Angelo Mosso and muscular fatigue: 116 years after the first Congress of Physiologists: IUPS commemoration

At the first International Congress of Physiologists in Basel, Switzerland, the Italian physiologist Angelo Mosso (1846-1910) discussed his findings on muscular fatigue while demonstrating the functioning of an ergograph (work recorder). One hundred sixteen years later, Mosso's career, scientific accomplishments, and legacy in the study of muscular fatigue were commemorated at the 2005 International Congress of Physiological Sciences. After receiving his degree in Medicine and Surgery from Turin, Italy, in 1870, Mosso was able to study and interact with renowned physiologists as Wilhelm Ludwig, Du Bois-Reymond, Hugo Kronecker, and Etienne Marey. By 1879, he was Professor of Physiology at the University in Turin, where he conducted research pertaining to blood circulation, respiration, physical education, high-altitude physiology, and muscular fatigue. Using tracings from the ergograph (concentric contractions of the flexor muscles of the middle finger that were volitionally or electrically stimulated), he was able to characterize muscle fatigue and to associate its occurrence with central or peripheral influences. He demonstrated that exercise would increase muscular strength and endurance while prolonging the occurrence of fatigue, which he postulated was a chemical process that involved the production of toxic substances such as carbonic acid. The phenomenon of contracture was described, and his collective studies led to the formulation of laws pertaining to exhaustion and to the 1891 publication of La Fatica (Fatigue). Besides La Fatica, Mosso will be remembered as a scientist with a love for physiology, a concern for the social welfare of his countrymen, and as one who sought to integrate physiological, philosophical, and psychological concepts in his experimental studies.     

Nobuhiko Katunuma: an outstanding scientist in the field of proteolysis and warm-hearted 'Kendo Fighter' biochemist

Professor Nobuhiko Katunuma is well known for his outstanding contribution to the understanding of proteolysis in general and cysteine proteinases and their inhibitors in mammals. In fact, he is a world pioneer in the field. In 1963, he started his highly successful scientific career as a Professor at the Institute for Enzyme Research, the University of Tokushima. During the initial 30 years of his career, he was interested in vitamin B6 metabolism and discovered the acceleration of turnover rates of pyridoxal enzyme in apoprotein formation. After this period, his interest expanded to lysosomal cystein proteinases and their endogenous inhibitors. After determining the crystal structure of human cathepsin B, he generated a series of chemically synthesized specific inhibitors of cathepsins. These inhibitors are currently used throughout the world and some of them have been applied therapeutically in various diseases. During his career and even at present, Professor Katunuma has been studying Biochemistry in Medicine and also practicing to become a 'Kendo sword fencing Fighter'.     

Direct physical formation of anatomical structures by cell traction forces. An interview with Albert Harris by Lev Beloussov

Albert Harris was educated at The Norfolk Academy, Norfolk, Virginia, USA (1961). He then earned a Batchelor of Arts Degree in Biology from Swarthmore College, in Pennsylvania, USA (1965), followed by a Ph.D. in Biology (1971) from Yale University, where his Dissertation Advisor was the great John Phillip Trinkaus. He held a Damon-Runyon Postdoctoral Fellowship in Cancer Research in 1970-72, under Michael Abercrombie, FRS, at the Strangeways Research Laboratory of Cambridge University, England. Then he accepted a position as Assistant Professor in the Zoology Department of the University of North Carolina at Chapel Hill, N.C. USA. In 1977, he was promoted to Associate Professor of Zoology, and in 1983 was promoted to Full Professor of Biology. In Oct.-Nov. 1991 he was honored to be Distinguished Visiting Professor of Zoology at the University of California at Davis.     

纪念戴芳澜教授诞辰九十周年

戴芳澜教授(1893.5.4—1973.1.3)是我国真菌学的创始人,也是我国植物病理学的主要奠基人之一。他为祖国培养了大量人才。为纪念他的光辉业绩,值戴教授诞辰九十周年、逝世十周年之际,特发表他的一篇评论性论文;戴教授的主要著作目录;俞大绂、陈鸿逵、周家炽、裘维蕃、相望年等教授的怀念性文章和他一生中各时期的照片两版,以资纪念。     

李济先生与周口店研究：纪念李济先生诞辰100周年

李济先生是中国考古学的奠基人,中国第一位人类学家。他毕生从事考古学研究,著作等身,桃李满天下。他的功绩主要体现在安阳殷墟的发掘与研究上,考古学的其他方面亦建树甚丰。本文仅就李先生在中国旧石器考古草创时期,特别是在周口店本世纪３０年代初发掘方法改革中的贡献等方面作简要的介绍。以此纪念济先生诞辰１００周年。为使读者了解他取得巨大成就的历史背景,对其生平亦作点录。     

James F. Crow: his life in public service

The readers of this journal may well be aware of Professor Crow's scientific achievements and his role as the editor of Perspectives. In addition, for many thousands of students at the University of Wisconsin over many generations, James F. Crow was one of the most memorable teachers at both the undergraduate and graduate levels. What is less known is his major role in public service where he served as chair of many important committees for the National Academy of Sciences, the National Institutes of Health, the National Institutes of Justice as well as various international programs. In all of these efforts, Professor Crow has left a lasting impact.     

Role of nitrogen in the photoinduction of protoperithecia and carotenoids in Neurospora crassa

Nitrogen, as KNO₃ or NH₄NO₃, can inhibit the photoinduction of protoperithecia in Neurospora crassa when present in the medium at a high concentration but does not inhibit the photoinduction of carotenoids. The point at which the presence of high nitrogen levels is no longer inhibitory is 5 h after illumination.Abbreviations al albino mutant - wc white-collar mutant - WM Westergaard and Mitchell (1947) medium Dedicated to Professor Wilhelm Nultsch in honour of his 60th birthday     

August Rauber (1841-1917): from the primitive streak to Cellularmechanik

In the early 19th century Karl Ernst von Baer initiated a new research program searching for the mechanisms by which an egg transforms itself into an embryo. August Rauber (1841-1917) took up this challenge. He considered the phylogenetic principle as the right tool to explain the similitude of embryogenetic processes. In extending Baer's approach, he combined comparative embryology and histology in his studies of avian and mammalian embryos. His earlier work demonstrated that the two-layered chick embryo is a modified gastrula and not a "disc" as Wilhelm His had claimed. From the 1880s onwards, he concentrated on the issue of how the development of germ layers is related to tissue differentiation. To address this, he studied the blastopore, epiblast, primitive streak, teratology and the relative importance of nucleus and cytoplasm in heredity. This paper reconstructs some of Rauber's work and concludes that his observations and reflections constituted a new approach combining embryology and histology with "phylogenetic" reasoning.     

The genius of Wilhelm Hofmeister: the origin of causal-analytical research in plant development

Friederich Wilhelm Benedikt Hofmeister (1824-1877) stands as one of the true giants in the history of biology and belongs in the same pantheon as Darwin and Mendel. Yet by comparison, he is virtually unknown. If he is known at all, it is for his early work on flowering plant embryology and his ground-breaking discovery of the alternation of generations in plants, which he published at age 27 in 1851. Remarkable as the latter study was, it was but a prelude to the more fundamental contributions he was to make in the study of plant growth and development expressed in his books on plant cell biology (Die Lehre von der Pfanzenzelle, 1867) and plant morphology (Allgemeine Morphologie der Gewächse, 1868). In this article we review his remarkable life and career, highlighting the fact that his scientific accomplishments were based largely on self-education in all areas of biology, physics, and chemistry. We describe his research accomplishments, including his early embryological studies and their influence on Mendel's genetic studies as well as his elucidation of the alternation of generations, and we review in detail his cell biology and morphology books. It is in the latter two works that Hofmeister the experimentalist and biophysicist is most manifest. Not only did Hofmeister explore the mechanisms of cytoplasmic streaming, plant morphogenesis, and the effects of gravity and light on their development, but in each instance he developed a biophysical model to integrate and interpret his wealth of observational and experimental data. Because of the lack of attention to the cell and morphology books, Hofmeister's true genius has not been recognized. After studying several evaluations of Hofmeister by contemporary and later workers, we conclude that his reputation became eclipsed because he was so far ahead of his contemporaries that no one could understand or appreciate his work. In addition, his basically organismic framework was out of step with the more reductionistic cytogenetic work that later came in vogue. We suggest that the translation of the cell and morphology books in English would help re-establish him as one of the most notable scientists in the history of plant biology.     

Contribution of late Professor T. C. Tung to the experimental embryology of Amphioxus

Professor T. C. Tung (Fig. 1) was a prominent experimental embryologist in China. He was born in Jin County, Zhejiang Province, China in 1902. After he obtained his Bachelor's degree from the Department of Biology, Fudan University, Shanghai in 1927, he was appointed as a teaching assistant in that department until he moved to Belgium in 1930. He studied as a graduate student in Professors A. Brachet and A. M. Dalcq's laboratory at the Universite Libre de Bruxelles, Belgium and obtained his Doctor of Science degree there in 1934. During that period, he made two short working visits to the Institute of Marine Biology in France and took one training course at Cambridge University (UK). In 1934, he was invited to return to China as a Full Professor to teach at several Chinese universities, (Shandong University in Qingdao, Shandong Province; the National University in Nanjing; and Fudan University in Shanghai). He spent 1 year at Yale University (USA) between 1948 and 1949 as an invited scientist in a joint research project and finally returned to China in 1949. He was Chairman of the Department of Zoology, Shandong University in Qingdao (1949-1952), Vice-President of Shandong University (1952-1960), Director of the Marine Biological Institute, the Chinese Academy of Sciences (CAS) in Qingdao (1949-1958), Director of the Institute of Oceanology (CAS) in Qingdao (1959-1966), Director of the Institute of Zoology (CAS) in Beijing (1960-1962), member of CAS since 1955, Vice-Chairman of the Biological and Geographical Division of CAS (1955-1958), Chairman of the Biological Division of CAS (1959-1979) and Vice-President of CAS in Beijing (1978-1979). In spite of his administrative duties, he spent most of his life conducting bench work in his laboratories at the Institutes of Oceanology and Zoology, CAS, respectively, until he passed away in March 1979. Professor Tung's main research interest was with classic experimental studies on the determination of the egg axis and symmetry planes of fertilized eggs, early differentiation and organizing substances of egg cytoplasm, induction between embryonic cells and cytoplasm in embryogenesis, immunological studies on nuclear transplanted eggs, and cell fusion etc., in several types of animals. He conducted his experiments on a number of invertebrates (ascidians and Amphioxus) and vertebrates (fish and amphibians) by means of very skillful microsurgical operations and the nuclear transplantation method. Among these topics, his studies on the organization and developmental potency of Amphioxus eggs were unique. His important contribution to this research field involved not only establishing a practical method for collecting and using this rare animal for experimental purposes, but also clarifying controversy about the nature and early development of its eggs. He also provided conclusive evidence to determine its evolutionary position between invertebrates and vertebrates. The present article briefly reviews the main results obtained by Professor Tung and his colleagues on Amphioxus. Although their original articles were written both in Chinese and English, many international readers may not even know those original works because they were only published in scientific journals inside China from the 1950s. Comments and discussion on the experimental results of Amphioxus research by Tung's group and those from other earlier authors are also included.     

Proteomics data mining

Marc Wilkins completed his undergraduate and doctoral studies at Macquarie University, Sydney, Australia. During his doctoral studies, he defined the concept of the proteome and coined the term. After postdoctoral studies in Geneva, Switzerland, during which he co-edited the first book on proteomics, he returned to Australia, where he cofounded the company Proteome Systems. More recently, Marc took a position as Professor of Systems Biology at the University of New South Wales. He has established and directs the NSW Systems Biology Initiative, and is currently researching the role that protein post-translational modifications play in the regulation of protein-interaction networks.     

Shigeo Yamanouchi (1876–1973): A noted Japanese phycologist

Dr Shigeo Yamanouchi was born in Yamagata Prefecture and completed his secondary education at Tokyo Higher Normal School (THNS) where he was also a professor until 1904. In 1905, he went to the University of Chicago in the USA and earned a PhD in Botany in 1907. He is best noted for his excellent research on the cytology and life histories of the marine algae Polysiphonia, Fucus, Cutleria, Aglaozonia and Zanardinia, published between 1906 and 1921 while he was associated with the University of Chicago. He also described the freshwater green alga Hydrodictyon africanum. In 1910, he returned to THNS as a Professor and wrote several botanical textbooks, receiving his DSc degree in 1911 and traveling in England and the USA as an advisor for the Japanese Ministry of Education during 1911–1913. For much of the time between 1920 and 1942 he remained in the USA, returning to Japan following the advent of World War II, During his later life, he was in obscurity, and sadly there is very little recorded of his activities in the post-war years. He died in Tokyo on 2 February 1973 at the age of 96.     

Tribute Roland Douce, 1939–2018

Photosynthesis Research - On November 4, 2018, Roland Douce, Professor Emeritus at the University of Grenoble, France, died at the age of 79. In Grenoble, where he spent most of his scientific...     

James F. Crow and the art of teaching and mentoring

To honor James F. Crow on the occasion of his 95th birthday, GENETICS has commissioned a series of Perspectives and Reviews. For GENETICS to publish the honorifics is fitting, as from their birth Crow and GENETICS have been paired. Crow was scheduled to be born in January 1916, the same month that the first issue of GENETICS was scheduled to appear, and in the many years that Crow has made major contributions to the conceptual foundations of modern genetics, GENETICS has chronicled his and other major advances in the field. The commissioned Perspectives and Reviews summarize and celebrate Professor Crow's contributions as a research scientist, administrator, colleague, community supporter, international leader, teacher, and mentor. In science, Professor Crow was the international leader of his generation in the application of genetics to populations of organisms and in uncovering the role of genetics in health and disease. In education, he was a superb undergraduate teacher whose inspiration changed the career paths of many students. His teaching skills are legendary, his lectures urbane and witty, rigorous and clear. He was also an extraordinary mentor to numerous graduate students and postdoctoral fellows, many of whom went on to establish successful careers of their own. In public service, Professor Crow served in key administrative positions at the University of Wisconsin, participated as a member of numerous national and international committees, and served as president of both the Genetics Society of America and the American Society for Human Genetics. This Perspective examines Professor Crow as teacher and mentor through the eyes and experiences of one student who was enrolled in his genetics course as an undergraduate and who later studied with him as a graduate student.     

Biology and war--American biology and international science

The German-born American scientist Jacques Loeb (1859-1924) was one of the most important promoters of experimental biology around 1900. He was best known for his physico-chemical explanations of psychological processes and his biotechnological approach to artificial parthenogenesis. At the start of the First World War, Loeb was deeply troubled by the deterioration of the international scientific community and the growing alienation of his German and American colleagues. The aim of this paper is to examine Jacques Loeb's activities aimed at advancing scientific internationalism before, during, and after the war. Loeb, for example, tried to negotiate the publication of German authors in American journals during the war, at a time when this was categorically rejected by publishers. Immediately after the war, he tried to create a specific system aimed at disseminating scientific literature and funding selected European colleagues, in order to overcome what he considered reactionary and hegemonic forces within German scientific institutions. His correspondence with eminent scientists from all over the world (amongst them Albert Einstein, Richard Goldschmidt, Otto Meyerhof, Otto Warburg, Paul Ehrlich, Wolfgang Ostwald, Wilhelm Roux, and Ross Harrison) will serve as a source for the analysis. Special emphasis will be placed on the question how Jacques Loeb integrated epistemology, his particular world view, and his social commitment into the workings of his own life and how he tried to extend his scientific goal of controlling biological systems to the sphere of international science.     

Four Children and Yale: The Making of a Human Geneticist: The Grover Powers Lecture 2014

Dr. Leon E. Rosenberg delivered the following presentation as the Grover Powers Lecturer on May 14, 2014, which served as the focal point of his return to his “adult home” as a Visiting Professor in the Department of Pediatrics. Grover F. Powers, MD, was one of the most influential figures in American Pediatrics and certainly the leader who created the modern Department of Pediatrics at Yale when he was recruited in 1921 from Johns Hopkins and then served as its second chairman from 1927 to 1951. Dr. Powers was an astute clinician and compassionate physician and fostered and shaped the careers of countless professors, chairs, and outstanding pediatricians throughout the country. This lectureship has continued yearly since it first honored Dr. Powers in 1956. The selection of Dr. Rosenberg for this honor recognizes his seminal role at Yale and throughout the world in the fostering and cultivating of the field of human genetics. Dr. Rosenberg served as the inaugural Chief of a joint Division of Medical Genetics in the Departments of Pediatrics and Internal Medicine; he became Chair when this attained Departmental status. Then he served as Dean of the Medical School from 1984 to 1991, before he became President of the Pharmaceutical Research Institute at Bristol-Myers Squibb and later Senior Molecular Biologist and Professor at Princeton University, until his recent retirement. Dr. Rosenberg has received numerous honors that include the Borden Award from the American Academy of Pediatrics, the McKusick Leadership Award from the American Society for Human Genetics, and election to the Institute of Medicine and the National Academy of Sciences.     

Jonathan Hodgkin

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.     

Philip Cohen

Philip Cohen trained at University College London and, after postdoctoral research at the University of Washington, joined the University of Dundee Scotland, in 1971, where he has worked ever since. He is a Royal Society Research Professor and Director of the Medical Research Council Protein Phosphorylation Unit. His main contributions have been in the area of protein phosphorylation and its role in cell regulation and human disease. In 1998, he was knighted for his contributions to biochemistry and the development of Life Sciences at Dundee.     

Stimulation of lactobacilli by an aqueous extract of the green alga Scenedesmus acutus 276-3a

Summary The hot-water extract of Scenedesmus acutus 276-3a enhances acid formation by Lactobacillus casei var. sbirota, Streptococcus lactis and Streptococcus thermophilus appreciably. At least in S. lactis the stimulation is not caused by mineral constituents such as Mn²⁺. In order to facilitate screening, a quick test in tubes was used. Stimulation of lactobacilli by algal extract is also demonstrated in tests on agar plates containing TTC. Bioautography of algal extract fractions on TTC plates enabled adenine and hypoxanthine to be identified as growth factors in algal extract which contributed towards the stimulation of S. lactis.Dedicated to Professor Dr. Wilhelm Halbsgut on the occasion of his 65th birthday