"Tu seras Psychologue, ma fille". La transmission intergénérationnelle du choix professionnel : Une co-construction entre parents et enfants.

The aim of the study is to understand how the family influences the choice of becoming a psychologist and how an occupational choice is repeated in the family, via intergenerational transmission. We interviewed seven female students in a Master of Science in Psychology : first, they filled in a genosociogramm including data about occupations of their ancestors on about four generations ; then, they took part into a semi-structured qualitative enquiry. Our results have shown that a little bit less than half of the subjects have a parent who have social or care jobs, but more than half if we add the grand-parents. In a conscious level, subjects tend to deny any kind of family influence, in the majority ; afterwards, they discover influences they didn't notice. Secondly, the content analysis reveals five categories of family influence : the educational path (doubts, choices), the choice of psychology via the development of self-efficacy (interest, personality and soft skills), the exploration of occupations and activities during childhood and adulthood (leisure activities, professional world, suggestions, advice, education), the transmission of values (immaterial and material) and the family relationships during childhood and teenage years (relationship issues and difficulties, confidences and secrets, relationships and role in the brotherhood and/or sisterhood). The importance for the career counselor to investigate the relational context of his/her consultant is discussed, as much as the need for him to think about his own motivations to help others, linked with his family background.

The life history of retrocopies illuminates the evolution of new mammalian genes.

New genes contribute substantially to adaptive evolutionary innovation, but the functional evolution of new mammalian genes has been little explored at a broad scale. Previous work established mRNA-derived gene duplicates, known as retrocopies, as models for the study of new gene origination. Here we combine mammalian transcriptomic and epigenomic data to unveil the processes underlying the evolution of stripped-down retrocopies into complex new genes. We show that although some robustly expressed retrocopies are transcribed from preexisting promoters, most evolved new promoters from scratch or recruited proto-promoters in their genomic vicinity. In particular, many retrocopy promoters emerged from ancestral enhancers (or bivalent regulatory elements) or are located in CpG islands not associated with other genes. We detected 88-280 selectively preserved retrocopies per mammalian species, illustrating that these mechanisms facilitated the birth of many functional retrogenes during mammalian evolution. The regulatory evolution of originally monoexonic retrocopies was frequently accompanied by exon gain, which facilitated co-option of distant promoters and allowed expression of alternative isoforms. While young retrogenes are often initially expressed in the testis, increased regulatory and structural complexities allowed retrogenes to functionally diversify and evolve somatic organ functions, sometimes as complex as those of their parents. Thus, some retrogenes evolved the capacity to temporarily substitute for their parents during the process of male meiotic X inactivation, while others rendered parental functions superfluous, allowing for parental gene loss. Overall, our reconstruction of the "life history" of mammalian retrogenes highlights retroposition as a general model for understanding new gene birth and functional evolution.