Heather H Wilkinson
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Explore the profile of Heather H Wilkinson including associated specialties, affiliations and a list of published articles.
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24
Citations
716
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Recent Articles
1.
Spoerke J, Wilkinson H, Parker M
Evolution
. 2017 Jun;
50(1):146-154.
PMID: 28568881
Genetically divergent lineages often coexist within populations of the annual legume Amphicarpaea bracteata. At one site dominated by two such lineages (termed biotypes "C" and "S"), isolates of root-nodule bacteria...
2.
Wilkinson H, Spoerke J, Parker M
Evolution
. 2017 Jun;
50(4):1470-1477.
PMID: 28565720
Geographic variation in the mutualism between the legume Amphicarpaea bracteata and its nitrogen-fixing root nodule bacteria (Bradyrhizobium sp.) was analyzed by sampling genotypes from 11 sites separated by distances ranging...
3.
Wilkinson H, Parker M
Oecologia
. 2017 Mar;
108(2):361-367.
PMID: 28307850
Genotypes of the annual legume Amphicarpaea bracteata vary in their degree of specialization toward different nitrogen-fixing bacteria. Plants of lineages "Ib" and "II" are specialized for mutualism with a limited...
4.
Chung D, Upadhyay S, Bomer B, Wilkinson H, Ebbole D, Shaw B
Mycologia
. 2015 Jan;
107(2):298-306.
PMID: 25550299
Aspergillus nidulans StuA and Neurospora crassa ASM-1 are orthologous APSES (ASM-1, PHD1, SOK2, Efg1, StuA) transcription factors conserved across a diverse group of fungi. StuA and ASM-1 have roles in...
5.
Cope J, Hammett A, Kolomiets E, Forrest A, Golub K, Hollister E, et al.
Bioresour Technol
. 2014 Feb;
155:388-94.
PMID: 24502857
To test the hypothesis that microbial communities from saline and thermal sediment environments are pre-adapted to exhibit superior fermentation performances, 501 saline and thermal samples were collected from a wide...
6.
Saengkerdsub S, Lingbeck J, Wilkinson H, OBryan C, Crandall P, Muthaiyan A, et al.
J Environ Sci Health B
. 2013 Sep;
48(12):1112-20.
PMID: 24007489
Methionine is one of the first limiting amino acids in poultry nutrition. The use of methionine-rich natural feed ingredients, such as soybean meal or rapeseed meal may lead to negative...
7.
Golub K, Forrest A, Wales M, Hammett A, Cope J, Wilkinson H, et al.
Bioresour Technol
. 2013 Jan;
130:739-49.
PMID: 23334035
Using a mixed culture of microorganisms, the carboxylate platform converts biomass into hydrocarbons and chemicals. To develop a method that identifies the highest performing inoculum for carboxylate fermentations, five bacterial...
8.
Hou H, Li L, Ceylan C, Haynes A, Cope J, Wilkinson H, et al.
Lab Chip
. 2012 Aug;
12(20):4151-9.
PMID: 22868338
Microbial fuel cells (MFCs) are green energy technologies that exploit microbial metabolism to generate electricity. The widespread implementation of MFC technologies has been stymied by their high cost and limited...
9.
Hollister E, Forrest A, Wilkinson H, Ebbole D, Tringe S, Malfatti S, et al.
PLoS One
. 2012 Jul;
7(6):e39689.
PMID: 22761870
The carboxylate platform is a flexible, cost-effective means of converting lignocellulosic materials into chemicals and liquid fuels. Although the platform's chemistry and engineering are well studied, relatively little is known...
10.
Forrest A, Hollister E, Gentry T, Wilkinson H, Holtzapple M
Bioresour Technol
. 2012 Jun;
118:343-9.
PMID: 22705541
The MixAlco™ process biologically converts biomass to carboxylate salts that may be converted to a variety of chemicals and fuels. This study examines the fermentation performance of six different mixed...