Publications

Davis, Ryan W.; Davis, Ryan W.; Tran-Gyamfi, Mary B.; Tran-Gyamfi, Mary B.; Wu, Weihua W.; Wu, Weihua W.; Liu, Fang L.; Liu, Fang L.; Jaryenneh, James D.; Jaryenneh, James D.

Abstract not provided.

Whitmore, Leanne S.; Davis, Ryan W.; L., McCormick R.; Hudson, Corey H.

Abstract not provided.

Algal Research

Wu, Weihua; Davis, Ryan W.

Under robust algae growth conditions, algal carbohydrates and proteins typically comprise up to ~. 80% of the ash-free dry weight of microalgae biomass. Therefore, production of algal biofuel through comprehensive utilization of all algal components and the addition of high energy density fuel compounds with "fit for purpose" properties or high-value bioproducts will both diminish the process cost and improve the overall process feasibility. In this study, we firstly demonstrated the concept of a "one-pot" bioconversion of algal carbohydrate and protein into value-added terpene compounds as advanced biofuel and high value bioproducts to improve the overall process feasibility through the development of engineered microbial consortium. The consortium for caryophyllene production yielded the highest titer of total terpene, up to 507.4 mg/L, including 471 mg/L of sesquiterpene, 36.4 mg/L of monoterpene, and 124.4 mg/L of caryophyllene on algal hydrolysate from Nannochloropsis sp. Additionally, the consortium expressing chamigrene synthase produced 187 mg/L total terpene including 87 mg/L of monoterpene, 100 mg/L of sesquiterpene, and 62 mg/L chamigrene on hydrolysate from benthic polyculture biomass. Compared to the yields of terpene extracted from plant tissue, both consortia increased the terpene yield about 3-40 times, which makes it a promising alternative pathway for terpene production.

Davis, Ryan W.

Abstract not provided.

Pate, Ronald C.; Davis, Ryan W.; George, Anthe G.; Wu, Benjamin C.; Lane, Todd L.

Abstract not provided.

Davis, Ryan W.

Abstract not provided.

ACS Catalysis

Stavila, Vitalie S.; Ramakrishnan, Parthasarathi R.; Davis, Ryan W.; El Gabaly, Farid; Sale, Kenneth L.; Simmons, Blake S.; Singh, Seema S.; Allendorf, Mark D.

We demonstrate that metal-organic frameworks (MOFs) can catalyze hydrogenolysis of aryl ether bonds under mild conditions. Mg-IRMOF-74(I) and Mg-IRMOF-74(II) are stable under reducing conditions and can cleave phenyl ethers containing β-O-4, α-O-4, and 4-O-5 linkages to the corresponding hydrocarbons and phenols. Reaction occurs at 10 bar H2 and 120 °C without added base. DFT-optimized structures and charge transfer analysis suggest that the MOF orients the substrate near Mg2+ ions on the pore walls. Ti and Ni doping further increase conversions to as high as 82% with 96% selectivity for hydrogenolysis versus ring hydrogenation. Repeated cycling induces no loss of activity, making this a promising route for mild aryl-ether bond scission.

Davis, Ryan W.

Abstract not provided.

Bioresource Technology

Davis, Ryan W.; Siccardi, Anthony J.; Huysman, Nathan D.; Wyatt, Nicholas B.; Hewson, John C.; Lane, Todd L.

The suitability of crude and purified struvite (MgNH4PO4), a major precipitate in wastewater streams, was investigated for renewable replacement of conventional nitrogen and phosphate resources for cultivation of microalgae. Bovine effluent wastewater stone, the source of crude struvite, was characterized for soluble N/P, trace metals, and biochemical components and compared to the purified mineral. Cultivation trials using struvite as a major nutrient source were conducted using two microalgae production strains, Nannochloropsis salina and Phaeodactylum tricornutum, in both lab and outdoor pilot-scale raceways in a variety of seasonal conditions. Both crude and purified struvite-based media were found to result in biomass productivities at least as high as established media formulations (maximum outdoor co-culture yield ~20±4gAFDW/m2/day). Analysis of nutrient uptake by the alga suggest that struvite provides increased nutrient utilization efficiency, and that crude struvite satisfies the trace metals requirement and results in increased pigment productivity for both microalgae strains.

Wu, Meiye W.; Davis, Ryan W.

Abstract not provided.

Wu, Weihua W.; Davis, Ryan W.; Wu, Benjamin C.

Abstract not provided.

Pate, Ronald C.; Wu, Benjamin C.; Hernandez, Patricia M.; Drennen, Thomas E.; Davis, Ryan W.; George, Anthe G.

Abstract not provided.

Davis, Ryan W.; Tran-Gyamfi, Mary B.; Wu, Weihua W.; Lane, Todd L.; Pate, Ronald C.; Wu, Benjamin C.

Abstract not provided.

Sandia journal manuscript; Not yet accepted for publication

Davis, Ryan W.; Wu, Benjamin C.; Wu, Weihua W.

Recent strategies for algae-based biofuels have primarily focused on biodiesel production by exploiting high algal lipid yields under nutrient stress conditions. However, under conditions supporting robust algal biomass accumulation, carbohydrate and proteins typically comprise up to ~80% of the ash-free dry weight of algae biomass. Therefore, comprehensive utilization of algal biomass for production of multipurpose intermediate- to high-value bio-based products will promote scale-up of algae production and processing to commodity volumes. Terpenes are hydrocarbon and hydrocarbon-like (C:O>10:1) compounds with high energy density, and are therefore potentially promising candidates for the next generation of value added bio-based chemicals and “drop-in” replacements for petroleum-based fuels. In this study, we demonstrated the feasibility of bioconversion of proteins into sesquiterpene compounds as well as comprehensive bioconversion of algal carbohydrates and proteins into biofuels. To achieve this, the mevalonate pathway was reconstructed into an E. coli chassis with six different terpene synthases (TSs). Strains containing the various TSs produced a spectrum of sesquiterpene compounds in minimal medium containing amino acids as the sole carbon source. The sesquiterpene production was optimized through three different regulation strategies using chamigrene synthase as an example. The highest total terpene titer reached 166 mg/L, and was achieved by applying a strategy to minimize mevalonate accumulation in vivo. The highest yields of total terpene were produced under reduced IPTG induction levels (0.25 mM), reduced induction temperature (25°C), and elevated substrate concentration (20 g/L amino acid mixture). A synthetic bioconversion consortium consisting of two engineering E. coli strains (DH1-TS and YH40-TS) with reconstructed terpene biosynthetic pathways was designed for comprehensive single-pot conversion of algal carbohydrates and proteins to sesquiterpenes. The consortium yielded the highest total terpene yields (187 mg/L) at an inoculum ratio 2:1 of strain YH40-TS: DH1-TS, corresponding to 31 mg fuel/g algae biomass ash free dry weight. This study therefore demonstrates a feasible process for comprehensive algal biofuel production.

Wu, Meiye W.; Davis, Ryan W.

In the early stages of infection, patients develop non-specific or no symptoms at all. While waiting for identification of the infectious agent, precious window of opportunity for early intervention is lost. The standard diagnostics require affinity reagents and sufficient pathogen titers to reach the limit of detection. In the event of a disease outbreak, triaging the at-risk population rapidly and reliably for quarantine and countermeasure is more important than the identification of the pathogen by name. To expand Sandia's portfolio of Biological threat management capabilities, we will utilize Raman spectrometry to analyze immune subsets in whole blood to rapidly distinguish infected from non-infected, and bacterial from viral infection, for the purpose of triage during an emergency outbreak. The goal of this one year LDRD is to determine whether Raman spectroscopy can provide label-free detection of early disease signatures, and define a miniaturized Raman detection system meeting requirements for low- resource settings.

Lane, Todd L.; Davis, Ryan W.; Lane, Pamela L.; Hewson, John C.; Siccardi, Anthony J.; Kipp, Peter K.

Abstract not provided.

Eckles, Tyler P.; Davis, Ryan W.; Allendorf, Mark D.

Abstract not provided.

Davis, Ryan W.; Wu, Weihua W.; Tran-Gyamfi, Mary B.; Jaryenneh, James D.; Wu, Benjamin C.

Abstract not provided.

Lane, Todd L.; Davis, Ryan W.; Lane, Pamela L.; Hewson, John C.; Wyatt, Nicholas B.

Abstract not provided.

Chin, Arianna C.; Davis, Ryan W.; Wu, Meiye W.

Abstract not provided.

Hadjilambris, Anna-Maria H.; Wu, Weihua W.; Tran-Gyamfi, Mary B.; Jaryenneh, James D.; Wu, Benjamin C.; Davis, Ryan W.; Liao, James L.; Nagle, Nicholas J.

Abstract not provided.

Pate, Ronald C.; Davis, Ryan W.; George, Anthe G.; Malczynski, Leonard A.; Hernandez, Patricia M.

Abstract not provided.

Lane, Todd L.; Hewson, John C.; Davis, Ryan W.; Lane, Pamela L.; Siccardi, Anthony J.; Kipp, Peter K.

Abstract not provided.

Davis, Ryan W.; Wu, Benjamin C.

Abstract not provided.

Davis, Ryan W.; Lane, Todd L.; Wu, Benjamin C.

Abstract not provided.