-
[
Bioessays,
2015]
Nowadays, in the Internet databases era, certain knowledge is being progressively lost. This knowledge, which we feel is essential and should be acquired through education, is the understanding of how the pioneer researchers faced major questions in their field and made their discoveries.
-
[
Chembiochem,
2003]
Thank you so very much for inviting me to be here. It gives me a mingled sense of humility at how much I owe to others, and of joy that the collective work on the worm has been recognised in this way.
-
[
J Proteomics,
2010]
Much of our knowledge on heredity, development, physiology and the underlying cellular and molecular processes is derived from the studies of model, or reference, organisms. Despite the great variety of life, a common base of shared principles could be extracted by studying a few life forms, selected based on their amenability to experimental studies. Very briefly, the origins of a few model organisms are described, including E. coli, yeast, C. elegans, Drosophila, Xenopus, zebrafish, mouse, maize and Arabidopsis. These model organisms were chosen because of their importance and wide use, which made them systems of choice for genome-wide studies. Many of their genomes were between the first to be fully sequenced, opening unprecedented opportunities for large-scale transcriptomics and proteomics studies.
-
[
Science,
1995]
Programmed cell death (PCD), or apoptosis, is a conserved terminal differentiation program that multicellular organisms have evolved to get rid of cells that are not needed, that are in the way, or that are potentially dangerous. PCD can be equated with cell suicide in the sense that the dying cell plays an active role in promoting its own demise and removal from the organism.
-
[
Cell,
2002]
In 1963, Sydney Brenner, one of the founders of molecular biology, had reached an intellectual impasse. He felt that there were few advances left in that field that would have the significance of the discovery of mRNA and the elucidation of the genetic code, both of which he had participated in, and in any case with so many Americans joining in, the chemical details of replication and so forth would all be worked out soon. Brenner thought large thoughts, and the questions that were left seemed too
-
Gradolewski D, Krawczuk M, Tojza P, Koncicki A, Ambroziak D, Redlarski G, Lewczuk B, Jakubiuk K, Jaworski J, Skarbek L, Piechocki J, Zak A
[
Biomed Res Int,
2015]
Current technologies have become a source of omnipresent electromagnetic pollution from generated electromagnetic fields and resulting electromagnetic radiation. In many cases this pollution is much stronger than any natural sources of electromagnetic fields or radiation. The harm caused by this pollution is still open to question since there is no clear and definitive evidence of its negative influence on humans. This is despite the fact that extremely low frequency electromagnetic fields were classified as potentially carcinogenic. For these reasons, in recent decades a significant growth can be observed in scientific research in order to understand the influence of electromagnetic radiation on living organisms. However, for this type of research the appropriate selection of relevant model organisms is of great importance. It should be noted here that the great majority of scientific research papers published in this field concerned various tests performed on mammals, practically neglecting lower organisms. In that context the objective of this paper is to systematise our knowledge in this area, in which the influence of electromagnetic radiation on lower organisms was investigated, including bacteria, E. coli and B. subtilis, nematode, Caenorhabditis elegans, land snail, Helix pomatia, common fruit fly, Drosophila melanogaster, and clawed frog, Xenopus laevis.
-
[
Genetics,
2002]
This article marks the 25th anniversary of a paper reporting the first sex-determination mutants to be found in the nematode Caenorhabditis elegans. The isolation of these mutants initiated an extensive analysis of nematode sex determination and dosage compensation, carried out by a number of laboratories over the subsequent decades. As a result, the process of sex determination is now one of the most thoroughly understood parts of C. elegans development, in both genetic and molecular terms. It has also proved to have interesting repercussions on the study of sex determination in other organisms.
-
[
Trends Genet,
1999]
The genome sequence of the free-living nematode Caenorhabiditis elegans is nearly complete, with resolution of the final difficult regions expected over the next few months. This will represent the first genome of a multicellular organism to be sequenced to completion. The genome is approximately 97 Mb in total, and encodes more than 19 099 proteins, considerably more than expected before sequencing began. The sequencing project - a collaboration between the Genome Sequencing Center in St Louis and the Sanger Centre in Hinxton - has lasted eight years, with the majority of the sequence generated in the past four years. Analysis of the genome sequence is just beginning and represents an effort that will undoubtedly last more than another decade. However, some interesting findings are already apparent, indicating that the scope of the project, the approach taken, and the usefulness of having the genetic blueprint for this small organism have been well worth the effort.
-
[
Genetics,
2015]
A little over 50 years ago, Sydney Brenner had the foresight to develop the nematode (round worm) Caenorhabditis elegans as a genetic model for understanding questions of developmental biology and neurobiology. Over time, research on C. elegans has expanded to explore a wealth of diverse areas in modern biology including studies of the basic functions and interactions of eukaryotic cells, host-parasite interactions, and evolution. C. elegans has also become an important organism in which to study processes that go awry in human diseases. This primer introduces the organism and the many features that make it an outstanding experimental system, including its small size, rapid life cycle, transparency, and well-annotated genome. We survey the basic anatomical features, common technical approaches, and important discoveries in C. elegans research. Key to studying C. elegans has been the ability to address biological problems genetically, using both forward and reverse genetics, both at the level of the entire organism and at the level of the single, identified cell. These possibilities make C. elegans useful not only in research laboratories, but also in the classroom where it can be used to excite students who actually can see what is happening inside live cells and tissues.
-
[
Stud Hist Philos Biol Biomed Sci,
2012]
This paper argues that the history of the computer, of the practice of computation and of the notions of 'data' and 'programme' are essential for a critical account of the emergence and implications of data-driven research. In order to show this, I focus on the transition that the investigations on the worm C. elegans experienced in the Laboratory of Molecular Biology of Cambridge (UK). Throughout the 1980s, this research programme evolved from a study of the genetic basis of the worm's development and behaviour to a DNA mapping and sequencing initiative. By examining the changing computing technologies which were used at the Laboratory, I demonstrate that by the time of this transition researchers shifted from modelling the worm's genetic programme on a mainframe apparatus to writing minicomputer programs aimed at providing map and sequence data which was then circulated to other groups working on the genetics of C. elegans. The shift in the worm research should thus not be simply explained in the application of computers which transformed the project from hypothesis-driven to a data-intensive endeavour. The key factor was rather a historically specific technology-in-house and easy programmable minicomputers-which redefined the way of achieving the project's long-standing goal, leading the genetic programme to co-evolve with the practices of data production and distribution.