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[
Southeast Asian J Trop Med Public Health,
2006]
We are reporting a case of an eye lesion caused by an adult Brugia malayi. The patient was a 3-year-old Chinese boy from Kemaman District, Terengganu, Peninsular Malaysia. He presented with a one week history of redness and palpebral swelling of his right eye. He claimed that he could see a worm in his right eye beneath the conjunctiva. He had no history of traveling overseas and the family kept dogs at home. He was referred from Kemaman Hospital to the eye clinic of Hospital Tengku Ampuan Afzan, Kuantan, Pahang, Malaysia. On examination by the ophthalmologist, he was found to have a subconjunctival worm in his right eye. Full blood count revealed eosinophilia (10%). Four worm fragments, each about 1 cm long were removed from his right eye under general anesthesia. A thick blood smear stained with Giemsa was positive for microfilariae of Brugia malayi. A Brugia Rapid test done was positive. He was treated with diethylcarbamazine.
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[
Genetics,
2015]
Ellsworth Dougherty (1921-1965) was a man of impressive intellectual dimensions and interests; in a relatively short career he contributed enormously as researcher and scholar to the biological knowledge base for selection of Caenorhabditis elegans as a model organism in neurobiology, genetics, and molecular biology. He helped guide the choice of strains that were eventually used, and, in particular, he developed the methodology and understanding for the nutrition and axenic culture of nematodes and other organisms. Dougherty insisted upon a concise terminology for culture techniques and coined descriptive neologisms that were justified by their linguistic roots. Among other contributions, he refined the classification system for the Protista.
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[
Curr Biol,
2004]
Jonathan Hodgkin graduated from Oxford in 1971 and then did a PhD with Sydney Brenner at MRC LMB in Cambridge, studying behavioural genetics in the nematode Caenorhabditis elegans. Later, after a couple of years working with myxobacteria as a postdoc in Dale Kaiser''s lab at Stanford, he returned to LMB as a staff member, where he remained for most of the subsequent two decades. In the year 2000, he moved to Oxford as Professor of Genetics in the Department of Biochemistry, switching his major research interests from developmental genetics and sex determination to the study of host-pathogen interactions in the worm. For the past ten years, he has acted as curator of the C. elegans genetic map and gene nomenclature, and he is currently President of the Genetics Society of Great Britain.
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[
Nature,
1997]
Who scapes the lurking sepent's mortal sting? Not he that sets his foot upon her back. Even the smallest of worms will turn, when trodden on.
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[
J Biol Chem,
2002]
WW domains are universal protein modules for binding Pro-rich ligands. They are classified into four groups according to their binding specificity. Arg-14 and Arg-17, on the WW domain of Pin1, are thought to be important for the binding of Group IV ligands that have (Ser(P)/Thr(P))-Pro sequences. We have applied surface plasmon resonance to determine the ligand specificity of several WW domains containing Arg-14. Among these WW domains, Rsp5.2 and mNedd4.3 bound only to the Group I ligand containing Pro-Pro-Xaa-Tyr with K(D) values of 11 and 55 microm, respectively. The WW domains of hPin1, Caenorhabditis elegans Pin1 homologue (Y110), PinA, and SspI bound to Group IV ligands with K(D) values ranging from 22 to 700 microm. PinA and SspI do not have Arg-17, unlike Pin1 and Y110. The modeled structures of the WW domains of PinA and SspI revealed that the structure and the network of hydrogen bonds of Loop I, which are also formed in Pin1 and Y110, are conserved. We propose that this configuration of Loop I (referred to as the "p patch") is necessary for binding Group IV ligands and that it can be used to predict the specificity and functions of other WW domains.
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[
Worm Breeder's Gazette,
1992]
EXPRESSION AND LOCALIZATION OF THE cha-l AND
unc-17 GENE PRODUCTS He-ping Han, Janet Duerr, and Jim Rand, Oklahoma Medlcal Research Foundation, Oklahoma Clty, OK 73104
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[
The New York Times,
1997]
His tall figure bent over a computer screen in his laboratory at the Massachusetts General Hospital, Dr. Gary Ruvkun rummages through a distant genetic data base for matches to a gene he believes is involved in diabetes. ?You learn how to read these as they are ratcheting by,? he says, while lines of data streak up his screen. ?I think MTV is good training.?
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[
Nucleic Acids Res,
2019]
Nucleosomal DNA sequences generally follow a well-known pattern with 10-bp periodic WW (where W is A or T) dinucleotides that oscillate in phase with each other and out of phase with SS (where S is G or C) dinucleotides. However, nucleosomes with other DNA patterns have not been systematically analyzed. Here, we focus on an opposite pattern, namely anti-WW/SS pattern, in which WW dinucleotides preferentially occur at DNA sites that bend into major grooves and SS (where S is G or C) dinucleotides are often found at sites that bend into minor grooves. Nucleosomes with the anti-WW/SS pattern are widespread and exhibit a species- and context-specific distribution in eukaryotic genomes. Unlike non-mammals (yeast, nematode and fly), there is a positive correlation between the enrichment of anti-WW/SS nucleosomes and RNA Pol II transcriptional levels in mammals (mouse and human). Interestingly, such enrichment is not due to underlying DNA sequence. In addition, chromatin remodeling complexes have an impact on the abundance but not on the distribution of anti-WW/SS nucleosomes in yeast. Our data reveal distinct roles of cis- and trans-acting factors in the rotational positioning of nucleosomes between non-mammals and mammals. Implications of the anti-WW/SS sequence pattern for RNA Pol II transcription are discussed.
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[
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.
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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