Structural analysis of hepatitis C RNA genome using DNA microarrays

doi:10.1093/nar/gnh088

Nucleic Acids Research 2004 32(11):e90; doi:10.1093/nar/gnh088

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Published online 24 June 2004

Structural analysis of hepatitis C RNA genome using DNA microarrays

María Martell^*, Carlos Briones¹, Aránzazu de Vicente¹, María Piron, Juan I. Esteban, Rafael Esteban, Jaime Guardia and Jordi Gómez

Laboratorio Medicina Interna-Hepatología, Hospital Vall d'Hebron, Barcelona, Spain and ¹ Laboratorio de Evolución Molecular, Centro de Astrobiología, (CSIC-INTA), Madrid, Spain

^* To whom correspondence should be addressed. Tel: +34 934894034; Fax: +34 934894032; Email: mmartell{at}vhebron.net

Received March 20, 2004; Revised May 20, 2004; Accepted June 3, 2004

Many studies have tried to identify specific nucleotide sequencesin the quasispecies of hepatitis C virus (HCV) that determineresistance or sensitivity to interferon (IFN) therapy, unfortunatelywithout conclusive results. Although viral proteins representthe most evident phenotype of the virus, genomic RNA sequencesdetermine secondary and tertiary structures which are also partof the viral phenotype and can be involved in important biologicalroles. In this work, a method of RNA structure analysis hasbeen developed based on the hybridization of labelled HCV transcriptsto microarrays of complementary DNA oligonucleotides. Hybridizationswere carried out at non-denaturing conditions, using appropriatetemperature and buffer composition to allow binding to the immobilizedprobes of the RNA transcript without disturbing its secondary/tertiarystructural motifs. Oligonucleotides printed onto the microarraycovered the entire 5' non-coding region (5'NCR), the first three-quartersof the core region, the E2–NS2 junction and the first400 nt of the NS3 region. We document the use of this methodologyto analyse the structural degree of a large region of HCV genomicRNA in two genotypes associated with different responses toIFN treatment. The results reported here show different structuraldegree along the genome regions analysed, and differential hybridizationpatterns for distinct genotypes in NS2 and NS3 HCV regions.

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