Welcome to this latest edition of the JoCB Bulletin containing items of information for the Chemical Biology Community

JOCB Bulletin

Welcome to this latest edition of the JoCB Bulletin containing items of information for the Chemical Biology Community     

Welcome to this latest edition of the JoCB Bulletin containing items of information for the Chemical Biology Community

JOCB Bulletin

Welcome to this latest edition of the JoCB Bulletin containing items of information for the Chemical Biology Community     

Welcome to this latest edition of the JoCB Bulletin containing items of information for the Chemical Biology Community

JOCB Bulletin

Welcome to this latest edition of the JoCB Bulletin containing items of information for the Chemical Biology Community     

Welcome to this second edition of the JoCB Bulletin containing items of information for the Chemical Biology Community

JOCB Bulletin

Welcome to this second edition of the JoCB Bulletin containing items of information for the Chemical Biology Community     

Welcome to the JOCB Bulletin

JOCB BULLETIN

Welcome to the JOCB Bulletin     

Welcome to the JOCB Bulletin

JOCB BULLETIN

Welcome to the JOCB Bulletin     

Welcome to the JOCB Bulletin

JOCB Bulletin

Welcome to the JOCB Bulletin     

Welcome to the JOCB Bulletin

JOCB Bulletin

Welcome to the JOCB Bulletin     

Welcome to the Swamp: Addressing Community Capacity in Ecohealth Research and Intervention

The standpoint from which this article is written is that of development practitioners who work fairly continuously with community transformation processes, and with their peers in many disciplines who are trying to stimulate and support such processes. Drawing on three case examples, the authors put forward four lessons for an ecosystems approach to health development work. First, health and natural resource management professionals, and the technical solutions they create, cannot, by themselves, solve many of the problems communities face. To be effective, solutions have to address a complex set of variables that may be largely invisible to professionals from outside the communities. Creating a map of the human and natural systems within which a particular human health issue arises is often an important first step. Second, another reason why professionals cannot solve complex health challenges on their own is that, in the end, many of the solutions must be implemented by community people from the inside out. Therefore the “map” needs to include human dynamics and community capacity. Third, identifying and assessing the specific capacities that a community needs to address particular health determinants is therefore an important part of health development work. It is critical that community capacity assessment is not undertaken in the abstract, but rather in a way that links capacity assessment with real, ongoing work and through a participatory process that builds understanding and commitment within the community, and identifies clear pathways for future action. Finally, outside professionals working with a community contribute to its capacity to address critical health challenges, not only because of the technical knowledge and skills they bring, but also through the characteristics and attitudes they exhibit. It is therefore important that professionals build their own capacity to role model effective community practice.     

Introduction of New Tools for Chemical Biology Research on Microbial Metabolites

Recently, high-throughput screening (HTS) has become the mainstream technique for drug discovery. Compounds that are synthesized by combinatorial chemistry might be more suitable than natural products to apply to HTS, because the purification procedure is a drawback of using natural products. Nevertheless, natural products remain an extremely important source of drugs. To overcome the demerits of natural products, we are constructing the RIKEN Natural Products Depository (NPDepo) that is focused primarily on microbial metabolites. In this review, I describe (i) engineering pathways for biosynthetic gene clusters of microbial metabolites, (ii) construction of fraction libraries of microbial metabolites, and (iii) the development of a new screening system using a chemical array and a protein library produced by GLORIA.     

Chemical information transfer between plants:: back to the future

Chemical information conveyance between organisms has been well established for a wide range of organisms including protozoa, invertebrates, vertebrates and plant-parasitic plants. During the past 20 years, various studies have addressed whether chemical information conveyance also occurs between damaged and undamaged plants and many interesting pieces of evidence have been presented. To date, this research field has been restricted to the question whether and how plants (in general) are involved in plant-to-plant communication. However, apart from mechanistic questions, evolutionary questions should be addressed asking why plants do (or do not) exploit their neighbour's information and whether their strategy is affected by e.g. environmental conditions or previous experience. Recent progress in the field of chemical information conveyance between damaged and undamaged plants warrants an intensified study of this exciting topic in chemical ecology.