41. Institute For Mathematics And Its Applications (IMA)- 1998-1999 Program: Mathema until the past 1020 years, communication between mathematicians and biologistsremained problematical; much work in mathematical biology was relatively http://www.ima.umn.edu/biology/

Search Contact Information Program Registration Postdoc/Membership Application Program Feedback ... Program Solicitation IMA ANNUAL PROGRAM FOR 1998-1999: The year is divided into three components: Fall Quarter, September-December, 1998: Theoretical Problems in Developmental Biology and Immunology Winter Quarter, January-March, 1999: Mathematical Problems in Physiology Spring Quarter, April-June, 1999: Dynamic Models of Ecosystems and Epidemics O n-line Workshop Registration Form Fall'98 Participants List ... Winter'99 Participants List Annual Program Organizers Name Present Institution Lisa J. Fauci Simon A. Levin James D. Murray Alan Perelson (Chair) Michael Reed Tulane University Princeton University University of Washington ... Los Alamos Natl. Lab.

42. Centre For Mathematical Biology fibroblast movement, angiogenesis). The Mathematics Department also runsan MSc course in mathematical biology. mathematical biology at http://www.mcs.dundee.ac.uk:8080/~chaplain/centre.html

43. Mathematical Biology mathematical biology. Organizer Pauline van den Driessche. All talks in thissession will be in the David Strong Building Room C103. Friday, June 8. http://www.pims.math.ca/caims/mathematical.html

CAIMS 2001 Submit Abstract Registration Important Dates ... Accommodations Reserve before May 7 Visitor Info Schedule Poster Session Grad/PostDoc Award Sessions Data Compression Applied Dynamical Systems Computational Biology Fluid Dynamics ... Neural Networks Sponsors Mathematical Biology Organizer: Pauline van den Driessche All talks in this session will be in the David Strong Building Room C103. Friday, June 8 Leah Keshet , University of British Columbia, Abstract Michael Li , University of Alberta, Abstract Mark Lewis , University of Utah, Abstract Mark Kot , University of Washington, Abstract PLENARY SPEAKER: Hal Smith , Arizona State University, Abstract Gail Wolkowicz , McMaster University, Abstract Mary Lou Zeeman , University of Michigan/University of Texas, San Antonio, Abstract William Langford , University of Guelph, Abstract Session: Applied Dynamical Systems Sally Blower , University of California at Los Angeles, Abstract Saturday, June 9 Shigui Ruan , Dalhousie University, Abstract

44. Mathematical Biology Thematic Programme on mathematical biology University of British ColumbiaVancouver, Canada JuneAugust 1999. The PIMS Thematic Summer http://www.pims.math.ca/science/1999/bio99/

Thematic Programme on Mathematical Biology University of British Columbia Vancouver, Canada June-August 1999 The PIMS Thematic Summer in Mathematical Biology consists of 5 workshops held at the University of British Columbia during June-August, 1999. Workshops: Genomics, May 31-June 11, 1999 Mathematical Physiology, June 14-25, 1999 Mathematical Epidemiology, July 19-30, 1999 Mathematical Ecology, August 2-13, 1999 ... Mathematical Cellular Biology, August 16-27, 1999 Registration and Information: Registration for each event will take place on the first day of each event in Room 306 of the Old Computer Science Building at UBC. (This is PICLThe Pacific Institute Computing Laboratory) Please submit a registration form by email. Questions regarding registration may be sent to pims@pims.math.ca An interactive map of the UBC campus is available, if your browser supports java. Speakers will be staying at one of either St Johns or, Green Colleges on the UBC Campus Participants will be staying at Place Vanier (UBC Residences) Accommodation: Directions to Place Vanier, Green College and St. John's College

45. Mathematical Biology I (AMATH 503) mathematical biology I. (Prerequisites AMATH 402 or equivalent knowledge of ordinarydifferential equations) Textbook. Murray, James D. mathematical biology. http://www.amath.washington.edu/courses/503-autumn-1999/

AMATH 503 SLN 1199, TTh 9:00-10:20, Guggenheim 408D Mathematical Biology I (Prerequisites: AMATH 402 or equivalent knowledge of ordinary differential equations) Instructor: Professor Hong Qian Guggenheim 405C tel: 685-2971 fax: 685-1440 qian@amath.washington.edu office hours: TBA Homework Lecture Notes Grades Message Board ... Schedule Course Description Formulating mathematical models for biomedical problems is an increasingly important aspect of quantitative biological and medical sciences. This course focuses on various models for biomedical processes based on ordinary differential equations. The biological area ranges over molecular and cell biology, physiology and neural science, ecology and epidemiology. Topics covered include Michaelis-Menton theory for enzyme kinetics, Hodgkin-Huxley model for cellular electrical activity, neural network, continuous and discrete population interactions, biological oscillators, and the dynamics of infectious diseases. Textbook Murray, James D.

46. Mathematical Biology Journal Club mathematical biology Journal Club. Interesting Links to the World of MathematicalBiology. mbjc@amath.washington.edu Fri Sept 29 093503 2000. http://www.amath.washington.edu/~mbjc/

Mathematical Biology Journal Club The Mathematical Biology Journal Club (MBJC) consists a group of students and faculty members in mathematics, biological and physical sciences, medicine, as well as engineering who are interested in the interface of biomedical science and mathematics. We meet once a week in an informal atmosphere, and we encourage the participants to explore and develop various topics of common interest. Anyone who is interested in quantitative issues in and theoretical approach to biology and medicine is welcome! If you have a biological and/or medical research problem for which you like to develop a quantitative treatment, you are encouraged to join us. Scheduel for 2001 Autumn Quarter: Time: Thursday, 4:00-5:00PM Place: Applied Mathematics Library, Guggenheim Hall , Room 408D. Reading Material: Most reading material will be available on line electronically. In some cases you will find the reading material in the Applied Mathematics Libarary (Guggenheim Hall, Room 408D) in a folder labled "Mathematical Biology Journal Club". DO NOT take the copy. Current Topics: The format of this term is journal reading focusing on biological networks - genetic, regulatory, and metabolic. Each participant will find papers of his/her own interest on a related topic. Announcement will be sent out at least a week prior to the meeting.

47. Springer Mathematics Core Journals: Journal Of Mathematical Biology Journal of mathematical biology Journal of mathematical biology Managingeditors O. Diekmann, A. Hastings. NEW! All members of the http://www.springer.de/math/journals/c_00285.html

Journal of Mathematical Biology Managing editors: O. Diekmann, A. Hastings NEW! All members of the ESMTB receive free electronic access to JMB Scope represents new and emerging areas of research in Mathematical Biology published at highest scientific standards Online First With Online First , articles can be published in electronic form weeks before distribution of the print journal - even before the issue and page numbers have been assigned. Journal of Mathematical Biology focuses on mathematical biology - work that uses mathematical approaches to gain biological understanding or explain biological phenomena. Areas of biology covered include, but are not restricted to, biofluids, cell biology, physiology, neurobiology and behaviour, development, ecology, population biology, genetics and evolution, epidemiology, immunology, molecular biology, DNA and protein structure and function. All amthematical approchoaches are appropriate. free electronic sample copy editorial board submitting?

48. Research In Mathematical Biology Research in mathematical biology. mathematical biology is the applicationof mathematical modelling to solve problems in biology and physiology. http://www.maths.gla.ac.uk/research/groups/biology/

Mathematics Home Research Undergrad Postgrad ... Combinatorics Research in Mathematical Biology Mathematical Biology is the application of mathematical modelling to solve problems in biology and physiology. It is one of the fastest growing research areas in mathematics and is contibuting significantly to our understanding of the biological world and the processes in disease. It also produces new mathematical questions. The Mathematical Biology Group in the Department of Mathematics has four academic members of staff, including two who were recently appointed, Professor Nick Hill and Dr Martin Bees. Our research interests are summarised here, but the list is not exhaustive and new projects are being started all the time. For more information and contact details, click on the links below. Research interests Dr Martin Bees Bioconvection Biological control of pests, Bacterial pattern formation Plankton patchiness Further details Professor Nick Hill Arterial disease Bioconvection Plankton population dynamics Random walks and animal movement Further details Dr Kenneth Lindsay Carcinogenesis Neurons Further details Professor Ray Ogden Mechanics of biological tissues Arteries Further details Seminars

49. NVTB: Theoretical & Mathematical Biology Sites Theoretical and mathematical biology Sites. CMB Centre for mathematical biology(University of Bath); BioSS Biomathematics and Statistics Scotland; http://www.bio.vu.nl/nvtb/TB.html

Theoretical and Mathematical Biology Sites Research Groups and Institutes CMB: Centre for Mathematical Biology University of Bath BioSS: Biomathematics and Statistics Scotland CREEM: Centre for Research into Ecological and Environmental Modelling University of St. Andrews Bio-Mathematics Group University of Southampton EvALife Project on Complex Systems Reports and Courses Online Methods in Theoretical Biology , by S.A.L.M. Kooijman Theoretical Immunology , by D. Forsdyke An Introduction to Mathematical Biology (notes.ps) , by H. van den Berg Self-Reproducing Systems , by A.A. Sharov Mathematical Life Sciences Archives , a collection organized by E. Dobos, L. Gross and C. Zimmermann Mathematics of Evolution , a book review by F. Hoyle New Theoretical Approach to the Description of Physico-Chemical Reaction Dynamics with Chaotic Behavior , by V. Gontar New Theoretical Foundation for the Discrete Dynamics of Physicochemical Systems: Chaos, Self-Organization, Time and Space in Complex Systems , by V. Gontar Complexity and Order in Chemical and Biological Systems , by G. Yagil

50. Elsevier Science | Redirect Similar pages mathematical biology Groupmathematical biology Group. Members. Dr Steve Coombes. Dr Steven Webb.Mathematical modelling in biology and medicine. Matthew DenmanJohnson. http://www.elsevier.nl/locate/bulmathbio

Results of approximate matching : Search for: /bulmathbio Found: Locate address Corresponding URL /locate/jnlabr/ybulm /inca/publications/store/6/2/2/8/0/2/ /locate/jnlabr/absbul /inca/publications/store/6/2/2/2/6/2/ /locate/bulsci /inca/publications/store/6/0/0/7/2/9/ /locate/brainresbull /inca/publications/store/5/2/5/4/5/6/ /locate/editors/marpolbul /inca/publications/store/4/0/0/?menu=edit /locate/jnlabr/bulsci /inca/publications/store/6/0/0/7/2/9/ /locate/editors/bulsci /inca/publications/store/6/0/0/7/2/9/?menu=edit /locate/marpolbul /inca/publications/store/4/0/0/ /locate/editors/brainresbull /inca/publications/store/5/2/5/4/5/6/?menu=edit Back to the Home Page Elsevier Science: Customer Support

51. Mathematical Biology At UBC mathematical biology at UBC. The Mathematics Department at the University of BritishColumbia is known for its active mathematical biology research group. http://www.math.ubc.ca/people/faculty/keshet/mathbio/mathbio.html

Mathematical Biology at UBC The Mathematics Department at the University of British Columbia is known for its active Mathematical Biology research group. This page lists some of the participants in this group, together with our connections to other faculty members at UBC. More information about these faculty members, about courses and graduate degree programs is available from the affiliated web page describing graduate studies in the Department of Mathematics. Graduate programs (MSc, PhD) can be arranged with research supervisors and course credits from several departments in most of the areas listed below. (See also Institute of Applied Mathematics RESEARCH AREAS INCLUDE: Ecology, Animal Behaviour Evolutionary Genetics Cellular and Molecular Biology Excitable Cells, Neurobiology Morphogenesis, Pattern Formation, Self-Organization Nonlinear Dynamics, Chaos FACULTY IN MATHEMATICS Leah Keshet : Cytoskeleton and actin dynamics, swarming and aggregation behaviour in animal societies Yue Xian Li : Calcium dynamics, signal transduction in cells, biophysics, neuroscience

52. >Mathematical Biology At UBC mathematical biology. Aside from specific courses in mathematical biology, wehave links to faculty and programs in many other departments on campus. http://www.math.ubc.ca/Research/mathbio.html

Mathematical Biology Our active research areas include neurophysiology, biophysics, cell biology, ecology, and a broad range of interdisciplinary areas. We are a subset of the Applied Mathematics group at UBC, and the Institute of Applied Mathematics . Aside from specific courses in mathematical biology , we have links to faculty and programs in many other departments on campus. We run an active biweekly Mathematical Biology Seminar Please read our Invitation to Mathematical Biology . Graduate programs (MSc, PhD) can be arranged with research supervisors and course credits from several departments. More information about faculty in other departments is available through the Institute of Applied Mathematics New introductory course in Mathematical Biology: Math 361 (Fall 2001) Participating Faculty Fred Brauer Resource management, conservation, ecology, epidemiology brauer@math.ubc.ca Colin Clark (Emeritus) Resource management, animal behaviour, dynamic programming clark@math.ubc.ca Michael Doebeli Ecology and Evolution, sympatric speciation, controlling chaos doebeli@math.ubc.ca

53. The International Conference On Mathematical Biology THE INTERNATIONAL CONFERENCE ON mathematical biology. A SATELLITE MEETING OF ICM2002. ApplicationForm (THE INTERNATIONAL CONFERENCE ON mathematical biology). http://www.tibs.org/sat-meet.html

International Biometric Society THE INTERNATIONAL CONFERENCE ON MATHEMATICAL BIOLOGY A SATELLITE MEETING OF ICM-2002 (First Announcement) August 15 - 18th, 2002 Guilin, P. R. China Hompage: http://math.la.asu.edu/~kuang/guilin.html http://www.icm2002.org.cn/satellite/index.htm ORGANIZED BY : THE CHINESE SOCIETY OF BIOMATHEMATICS, CMS HOSTED BY : GUANGXI NORMAL UNIVERSITY, GUILIN, CHINA ORGANIZING COMMITTEE Chairman: Hong Liang (China) (The following names are in the alphabetic order.) Members: Dongda Wang (China), Paolo Fergola (Italy), Qichang Yang (China), Shigui Ruan (Canada), Yang Kuang (U.S.A.), Yong Jiang (China),Youlin Jiang(China), Zhaofang Zeng (China), Zhengyi Lu (China) ACADEMIC COMMITTEE Honorary Chairman: R. M. May(U.K.) Chairman: Lansun Chen (China), K.Sigmund (Austria) (The following names are in the alphabetic order.) Members: Carlos Castillo-Chivez(U.S.A.),B.D. Sleeman (U.K.), Frad Brauer (Canada), Gang Lu (China),H. L. Smith(U.S.A.),Jianhong Wu (Canada), Jim M Cushing (U.S.A.), Jun Zhu (China),Laifu Liu (China),L.M. Ricciardi (Italy), O. Diekmann (Netherlands), Paul Waltman (U.S.A.), S.A. Levin (U.S.A), Shigui Ruan (Canada),S. Rionero (Italy), T. Yanagawa (Japan), T.G. Hallam (U.S.A.), Yang Kuang (U.S.A.),Zhengyi Lu (China),Zhien Ma (China), Zuori Shen (China) INVITATION Dear Sir or Madame

54. [ T&AM : Research > Mathematical Biology ] mathematical biology mathematical biology Research Groups J. Guckenheimer, Dynamicsof a smallneural network, the stomatogastric ganglionof curstacea. http://tam.cornell.edu/MathBio.html

home faculty and staff research courses/seminars/events ... undergraduate Mathematical Biology Mathematical Biology Research Groups J. Guckenheimer , Dynamics of a smallneural network, the stomatogastric ganglionof curstacea. R. Rand , neurobiology of fish, dynamics of retinal chemistry S. Strogatz , dynamics of HIV interacting with the immune system, sleep cycle, geometry of DNA C. Castillo-Chavez , mathematical approaches to epidemiology, social dynamics Z. Jane Wang , insect flight, nanobiology College of Engineering Graduate School Cornell Homepage

55. Mathematical Biology At McMaster University PostDoctoral Fellowship Available. McMaster University Home Page Departmentof Mathematics Statistics Applied Mathematics @ McMaster University. http://www.math.mcmaster.ca/mathbiol/

56. The Rockefeller University: Physics And Mathematical Biology Medical Sciences and Human Genetics Molecula, Cell and Developmental Biology immunology,Virology and Micobiology Neuroscience Physics and mathematical biology, http://www.rockefeller.edu/graduate/physics.html

Joel E. Cohen Mitchell J. Feigenbaum Theresa Gaasterland Konstantin Goulianos Nicola N. Khuri Albert Libchaber Marcelo Magnasco Eric D. Siggia Physicists and biologists believe that increased communication between their disciplines will lead to fruitful new approaches to biological problems and will also open new directions in physics. The Center for Studies in Physics and Biology was conceived as a nexus for experimental collaborations investigating physical and mathematical aspects of biological systems and for a host of informal interactions through regular seminar series. Theoretical and experimental condensed matter physicists currently at Rockefeller helped pioneer the recent revolution in studies of nonlinear dynamics, or chaos. The university also has two laboratories working in high energy particle physics, one experimental and one theoretical. Both have played a leading role in particle physics for almost three decades. Nature Medicine recently wrote that "perhaps the most telling evidence that physics will play a growing part in biomedical research is the development of major physics research programs in the bastions of biology and medicine, such as Rockefeller University."

57. Mathematical Biology Major mathematical biology Major. mathematical biology Advisors Dr. Stephen Adolph,Assoc. Prof. of Biology; Dr. Lisette dePillis, Assoc. Prof. of Mathematics. http://www.biology.hmc.edu/academics/biomath.html

Academic Overview Biology Major Molecular Environmental ... Premed Mathematical Biology Major The current century has been predicted to be "the century of biology;" and as biology and biotechnology become more important in the coming decades, so will the application of quantitative methods to biological science. Mathematical and computational components are vital to many areas of contemporary biological research, such as genomics, molecular modeling, structural biology, ecology, evolutionary biology, and systems analysis of neurobiology, physiology, and metabolism. Students interested in the interface between biology and mathematics may pursue the Mathematical Biology Major, which is jointly administered by the Biology and Mathematics Departments. The Mathematical Biology Major prepares students for graduate studies in either biology or applied mathematics or for employment in industry. HMC's technical core provides mathematical biology majors with a strong multidisciplinary foundation, and the College offers many opportunities for students to engage in interdisciplinary research in biomathematics and quantitative biology. Students who choose this major become immersed in the scientific and intellectual cultures of both biology and mathematics, and the major is sufficiently flexible to allow students to concentrate in a particular area of mathematical biology. Students in this major have both a Biology advisor and a Mathematics advisor, who will help them plan a program tailored to the their interests and goals.

58. NIMR - Division Of Mathematical Biology - Home Page Journal of Molecular Biology, 1998, 280 375406. Notredame, C., Higgins, DG andHeringa, J. (2000). Journal of Molecular Biology, 302 205-217. Research Teams. http://www.nimr.mrc.ac.uk/mathbio/

National Institute for Medical Research About NIMR Homepage Contact us A - Z Index ... Library Head of Division: Dr. Willie Taylor Tel: Fax: E-mail: wtaylor@nimr.mrc.ac.uk The central aim of the Division is to develop new algorithms and software, principally to facilitate the structural, functional and evolutionary interpretation of sequence data, thereby producing a synergism between the sequence and structural databanks: extending the structural information to illuminate as many sequences as possible, while also using the aligned sequence data to help understand the evolutionary pressures that maintain structure. Our studies are enabling us to achieve a greater general understanding of protein structure, as well as gaining insights into various specific sequences and families which were previously unconnected with any known sequence or function. Sample Publications Taylor, W. R. Dynamic sequence databank searching with templates and multiple alignment. Journal of Molecular Biology Notredame, C., Higgins, D.G. and Heringa, J. (2000). T-Coffee: a novel method for fast and accurate multiple sequence alignment.

59. Mathematical Biology: University Of Dundee 2004 Undergraduate Prospectus mathematical biology. Why Study mathematical biology at Dundee? What is mathematicalbiology? Typical mathematical biology Degree Programme Structure. http://www.dundee.ac.uk/prospectus/undergrad2003/courses/mathbiol.htm

Mathematical Biology Why Study Mathematical Biology at Dundee? What is mathematical biology? Put simply, mathematical biology involves using mathematical tools and techniques to answer problems that arise in the biological sciences. The sequencing of the human genome has brought about an explosion in the amount of experimental data available to be analysed and a revolution in the biological sciences. Parallel developments in computing power, computational techniques and modern applied mathematics mean that mathematical modelling can now be brought to bear on the biomedical sciences in a truly quantitative and predictive manner. Understanding and interpreting this data and how complex biological systems interact and function is one of the biggest challenges facing the life sciences in the forthcoming century and will involve a close cooperation between mathematics and biology. Although mathematical biology is a relatively 'new' undergraduate subject area its origins actually go back to the late 19th century. Indeed, one of the pioneers of the subject, Professor D'Arcy Wentworth Thompson, was the first Professor of Biology at University College Dundee between 1884 and 1917. The life sciences will be for mathematics in the forthcoming century what physics was for mathematics in the previous century. New, exciting challenges in the life sciences can and are being met using mathematical modelling with a direct impact on improving people's quality of life in health, social and ecological issues.

60. Mathematical Biology: University Of Dundee 2004 Undergraduate Prospectus mathematical biology. Why Study mathematical biology at Dundee? What is mathematicalbiology? Typical mathematical biology Degree Programme Structure. http://www.dundee.ac.uk/prospectus/undergrad/courses/mathbio.htm

Mathematical Biology Why Study Mathematical Biology at Dundee? What is mathematical biology? Put simply, mathematical biology involves using mathematical tools and techniques to answer problems that arise in the biological sciences. The sequencing of the human genome has brought about an explosion in the amount of experimental data available to be analysed and a revolution in the biological sciences. Parallel developments in computing power, computational techniques and modern applied mathematics mean that mathematical modelling can now be brought to bear on the biomedical sciences in a truly quantitative and predictive manner. Understanding and interpreting this data and how complex biological systems interact and function is one of the biggest challenges facing the life sciences in the forthcoming century and will involve a close cooperation between mathematics and biology. Although mathematical biology is a relatively 'new' undergraduate subject area its origins actually go back to the late 19th century. Indeed, one of the pioneers of the subject, Professor D'Arcy Wentworth Thompson, was the first Professor of Biology at University College Dundee between 1884 and 1917. The life sciences will be for mathematics in the forthcoming century what physics was for mathematics in the previous century. New, exciting challenges in the life sciences can and are being met using mathematical modelling with a direct impact on improving people's quality of life in health, social and ecological issues.

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