Exploration, quantification, and mitigation of systematic error in high-throughput approaches to gene-expression profiling : implications for data reproducibility

Kitchen, Robert Raymond

January 2011

Technological and methodological advances in the fields of medical and life-sciences have, over the last 25 years, revolutionised the way in which cellular activity is measured at the molecular level. Three such advances have provided a means of accurately and rapidly quantifying mRNA, from the development of quantitative Polymerase Chain Reaction (qPCR), to DNA microarrays, and second-generation RNA-sequencing (RNA-seq). Despite consistent improvements in measurement precision and sample throughput, the data generated continue to be a ffected by high levels of variability due to the use of biologically distinct experimental subjects, practical restrictions necessitating the use of small sample sizes, and technical noise introduced during frequently complex sample preparation and analysis procedures. A series of experiments were performed during this project to pro le sources of technical noise in each of these three techniques, with the aim of using the information to produce more accurate and more reliable results. The mechanisms for the introduction of confounding noise in these experiments are highly unpredictable. The variance structure of a qPCR experiment, for example, depends on the particular tissue-type and gene under assessment while expression data obtained by microarray can be greatly influenced by the day on which each array was processed and scanned. RNA-seq, on the other hand, produces data that appear very consistent in terms of differences between technical replicates, however there exist large differences when results are compared against those reported by microarray, which require careful interpretation. It is demonstrated in this thesis that by quantifying some of the major sources of noise in an experiment and utilising compensation mechanisms, either pre- or post-hoc, researchers are better equipped to perform experiments that are more robust, more accurate, and more consistent.

572.072

Modulation of thyroid hormone action by environmental temperature

Hammond, Stewart Austin

23 December 2015

Thyroid hormone (TH) signaling is conserved across vertebrates, where it is important for normal growth and development, particularly in the perinatal period. TH has an additional critical role in amphibian metamorphosis as the sole signal that initiates the transition from a larval tadpole to juvenile frog. Premetamorphic tadpoles have a thyroid gland but are functionally athyroid, yet can be induced to undergo precocious metamorphosis by exogenous TH administration. This essential dependence upon TH makes amphibian metamorphosis an excellent model to study TH signaling. Metamorphosis is sensitive to environmental stimuli such as temperature. Low temperature delays or slows metamorphosis, whereas high temperature advances or accelerates it. Whether a temperature is considered low or high varies by species and is related to its natural habitat. In temperate climes the North American bullfrog, Rana catesbeiana, does not undergo natural or precocious metamorphosis at low winter temperatures of 4-5°C. Tadpoles injected with TH at low temperature essentially clear it from their bodies after 60-80 days, but some manner of TH signaling has occurred such that they rapidly execute metamorphosis if returned to 20-25°C. This apparent molecular memory is poorly understood, but there is evidence that components of gene expression programs may be involved. This thesis investigated the role of these factors in the molecular memory of TH formed at low temperature in the liver, brain, lung, back skin, and tail fin of Rana catesbeiana. The results suggested that TH receptor beta (thrb), CCAAT/enhancer binding protein 1 (cebp1), and Krüppel-like factor 9 (klf9) may contribute to the molecular memory to different extents in each tissue, and that TH-induced basic leucine zipper-containing protein (thibz) may have an important role in this process for every tissue examined. Assessment of additional genes was hampered by the limited genetic resources available for this species, so de novo high throughput RNA sequencing (RNA-seq) techniques were explored to alleviate this limitation. Trans-ABySS sequence assembly software produced a high quality Rana catesbeiana liver transcriptome that was annotated by BLAST alignment to established sequence databases and resulted in a more than ten-fold increase in Rana catesbeiana sequence information. This approach was supplemented with a software pipeline that was used to refine replicate Rana catesbeiana back skin assemblies, and by construction of a Bullfrog Annotation Resource for the Transcriptome (BART) that was used to quickly annotate more than 97% of the assembled back skin sequences. In the future, the Rana catesbeiana transcriptome sequence resources can be leveraged to identify additional genes that may be involved in formation of the TH molecular memory, and chromatin immunoprecipitation could help characterize the factors and epigenetic marks in the promoter regions of these genes. Elucidation of the molecular memory mechanism provides a means to uncover key events in TH signaling. / Graduate

Thyroid hormone

Rana catesbeiana

Environmental temperature

High-throughput RNA sequencing

De novo sequence assembly

Quantitative polymerase chain reaction

Differential expression of for, fax, and U2Af orthologs among three termite castes of the termite, Reticulitermes flavipes (Isoptera: rhinotermitidae)

Urban, Joshua Raymond

January 1900

Master of Science / Department of Entomology / Srinivas Kambhampati / Termites (Isoptera) are eusocial insects and exhibit highly complex eusocial behavior. Eusociality is characterized by the presence of castes (workers, soldiers, reproductives), polyphenisms (same genotype exhibiting multiple phenotypes), flexible developmental pathways, complex communication, cooperative brood care, construction and maintenance of complex nests, and division of labor. Previous studies on honey bees implicated several genes in caste-specific behavior; here, we investigate if orthologs of such genes are present in termites and if so, whether they are expressed differentially among the castes. A candidate gene approach using degenerate primers was used to amplify three candidate genes in the termite Reticulitermes flavipes. Quantitative real time PCR analysis revealed differential expression among termite workers, soldiers, and alates, with a general pattern of higher expression in alates. These results provide information on three novel genes in the termite R. flavipes.

Reticulitermes flavipes

Termite

Differential gene expression

Social behavior

Quantitative polymerase chain reaction

Biology, Entomology (0353)

Biology, Genetics (0369)

Biology, Molecular (0307)

Selective Quantification Of Viable Escherichia Coli Cells In Biosolids Upon Propidium Monoazide Treatment By Quantitative Pcr

Taskin, Bilgin

01 February 2011

Density of fecal coliforms (FC) such as Escherichia coli is the most commonly used indicator of fecal pathogen content of biosolids. When biosolids are disposed off or used for soil amendment, they pose public health risks. So far anaerobic digesters have been considered to be an effective treatment option for pathogen and FC reduction in biosolids. However, recent studies revealed that there is a significant re-growth and reactivation of indicator organisms in biosolids upon dewatering by centrifugation. Although the exact mechanism of FC reactivation is yet to be understood, a few extensive recent studies strongly suggest that FC go into a viable but non-culturable (VBNC) state during anaerobic digestion. Therefore, quantitative detection of live cells among the total in biosolids samples, without using culturing-based approaches, is highly critical from a public health risk assessment perspective. Since recent investigations proved the significant re-growth and reactivation of indicator organisms. Persistence of DNA in the environment after cell death in the range of days to weeks limits the application of DNA-based approaches for the detection of live bacteria. Using selective nucleic acid intercalating dyes such as ethidium monoazide (EMA) and propidium monoazide (PMA) is one of the alternative approaches to detect and quantify the viable cells by quantitative PCR. These compounds have the ability to penetrate only into dead cells with compromised membrane integrity. They intercalate in the DNA via photo-inducible azide groups and in turn inhibit DNA amplification during PCR reactions. PMA has been successfully used in different studies and microorganisms but it has not been evaluated sufficiently for the complex environmental samples such as biosolids. In this study Escherichia coli ATCC 25922 and uidA gene were used as model organism and as target sequence respectively in absolute quantification method with real-time PCR. Experiments with the known quantities of live and dead cell mixtures showed that PMA treatment inhibits PCR amplification from dead cells with over 99% efficiency. The results of this study conclusively demonstrated that PMA-modified PCR could be successfully applied to the biosolids when total suspended solid (TSS) concentration is 2000 mg/L or below.

QR Microbiology 1-502

IGF-I, IGF-II and IGF-IR expression as molecular markers for egg quality in mullet and grouper

Bangcaya, Josette Pesayco

January 2004

Common measures of egg quality have been survival to specific developmental stages, higher hatching rate of fertilized eggs and final production of fry. Determinants of egg quality are variable among and between teleost species and no common unified criteria have been established. Maternally inherited genes influence egg quality and early embryo development is partially programmed by the messenger ribonucleic acid (mRNA). Among the genes, the insulin family is important for growth functions and the presence of their transcripts in the ovary, oocytes and embryos implies their involvement during the reproductive process and their relevance to egg quality. The insulin-like growth factor (IGF) system has three components, the ligands IGF-I and II, the IGFBPs (insulin-like growth factor binding proteins) and the IGF receptors that mediate biological activity of the ligands. Vitellogenin (Vtg) is the major source of nutrients for the developing embryo and elevated levels in female fish plasma signals gonadal development preceding spawning. In oviparous fish where the developing embryo is dependent on the stored food in the yolk, vitellogenin levels in the egg could indicate its capability to support embryonic growth. This study aimed to develop molecular tools, specifically probes for IGF-I, IGF-II and IGF-IR, for the evaluation of fish egg quality. These probes would be used to determine expression levels of IGF-I, IGF-II and IGF-IR during egg development to assess their potential as molecular indicators for egg quality. In addition, this study also aimed to establish an enzyme-linked immunoassay (ELISA) for quantifying Vtg in fish eggs and determine if differences in Vtg levels could be linked to fertilization and hatching success. Through reverse-transcription polymerase chain reaction (RT-PCR) putative complementary deoxyribonucleic acid (cDNA) fragments of IGF-I, IGF-II and IGF-IR were cloned and sequenced from mullet (Mugil cephalus) and grouper (Epinephelus coioides). The relative expression ratio of the three genes in the eggs of mullet and grouper were assayed by quantitative PCR (QPCR) and calculated using the Pfaffl method (Pfaffl, 2001). Levels of vitellogenin in different batches of mullet eggs were quantified by ELISA. Spawned eggs of grouper were grouped into low (<60%) or high (>60%) fertilization rate (FR) and the fertilized eggs that were incubated until hatching were grouped into medium (>90%) or high (>90%) hatching rate (HR). Samples were categorized into sinking eggs, late embryo and hatched larvae. Relative expression ratio of IGF-II was significantly high (P<0.01) compared to IGF-I and IGF-IR in all samples examined. All three genes were strongly expressed in sinking eggs compared to either late embryo or hatched larvae. However, there was no significant interaction effect between the genes and the samples analyzed. Mullet samples all came from a high FR and high HR group and were categorized into sinking, multicell stage, blastula, gastrula, late embryo and hatched larvae. There was a significant interaction effect (P<0.01) between gene and stage, showing that genes are differentially expressed during embryonic development. IGF-II was strongly expressed relative to the other genes in all stages examined and was highest during the gastrula stage. Vtg levels were examined in mullet oocytes and egg samples that were grouped into 4; oocytes from females that subsequently spawned, had fertilized eggs which hatched (Group A); oocytes from females that did not spawn, therefore no fertilization and no hatching (Group B); eggs that were stripped, artificially fertilized but no hatching (Group C); and eggs that were spawned, assumed to be fertilized but did not hatch (Group D). Group A showed a trend of higher Vtg levels than the other three but this result was not statistically significant.

Insulin-like growth factor (IGF)-I

IGF-II

IGF-I Receptor

egg quality

vitellogenin

enzyme-linked immunosorbent assay

quantitative polymerase chain reaction

mullet

grouper

APC, BRAF and KRAS mutations, and MLH1, MGMT and CDKN2A expression analysis in Nepalese colorectal cancer patients. : - / - : -

Nourizadeh, Alireza

January 2017

Colorectal cancer (CRC) is a common malignancy which develops due to old age and lifestyle factors, low percent of patients afflicted by a genetic disorders. Half of all colorectal cancer patients are diagnosed after metastasis. The high rate of the late detection, emphasizes on the requirement of convenient and inexpensive diagnostic methods for comprehensive screening programs. The aim of this study was to discover proto-oncogenes mutation and assessment of tumor suppressor genes expression. Formalin fixed paraffin embedded (FFPE) histologically verified colorectal cancer samples were used. APC, KRAS and BRAF mutations were investigated using polymerase chain reaction (PCR) fragments and direct sequencing. Gene expression assessment of MLH1, MGMT and CDKN2A were achieved via quantitative polymerase chain reaction (qPCR). In the present study we could detect a novel transversion heterozygous mutation in APC gene codon 1365 in three patients. BRAF codon 600 mutation were detected in one patient. KRAS codon 12 mutation was discovered in one sample and also a novel transition mutation in codon 15 was detected in 6 patients. In 80% of cases, MLH1 and MGMT expression were undetectable, in remaining 20%, MLH1 expression were reduced, but MGMT showed both reduced and increased expression compared to control. In 100% of patients CDKN2A expression was undetectable. The rate of mutations in predetermined hotspot codons and amount of uncommon mutations into APC, BRAF and KRAS in Nepalese patients indicates the requirement of further investigation in CRC patients from that part of the world. Also, the expression rate of MLH1, MGMT, CDKN2A and deficiency of an information source emphasizes the necessity of whole genome CRC expression profiling data to comparison and conclusion. / <p>-</p> / -

Colorectal cancer (CRC)

Formalin fixed paraffin embedded (FFPE)

APC

KRAS

BRAF

polymerase chain reaction (PCR)

MLH1

MGMT

CDKN2A

hotspot

expression profiling.

Genetics

Genetik

Exploring a Lab-scale Cascade Upflow Bioreactor System for Nitrogen Removal Via Biosorption Activated Media

Robles Lecompte, Alejandra

01 January 2023

Many Best Management Practices (BMPs) have been developed to reduce excessive nutrients in stormwater runoff and mitigate harmful algal blooms in downstream receiving water bodies. This study demonstrates a new BMP by comparing two green sorption media (i.e., specialty adsorbents) for nutrient removal in cascade upflow biofiltration systems operated in parallel. The proposed filtration technology can control hydraulic gradients, prevent clogging and settlements, and increase hydraulic loading while removing more nutrients in an integrated physicochemical and microbiological treatment process. The two green sorption media being tested in this study include zero-valent-iron and perlite-based green sorption media (ZIPGEM) and biochar, iron, and perlite-integrated green sorption media (BIPGEM). BIPGEM or ZIPGEM was installed in two identical upflow bioreactors operated in sequence within each biofiltration system compared mainly for nitrate removal at three influent conditions for process reliability assessment. In addition, kinetics studies were conducted and analyzed to improve the understanding of reactor design. Dissolved organic nitrogen was monitored by using FT-ICR MS (Fourier transform ion cyclotron resonance mass spectrometer) whereas population dynamics of nitrifiers and denitrifiers were quantified by using RT-PCR (real time polymerase chain reaction). The process reliability was compared and confirmed based on the nitrate removal efficiencies, microbial population, and oxidation-reduction potential variations across the two biofiltration systems with different green sorption media. Results indicated that ZIPGEM performed slightly better than BIPGEM and the two identical upflow bioreactors operated in sequence within each biofiltration system exhibited steady operation with higher hydraulic loading relative to the downflow settings in the literature.

upflow bioreactor

biosorption activated media

nitrate removal

dissolved organic nitrogen

quantitative polymerase chain reaction

Environmental Engineering

Water Resource Management

MammOmics™ in Sus scrofa: Studio degli adattamenti genomici alla base dello sviluppo della ghiandola mammaria durante la gravidanza e la lattazione. / Mammomics in sus scrofa: uncovering adaptation underlylng mammary development during pregnancy and lactation

TRAMONTANA, SIMONA

04 February 2009

La comprensione dei geni che controllano la crescita, lo sviluppo, e il metabolismo della ghiandola mammaria suina può rivelare potenziali vie metaboliche o di segnale per migliorare l'efficienza di sintesi del latte. Un microarray suino costituito da 13.263 oligonucleotidi (mer 70) è stato utilizzato per lo studio del profilo di trascrizione del tessuto mammario da 4.5 scrofe a -34, -14, -4, 0, 7, 14, 21, e 28 giorni rispetto alla data del parto. ANOVA (FDR ≤ 0.10) ha individuato 2664 geni differenzialmente espressi (DEG) in relazione allo stato fisiologico. L’analisi dei network e delle vie metaboliche ha identificato come funzioni molecolari più affette dallo stato fisiologico: crescita e proliferazione cellulare (548 geni) cellule di segnale(612 geni).La qPCR rimane il metodo migliore per la misurazione dell’ abbondanza mRNA ad alta precisione e per la validazione di dati array. Essenziale per assicurare l'affidabilità della qPCR è la normalizzazione dei dati con l’utilizzo di geni di controllo interno (ICG). Un analisi sulla stabilità dei geni ha identificato, tra i 19 potenziali ICG, API5, VABP, e MRPL39 come i più stabili ICG nel tessuto mammario suini e ha inoltre stabilito che l'uso di tali 3 geni è il più appropriato per il calcolo di un fattore di normalizzazione. I risultati sottolineano l'importanza di una corretta validazione dei controlli interni per qPCR ed evidenziano le limitazioni di utilizzo dell’assenza dell’effetto tempo come unico criterio per la selezione di CIG. / Elucidating genes controlling growth, development, and metabolism of swine mammary glands can reveal potential metabolic or signalling pathways that might help improve efficiency of milk synthesis. A swine microarray consisting of 13,263 oligonucleotides (70 mer) was used for transcript profiling of mammary tissue from 4-5 sows at -34, -14, -4, 0, 7, 14, 21, and 28 d relative to parturition. ANOVA (FDR ≤ 0.10) identified 2,664 differentially expressed genes (DEG) dueto physiological state. Gene network/pathway analysis revealed that cell growth and proliferation (548 genes) and cell signaling (612 genes) were among the most affected molecular functions due to physiological state in DEG. QPCR remains the chosen method for high-precision mRNA abundance analysis and for array data validation. Essential for reliability of qPCR data is normalization using appropriate internal control genes (ICG). Gene stability analysis identified , among 19 potential ICG, API5, VABP, and MRPL39 as the most stable ICG in porcine mammary tissue and indicated that the use of those 3 genes was most appropriate for calculating a normalization factor. Results underscore the importance of proper validation of internal controls for qPCR and highlight the limitations of using absence of time effects as the criteria for selection of appropriate ICG.

VET/02: FISIOLOGIA VETERINARIA

Comparison of plasmids from clinical Lactobacillus strains

Lyle Keenan , Harris

January 2018

Magister Scientiae - MSc (Biotechnology) / The vaginal mucosa is dominated by Gram positive, rod shaped lactobacilli which serve as a natural barrier against infection. In both healthy and BV infected women Lactobacillus crispatus and Lactobacillus jensennii has been found to be the predominant Lactobacillus species. Many studies have been conducted to assess factors influencing lactobacilli dominance in the vaginal microbiome. However, no study has evaluated the impact of plasmids on the vaginal lactobacilli. In the present study two plasmids, pLc17 and pLc4, isolated from vaginal Lactobacillus species of both healthy and BV infected women were characterized. pLc4 was present in both Lactobacillus crispatus and Lactobacillus jensennii while pLc17 was only present in Lactobacillus crispatus. pLc17 (16663 bp in size) encoded a ribonucleotide diphosphate reductase (RNR), a filamentation induced by cAMP-like (FIC-like) protein and numerous mobile elements. The FIC-like protein may assist pLc17 to persist within the bacterial population, while RNR is commonly associated with phages and may indicate phage infection. pLc4 (4224 bp in size) encodes for a replication initiator protein and a plasmid partitioning protein. The replication protein on pLc4 shows 44% identity with the replication initiation protein of pSMQ173b_03. On further phylogenetic and sequence analysis with other Rolling Circle Replication (RCR) plasmids, pLc4 appears to be novel as the plasmid shows a low degree of similarity to these RCR plasmids. pLc17 appears to carry both a RCR replicon as well as a theta replicon, similar to pIP501, the broad-host-range plasmid from Bacillus subtilis. The relative Plasmid Copy Number (PCN) for pLc4 and pLc17 was analysed using quantitative polymerase chain reaction (qPCR) for the healthy state relative to the disease state from twentyeight vaginal swab samples obtained from the National Institute for Communicable Diseases (NICD). The relative PCN for pLc4 and pLc17 had a fold increase of ~2.803 and ~1.693, respectively in the healthy patient samples relative to BV infected patient samples. However, there were not found to be significant differences when taking the standard error into account Due to the novelty of these plasmids further analysis and characterisation is required for both plasmids, to establish what role they may play in the health of the vaginal milieu.

Lactobacillus crispatus

Lactobacillus jensennii

pLc17

pLc4

Ribonucleosidediphosphate reductase

Rolling Circle Replication (RCR)

Plasmid copy number (PCN)

Theta replication

Communicable Diseases

Metabolismo de lipídeos em inseto coleóptero: digestão e transporte de ácidos graxos / Lipid metabolism in coleóptera insect: digestion and transport of fatty acids

Freire, Camilla Camerino Santana Davino

17 August 2018

Coleoptera is an order of insects well known as beetles. Most coleopteran species are phytophagous insects and for this reason are essential to crop and storage pests such as the Tribolium castaneum. Lipid metabolism is vital for the biological functions of insects, playing a role in the generation of metabolic energy and other cellular processes. Fatty acid transport proteins (FATPs) play a crucial role in the transport of extracellular fatty acids to cells, have a conserved sequence between species and are involved in the synthesis of hormones and pheromones. Recent studies show that silencing the gene for FATPs through interfering RNAi techniques (RNAi) in insects affects fatty acid uptake and pheromone synthesis. This work aims to characterize proteins homologous to FATPs present in the genome of Tribolium castaneum, to evaluate the gene expression in tissues, developmental stages and insects treated with Orlistat and to evaluate the effect of FATP silencing on energy metabolism. Bioinformatics analyzes were performed with the amino acid sequences, and real-time PCR evaluated the gene expression. The effects of the drug Orlistat were evaluated through qPCR and analysis of nutritional index. The search for sequences in the T. castaneum genome revealed two sequences of proteins homologous to FATPs and bioinformatic analysis was performed. The study of the gene expression of FATPs by qPCR demonstrated more significant expression of the two genes in the fat body of larvae and many expressions in all stages of development of the insect, with higher expression in the pupa stage. The effects of Orlistat on the expression of FATPs evidenced the influence of diet composition on the regulation of the gene expression of these proteins. Gene silencing of TcasFATP was achieved, but no direct effects on the energetic dynamics of the larvae were observed since triacylglycerol levels, and β-oxidation rates were not affected. Thus, more detailed studies with the use of gene silencing will be necessary to characterize FATPs better and elucidate their role in insect energy metabolism. / FAPEAL - Fundação de Amparo à Pesquisa do Estado de Alagoas / Os coleópteros constituem uma ordem de insetos bastante conhecidos como besouros. A maioria das espécies de coleóptero são insetos fitófagos e por esta razão constituem importantes pragas de culturas e de armazenamento, como o Tribolium castaneum. O metabolismo de lipídeos é importante para as funções biológicas de insetos, exercendo papel na geração de energia metabólica e em outros processos celulares. As proteínas transportadoras de ácidos graxos (FATPs) exercem papel crucial no transporte de ácidos graxos extracelulares para as células, possuem sequência conservada entre as espécies e estão envolvidas na síntese de hormônios e feromônios. Estudos recentes mostram que o silenciamento do gene para FATPs através de técnicas de RNA de interferência (RNAi) em insetos afetam a absorção de ácidos graxos e a síntese de feromônio. Este trabalho tem como objetivo caracterizar proteínas homólogas à FATPs presentes no genoma de Tribolium castaneum, avaliar a expressão gênica nos tecidos, fases de desenvolvimento e em insetos tratados com Orlistate e avaliar o efeito do silenciamento de FATPs no metabolismo energético. Foram realizadas análises bioinformáticas com as sequências de aminoácidos e a avaliação da expressão gênica foi realizada por PCR em tempo real. Os efeitos do fármaco Orlistate foram avaliados através de qPCR e análise dos índices nutricionais. A busca de sequências no genoma do T. castaneum revelou duas sequências de proteínas homólogas à FATPs e a análise bioinformática foi realizada. O estudo da expressão gênica de FATPs por qPCR demonstrou maior expressão dos dois genes no corpo gorduroso de larvas e expressão considerável em todos os estágios de desenvolvimento do inseto, com maior expressão no estágio de pupa. Os efeitos do Orlistate na expressão das FATPs evidenciaram a influência da composição da dieta na regulação da expressão gênica dessas proteínas. O silenciamento gênico de TcasFATP foi alcançado, mas não foram observados efeitos diretos na dinâmica energética das larvas, pois os níveis de triacilglicerol e as taxas de β-oxidação não foram afetadas. Dessa forma, estudos mais detalhados com uso do silenciamento gênico serão necessários para melhor caracterização funcional das FATPs e elucidação do seu papel no metabolismo energético do inseto.

RNA de interferência (RNAi)

Lipídeos

Tribolium castaneum

Coleoptera

Fatty Acid Transport Protein

Interference RNA

Quantitative polymerase chain reaction

Lipids