Rennie C1

Hulme H2

Fisher P2

Hall L3

Agaba M4

Noyes HA1

Kemp SJ1,4

Brass A2,5

Acknowledgements: This work was wholly supported by The Wellcome Trust. The authors would also like to thank Dr Park based in Dr McHugh’s group at University College Dublin for sharing bovine gene symbol information for Affymetrix probes.

AbstractHigh throughput technologies inevitably produce vast quantities of data. This presents challenges in terms of developing effective analysis methods, particularly where the analysis involves combining data derived from different experimental technologies.

In this investigation, we applied a systematic approach to combine microarray gene expression data, QTL data and pathway analysis resources in order to identify functional candidate genes underlying tolerance of Trypanosoma congolense infection in cattle (see Agaba et al poster at this conference). We automated much of the analysis using Taverna workflows previously developed for the study of trypanotolerance in the mouse model.

We identified pathways represented by genes within the QTL regions, and subsequently ranked this list according to which pathways were over-represented in the set of genes that were differentially expressed (over time or between tolerant N’dama and susceptible Boran breeds) at various timepoints after T. congolense infection. The genes within the QTL that played a role in the highest-ranked pathways were flagged as strong candidates for experimental confirmation.

1 School of Biological Sciences, BioSciences Building, University of Liverpool, Crown Street, Liverpool, L69 7ZB, UK

2 School of Computer Science, Kilburn Building, University of Manchester, Oxford Road, Manchester, M13 9PL, UK

3 Roslin Institute, Roslin, Midlothian, EH25 9PS, Scotland, UK

4 ILRI, PO Box 30709, Nairobi, 00100, Kenya

5 Faculty of Life Sciences, University of Manchester, Smith Building, Oxford Road, Manchester, M13 9PT, UK

A systematic, data-driven approach to the combined analysis of microarray and QTL data

QTL location

Phenotype

BTA2 AnaemiaBTA4 ParasitaemiaBTA7 Anaemia and parasitaemiaBTA16 AnaemiaBTA27 Anaemia

BackgroundAfrican bovine trypanosomiasis is one of the most important diseases affecting African livestock production. West African taurine cattle, such as the N'dama, are more resistant to the pathological consequences of trypanosomiasis (trypanotolerant) than East African zebu cattle, such as the Boran.

A microarray timecourse experiment was carried out to investigate gene expression in N'dama and Boran cattle infected with Trypanosoma congolense, in order to identify genes underlying trypanotolerance (see Agaba et al poster at this conference).

TrypanotoleranceTrypanotolerance is a complex phenotype involving several distinct components, likely to involve separate genetic control mechanisms. Key features include the ability to control anaemia, control parasitaemia and maintain bodyweight. Data on trypanotolerance QTL suggests that phenotypic traits involved in trypanotolerance may be influenced by multiple genetic loci and possibly complex epistatic or environmental effects (Proc Natl Acad Sci USA 2003;100(13);7443-7448).

Microarray dataMicroarray data for liver samples extracted from Boran and N'dama cattle at 0, 12, 15, 18, 21, 26, 29, 32 and 35 days post-infection were analysed. Outliers were identified using dChip and removed before the remaining hybridisations were normalised using the Robust Multi-Array (RMA) method. Principal Components Analysis (PCA) was used to check that the hybridisations clustered as expected.

T-tests were used to identify genes that were differentially expressed (p<=0.01) between the two breeds at each timepoint and paired T-tests (using data for the same individual animals at different timepoints) were used to identify genes that were differentially expressed (p<=0.01) within breed at any timepoint compared to day 0.

QTL data

16 trypanotolerance QTL had been identified in a previous mapping study (Proc Natl Acad Sci USA 2003;100(13);7443-7448). 5 of these QTL were selected based on the phenotypic trait involved, the mapping resolution and the strength of the effect (see table on the left for a summary of the QTL and associated phenotypes).

The base-pair positions of these QTL relative to the EnsEMBL bovine genome preliminary build Btau2.0 were determined manually

Combined analysis approach

The gene underlying a QTL is not assumed to be differentially expressed. However, it is expected to connect biologically withdifferentially expressed genes. The rationale behind this approach is to establish the possible connections.

The analysis procedure is described in Figure 1 (right). In brief, it involves mapping QTL genes and Affymetrix microarray probes to genes in the EnsEMBL bovine preliminary build Btau2.0 then identifying KEGG pathways that include the EnsEMBL genes. The two resulting pathway lists are compared to generate a list of KEGG pathways that include at least one differentially expressed gene and at least one gene in the QTL. The pathway list is then ranked according to the results of aFisher exact test performed on the microarray data using DAVID, and annotated using literature searches and various public databases of gene and pathway information.

Large sections of the analysis were automated (shown in blue in Figure 1) by adapting Taverna workflows previously developed for the study of trypanosomiasis responses in mice (Nucl Acids Res 2007;35(16);5625-5633). The adaptations required involved mapping genes to human homologues and using bovine IDs and human IDs in the analysis, rather than murine IDs.

Results

The analysis procedure itself could be reused or adapted for studying another species or another phenotypic trait for which QTL data are available.

In the case of the bovine trypanotolerance study, the result can be quantified in terms of the reduction of an enormous set of potential targets for investigation to a manageable shortlist of the most likely targets. Out of 24128 probesets on the array, 12591 were significantly differentially expressed (p <= 0.01 in one or more T-tests comparing expression between breeds or over time). 8342 of these probesets could be mapped to a known gene. In total they represented 7071 unique gene symbols.

In contrast, there were 127 genes in the QTL that were involved in pathways identified by the combined analysis protocol. If we only include pathways with a significant (p<=0.05) score on the DAVID Fisher exact test, the list of targets is reduced toonly 51 genes (shown in the table below. Note that these results are based on an analysis with EnsEMBL bovine genome preliminary build Btau2.0. A more recent preliminary build is available, and the analysis will be repeated, and key findings discussed in a future publication).

Discussion

Automated approaches are becoming increasingly necessary to enable researchers to handle the output from modern high-throughput technologies. Data-driven methods are useful in studying complex phenotypes where an analysis based solely on biological processes already known to be involved may be insufficient. Pathway-based approaches provide a means to link microarray data to QTL data in a biologically meaningful way.

Pathway-based, data-driven, systematic, semi-automated analysis approaches provide an excellent means to triage data from high-throughput technologies providing a shortlist of viable targets for thorough manual investigation and experimental confirmation

Figure 1. Summary of the combined analysis procedure. Stages of the analysis that were automated using Taverna workflows are in blue