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Lignocellulose

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https://www.readbyqxmd.com/read/28532122/mannan-endo-1-4-%C3%AE-mannosidase-from-kitasatospora-sp-isolated-in-indonesia-and-its-potential-for-production-of-mannooligosaccharides-from-mannan-polymers
#1
Nanik Rahmani, Norimasa Kashiwagi, JaeMin Lee, Satoko Niimi-Nakamura, Hana Matsumoto, Prihardi Kahar, Puspita Lisdiyanti, Yopi, Bambang Prasetya, Chiaki Ogino, Akihiko Kondo
Mannan endo-1,4-β-mannosidase (commonly known as β-mannanase) catalyzes a random cleavage of the β-D-1,4-mannopyranosyl linkage in mannan polymers. The enzyme has been utilized in biofuel production from lignocellulose biomass, as well as in production of mannooligosaccharides (MOS) for applications in feed and food industries. We aimed to obtain a β-mannanase, for such mannan polymer utilization, from actinomycetes strains isolated in Indonesia. Strains exhibiting high mannanase activity were screened, and one strain belonging to the genus Kitasatospora was selected...
December 2017: AMB Express
https://www.readbyqxmd.com/read/28531850/in-situ-injection-of-potassium-hydroxide-into-briquetted-wheat-straw-and-meadow-grass-effect-on-biomethane-production
#2
Lu Feng, Veronica Moset, Wanwu Li, Chang Chen, Henrik Bjarne Møller
Alkaline pretreatment of lignocellulosic biomass has been intensively investigated but heavy water usage and environmental pollution from wastewater limits its industrial application. This study presents a pretreatment technique by in-situ injection of potassium hydroxide concentrations ranging from 0.8% to 10% (w/w) into the briquetting process of wheat straw and meadow grass. Results show that the biomethane yield and hydrolysis rate was improved significantly with a higher impact on wheat straw compared to meadow grass...
May 8, 2017: Bioresource Technology
https://www.readbyqxmd.com/read/28529543/pilot-scale-steam-explosion-pretreatment-with-2-naphthol-to-overcome-high-softwood-recalcitrance
#3
Thomas Pielhop, Janick Amgarten, Michael H Studer, Philipp Rudolf von Rohr
BACKGROUND: Steam explosion pretreatment has been examined in many studies for enhancing the enzymatic digestibility of lignocellulosic biomass and is currently the most common pretreatment method in commercial biorefineries. It is however not effective for overcoming the extremely high recalcitrance of softwood to biochemical conversion. Recent fundamental research in small-scale liquid hot water pretreatment has shown, though, that the addition of a carbocation scavenger like 2-naphthol can prevent lignin repolymerization and thus enhance the enzymatic digestibility of softwood cellulose...
2017: Biotechnology for Biofuels
https://www.readbyqxmd.com/read/28529519/genome-wide-identification-of-sorghum-bicolor-laccases-reveals-potential-targets-for-lignin-modification
#4
Jinhui Wang, Juanjuan Feng, Weitao Jia, Pengxiang Fan, Hexigeduleng Bao, Shizhong Li, Yinxin Li
Laccase is a key enzyme in plant lignin biosynthesis as it catalyzes the final step of monolignols polymerization. Sweet sorghum [Sorghum bicolor (L.) Moench] is considered as an ideal feedstock for ethanol production, but lignin greatly limits the production efficiency. No comprehensive analysis on laccase has ever been conducted in S. bicolor, although it appears as the most promising target for engineering lignocellulosic feedstock. The aim of our work is to systematically characterize S. bicolor laccase gene family and to identify the lignin-specific candidates...
2017: Frontiers in Plant Science
https://www.readbyqxmd.com/read/28528384/effects-of-salts-contained-in-lignocellulose-derived-sugar-streams-on-microbial-lipid-production
#5
Zhu Chen, Caixia Wan
This study aimed at developing low-cost, robust non-sterile fermentation processes for microbial lipid production from lignocellulose-derived sugars. Three representative oleaginous yeasts, Lipomyces tetrasporus (NRRL Y-11562), Rhodotorula toruloides (NRRL Y-1091), and Yarrowia lipolytica (NRRL YB-437), were tested for lipid production via non-sterile fermentation. Under optimal non-sterile conditions, all the tested strains had good performance on salt tolerance and lipid production. L. tetrasporus (NRRL Y-11562) gave the highest lipid titer of 12...
May 20, 2017: Applied Biochemistry and Biotechnology
https://www.readbyqxmd.com/read/28528383/pretreatment-of-hardwood-and-miscanthus-with-trametes-versicolor-for-bioenergy-conversion-and-densification-strategies
#6
Ryan M Kalinoski, Hector D Flores, Sunil Thapa, Erin R Tuegel, Michael A Bilek, Evelin Y Reyes-Mendez, Michael J West, Tim J Dumonceaux, Thomas Canam
The pretreatment of plant biomass negatively impacts the economics of many bioenergy and bioproduct processes due to the thermochemical requirements for deconstruction of lignocelluluose. An effective strategy to reduce these severity requirements is to pretreat the biomass with white-rot fungi, such as Trametes versicolor, which have the innate ability to deconstruct lignocellulose with a suite of specialized enzymes. In the present study, the effects of 12 weeks of pretreatment with a wild-type strain (52J) and a cellobiose dehydrogenase-deficient strain (m4D) of T...
May 20, 2017: Applied Biochemistry and Biotechnology
https://www.readbyqxmd.com/read/28528086/cellulosic-ethanol-status-and-innovation
#7
REVIEW
Lee R Lynd, Xiaoyu Liang, Mary J Biddy, Andrew Allee, Hao Cai, Thomas Foust, Michael E Himmel, Mark S Laser, Michael Wang, Charles E Wyman
Although the purchase price of cellulosic feedstocks is competitive with petroleum on an energy basis, the cost of lignocellulose conversion to ethanol using today's technology is high. Cost reductions can be pursued via either in-paradigm or new-paradigm innovation. As an example of new-paradigm innovation, consolidated bioprocessing using thermophilic bacteria combined with milling during fermentation (cotreatment) is analyzed. Acknowledging the nascent state of this approach, our analysis indicates potential for radically improved cost competitiveness and feasibility at smaller scale compared to current technology, arising from (a) R&D-driven advances (consolidated bioprocessing with cotreatment in lieu of thermochemical pretreatment and added fungal cellulase), and (b) configurational changes (fuel pellet coproduction instead of electricity, gas boiler(s) in lieu of a solid fuel boiler)...
May 18, 2017: Current Opinion in Biotechnology
https://www.readbyqxmd.com/read/28527826/metabolic-pathway-analysis-of-the-xylose-metabolizing-yeast-protoplast-fusant-zlyrhz7
#8
Jingping Ge, Renpeng Du, Gang Song, Yuhuan Zhang, Wenxiang Ping
Xylose is the second major fermentable sugar present in hard woods and herbs (after d-glucose). Therefore, efficient conversion of xylose to ethanol is essential for the commercialization of lignocellulosic ethanol, which may provide an ideal alternative to fossil fuels in the future. ZLYRHZ7 is a fusant produced by protoplast fusion between two different yeast species, Saccharomyces cerevisiae W5 and Candida shehatae 20335, which is able to utilize xylose to produce ethanol. To improve ethanol production and to quantitatively analyze metabolic pathway in ZLYRHZ7, we used high performance liquid chromatography (HPLC) to assess the utilization rates of xylose, xylitol, and xylulose, and to measure ethanol yields using xylose, xylitol, and xylulose as sole carbon sources...
May 17, 2017: Journal of Bioscience and Bioengineering
https://www.readbyqxmd.com/read/28527765/lignocellulosic-sugar-management-for-xylitol-and-ethanol-fermentation-with-multiple-cell-recycling-by-kluyveromyces-marxianus-iipe453
#9
Diptarka Dasgupta, Debashish Ghosh, Sheetal Bandhu, Dilip K Adhikari
Optimum utilization of fermentable sugars from lignocellulosic biomass to deliver multiple products under biorefinery concept has been reported in this work. Alcohol fermentation has been carried out with multiple cell recycling of Kluyveromyces marxianus IIPE453. The yeast utilized xylose-rich fraction from acid and steam treated biomass for cell generation and xylitol production with an average yield of 0.315±0.01g/g while the entire glucose rich saccharified fraction had been fermented to ethanol with high productivity of 0...
July 2017: Microbiological Research
https://www.readbyqxmd.com/read/28525726/characterization-of-an-ionic-liquid-tolerant-%C3%AE-xylosidase-from-a-marine-derived-fungal-endophyte
#10
Anindita Sengupta, Angela Zabala, Si Yu Tan, Arthur Broadstock, T S Suryanarayanan, Venkat Gopalan
Ionic liquids (ILs) are used in lignocellulosic biomass (LCB) pretreatment due to their ability to disrupt the extensive hydrogen-bonding network in cellulose and hemicellulose, and thereby decrease LCB recalcitrance to subsequent enzymatic degradation. However, this approach necessitates development of a cellulases and hemicellulases that can tolerate ~20% (w/v) IL, an amount that either co-precipitates with the sugar polymers after the initial pretreatment or is typically used in single-pot biomass deconstructions...
May 19, 2017: Biochemistry and Cell Biology, Biochimie et Biologie Cellulaire
https://www.readbyqxmd.com/read/28523077/enhanced-biomethane-production-rate-and-yield-from-lignocellulosic-ensiled-forage-ley-by-in-situ-anaerobic-digestion-treatment-with-endogenous-cellulolytic-enzymes
#11
Jutta Speda, Mikaela A Johansson, Anna Odnell, Martin Karlsson
BACKGROUND: Enzymatic treatment of lignocellulosic material for increased biogas production has so far focused on pretreatment methods. However, often combinations of enzymes and different physicochemical treatments are necessary to achieve a desired effect. This need for additional energy and chemicals compromises the rationale of using enzymes for low energy treatment to promote biogas production. Therefore, simpler and less energy intensive in situ anaerobic digester treatment with enzymes is desirable...
2017: Biotechnology for Biofuels
https://www.readbyqxmd.com/read/28521816/biochemical-characterization-of-the-xylan-hydrolysis-profile-of-the-extracellular-endo-xylanase-from-geobacillus-thermodenitrificans-t12
#12
Martinus J A Daas, Patricia Murciano Martínez, Antonius H P van de Weijer, John van der Oost, Willem M de Vos, Mirjam A Kabel, Richard van Kranenburg
BACKGROUND: Endo-xylanases are essential in degrading hemicellulose of various lignocellulosic substrates. Hemicellulose degradation by Geobacillus spp. is facilitated by the hemicellulose utilization (HUS) locus that is present in most strains belonging to this genus. As part of the HUS locus, the xynA gene encoding an extracellular endo-xylanase is one of the few secreted enzymes and considered to be the key enzyme to initiate hemicellulose degradation. Several Geobacillus endo-xylanases have been characterized for their optimum temperature, optimum pH and generation of degradation products...
May 18, 2017: BMC Biotechnology
https://www.readbyqxmd.com/read/28521336/chemical-ecology-of-antibiotic-production-by-actinomycetes
#13
Anne van der Meij, Sarah F Worsley, Matthew I Hutchings, Gilles P van Wezel
Actinomycetes are a diverse family of filamentous bacteria that produce a plethora of natural products relevant for agriculture, biotechnology and medicine, including the majority of the antibiotics we use in the clinic. Rather than as free-living bacteria, many actinomycetes have evolved to live in symbiosis with among others plants, fungi, insects and sponges. As a common theme, these organisms profit from the natural products and enzymes produced by the actinomycetes, for example, for protection against pathogenic microbes, for growth promotion or for the degradation of complex natural polymers such as lignocellulose...
May 1, 2017: FEMS Microbiology Reviews
https://www.readbyqxmd.com/read/28521209/use-of-solid-digestate-for-lignocellulolytic-enzymes-production-through-submerged-fungal-fermentation
#14
Alida Musatti, Elena Ficara, Chiara Mapelli, Cecilia Sambusiti, Manuela Rollini
Studies were performed on the use of the solid fraction of digestate (D) for the production of lignocellulolytic enzymes (endo- and exo-glucanase, xylanase, β-glucosidase and laccase) by fungi, in comparison with wheat straw (benchmark) (W). To date, this is the first report on the use of such an inexpensive substrate in a liquid environment. Submerged instead of solid state fermentation was applied to overcome pH inhibition and increase surface accessibility. A total of 21 fungal strains were tested: the most performing ones were Irpex lacteus DSM1183 for both β-glucosidase (52 IU/g with D, + 400% compared to W) and endo-glucanase (236 IU/g with D, + 470% compared to W), Schizophyllum commune CBS30132 for xylanase (715 IU/g with W, + 145% compared to D) and Pleurotus ostreatus ATCC96997 for laccase (124 IU/g with D, +230% compared to D)...
May 15, 2017: Journal of Environmental Management
https://www.readbyqxmd.com/read/28515785/recombinant-expression-of-thermostable-processive-mteg5-endoglucanase-and-its-synergism-with-mtlpmo-from-myceliophthora-thermophila-during-the-hydrolysis-of-lignocellulosic-substrates
#15
Anthi Karnaouri, Madhu Nair Muraleedharan, Maria Dimarogona, Evangelos Topakas, Ulrika Rova, Mats Sandgren, Paul Christakopoulos
BACKGROUND: Filamentous fungi are among the most powerful cellulolytic organisms in terrestrial ecosystems. To perform the degradation of lignocellulosic substrates, these microorganisms employ both hydrolytic and oxidative mechanisms that involve the secretion and synergism of a wide variety of enzymes. Interactions between these enzymes occur on the level of saccharification, i.e., the release of neutral and oxidized products, but sometimes also reflected in the substrate liquefaction...
2017: Biotechnology for Biofuels
https://www.readbyqxmd.com/read/28515461/variation-of-nanostructures-molecular-interactions-and-anisotropic-elastic-moduli-of-lignocellulosic-cell-walls-with-moisture
#16
S Youssefian, J E Jakes, N Rahbar
A combination of experimental, theoretical and numerical studies is used to investigate the variation of elastic moduli of lignocellulosic (bamboo) fiber cell walls with moisture content (MC). Our Nanoindentation results show that the longitudinal elastic modulus initially increased to a maximum value at about 3% MC and then decreased linearly with increasing MC. In contrast, the transverse moduli decrease linearly with MC. We showed that amorphous materials in cell walls have key roles in the variation of elastic modulus with increasing MC...
May 17, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28511958/selection-of-discriminant-mid-infrared-wavenumbers-by-combining-a-na%C3%A3-ve-bayesian-classifier-and-a-genetic-algorithm-application-to-the-evaluation-of-lignocellulosic-biomass-biodegradation
#17
REVIEW
Abbas Rammal, Eric Perrin, Valeriu Vrabie, Rabih Assaf, Hassan Fenniri
Infrared spectroscopy provides useful information on the molecular compositions of biological systems related to molecular vibrations, overtones, and combinations of fundamental vibrations. Mid-infrared (MIR) spectroscopy is sensitive to organic and mineral components and has attracted growing interest in the development of biomarkers related to intrinsic characteristics of lignocellulose biomass. However, not all spectral information is valuable for biomarker construction or for applying analysis methods such as classification...
May 13, 2017: Mathematical Biosciences
https://www.readbyqxmd.com/read/28510273/manganese-catalyzed-sustainable-synthesis-of-pyrroles-from-alcohols-and-amino-alcohols
#18
Fabian Kallmeier, Beata Dudziec, Torsten Irrgang, Rhett Kempe
The development of reactions that convert alcohols into important chemical compounds saves our fossil carbon resources as alcohols can be obtained from indigestible biomass such as lignocellulose. The conservation of our rare noble metals is of similar importance, and their replacement by abundantly available transition metals, such as Mn, Fe, or Co (base or nonprecious metals), in key technologies such as catalysis is a promising option. Herein, we report on the first base-metal-catalyzed synthesis of pyrroles from alcohols and amino alcohols...
May 16, 2017: Angewandte Chemie
https://www.readbyqxmd.com/read/28507596/efficient-whole-cell-catalyzing-cellulose-saccharification-using-engineered-clostridium-thermocellum
#19
Jie Zhang, Shiyue Liu, Renmin Li, Wei Hong, Yan Xiao, Yingang Feng, Qiu Cui, Ya-Jun Liu
BACKGROUND: Cost-efficient saccharification is one of the main bottlenecks for industrial lignocellulose conversion. Clostridium thermocellum naturally degrades lignocellulose efficiently using the cellulosome, a multiprotein supermolecular complex, and thus can be potentially used as a low-cost catalyst for lignocellulose saccharification. The industrial use of C. thermocellum is restrained due largely to the inhibition of the hydrolysate cellobiose to its cellulosome. Although the supplementation of beta-glucosidase may solve the problem, the production of the enzymes greatly complicates the process and may also increase the cost of saccharification...
2017: Biotechnology for Biofuels
https://www.readbyqxmd.com/read/28506668/characterization-of-selected-municipal-solid-waste-components-to-estimate-their-biodegradability
#20
R Bayard, H Benbelkacem, R Gourdon, P Buffière
Biological treatments of Residual Municipal Solid Waste (RMSW) allow to divert biodegradable materials from landfilling and recover valuable alternative resources. The biodegradability of the waste components needs however to be assessed in order to design the bioprocesses properly. The present study investigated complementary approaches to aerobic and anaerobic biotests for a more rapid evaluation. A representative sample of residual MSW was collected from a Mechanical Biological Treatment (MBT) plant and sorted out into 13 fractions according to the French standard procedure MODECOM™...
May 12, 2017: Journal of Environmental Management
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