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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.
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Toxicon,
2001]
Diphtheria toxin is one of the most extensively studied and well understood bacterial toxins. Ever since its discovery in the late 1800's this toxin has occupied a central focus in the field of toxinology. In this review, I present a chronology of major discoveries that led to our current understanding of the structure and activity of diphtheria toxin.
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Genetics,
2014]
THE Genetics Society of America's Thomas Hunt Morgan Medal is awarded to an individual GSA member for lifetime achievement in the field of genetics. The 2014 recipient is Frederick Ausubel, whose 40-year career has centered on host-microbe interactions and host innate immunity. He is widely recognized as a key scientist responsible for establishing the modern postrecombinant DNA field of host-microbe interactions using simple nonvertebrate hosts. He has used genetic approaches to conduct pioneering work that spawned six related areas of research: the evolution and regulation of Rhizobium genes involved in symbiotic nitrogen fixation; the regulation of Rhizobium genes by two-component regulatory systems involving histidine kinases; the establishment of Arabidopsis thaliana as a worldwide model system; the identification of a large family of plant disease resistance genes; the identification of so-called multi-host bacterial pathogens; and the demonstration that Caenorhabditis elegans has an evolutionarily conserved innate immune system that shares features of both plant and mammalian immunity.
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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
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Carbohydr Res,
2016]
This review discusses the advances in metabolic oligosaccharide engineering (MOE) from 2010 to 2016 with a focus on the structure, preparation, and reactivity of its chemical probes. A brief historical overview of MOE is followed by a comprehensive overview of the chemical probes currently available in the MOE molecular toolbox and the bioconjugation techniques they enable. The final part of the review focusses on the synthesis of a selection of probes and finishes with an outlook on recent and potential upcoming advances in the field of MOE.
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Hist Philos Life Sci,
2000]
The transformation of embryology to developmental biology has been linked to the introduction of experimental approaches from molecular genetics to the study of development. This paper pursues this theme by analyzing the tools molecular biologists, moving from phage and bacterial genetics to the study of development in higher organisms, brought to their new field of investigations. The paper focuses on Sydney Brenner's move from molecular genetics to developmental biology. His attempt to turn the nematode worm Caenorhabditis elegans into a new tool for the study of development included a vast and ever expanding mapping program. Worm workers themselves did not distinguish sharply between mapping on the cellular, chromosomal or molecular level. Mapping, the paper argues, or more generally 'analytical/comparative' next to 'experimentalist' approaches (Pickstone) were not only part and parcel of Brenner's strategy to 'molecularize' the study of development, but also played a crucial role in 'classical' molecular biology.
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Philos Trans R Soc Lond B Biol Sci,
2015]
The article 'Structure of the nervous system of the nematode Caenorhabditis elegans' (aka 'The mind of a worm') by White et al., published for the first time the complete set of synaptic connections in the nervous system of an animal. The work was carried out as part of a programme to begin to understand how genes determine the structure of a nervous system and how a nervous system creates behaviour. It became a major stimulus to the field of C. elegans research, which has since contributed insights into all areas of biology. Twenty-six years elapsed before developments, notably more powerful computers, made new studies of this kind possible. It is hoped that one day knowledge of synaptic structure, the connectome, together with results of many other investigations, will lead to an understanding of the human brain. This commentary was written to celebrate the 350th anniversary of the journal Philosophical Transactions of the Royal Society.
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Gradolewski D, Krawczuk M, Tojza P, Koncicki A, Ambroziak D, Redlarski G, Lewczuk B, Jakubiuk K, Jaworski J, Skarbek L, Piechocki J, Zak A
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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.
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Exp Oncol,
2012]
The story of cell death began with the origins of cell biology, including important observations by Elie (Ilya) Metchnikoff, who realized that phagocytes engulfed dying cells. Most of the early studies were observational. By the middle of the 20th C, researchers were beginning to explore how cells died, had recognized that cell death was a physiologically controlled process, that the most common mode of death ("shrinkage necrosis", later apoptosis) was tightly controlled, and were speculating whether lysosomes were "suicide bags". Just prior to 1990 several discoveries led to rapid expansion of interest in the field and elucidation of the mechanisms of apoptosis. Closer to the beginning of the 21st C comprehensive analysis of the molecules that controlled and effected apoptosis led to the conclusion that autophagic processes were linked to apoptosis and could serve to limit or increase cell death. Today, realizing that knowledge of the components of cell death has not yet produced pharmaceuticals of therapeutic value, research is turning to questions of what metabolic or other mechanisms indirectly control the activation or suppression of the cell death positive feedback loop. This article is part of a Special Issue entitled "Apoptosis: Four Decades Later"