivírus, foi desenvolvida uma reação em cadeia da polimerase quantitativa (qPCR) capaz de detectar os três tipos conhecidos de BVDV (1, 2 e 3) e otimizada para o exame das amostras de soros bubalinos. Cinco amostras (2,8 %) continham genomas virais, sugerindo a ocorrência de prováveis infecções persistentes nos animais, semelhante ao que ocorre em bovinos. Os resultados obtidos evidenciam a circulação de herpesvírus e pestivírus nas populações bubalinas analisadas. Mais estudos são necessários para definir quais os agentes efetivamente causadores de infecções nesta espécie animal. / Bovine herpesvirus type 1 (BoHV-1), 5 (BoHV-5) and bovine viral diarrhoea virus (BVDV) are major causes of sanitary and economic losses in cattle. These agents have been eventually detected in water buffaloes (Bubalus bubalis), although their role in host species biology is unknown. Buffalo production has had significant increase in Brazil, where these animals are often kept close to or in association with cattle. As part of a wider project on infections with BoHV-1, BoHV-5, BuHV-1 and BVDV in buffaloes, the present study aimed to examine the occurrence of neutralizing antibodies in buffaloes serum samples collected in farms from Rio Grande do Sul State. Three hundred and thirty nine serum samples were collected from animals with ages above 12 months, of both genders, of different races and under different management practices. The animals were not vaccinated for any virus studied in the present study and were all clinically healthy at the time of sample collection. For neutralizing antibodies detection, serum samples were tested in serum neutralization (SN) tests against different herpesviruses: BoHV-1.1 (strain LA), BoHV-5b (strain A663) e BuHV-1 (strain b6). One hundred and eight of theses samples were additionally examined with BoHV-1.1 (strain EVI123/98) and BoHV-1.2 (strain SV265/96), to compare SN sensitivity using all available variants of BoHV-1 and BoHV-5 as challenge viruses. The SN sensitivity was lower when results obtained with each virus were considered separately. Sensitivity was maximum when the positive results against strain LA, SV265/96 and A663 were added. Despite this, the SN did not allow the identification of the virus which had actually infected animals, in view of the high degree of antibody cross-reactivity. In order to assess the circulation of pestiviruses, SN tests were carried out using the sample "Oregon C24V" of BVDV-1 as challenge virus. Out of the 176 analyzed samples, 19 (10.8 %) presented neutralizing antibodies to pestivirus. At the same time, for the detection of genomes of pestiviruses, was developed a quantitative polymerase chain reaction (qPCR) able to detect the three known types of BVDV (1, 2 and 3) and optimized for examining bubaline sera. Five samples (2.8 %) contained viral genomes, suggesting the occurrence of persistent infections in animals, analogous to what occurs in cattle. The results obtained confirm circulation of herpesvírus and pestiviruses in examined buffalo populations. Further studies are needed to define which of these viruses effectively infect this animal species. Herpesvirus Pestivirus Bubalinocultura Virologia veterinaria Herpesvirus Pestivirus Bubaline Serum neutralization qPCR
240	Jämförelse av genexpression mellan isolat av Dokdonia MED134 som tillvuxit i konstant ljus kontra konstant mörker med qPCR / Comparison of gene expression between Dokdonia MED134 isolates grown in constant light versus constant darkness with qPCR Stening, Marcus January 2018 (has links) Marine bacteria play an important role in the marine nutrition cycles. About half of all sea-living bacteria can use light as an energy source, in addition to organic carbon compounds, which is important for survival as the seas becomes acidic and low in nutrition due to changing climate. The Flavobacteriaceae is a bacterial family that plays an important role in the degradation of complex organic compounds in natural environments. Dokdonia donghaensis MED134 belongs to the Flavobacteriaceae family and use both chemotrophy and phototrophy as a source of energy. For its phototrophic ability, the bacteria use proteorhodopsin, which is a membrane-bound proton pump. This allows the bacteria to survive and grow in nutrient-poor environments. The purpose of the study was to investigate with qPCR if there was a difference in gene expression for proteorhodopsin and isocitrate dehydrogenase in Dokdonia donghaensis MED134 depending on whether the bacteria had grown in constant light or darkness. Analysis with qPCR showed a significantly greater gene expression for proteorhodopsin in the bacteria grown in constant light for seven days, compared to those grown in constant light for three and four days and those grown in constant darkness. No significant difference could be demonstrated in gene expression for isocitrate dehydrogenase. This indicates that Dokdonia donghaensis MED134 in nutritional deficiency can use light as a source of energy for survival and further growth. By simulating climate change an adaptability could be seen through increased gene expression. Through this, further understanding of the role of bacteria in the marine ecosystem can be obtained and further research can be conducted as the marine climate issue becomes more relevant. qPCR PCR Dokdonia MED134 Proteorhodopsin isocitratdehydrogenas Biomedical Laboratory Science/Technology

Search results