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EPSCoR Track-2 Genome to Phenome (GenoPheno)

Working Group leader: Marty Ytreberg

Group members: Andreas Vasdekis, Craig Miller, Tanya Miura, Paul Rowley, Holly Wichman, Chris Marx, Jagdish Patel, JT Van Leuven, Jean-Marc Gauthier, Brian Clevely, Brenda Rubenstein, Dan Weinreich, Mandar Naik, Brent Lockwood, Melissa Pespeni

Originated: October 2018

Description:

The purpose of this working group is to discuss issues that are potentially important to all 50ish members of the EPSCoR Track-2 project. The goal of this group is to meet approximately bi-weekly during the academic year to discuss relevant topics to the project, e.g., publishing, grantsmanship, reporting, etc.

The full group met together for the first time in June, 2018.

Director’s Message October 2018

Director’s Message October 2018

Dear Friends & Colleagues,

There are so many good things happening within CMCI! I want to bring your attention to an action item and share a few recent accomplishments.


ACTION ITEM: REPORTING

It’s reporting season! Please respond to Michele’s request for information in a timely manner. We have just a few weeks to get everything put together. Regardless of whether or not you submitted a project proposal through CMCI, we want to know about it. All of what anyone affiliated with CMCI does counts towards effort for reporting purposes. We are missing MANY Working Group Reports.

COBRE RENEWAL

As most of you know, we submitted our 510-page COBRE Renewal proposal in late September. We outlined the following new research projects:

  • Christopher Remien, Population dynamic models of microbial interactions
  • Min Xian, Deep learning for breast ultrasound tumor detection
  • Audrey Fu, Machine learning for identifying causal networks in disease
  • Kyle Harrington, Artificial intelligence for accelerating wound healing
  • Bryn Martin, Computational modeling of cerebrospinal fluid drug delivery

I feel like we submitted a strong proposal. We will have a better idea of the likelihood of renewal after the special study section meets something this spring.

RESEARCH & NEW PROJECTS

Research Project

Modeling Access Grants

Pilot GrantsMatthew Bernards, Determining the Role of Albumin Conformation in Enhanced Bone Repair and Regeneration

Audrey Fu, A Causal Network Approach to Understanding Transcription and Methylation in Breast Cancer

Alan Kolok, Mountain West mine tailings, watersheds and adverse human health outcomes

Externally Awarded Projects

  • Christopher Marx has been awarded a U.S. Department of Energy grant, Using gene editing and an accumulated bioproduct as a reporter for genotypic to phenotypic heterogeneity in growth-vs-production for Methylobacterium extorquens conversion of lignin-derived aromatics to butanol
  • Scott Nuismer will be the University of Idaho PI on a Defense Advanced Research Projects Agency cooperative agreement, Prediction of Spillover Potential and Interventional En Masse Animal Vaccination to Prevent Emerging Pathogen Threats in Current and Future Zones of US Military Operation

THANK YOU for all your contributions, hard work and integrity. We are a great team!

Sincerely,
Holly Wichman
CMCI Director

Melih Sener Will Talk at Brown Bag Lunch

Melih Sener Will Talk at Brown Bag Lunch

Event: CMCI Brown Bag Lunch

Date:   Monday, November 12

Time:   12:30 – 1:30 p.m.

Place:   Collaboratorium, IRIC 352

Talk: “Performance of a bacterial cell as an energy conversion device in terms of energy-return-on-investment determined from atomic-detail structural models,” presented by Melih Sener, Theoretical and Computational Biophysics Group, Beckman Institute, UIUC, https://www.ks.uiuc.edu/~melih/

Abstract: Bioenergetic processes in cells involve hundreds of cooperating proteins and span length and time scales ranging from electronic excitation transfer (picoseconds) to organelle-scale diffusion and ATP synthesis (milliseconds). These disparate scales require a combination of experimental and theoretical approaches for determining structure and function at atomic, supra-molecular, and cell levels of organization. A cell-scale observable, namely, doubling time as a function of growth light intensity, is determined for a phototrophic bacterium, Rba. sphaeroides, using a multi-scale formalism for energy conversion. The approach is based on computing the energy-return-on-investment (EROI) time, defined as the time for the bacterium or a subcomponent to produce enough ATP to manufacture a new copy. The EROI is determined through atomic-detail structural and functional models of bacterial bioenergetic domains, employing AFM, cryo-electron tomography, mass spectrometry, crystallography, and spectroscopy data modalities. The hierarchy of time scales (ps-ms) is addressed via a chain of computational models for each scale, from electronic excitation transfer to structure-based rate kinetics, wherein the output of each model becomes an input parameter for the next scale. The EROI is formulated in relation to cell doubling time for a controlled growth environment that removes energy expenditure channels other than replication and base metabolism as well as energy input channels other than light absorption. Under these controlled conditions, the approach successfully reproduces light-dependence of growth behavior across nearly three orders of magnitude of illumination. Rational design principles for bioengineered energy solutions are revealed by identifying bottlenecks of energy conversion at protein level. The EROI also provides a systems-level integrative performance metric for quantifying evolutionary competitiveness between species as well as a comparison to artificial energy harvesting systems. Current efforts extending this approach to structural models from cyanobacterial and granal bioenergetic domains will also be presented.

Zoom link: https://uidaho.zoom.us/j/988406816

Meeting ID: 988 406 816

Reproducibility in Sciences Working Group Highlighted

Reproducibility in Sciences Working Group Highlighted

The CMCI Working Group, Reproducibility in Sciences or SciRep for short, was recently highlighted in the Lewiston Tribune. The group is comprised of a marketer, a philosopher, a statistician and a computer scientist. They are looking for ways to improve traditional research methods by examining an emerging pattern that shows results from many scientific studies can’t be reproduced.

Group leader Berna Devezer is an associate professor of marketing who enjoys thinking about theoretical problems. “Science is not that linear,” says Devezer. “It progresses in a very chaotic manner. You cannot really trace where knowledge came from. It goes through so many different processes.”

Read the entire article here.

Devezer presented her work to university leadership and donors at the IRIC during Homecoming weekend.

Graduate Student Wins Outstanding Poster

The College of Science held its 14th annual Student Research Exposition on Thursday, October 18. There were 44 entries on display representing three categories: Undergraduate Category, Graduate Category and Sigma Xi Scientific Research Society Award. “All of our entries deserve praise,” stated Mark Nielsen, Associate Dean of the College of Science. “We’re very proud of the quality of student research that was on display.”

CMCI student researcher Emmanuel Ijezie‘s poster, “Rhinovirus curtails disease severity in respiratory viral co-infections in mice,” was one of two outstanding posters selected in the Graduate Category. He is majoring in Biology and his faculty mentor is Tanya Miura.

Congratulations!