Events

At CHI's Second Annual Adopting Integrated R&D Informatics Systems Conference, to take place on February 3-5, 2010 at the Moscone North Convention Center in San Francisco, CA, you will hear from solution providers and collaborators that have played an essential role in integrating R&D informatics systems. This conference is part of the Informatics Channel at CHI's 17th International Molecular Medicine Tri-Conference- a superb opportunity to network with 3,000+ international scientists & executives and 125 exhibitors.

SESSIONS:
* Informatics for Productivity, Innovation, and Resources

At CHI's Second Annual Adopting Integrated R&D Informatics Systems Conference, to take place on February 3-5, 2010 at the Moscone North Convention Center in San Francisco, CA, you will hear from solution providers and collaborators that have played an essential role in integrating R&D informatics systems. This conference is part of the Informatics Channel at CHI's 17th International Molecular Medicine Tri-Conference- a superb opportunity to network with 3,000+ international scientists & executives and 125 exhibitors.

SESSIONS:
* Informatics for Productivity, Innovation, and Resources

The main objective of the course is to provide experimental training in state-of-the-art genomic techniques to students and postdocs wishing to dissect Gene Regulatory Networks (GRNs) driving the development of non-conventional animal models. Developmental progression is orchestrated through extensive GRNs, which not only define the overall body plan but also form an essential means for evolutionary change. Dissecting GRNs requires information on the repertoire of genes expressed at any given time and an understanding of the transcriptional inputs controlling their expression.

The main objective of the course is to provide experimental training in state-of-the-art genomic techniques to students and postdocs wishing to dissect Gene Regulatory Networks (GRNs) driving the development of non-conventional animal models. Developmental progression is orchestrated through extensive GRNs, which not only define the overall body plan but also form an essential means for evolutionary change. Dissecting GRNs requires information on the repertoire of genes expressed at any given time and an understanding of the transcriptional inputs controlling their expression.

The main objective of the course is to provide experimental training in state-of-the-art genomic techniques to students and postdocs wishing to dissect Gene Regulatory Networks (GRNs) driving the development of non-conventional animal models. Developmental progression is orchestrated through extensive GRNs, which not only define the overall body plan but also form an essential means for evolutionary change. Dissecting GRNs requires information on the repertoire of genes expressed at any given time and an understanding of the transcriptional inputs controlling their expression.

The main objective of the course is to provide experimental training in state-of-the-art genomic techniques to students and postdocs wishing to dissect Gene Regulatory Networks (GRNs) driving the development of non-conventional animal models. Developmental progression is orchestrated through extensive GRNs, which not only define the overall body plan but also form an essential means for evolutionary change. Dissecting GRNs requires information on the repertoire of genes expressed at any given time and an understanding of the transcriptional inputs controlling their expression.

The main objective of the course is to provide experimental training in state-of-the-art genomic techniques to students and postdocs wishing to dissect Gene Regulatory Networks (GRNs) driving the development of non-conventional animal models. Developmental progression is orchestrated through extensive GRNs, which not only define the overall body plan but also form an essential means for evolutionary change. Dissecting GRNs requires information on the repertoire of genes expressed at any given time and an understanding of the transcriptional inputs controlling their expression.

An international conference focusing on all flavours of genomics research. Core topics are:1. Comparative and evolutionary genomics 2. Epigenomics including chromatin and nuclear organization 3. High throughput technologies and genome informatics 4. Plant and microbial genomics including environmental and metagenomics 5. Population and disease genomics including cancer genomics, disease susceptibility and complex traits, such as behaviour 6. RNA regulation including small RNAs 7. Transcriptional regulatory mechanisms and networks including development 8.