M E Tumbleson
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Explore the profile of M E Tumbleson including associated specialties, affiliations and a list of published articles.
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Articles
100
Citations
281
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Recent Articles
1.
Kurambhatti C, Lee J, Jin Y, Juneja A, Kumar D, Rausch K, et al.
Bioresour Technol
. 2021 Sep;
341:125919.
PMID: 34523557
2'-fucosyllactose (2'-FL) has been linked positively with piglet gut health. Genetically engineered Saccharomyces cerevisiae strains producing 2'-FL can be used in the dry grind process to enrich Distiller's dried grains...
2.
Wang Z, Dien B, Rausch K, Tumbleson M, Singh V
Bioresour Technol
. 2019 Mar;
282:103-109.
PMID: 30852329
Corn stover and sugarcane bagasse are the most widely available agriculture processing biomass and could serve as feedstocks for production of biofuel. In this study, three different technologies are combined...
3.
Kurambhatti C, Kumar D, Rausch K, Tumbleson M, Singh V
Bioresour Technol
. 2018 Oct;
270:742-745.
PMID: 30279100
Conversion of corn fiber to ethanol in the dry grind process could increase ethanol yields, reduce downstream processing costs and improve overall process profitability. This work investigates the in-situ conversion...
4.
Wang Z, Dien B, Rausch K, Tumbleson M, Singh V
Bioresour Technol
. 2018 Apr;
261:313-321.
PMID: 29677659
In this study, liquid hot water pretreatment was combined with disk milling for pretreatment of sugarcane bagasse. Sugarcane bagasse was pretreated using liquid hot water (LHW) at 140-180 °C for...
5.
Kim S, Tumbleson M, Rausch K, Singh V
Bioresour Technol
. 2017 Mar;
232:297-303.
PMID: 28242386
In cellulosic biofuel production, chemical pretreatment performed at laboratory or pilot scale, followed by mechanical refining, has been demonstrated to be effective to increase feedstock enzyme digestibility. To take the...
6.
Kim S, Dien B, Tumbleson M, Rausch K, Singh V
Bioresour Technol
. 2016 Jun;
216:706-13.
PMID: 27289063
Efficient pretreatment is essential for economic conversion of lignocellulosic feedstocks into monosaccharides for biofuel production. To realize high sugar yields with low inhibitor concentrations, hot water or dilute acid pretreatment...
7.
Chen M, Bowman M, Cotta M, Dien B, Iten L, Whitehead T, et al.
Carbohydr Polym
. 2016 Feb;
140:96-103.
PMID: 26876832
A procedure was developed to recover xylooligosaccharides (XOS) from Miscanthus×giganteus (M×G) hydrolyzate. M×G hydrolyzate was prepared using autohydrolysis, and XOS rich fractions were acquired using activated carbon adsorption and stepwise...
8.
Chen M, Swanson K, Fahey Jr G, Dien B, Beloshapka A, Bauer L, et al.
J Agric Food Chem
. 2015 Dec;
64(1):262-7.
PMID: 26648520
Purified xylooligosaccharides from Miscanthus × giganteus (M×G XOS) were used in an in vitro fermentation experiment inoculated with human fecal microbiota. A commercial XOS product and pectin were used as...
9.
Chen M, Bowman M, Dien B, Rausch K, Tumbleson M, Singh V
Bioresour Technol
. 2014 Jan;
155:359-65.
PMID: 24463409
The optima conditions of production and purification of xylooligosaccharides (XOS) from Miscanthus x giganteus (MxG) were investigated. Using autohydrolysis, XOS were produced at 160, 180 and 200°C at 60, 20...
10.
Khullar E, Kent A, Leathers T, Bischoff K, Rausch K, Tumbleson M, et al.
World J Microbiol Biotechnol
. 2012 Dec;
29(5):891-8.
PMID: 23266886
Low ethanol yields and poor yeast viability were investigated at a continuous ethanol production corn wet milling facility. Using starch slurries and recycle streams from a commercial ethanol facility, laboratory...