----------------------------------------------------
Subject: Society for Mathematical Biology Digest

SMB Digest  November 4, 2015  Volume 15  Issue 44
ISSN 1086-6566

Editor: Ray Mejía ray(at)smb(dot)org

Note:
Information about the Society for Mathematical Biology, including an
application for membership, may be found in the SMB Home Page,
http://www.smb.org/ .

Access the Bulletin of Mathematical Biology, the official journal of SMB, at
http://www.springer.com/11538 .

Inquiries about membership or BMB fulfillment should be sent to
membership(at)smb(dot)org .

Issue's Topics:
   ECMTB/SMB 2016: Call for Minisymposium Proposals - closing 18 Dec 2015
   Summer School: Structured Populations, 21-28 August 2016, Finland
   Workshop: MURPHYS-HSFS 2016, Centre de Recerca Matemàtica, Barcelona
   International Conference on Bioinformatics and Computational Biology
   Of Interest to Readers: Philosophical Transactions B Special Issues
   Mathematical and Computational Biology Books
   New Book: Virginia Tech Researchers, How to Model the Immune System
   PhD Position: Modelling Tissue Growth Regulation in Plants, Norwich
   PhD Position: Modelling Spine Calcium Dynamics, U Exeter
   PhD Studentships: Chronobiology and Kinetoplast DNA, U Edinburgh
   Postdoc Position: Modeling Population Dynamics, Tick Borne Pathogens
   NSF News: NCS Solicitation Update, Supplements, Webinar; Traineeships
   A Nanotechnology-Inspired Grand Challenge for Future Computing
   NIH Update: Welcome to Open Mike Blog; Proposed Common Rule Changes; ..
   SMBnet Reminders


----------------------------------------------------

From: Markus Owen <Markus.Owen@nottingham.ac.uk>
Date: Tue, Nov 3, 2015 at 11:25 AM
Subject: ECMTB/SMB 2016: Call for Minisymposium Proposals - closing 18 Dec 2015

ECMTB/SMB 2016 - www.ecmtb2016.org 
SIX WEEKS to the deadline for minisymposium proposals! (18 Dec 2015)

10th European Conference on Mathematical and Theoretical Biology 

The joint meeting of the European Society for Mathematical and Theoretical
Biology (ESMTB) and the annual meeting of the Society for Mathematical
Biology (SMB) will be held in Nottingham, 11-15 July 2016.

We invite proposals for minisymposia at the interface of mathematics and
biology, including all areas of the life and medical sciences. Minisymposia
will be held in two-hour blocks, consisting of 4 talks of 30 minutes each
(including time for questions and changing speakers).

Please fill in the form at www.ecmtb2016.org/submissions/ to submit your
minisymposium proposal.
Following submission, the minisymposium proposer will receive a unique link
which they should forward to each speaker, in order to register and submit
their individual abstracts.
Please make sure all speakers submit their abstracts by the deadline -
18 Dec 2015.

Minisymposium proposers are encouraged to consider geographical and gender
diversity when selecting speakers.

Please note: The first submission associated with your email address
will create a user account, and a password will be emailed to that email
address. Each registered user may make a maximum of two submissions to
ECMTB 2016 (one as a minisymposium organiser; one for a minisymposium talk,
contributed talk or poster).

best wishes,
Markus Owen (Chair of the Local Organising Committee, ECMTB/SMB 2016)

Local Organising Committee:
Markus Owen, Daniele Avitabile, Leah Band, Bindi Brook, Stephen Coombes,
Etienne Farcot, John King, Reuben O'Dea, Ruediger Thul, Jonathan Wattis

Scientific Committee:
Linda Allen, Ellen Baake, Jim Cushing, Andreas Deutsch, Odo Diekmann,
Susanne Ditlevsen, Stephen Eglen, Amina Eladdadi, Yoh Iwasa, Eva Kisdi,
Santiago Schnell, Artie Sherman, Jonathan Sherratt, Vitaly Volpert


----------------------------------------------------

From: Kisdi, Eva <eva.kisdi@helsinki.fi>
Date: Mon, Nov 2, 2015 at 6:39 AM
Subject: Summer School: Structured Populations, 21-28 August 2016, Finland

Dear Colleagues,

We are pleased to announce the 2016 edition of The Helsinki Summer School
on Mathematical Ecology and Evolution, an EMS-ESMTB School in Applied
Mathematics, which will focus on structured populations. The school will
be held between 21 and 28 August 2016 in Turku, Finland. The core program
consists of five series of lectures,

Mats Gyllenberg (University of Helsinki): Dynamics of structured populations
Hans Metz (University of Leiden): Adaptive dynamics in structured populations
Reinhard Bürger (University of Vienna): Population genetics in structured
populations
Hisashi Inaba (University of Tokyo): Infectious diseases in structured
populations
André de Roos (University of Amsterdam): Population and community ecology
of ontogenetic development

All young researchers working in mathematical ecology can apply from all
countries, especially from Europe and the Mediterranean. The school is
aimed at graduate students of mathematics, but we also welcome students
of biology with sufficient background in mathematics, as well as advanced
undergraduates and postdocs.


The deadline for applications is 31 January 2016. For more details and
application, see the school's website at

https://wiki.helsinki.fi/display/BioMath/The+Helsinki+Summer+School+on+Mathematical+Ecology+and+Evolution+2016%3A+Structured+Populations

Eva Kisdi, Mats Gyllenberg and Francesca Scarabel


----------------------------------------------------

From: Andrei Korobeinikov <akorobeinikov@crm.cat>
Date: Fri, Oct 30, 2015 at 10:14 AM
Subject: Workshop: MURPHYS-HSFS 2016, Centre de Recerca Matemàtica, Barcelona

MURPHYS-HSFS 2016: registration is now open

The organizers are happy to inform that registration for the joint
MURPHYS-HSFS 2016 is open.

Centre de Recerca Matemàtica, Barcelona, and the Collaborative Research Center
910, Berlin are pleased to announce the joint international multidisciplinary
workshop MURPHYS-HSFS-2016. The workshop, devoted to mathematical theory
and applications of the multiple scale systems and systems with hysteresis,
will take place at the Centre de Recerca Matemàtica, in a beautiful suburb
of Barcelona, June 13 to 17, 2016.

MURPHYS 2016 (Multi-Rate Processes and Hysteresis) is the 8th workshop
that continues a series of biennial conferences focused on multiple
scale phenomena, singular perturbations, phase transitions and hysteresis
phenomena occurring in mathematical, physical, economical, engineering
and information systems. The previous workshops were held in Cork, Ireland
(2002, 2004, 2006, 2008); Pechs, Hungary (2010); Suceava, Romania (2012)
and Weierstrass Institute for Applied Analysis and Stochastics, Berlin (2014).

HSFS (Hysteresis and Slow-Fast Systems) is the follow-up of a workshop
organized in the framework of the Collaborative Research Center 910,
Berlin. HSFS focuses on reaction-diffusion equations with hysteresis,
systems with different temporal and spatial scales, and applications to
self-organizing nonlinear systems. The previous workshops were organized
in Lutherstadt Wittenberg, Germany (2011) and Berlin, Germany (2014).

Important dates
Early bird registration fee: April 16th, 2016
Registration deadline: June 1st, 2016
Deadline for submission of extended abstracts and contributed papers: August
1st, 2016

Registration is open:
http://www.crm.cat/en/Activities/Curs_2015-2016/Pages/MURPHYS.aspx
http://www.crm.cat/en/Activities/Pages/CistellaCompraRegistrarUsuari.aspx

Further information:
http://www.crm.cat/en/Host/SciEvents/Pages/ParticipantsInformation.aspx
Travel direction:
http://www.crm.cat/en/About/General/Pages/LocationDirections.aspx
For enquiries please contact Ms. Núria Hernandez at nhernandez@crm.cat or
Andrei Korobeinikov at akorobeinikov@crm.cat


----------------------------------------------------

From: Al-Mubaid, Hisham <HISHAM@uhcl.edu>
Date: Fri, Oct 30, 2015 at 1:53 PM
Subject: International Conference on Bioinformatics and Computational Biology

Submission Deadline extended to: November 30th 2015

BICoB-2016
8th International Conference on Bioinformatics and Computational Biology
April 4-6 - Las Vegas, NV, USA
Conference website: http://www.cs.umb.edu/bicob/ 

IMPORTANT DATES:
Paper Submission Deadline: November 30th 2015
Notification of Acceptance: December 31 2015
Pre-registration and Camera-ready paper: January 20, 2016


----------------------------------------------------

From: Santiago Schnell <schnells@umich.edu>
Date: Mon, Nov 2, 2015 at 10:46 AM
Subject: Of Interest to Readers: Philosophical Transactions B Special Issues

*** Send on behalf of the Royal Society Publishing ***

The Royal Society has recently published two special issues of interest to
our community: 

Within-host dynamics of infection: From ecological insights to evolutionary
predictions. Compiled and edited by Olivier Restif and Andrea L Graham
- http://bit.ly/PTB1675 and the articles can be accessed directly at
http://rstb.royalsocietypublishing.org/content/370/1675

The dynamics of antibody repertoires. Compiled and edited
by Sarah Cobey, Frederick A Matsen IV and Patrick Wilson -
http://bit.ly/PTB1676 and the articles can be accessed directly at
http://rstb.royalsocietypublishing.org/content/370/1676

These issues and other Royal Society content will be free to access until
30th November.


----------------------------------------------------

From: Springer <SpringerAlerts@springeronline.com>
Date: Mon, Nov 2, 2015 at 1:04 AM
Subject: Mathematical and Computational Biology Books

>> Mathematical and Computational Biology <<

Applied Mathematics
Book Series: Springer Proceedings in Mathematics &amp; Statistics, Vol. 146
Editor/s: Sarkar, Susmita; Basu, Uma; De, Soumen
http://www.springer.com/-/1/AVDGzDD3nYabzt6n4g8-

Extended Abstracts Spring 2014
Book Series: Research Perspectives CRM Barcelona, Vol. 4
Editor/s: Corbera, Montserrat; Cors, Josep Maria; Llibre, Jaume; Korobeinikov,
Andrei
http://www.springer.com/-/2/AVDGzDD3nYabzt6n4g8-


----------------------------------------------------

From: VT News <vtnews@vt.edu>
Date: Tue, Nov 3, 2015 at 8:00 AM
Subject: New Book: Virginia Tech Researchers, How to Model the Immune System

New book by Virginia Tech researchers explains how to model the immune system

BLACKSBURG, Va., Nov. 3, 2015 - The complexity of the human immune response
has been difficult to characterize on a "big picture" level, but researchers
at the Virginia Bioinformatics Institute at Virginia Tech have written the
book on how it can be done.

"Computational Immunology: Models and Tools
(http://store.elsevier.com/product.jsp?isbn=9780128036976)," explains
a set of techniques that enable researchers to study immunity at an
unprecedented scale: simulated immune systems with tens of billions of
interacting components.


----------------------------------------------------

From: Veronica Grieneisen (JIC) <Veronica.Grieneisen@jic.ac.uk>
Date: Fri, Oct 30, 2015 at 5:38 AM
Subject: PhD Position: Modelling Tissue Growth Regulation in Plants, Norwich

Fully Funded PHD position, Marée Lab, Norwich, UK.

Project Title "Untangle the feedback between auxin dynamics and tissue
growth during fruit development"

Application Deadline 30/11/2015
http://www.biodtp.norwichresearchpark.ac.uk/projects/project-detail/project/196

Plants present a remarkable variation in fruit shape. To understand how
fruits grow into such different sizes and shapes requires unravelling
the way that cell division and expansion within the organ are regulated.
This PhD project will use mathematical modelling and computer simulations
to unravel the interplay between the plant hormone auxin and fruit growth,
in a close collaboration between the theoretical lab of Stan Marée and the
experimental lab of Lars Østergaard. The project will specifically focus
on species within the Brassicaceae family. This family includes the model
plant Arabidopsis thaliana as well as important crop species such as oilseed
rape (Brassica napus). Fruits from both Arabidopsis and B. napus develop
as cylindrical siliques, while fruits from other Brassicaceae species can
be flat and heart-shaped (such as Capsella rubella) or flat and circular
(such as Ledipium campestre). Unravelling the cellular basis of this
diversity in shapes is the objective of this project. The hypothesis is
that auxin functions as a core regulator of the axiality and strength in
growth and rate of divisions. Given that growth-induced changes in tissue
shape directly impact auxin dynamics and transport, we expect essential
feedbacks from the growth on the auxin patterning, and thus on growth,
division and differentiation itself. Unravelling this feedback loop requires
an integrative modelling approach, in which the student will be developing
predictive cellular-based models of fruit growth, which combine models of
how auxin flows through the tissue with models that describe the regulation
of cell expansion and cell cycle. Such models should allow to unravel what
underlies the acquisition of the diverse fruit shapes.

For more information, contact stan.maree@jic.ac.uk


----------------------------------------------------

From: Tsaneva-Atanasova, Krasimira <K.Tsaneva-Atanasova@exeter.ac.uk>
Date: Sat, Oct 31, 2015 at 2:35 PM
Subject: PhD Position: Modelling Spine Calcium Dynamics, U Exeter

PhD position in Modelling spine calcium dynamics: implications for synaptic
plasticity

Based within the EPSRC Centre for Predictive Modelling in Healthcare at the
University of Exeter, a £2M initiative bringing together mathematicians,
statisticians and clinicians, you will work on a project aiming to
investigate the mechanisms and hence understand the regulation of calcium
transient dynamics (shown to be a critical trigger for synaptic plasticity)
in dendritic spines. The project involves development and analysis of
three-dimensional mathematical models using finite element methods. Therefore
I am looking for candidates trained in quantitative fields whose interest
has turned to the study of synaptic plasticity and calcium dynamics.

This project is one of a number that are in competition for funding from
the South West Biosciences Doctoral Training Partnership (SWBio DTP). The
SWBio DTP is a BBSRC-funded PhD training programme in the biosciences,
delivered by a consortium comprising the Universities of Bristol (lead),
Bath, Cardiff and Exeter and Rothamsted Research. The SWBio DTP projects
are designed to provide outstanding interdisciplinary training in a range
of topics in World-Class Bioscience, underpinned by training in mathematics
and complexity science. Each project is supervised by an interdisciplinary
team of academic staff and will follow a structured training 4 year PhD model.

In particular the project on "Modelling spine calcium dynamics: implications
for synaptic plasticity" stems form a long-standing collaboration between
Prof Krasimira Tsaneva-Atanasova (main supervisor, Exeter) and Dr Jack Mellor
(co-supervisor, Bristol http://www.bris.ac.uk/synaptic/people/66711/)

To Apply: Candidates with strong quantitative training (e.g. a BSc or MSc
in Physics, Mathematics, Computational Neuroscience, Computer Science, or
Engineering) and evidence of scientific achievement are invited to apply.
Knowledge of neuroscience is a plus. Please apply using the following link:
http://www.exeter.ac.uk/studying/funding/award/?id=1977


----------------------------------------------------

From: Nick Savill <nick.savill@ed.ac.uk>
Date: Sun, Nov 1, 2015 at 5:17 PM
Subject: PhD Studentships: Chronobiology and Kinetoplast DNA, U Edinburgh

Project 1: Dynamics of mitochondrial genome complexity in trypanosomes

Dr. Nick Savill, nick.savill@ed.ac.uk
Dr. Achim Schnaufer, achim.schnaufer@ed.ac.uk

Sleeping sickness, caused by the African trypanosome, threatens millions
of people in many countries in sub-Saharan Africa. Many of the affected
populations live in remote rural areas with limited access to adequate health
service.  Although there are curative drugs they have many undesirable
side-effects. The aim of this project is to increase our understanding
the genomic structure and function of trypanosomal mitochondrial DNA
(the kinetoplast) in the hope of aiding drug discovery. The kinetoplast
is quite remarkable and unlike human mitochondrial DNA. It is made up of
thousands of interlocked DNA rings like chainmail armour. These rings,
called minicircles, encode guide-RNAs that post-transciptionally edit
mRNA. In some genes almost half the genetic information is edited into the
mRNA. Our groups (one theoretical and another experimental) are interested
in determining the complexity of the kinetoplast and how it evolves over
time. We use a combination of mathematical modelling, bioinformatics,
next-generation sequencing and experimentation to reveal and understand
the wonderful complexity of the kinetoplast and its transcriptional and
proteomic products - many, we suspect, have not yet been found.

Project 2: Mathematical modelling the circadian rhythms of malaria parasites

Dr. Nick Savill, nick.savill@ed.ac.uk
Prof. Sarah Reece, sarah.reece@ed.ac.uk

The discovery of circadian rhythms in parasite behaviours and host
immune responses suggests that timing matters for how hosts and parasites
interact with each other. For example, the developmental rhythm of many
malaria parasite species is coordinated; parasites invade host red blood
cells, replicate, and then release their progeny in a timed, synchronized
burst. However, to date, the study of parasite biological rhythms has
rarely considered whether parasites are organising their own schedules or
whether parasites are passive and scheduled by aspects of host physiology
with circadian rhythms. Rhythms in immune defence and parasite development
could provide an evolutionary advantage to hosts, parasites or both, and
both parties may to some extent control each other's rhythms. This project
will bridge this divide to investigate the evolutionary ecology of biological
rhythms in host-parasite interactions.

The project will synergise several disciplines across biology including
the study of circadian rhythms, behavioural and evolutionary ecology, and
mathematical biology to investigate the evolutionary ecology of biological
rhythms in host-parasite interactions. The project offers a novel opportunity
to combine experiments and theory by collecting data from lab experiments and
then using the data to undertake statistical inference of disease processes.

Both of these projects are ideal for someone interested in working at the
intersection of wet lab and computational biology. A strong background in
mathematics or scientific programming is highly desirable. You should have
at least an upper second class honours degree.

Interested individuals must follow
Steps 1, 2 and 3 at this link on how to apply
http://www.ed.ac.uk/schools-departments/biology/postgraduate/pgr/how-to-apply
Choose the Immunology & Infection Research Applications link from this page.

Scholarships are available for EU and exceptional international students -
you must apply by 5.00pm on Monday 7 December 2015 at the latest.


----------------------------------------------------

From: Diuk-Wasser, Maria <maria.diuk@yale.edu>
Date: Tue, Nov 3, 2015 at 6:00 AM
Subject: Postdoc Position: Modeling Population Dynamics, Tick Borne Pathogens

POSTDOCTORAL POSITION

MODELING POPULATION DYNAMICS OF TICK BORNE PATHOGENS

Department of Ecology, Evolution and Environmental Biology (E3B),
Columbia University, NY, US

Royal Melbourne Institute of Technology (RMIT), Melbourne, Australia.

A post-doctoral position is available in the labs of Maria Diuk-Wasser,
Department of Ecology, Evolution and Environmental Biology (E3B), Columbia
University, New York City.

The applicant will join a collaborative project with Stephen Davis, Department
of Mathematical and Geospatial Sciences, Royal Melbourne Institute of
Technology (RMIT), Melbourne, Australia, to study the influence of pathogen
interactions on the emergence of tick-borne diseases in the United States,
funded by the joint NSF/NIH Program on Ecology and Evolution of Infectious
Diseases (EEID). The candidate will develop a range of modeling approaches to
study the ecological and evolutionary drivers of the emergence and geographic
expansion of tick-borne pathogens, including Babesia microti, an emerging
pathogen sharing tick vector and host with Borrelia burgdorferi, the Lyme
disease agent. Extensive datasets are available from laboratory and field
experiments, as well as longitudinal and spatially extensive collections
to parameterize and validate the models.

Candidates should have a Ph.D. in Applied Mathematics, Statistics or
a related quantitative field. A background in mathematical modelling of
infectious diseases, theoretical ecology, spatial modelling or mathematical
biology is highly desirable, in addition to having programming, statistical
and quantitative skills.

The successful candidate must be capable of working independently in an
interdisciplinary environment and have strong quantitative and writing skills
evidenced by publication. Opportunities exist for collaboration with the
Mailman School of Public Health, the Earth Institute, the American Museum of
Natural History, the Wildlife Conservation Society and the EcoHealth Alliance.

To ensure consideration, please submit application by August 7, 2015, but the
position will remain open until filled. The position is available immediately
for 2 years and the postdoc is expected to travel between NY and Melbourne.
Salary is commensurate with experience. Applications should include CV,
statement of research interests, the names of three references and be sent to:
mad2256@columbia.edu


----------------------------------------------------

From: Whang, Kenneth C. <kwhang@nsf.gov>
Date: Thu, Oct 29, 2015 at 10:26 PM
Subject: NSF News: NCS Solicitation Update, Supplements, Webinar; Traineeships

Dear Colleagues,
 
I'd like to call your attention to the new solicitation for Integrative
Strategies for Understanding Neural and Cognitive Systems (NSF-NCS
http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=505132&org=SBE&from=home;
NSF 16-508 http://www.nsf.gov/publications/pub_summ.jsp?ods_key=nsf16508)
as well as an associated Dear Colleague Letter on Supplements to Connect
CISE, EHR, and ENG Projects to Neural and Cognitive Systems (NSF 16-020
http://www.nsf.gov/publications/pub_summ.jsp?ods_key=nsf16020). As described
further in the solicitation, the program now encompasses four integrative
research themes: Neuroengineering and Brain-Inspired Concepts and Designs;
Individuality and Variation; Cognitive and Neural Processes in Realistic,
Complex Environments; and Data-Intensive Neuroscience and Cognitive Science. 
NSF's Directorates for Computer & Information Science & Engineering (CISE),
Education & Human Resources (EHR), Engineering (ENG), and Social, Behavioral
& Economic Sciences (SBE) are participating.

An associated supplement opportunity, described in the solicitation and
the Dear Colleague Letter, applies to new or existing projects managed
by the CISE, EHR, or ENG directorates. The supplements are intended to
build on NSF-funded projects in all areas of engineering, computing, and
education research, to bring new approaches or capabilities emerging from
these fields into cognitive science, neuroscience, and neuroengineering,
or to enable other kinds of synergistic connections that will advance one
or more of the integrative themes.

A webinar for prospective applicants will be held on November 23, 2015
at 2pm.  Further details will be posted on the program web site. In addition,
NSF's flagship graduate training program, the National Science Foundation
Research Traineeship Program (NRT
https://www.nsf.gov/funding/pgm_summ.jsp?pims_id=505015; NSF 16-503
https://www.nsf.gov/publications/pub_summ.jsp?ods_key=nsf16503) includes
Understanding the Brain as a priority area for FY2016 and FY2017, and
Data-Enabled Science and Engineering as a priority area for FY2016.


----------------------------------------------------

From: Whang, Kenneth C. <kwhang@nsf.gov>
Date: Thu, Oct 29, 2015 at 10:36 PM
Subject: A Nanotechnology-Inspired Grand Challenge for Future Computing

OSTP has announced a grand challenge to develop transformational computing
capabilities that addresses three Administration priorities - the National
Nanotechnology Initiative (NNI), the National Strategic Computing Initiative
(NSCI), and the BRAIN initiative. 

The grand challenge, announced at the start of the first NSCI workshop,
is to create a new type of computer that can proactively interpret and
learn from data, solve unfamiliar problems using what it has learned,
and operate with the energy efficiency of the human brain.

The challenge will bring together the nanotechnology, computer science,
and neuroscience communities to look beyond the current computing
paradigm in order to create new computers with extremely power-efficient,
computationally-efficient, fault-tolerant, and flexible sensing and problem
solving abilities.

Please see the following links for further information and contacts:

· A Nanotechnology-Inspired Grand Challenge for Future Computing
(OSTP blog post)
https://www.whitehouse.gov/blog/2015/10/15/nanotechnology-inspired-grand-challenge-future-computing

· Nanotechnology-Inspired Grand Challenges Web Site
http://www.nano.gov/grandchallenges including the following supporting
information:

-  A Nanotechnology-Inspired Grand Challenge for Future Computing (Overview)
http://www.nano.gov/futurecomputing

-  Statements of support for this challenge from Federal agencies (DoD, DOE,
IARPA, NIST, NSF) http://www.nano.gov/node/1520

-  Statements of support for this challenge from other organizations (CCC,
Moore Foundation, IEEE, Kavli Foundation, SRC) http://www.nano.gov/node/1521

-  Workshop reports and white papers relevant to this challenge
http://www.nano.gov/node/1523#reportsandwhitepapers

-  Meetings and workshops relevant to this challenge
http://www.nano.gov/node/1523#meetingsandworkshops

-  Frequently asked programmatic and technical questions about this challenge
http://www.nano.gov/node/1522


----------------------------------------------------

From: NIH Extramural Nexus (NIH/OD) <ExtramuralNexus@mail.nih.gov>
Date: Mon, Nov 2, 2015 at 2:13 PM
Subject: NIH Update: Welcome to Open Mike Blog; Proposed Common Rule Changes; ..

See
https://list.nih.gov/cgi-bin/wa.exe?A2=ind1511&L=extramuralnexus&F=&S=&P=68
for this issue.


----------------------------------------------------

Subject: SMBnet Reminders

To subscribe to the SMB Digest please point your browser at
    https://list.auckland.ac.nz/sympa/info/math-smbnet
and complete the subscription information.  Alternatively, if you prefer
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in the body of the mail (omit the quotes and include your name).
After you subscribe, you will receive a greeting with additional information.

Submissions to appear in the SMB Digest should be sent to
    SMBnet(at)smb(dot)org .

Items of interest to the mathematical biology community may be submitted
for inclusion in the SMBnet archive.  See instructions at
    http://smb.org/publications/SMBnet/pubs/fyi .

The SMB Digest is also available on the SMB Home Page at
    http://smb.org/publications/SMBnet/digest/ .

The contents of this publication may be reproduced in whole or in part with
attribution.

End of SMB Digest
****************************************************

----------------------------------------------------