hardwoodgenomics.org
Michigan Technological University | The Hardwood Genomics Project
http://www.hardwoodgenomics.org/content/michigan-tech
Skip to main content area. Dr Gailing works in the School of Forest Resources and Environmental Science. And is a member of the Biotech Research Center. For this project, the OG lab. Is developing the genetic linkage maps in Gleditsia triacanthos. And is contributing to the development of the high density genetic linkage map in Quercus rubra. There will be one PhD student funded by the project (to be hired in fall 2011) working on genetic mapping in G. triacanthos.
hardwoodgenomics.org
Participants | The Hardwood Genomics Project
http://www.hardwoodgenomics.org/participants
Skip to main content area. Dr Liang’s research laboratory. Is focused on the genomics and biotechnology of hardwood species. Her team is constructing the framework genetic linkage map for tulip poplar. Read more about Clemson University. Dr Gailing works in the School of Forest Resources and Environmental Science. And is a member of the Biotech Research Center. For this project, the OG lab. Is developing the genetic linkage maps in Gleditsia triacanthos. There will be one PhD student funded by the projec...
mtu.edu
Ecosystem Science Center | Forest Resources & Environmental Science
http://www.mtu.edu/forest/esc
Skip to page content. Skip to site navigation. Skip to footer navigation. School of Forest Resources and Environmental Science. Graduate Student, Alex Collins, stands in a study plot examining how extreme variations in climate effect water use and productivity of big tooth aspen and sugar maple. Alex was awarded a Graduate Student Research Grant from the ESC to supplement his work. Distinguished Ecologist Lecture Series. The 8th Annual Student Research Forum, March 2012, sponsored by the ESC and the Biot...
desmids.mtu.edu
The Algal Cell Wall and Extracellular Polymers
http://www.desmids.mtu.edu/Lab%20Members.html
L-R) Top: Justin Strutz, Dr. Michael Gretz, Dr. Ash Haeger, Bottom: Erin McKenney, Kate Pote, Sarah Kiemle. Web Design by Erin McKenney.
desmids.mtu.edu
The Algal Cell Wall and Extracellular Polymers
http://www.desmids.mtu.edu/Publications.html
Bellinger, B.J., Underwood, G.J.C., Ziegler, S.E. and Gretz, M.R. 2008.The significance of diatom-derived polymers in carbon flow dynamics within estuarine biofilms determined through isotopic enrichment. Aquatic Microbial Ecology. Domozych, D.S., Serfis, A., Kiemle, S. and Gretz, M.R. 2007. The structure and biochemistry of charophycean cell walls. I. Pectins of Penium margaritaceum. Domozych, D.S., Elliot, L, Kiemle, S.N. and Gretz, M.R. 2007. Pleurotaenium trabecula. Apoya, M.D., Liang, Y....Hanlon, A...
desmids.mtu.edu
The Algal Cell Wall and Extracellular Polymers
http://www.desmids.mtu.edu/EPS%20of%20Colne%20Estuaries.html
Exopolymer Production by Benthic Diatoms: Rhythms, Responses and Acclimation to Environmental Stress in the Colne Estuary, U.K. Http:/ www.nsf.gov/. Collaborators: Graham Underwood, University of Essex. Web Design by Erin McKenney.
desmids.mtu.edu
The Algal Cell Wall and Extracellular Polymers
http://www.desmids.mtu.edu/Algal%20Cell%20Walls.html
Charophycean Green Algae: What can charophycean green algal cell walls tell us about land plant cell wall evolution? Collaborators: David Domoyzch, William Willats and Markus Pauly). Web Design by Erin McKenney.
desmids.mtu.edu
The Algal Cell Wall and Extracellular Polymers
http://www.desmids.mtu.edu/didymo.html
Induction of Exopolymer Synthesis in the Nuisance Diatom Didymosphenia geminata. Results in Significant Environmental Impact. Collaborators: David Domozych and Sarah Spaulding). In recent years, streams in New Zealand, North America, Europe, and Asia have been disrupted by unprecedented blooms of the freshwater diatom Didymosphenia geminata. Are very similar to those of the stalked diatoms Cymbella mexicana. Funding Source: BioSecurity New Zealand. Http:/ www.biosecurity.govt.nz/didymo.
desmids.mtu.edu
The Algal Cell Wall and Extracellular Polymers
http://www.desmids.mtu.edu/physco.html
As a heterologous expression system for investigating the. Functions of CESA-like gene products. Collaborators: Allison Roberts,. Aaron Liepman and William Willats). Lacks members of these CSL families. We are using Physcomitrella. For the presence of novel linkages, 4) develop in vitro assays to identify the catalytic activity of the heterologously-expressed CSL proteins, and 5) examine the development and stress response of transgenic Physcomitrella. Funding source: USDA NRI-GCP, Plant Biology.
