ABSTRACT
This commentary lends a global practitioner perspective on the utility of this volume to the efforts of mentors and mentees and mentoring program developers. Dave Marshall and Karen Shaver, of Big Brothers Big Sisters New Zealand and Canada, respectively, offer keen insights into the value of creating a shared language for discussing mentoring relationship development, while at the same time acknowledging the specific impact that cultural differences play in helping to shape mentoring processes.
Subject(s)
Culture , Leadership , Mentors/psychology , Canada , Humans , New Zealand , Program Development , Terminology as TopicABSTRACT
Detecting cooperative partners in situations that have financial stakes is crucial to successful social exchange. The authors tested whether humans are sensitive to subtle facial dynamics of counterparts when deciding whether to trust and cooperate. Participants played a 2-person trust game before which the facial dynamics of the other player were manipulated using brief (<6 s) but highly realistic facial animations. Results showed that facial dynamics significantly influenced participants' (a) choice of with whom to play the game and (b) decisions to cooperate. It was also found that inferences about the other player's trustworthiness mediated these effects of facial dynamics on cooperative behavior.
Subject(s)
Cooperative Behavior , Facial Expression , Trust , Adolescent , Adult , Decision Making , Female , Humans , MaleABSTRACT
The Plant snoRNA database (http://www.scri.sari.ac.uk/plant_snoRNA/) provides information on small nucleolar RNAs from Arabidopsis and eighteen other plant species. Information includes sequences, expression data, methylation and pseudouridylation target modification sites, initial gene organization (polycistronic, single gene and intronic) and the number of gene variants. The Arabidopsis information is divided into box C/D and box H/ACA snoRNAs, and within each of these groups, by target sites in rRNA, snRNA or unknown. Alignments of orthologous genes and gene variants from different plant species are available for many snoRNA genes. Plant snoRNA genes have been given a standard nomenclature, designed wherever possible, to provide a consistent identity with yeast and human orthologues.