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"Morgan, Gregory J"
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Cancer Virus Hunters
Traces the history of the study of tumor viruses and its role in driving breakthroughs in cancer research.Worldwide, approximately one-fifth of human cancers are caused by tumor viruses, with hepatitis B virus and HPV being the leading culprits. While the explosive growth in molecular biology in the late twentieth century is well known, the role that the study of tumor viruses has played in driving many of the greatest breakthroughs is not. Without the insights gained by studying tumor viruses, many significant theoretical advancements over the last four decades in cellular and molecular biology would not have been made. More practically, the study of tumor viruses has saved thousands, if not millions, of lives.In Cancer Virus Hunters, Gregory J. Morgan traces the high points in the development of tumor virology, from Peyton Rous's pioneering work on chicken tumors in 1909 to the successful development of an HPV vaccine for cervical cancer in 2006. Morgan offers a novel approach to understanding the interconnectedness of a long series of biomedical breakthroughs, including those that led to seven Nobel prizes. Among other advances, Morgan describes and contextualizes the science that prompted the discoveries of reverse transcriptase, RNA splicing, the tumor suppressor p53, the vaccine for hepatitis B, and the HIV test. He also explores how cancer virus hunters have demonstrated the virtue of beginning with a simple system, even when investigating a complex disease like cancer.Based on extensive archival research and over fifty interviews with experts, Cancer Virus Hunters is a tour de force summarizing a century of research to show how discoveries made with tumor viruses came to dominate the contemporary understanding of cancer. By showcasing the scientists themselves, the book makes for an unusually accessible journey through the history of science. It will be of interest to biomedical professionals—especially in oncology, hepatology, and infectious disease—in addition to historians of science and anyone interested in cancer research.
eBook
Carbon Nanotube Chemiresistor for Wireless pH Sensing
The ability to accurately measure real-time pH fluctuations
in-vivo
could be highly advantageous. Early detection and potential prevention of bacteria colonization of surgical implants can be accomplished by monitoring associated acidosis. However, conventional glass membrane or ion-selective field-effect transistor (ISFET) pH sensing technologies both require a reference electrode which may suffer from leakage of electrolytes and potential contamination. Herein, we describe a solid-state sensor based on oxidized single-walled carbon nanotubes (ox-SWNTs) functionalized with the conductive polymer poly(1-aminoanthracene) (PAA). This device had a Nernstian response over a wide pH range (2–12) and retained sensitivity over 120 days. The sensor was also attached to a passively-powered radio-frequency identification (RFID) tag which transmits pH data through simulated skin. This battery-less, reference electrode free, wirelessly transmitting sensor platform shows potential for biomedical applications as an implantable sensor, adjacent to surgical implants detecting for infection.
Journal Article
After the Double Helix: Rosalind Franklin’s Research on Tobacco Mosaic Virus
Rosalind Franklin is best known for her informative X-ray diffraction patterns of DNA that provided vital clues for James Watson and Francis Crick's double-stranded helical model. Her scientific career did not end when she left the DNA work at King's College, however. In 1953 Franklin moved to J. D. Bernal's crystallography laboratory at Birkbeck College, where she shifted her focus to the three-dimensional structure of viruses, obtaining diffraction patterns of Tobacco mosaic virus (TMV) of unprecedented detail and clarity. During the next five years, while making significant headway on the structural determination of TMV, Franklin maintained an active correspondence with both Watson and Crick, who were also studying aspects of virus structure. Developments in TMV research during the 1950s illustrate the connections in the emerging field of molecular biology between structural studies of nucleic acids and of proteins and viruses. They also reveal how the protagonists of the \"race for the double helix\" continued to interact personally and professionally during the years when Watson and Crick's model for the double-helical structure of DNA was debated and confirmed.
Journal Article
Making microbes matter: essay review of Maureen A. O’Malley’s Philosophy of Microbiology
In a pioneering book, Philosophy of Microbiology, Maureen O’Malley argues for the philosophical importance of microbes through an examination of their impact on ecosystems, evolution, biological classification, collaborative behavior, and multicellular organisms. She identifies many understudied conceptual issues in the study of microbes. If philosophers follow her lead, the philosophy of biology will be expanded and enriched.
Journal Article
Evaluating Maclaurin and Sterelny’s conception of biodiversity in cases of frequent, promiscuous lateral gene transfer
The recent conception of biodiversity proposed by James Maclaurin and Sterelny was developed mostly with macrobiological life in mind. They suggest that we measure biodiversity by dividing life into natural units (typically species) and quantifying the differences among units using phenetic rather than phylogenetic measures of distance. They identify problems in implementing quantitative phylogenetic notions of difference for non-prokaryotic species. I suggest that if we focus on microbiological life forms that engage in frequent, promiscuous lateral gene transfer (LGT), and their associated reticulated phylogenies, we need to rethink the notion of species as the natural unit, and we discover additional problems with phylogenetic notions of distance. These problems suggest that a phenetic approach based on morphospaces has just as much appeal, if not more, for microbes as they do for multi-cellular life. Facts about LGT, however, offer no new insight into the additional challenge of reconciling units and differences into a single measure of biodiversity.
Journal Article
Using Ethical Reasoning to Amplify the Reach and Resonance of Professional Codes of Conduct in Training Big Data Scientists
The use of Big Data—however the term is defined—involves a wide array of issues and stakeholders, thereby increasing numbers of complex decisions around issues including data acquisition, use, and sharing. Big Data is becoming a significant component of practice in an ever-increasing range of disciplines; however, since it is not a coherent “discipline” itself, specific codes of conduct for Big Data users and researchers do not exist. While many institutions have created, or will create, training opportunities (e.g., degree programs, workshops) to prepare people to work in and around Big Data, insufficient time, space, and thought have been dedicated to training these people to engage with the ethical, legal, and social issues in this new domain. Since Big Data practitioners come from, and work in, diverse contexts, neither a relevant professional code of conduct nor specific formal ethics training are likely to be readily available. This normative paper describes an approach to conceptualizing ethical reasoning and integrating it into training for Big Data use and research. Our approach is based on a published framework that emphasizes ethical reasoning rather than topical knowledge. We describe the formation of professional community norms from two key disciplines that contribute to the emergent field of Big Data: computer science and statistics. Historical analogies from these professions suggest strategies for introducing trainees and orienting practitioners both to ethical reasoning and to a code of professional conduct itself. We include two semester course syllabi to strengthen our thesis that codes of conduct (including and beyond those we describe) can be harnessed to support the development of ethical reasoning in, and a sense of professional identity among, Big Data practitioners.
Journal Article
Cancer Virus Hunters
It will be of interest to biomedical professionals--especially in oncology, hepatology, and infectious disease--in addition to historians of science and anyone interested in cancer research.
eBook
Laws of biological design: a reply to John Beatty
In this paper, I argue against John Beatty’s position in his paper “The Evolutionary Contingency Thesis” by counterexample. Beatty argues that there are no distinctly biological laws because the outcomes of the evolutionary processes are contingent. I argue that the heart of the Caspar–Klug theory of virus structure—that spherical virus capsids consist of 60T subunits (where T =
k
2
+
hk
+
h
2
and
h
and
k
are integers)—is a distinctly biological law even if the existence of spherical viruses is evolutionarily contingent.
Journal Article