Publications

Ruffing, Anne R.; Strickland, Lucas M.; Jensen, Travis J.; McEwen, Jordan T.; Lane, Todd L.; Lane, Pamela L.

Abstract not provided.

Ruffing, Anne R.

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Ruffing, Anne R.

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Ruffing, Anne R.; Lane, Todd L.; Kilian, Oliver K.

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Ruffing, Anne R.; Jensen, Travis J.; Strickland, Lucas M.

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Ruffing, Anne R.; Ye, Dongmei Y.

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Ruffing, Anne R.; Strickland, Lucas M.; Jensen, Travis J.

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Ruffing, Anne R.

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Ruffing, Anne R.; Strickland, Lucas M.; Jensen, Travis J.

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Ruffing, Anne R.; jensen, Travis J.; Strickland, Lucas M.

To determine the effect of Liquidoff on bacteria, three bacterial strains were tested: Escherichia coli DH5α, Synechococcus sp. PCC 7002, and Synechococcus elongatus PCC 7942. E. coli DH5α is a Gram-negative, aerobic bacterium that is often found in normal gut flora and is commonly used the laboratory due to its fast growth rate. Synechococcus sp. PCC 7002 and S. elongatus PCC 7942 are Gram-negative, aquatic, autophototrophic cyanobacteria. Synechococcus sp. PCC 7002 is a marine cyanobacterium isolated from ‘fish pens’ on Magueyes Island, Puerto Rico in 1962, while S. elongatus PCC 7942 is a freshwater cyanobacterium. It should be noted that no Gram-positive bacterium was tested in this study.

Ruffing, Anne R.

Abstract not provided.

Algal Research

Ruffing, Anne R.

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Ruffing, Anne R.

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Frontiers in Bioengineering and Biotechnology

Ruffing, Anne R.

Abstract not provided.

Ruffing, Anne R.

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Ruffing, Anne R.

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Ruffing, Anne R.

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Ruffing, Anne R.

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Timlin, Jerilyn A.; Collins, Aaron M.; Ruffing, Anne R.

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Ruffing, Anne R.

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Ruffing, Anne R.

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Ruffing, Anne R.

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Proposed for publication in Genome Biology.

Ruffing, Anne R.

Abstract not provided.

Ruffing, Anne R.; Jones, Howland D.

Algal biofuels are a renewable energy source with the potential to replace conventional petroleum-based fuels, while simultaneously reducing greenhouse gas emissions. The economic feasibility of commercial algal fuel production, however, is limited by low productivity of the natural algal strains. The project described in this SAND report addresses this low algal productivity by genetically engineering cyanobacteria (i.e. blue-green algae) to produce free fatty acids as fuel precursors. The engineered strains were characterized using Sandias unique imaging capabilities along with cutting-edge RNA-seq technology. These tools are applied to identify additional genetic targets for improving fuel production in cyanobacteria. This proof-of-concept study demonstrates successful fuel production from engineered cyanobacteria, identifies potential limitations, and investigates several strategies to overcome these limitations. This project was funded from FY10-FY13 through the President Harry S. Truman Fellowship in National Security Science and Engineering, a program sponsored by the LDRD office at Sandia National Laboratories.

Ruffing, Anne R.

Abstract not provided.