The foliar rust caused by Melampsora larici-populina ( Mlp) is the main disease affecting poplar plantations in Europe. The biotrophic status of this fungus is a major limitation to address in planta transcripts profiling. Thus, identification of reference rust genes steadily expressed during plant tissue colonization is a crucial point. A quantitative PCR approach to assess fungal ITS amplification profile and Reverse Transcription quantitative-PCR was set to compare candidate reference genes amplification profiles in poplar infected tissues. We selected two M. larici-populina genes encoding an alpha-tubulin and the elongation factor-1-alpha that showed the highest expression stability across biological samples and for which transcript levels were correlated with fungal ITS amplification during time-course infection of poplar leaves. We report the use of these reference genes to assess in planta expression profiles of two genes involved in thiamine biosynthesis ( THI1 and THI2) for which specific haustorium expression was previously described in the bean rust fungus Uromyces fabae. Mlp- THI1 and Mlp-THI2 showed similar expression profiles. Trancripts were barely detectable in urediniospores as well as during the early stages of infection compared to those reported in the bean rust, whereas a strong induction was observed after haustorial formation after 24 hpi. These data are in frame with the results obtained in U. fabae and consistent with a metabolic reorientation that likely occurs after the fungus derived nutrients from its host in the haustorial structure essential for fungal biotrophy.