Identity and belonging in the novels of Dorn Rabinovici

This essay analyses how the different types of memory may influence the process of identity formation. It shall be argued that not only memories formed upon the subject’s experiences play a key role in this process; intermediated, received narratives from the past, memories transmitted either symbolically or by elder members of the group, or, what has been meanwhile termed as “postmemory”, also play an important part in the development of an individual’s identitary map. This theoretical framework will be illustrated with the novelistic work of Austrian Israeli-born historian, writer and political activist Doron Rabinovici (*1961). As a representative of the so-called “second generation” of Holocaust writers, a generation of individuals who did not experience the nazi genocide violence, but who had to form their identities under the shadow of such a brutal past, Rabinovici addresses essential topics such as the intergenerational transmission of memory and guilt within survivor families, identity formation of second generation individuals (Jews and non-Jews) and the question of simultaneously belonging to different social, historical and linguistic contexts.

Role of the DHH1 Gene in the Regulation of Monocarboxylic Acids Transporters Expression in Saccharomyces cerevisiae

Previous experiments revealed that DHH1, a RNA helicase involved in the regulation of mRNA stability and translation, complemented the phenotype of a Saccharomyces cerevisiae mutant affected in the expression of genes coding for monocarboxylic-acids transporters, JEN1 and ADY2 (Paiva S, Althoff S, Casal M, Leao C. FEMS Microbiol Lett, 1999, 170∶301–306). In wild type cells, JEN1 expression had been shown to be undetectable in the presence of glucose or formic acid, and induced in the presence of lactate. In this work, we show that JEN1 mRNA accumulates in a dhh1 mutant, when formic acid was used as sole carbon source. Dhh1 interacts with the decapping activator Dcp1 and with the deadenylase complex. This led to the hypothesis that JEN1 expression is post-transcriptionally regulated by Dhh1 in formic acid. Analyses of JEN1 mRNAs decay in wild-type and dhh1 mutant strains confirmed this hypothesis. In these conditions, the stabilized JEN1 mRNA was associated to polysomes but no Jen1 protein could be detected, either by measurable lactate carrier activity, Jen1-GFP fluorescence detection or western blots. These results revealed the complexity of the expression regulation of JEN1 in S. cerevisiae and evidenced the importance of DHH1 in this process. Additionally, microarray analyses of dhh1 mutant indicated that Dhh1 plays a large role in metabolic adaptation, suggesting that carbon source changes triggers a complex interplay between transcriptional and post-transcriptional effects.