Camelina neglecta (Brassicaceae, Camelineae), a new diploid species from Europe

Camelina neglecta is described as a new diploid species and its relationship to the other diploids of the genus and to the somewhat superficially similar tetraploid C. rumelica and hexaploid C. microcarpa, are discussed. SEM of seed and stem trichomes of the new species are presented

Resolving the backbone of the Brassicaceae phylogeny for investigating trait diversity

Summary: The Brassicaceae family comprises c. 4000 species including economically important crops and the model plant Arabidopsis thaliana. Despite their importance, the relationships among major lineages in the family remain unresolved, hampering comparative research. Here, we inferred a Brassicaceae phylogeny using newly generated targeted enrichment sequence data of 1827 exons (> 940 000 bases) representing 63 species, as well as sequenced genome data of 16 species, together representing 50 of the 52 currently recognized Brassicaceae tribes. A third of the samples were derived from herbarium material, facilitating broad taxonomic coverage of the family. Six major clades formed successive sister groups to the rest of Brassicaceae. We also recovered strong support for novel relationships among tribes, and resolved the position of 16 taxa previously not assigned to a tribe. The broad utility of these phylogenetic results is illustrated through a comparative investigation of genome‐wide expression signatures that distinguish simple from complex leaves in Brassicaceae. Our study provides an easily extendable dataset for further advances in Brassicaceae systematics and a timely higher‐level phylogenetic framework for a wide range of comparative studies of multiple traits in an intensively investigated group of plants

Trajetórias Familiares e Práticas de Gestão: Estudo de Caso da Família Gotardo em Guarapari.

Inserido em uma perspectiva subjetiva de pesquisa sobre empresas familiares, este trabalho, busca somar-se ao o esforço para interpretação de dinâmicas sócio-culturais, contrapondo-se aos que tratam apenas assuntos referentes à sucessão. A pesquisa tem caráter qualitativo e investiga como as práticas sócio-culturais de gestão da família Gotardo configuraram as suas trajetórias empresariais. Para tal, utiliza como procedimento metodológico à análise da história oral desenvolvida sobre a transcrição de entrevistas com os gestores de empresas pertencentes à referida família, em Guarapari-ES. O referencial teórico é desenvolvido em temáticas essenciais para direcionar a pesquisa: gestão como prática social; estudos sobre empresas familiares e trajetórias empresariais e; estudos sobre famílias.Inserted in a subjective perspective of research on family companies, this work search to add to the effort for interpretation of partner-cultural dynamics, opposing to the that just treat referring subjects about the succession. The research has qualitative character and investigates as the social practices of the Gotardo family set its businesses trajectory. For such, it uses as methodological procedure the analysis of the oral history developed about the transcription of interviews with the managers of the companies that belong the referred family in Guarapari-ES. The theoretical thought is developed in essential thematic to set the research: management as social practice; studies on family companies; managerial paths and studies on families

Plastome phylogeny and early diversification of Brassicaceae

Background: The family Brassicaceae encompasses diverse species, many of which have high scientific and economic importance. Early diversifications and phylogenetic relationships between major lineages or clades remain unclear. Here we re-investigate Brassicaceae phylogeny with complete plastomes from 51 species representing all four lineages or 5 of 6 major clades (A, B, C, E and F) as identified in earlier studies. Results: Bayesian and maximum likelihood phylogenetic analyses using a partitioned supermatrix of 77 protein coding genes resulted in nearly identical tree topologies exemplified by highly supported relationships between clades. All four lineages were well identified and interrelationships between them were resolved. The previously defined Clade C was found to be paraphyletic (the genus Megadenia formed a separate lineage), while the remaining clades were monophyletic. Clade E (lineage III) was sister to clades B + C rather than to all core Brassicaceae (clades A + B + C or lineages I + II), as suggested by a previous transcriptome study. Molecular dating based on plastome phylogeny supported the origin of major lineages or clades between late Oligocene and early Miocene, and the following radiative diversification across the family took place within a short timescale. In addition, gene losses in the plastomes occurred multiple times during the evolutionary diversification of the family. Conclusions: Plastome phylogeny illustrates the early diversification of cruciferous species. This phylogeny will facilitate our further understanding of evolution and adaptation of numerous species in the model family Brassicaceae

Genome of Crucihimalaya himalaica, a close relative of Arabidopsis, shows ecological adaptation to high altitude

Crucihimalaya himalaica is a close relative of Arabidopsis with typical Qinghai–Tibet Plateau (QTP) distribution. Here, by combining short- and long-read sequencing technologies, we provide a de novo genome sequence of C. himalaica. Our results suggest that the quick uplifting of the QTP coincided with the expansion of repeat elements. Gene families showing dramatic contractions and expansions, as well as genes showing clear signs of natural selection, were likely responsible for C. himalaica’s specific adaptation to the harsh environment of the QTP. We also show that the transition to self-pollination of C. himalaica might have enabled its occupation of the QTP. This study provides insights into how plants might adapt to extreme environmental conditions