Large collections of full-length cDNAs are important resources for genome annotation and functional genomics. We report the creation of a collection of 50 599 full-length cDNA clones from the pea aphid, Acyrthosiphon pisum. Sequencing from 5’ and 3’ ends of the clones generated 97 828 high-quality expressed sequence tags, representing approximately 9000 genes. These sequences were imported to AphidBase and are shown to play crucial roles in both automatic gene prediction and manual annotation. Our detailed analyses demonstrated that the full-length cDNAs can further improve gene models and can even identify novel genes that are not included in the current version of the official gene set. This full-length cDNA collection can be utilized for a wide variety of functional studies, serving as a community resource for the study of the functional genomics of the pea aphid.

Aphids exhibit unique attributes, such as polyphenisms and specialized cells to house endosymbionts, that make them an interesting system for studies at the interface of ecology, evolution and development. Here we present a comprehensive characterization of the developmental genes in the pea aphid, Acyrthosiphon pisum, and compare our results to other sequenced insects. We investigated genes involved in fundamental developmental processes such as establishment of the body plan and organogenesis, focusing on transcription factors and components of signalling pathways. We found that most developmental genes were well conserved in the pea aphid, although many lineage-specific gene duplications and gene losses have occurred in several gene families. In particular, genetic components of transforming growth factor beta (TGFbeta) Wnt, JAK/STAT (Janus kinase/signal transducer and activator of transcription) and EGF (Epidermal Growth Factor) pathways appear to have been significantly modified in the pea aphid.

For too long, efforts to synthesize evolution and development have failed to build a united view of the origins and evolution of biological diversity. In this groundbreaking book, David Stern sets out to draw evolutionary biology and developmental biology together by cutting through the differences that divide the disciplines and by revealing their deeper similarities. He draws upon the insights of generations of evolutionary biologists and scores of developmental biologists to build a solid foundation for future investigation of the genetic and developmental causes of diversity. Along the way, and in plain English, he explicates many of the guiding principles of evolution, population genetics, and developmental biology. Each chapter offers a clear review of fundamental principles, together with thoughtprovoking ideas that will be tested only with data emerging from current and future studies. With the basic principles established, he then offers a new way of thinking about development—backwards—to clarify precisely how the mechanisms of development influence evolution. In the same spirit, he takes a fresh look at evolution in populations, arguing that population history influences precisely how developmental mechanisms evolve. Both Stern's new perspective on development and his reassessment of the role of populations leads to the surprising conclusion that the evolution of genomes appears to be predictable. Stern argues that developmental biology and evolutionary biology are intertwined: it is impossible to understand one of them fully without understanding the other. This book provides a clear and wide-ranging introduction to evolution and development for the basic reader; graduate students will be introduced to the cutting-edge of research in evolutionary developmental biology; and experts in evolution or development will receive both an uncomplicated introduction to the other discipline and an abundance of new, provocative ideas.

Stern, David L. Evolution, Development, and the Predictable Genome. Austin, TX: Roberts and Company Publishers, 2010.