-
[
Worm Breeder's Gazette,
1994]
C. elegans Molecular Genetics and Long PCR Scott R. Townsend, Cathy Savage, Alyce L. Finelli, Ting Xie, and Richard W. Padgett, Waksman Institute and Department of Molecular Biology and Biochemistry, Rutgers University, Piscataway, NJ 08855
-
[
International C. elegans Meeting,
1995]
We hope to provide a demonstration of the current state of the ACeDB worm database on Unix workstations, and if possible Apple Macintosh, throughout the poster sessions. This will be based on the new version 4 release of the acedb software (Jean Thierry-Mieg, Richard Durbin and numerous others), which contains many new features for greater efficiency, more flexible printing, and display of new features.
-
[
Development,
2024]
Asymmetric cell divisions can produce daughter cells of different sizes, but it is unclear whether unequal cell cleavage is important for cell fate decisions. A new paper in Development explores the role of unequal cleavages in Caenorhabditis elegans embryos. To learn more about the story behind the paper, we caught up with first author Thomas Mullan and corresponding author Richard Poole, Associate Professor of Developmental Biology at University College London, UK.
-
[
International Worm Meeting,
2007]
The endonucease Dicer processes dsRNA to produce short RNAs that serve as guides in RNA dependant gene silencing mechanisms, and may also function in the structural organization of chromatin. Recent studies have shown that in animals, most of the genome is transcribed, suggesting the existence of many non-annotated non-protein coding transcriptional units. Genome-wide transcription of non-coding regions is likely to be associated with significant overlap between sense and antisense transcripts and transcription of repetitive sequences, both of which can give rise to dicer substrates. As such, RNAi related mechanisms may have a previously unrecognized broad role in regulation of the transcriptome. To address this possibility, we have used whole genome tiling arrays (Affymetrix) to compare total RNA from Dicer mutants to that of wild-type animals. From these data we hope to identify new transcriptional units that show increased abundance in Dicer mutants. A preliminary analysis and discussion will be presented.
-
[
Worm Breeder's Gazette,
1997]
May 31, 1997 will mark the end of our current five-year contract with the NIH National Center for Research Resources, which supports the activities of the CGC. The activities in St. Paul have involved primarily the acquisition, maintenance and distribution of stocks and information about stocks, acquisition and maintenance of the C. elegans bibliography, and publication and distribution of The Worm Breeder's Gazette (WBG) and WBG Subscriber Directory. Genetic nomenclature and the genetic map have been managed for the period 1992-1997 by Jonathan Hodgkin (CGC Map Curator) on a subcontract. Currently, the subcontract provides half of Sylvia Martinelli's salary, plus travel and minor expenses. Additional support from within the MRC Laboratory of Molecular Biology and the Sanger Centre has been used to fund other essential resources such as computer equipment, as well as Jonathan's and Richard Durbin's time. Richard has been involved in mapkeeping through his work on ACeDB. We are pleased that Jonathan, Richard and Sylvia agreed to continue their work for another five years. We have submitted an application for a new five year contract that would include a subcontract for nomenclature and mapkeeping on essentially the same terms as before. A description of the nomenclature and mapkeeping activities is given in the following abstract. We are grateful to Leon Avery for setting up our CGC gopher server and also for arranging for the electronic submission of WBG abstracts (as well as abstracts for various C. elegans meetings). His C. elegans WWW server has become an essential resource for the worm community. We were therefore pleased to include Leon (only 5% effort) in a second subcontract as part of our new CGC application. We welcome comments and suggestions about any of the CGC activities.
-
[
Brief Bioinform,
2000]
Acedb is one of the more venerable pieces of Genomics software. Acedb was originally created in 1992 by Richard Durbin and Jean Thierry-Mieg to manage the data from the Caenorhabditis elegans mapping project and subsequently the C. elegans sequencing project. From beginnings as a C. elegans-specific tool, it has been continuously developed into a flexible suite of data management, display and scripting tools providing facilities for managing and annotation mapping information and DNA and peptide sequences.This paper gives a basic overview of the Acedb suite, and step-by-step guidance on how to download and install Acedb. It is intended to take an Acedb novice to stage where they can begin to experiment and explore the facilities that are available.
-
[
Bioessays,
2008]
Homology is the similarity between organisms due to common ancestry. Introduced by Richard Owen in 1843 in a paper entitled "Lectures on comparative anatomy and physiology of the invertebrate animals", the concept of homology predates Darwin's "Origin of Species" and has been very influential throughout the history of evolutionary biology. Although homology is the central concept of all comparative biology and provides a logical basis for it, the definition of the term and the criteria of its application remain controversial. Here, I will discuss homology in the context of the hierarchy of biological organization. I will provide insights gained from an exemplary case study in evolutionary developmental biology that indicates the uncoupling of homology at different levels of biological organization. I argue that continuity and hierarchy are separate but equally important issues of homology.
-
[
West Coast Worm Meeting,
2000]
We briefly describe the current status and plans for WormBase, initially an extension of the existing ACeDB database with a new user interface. The WormBase consortium includes the team that developed ACeDB (Richard Durbin and colleagues at the Sanger Centre; Jean Thierry-Mieg and colleagues at Montpellier); Lincoln Stein and colleagues at Cold Spring Harbor, who developed the current web interface for WormBase; and John Spieth and colleagues at the Genome Sequencing Center at Washington University, who along with the Sanger Centre team, continue to annotate the genomic sequence. The Caltech group will curate new data including cell function in development, behavior and physiology, gene expression at a cellular level, and gene interactions. Data will be extracted from the literature, as well as by community submission. We look forward to providing the C. elegans and broader research community easy access to vast quantities of high quality data on C. elegans. Also, we welcome your suggestions and criticism at any time. WormBase can be accessed at www.wormbase.org.
-
[
Worm Breeder's Gazette,
2000]
WormBase (www.wormbase.org) is an international consortium of biologists and computer scientists dedicated to providing the research community with accurate, current, accessible information concerning the genetics, genomics and biology of C. elegans and some related nematodes. WormBase builds upon the existing ACeDB database of the C. elegans genome by providing curation from the literature, an expanded range of content and a user friendly web interface. The team that developed and maintained ACeDB (Richard Durbin, Jean Thierry-Mieg) remains an important part of WormBase. Lincoln Stein and colleagues at Cold Spring Harbor are leading the effort to develop the user interface, including visualization tools for the genome and genetic map. Teams at Sanger Centre (led by Richard Durbin) and the Genome Sequencing Center at Washington University, St. Louis (led by John Spieth) continue to curate the genomic sequence. Jean and Danielle Thierry-Mieg at NCBI spearhead importation of large-scale data sets from other projects. Paul Sternberg and colleagues at Caltech will curate new data including cell function in development, behavior and physiology, gene expression at a cellular level; and gene interactions. Paul Sternberg assumes overall responsibility for WormBase, and is delighted to hear feedback of any sort. WormBase has recently received major funding from the National Human Genome Research Institute at the US National Institutes of Health, and also receives support from the National Library of Medicine/NCBI and the British Medical Research Council. WormBase is an expansion of existing efforts, and as such continues to need you help and feedback. Even with the increased scope and funding, all past contributors to ACeDB remain involved. The Caenorhabditis Genetics Center (Jonathan Hodgkin and Sylvia Martinelli) collaborate with WormBase to curate the genetic map and related topics. Ian Hope and colleagues continue to supply expression data to WormBase. Leon Avery will continue his superb website and serves as one advisor to WormBase. While the major means of access to WormBase is via the world wide web, downloadable versions of WormBase as well as the acedb software engine will continue to be available.
-
[
Autophagy,
2024]
Professor Richard (Rick) Morimoto is the Bill and Gayle Cook Professor of Biology and Director of the Rice Institute for Biomedical Research at Northwestern University. He has made foundational contributions to our understanding of how cells respond to various stresses, and the role played in those responses by chaperones. Working across a variety of experimental models, from <i>C</i>. <i>elegans</i> to human neuronal cells, he has identified a number of important molecular components that sense and respond to stress, and he has dissected how stress alters cellular and organismal physiology. Together with colleagues, Professor Morimoto has coined the term "proteostasis" to signify the homeostatic control of protein expression and function, and in recent years he has been one of the leaders of a consortium trying to understand proteostasis in healthy and disease states. I took the opportunity to talk with Professor Morimoto about proteostasis in general, the aims of the consortium, and how autophagy is playing an important role in their research effort.