Hybrid Poplars

Pennsylvania Dutch country would appear to many folks an unlikely place in which to find a solution to this nation’s energy problems. The fertile fields roll toward the horizon … prosperous farms dot the landscape … and local folks use horses and buggies for transportation! Yet deep in the rich Amish and Mennonite farm country–near Ephrata, Pennsylvania–grow rows of trees that may someday set us free from our gasoline bondage … and can already provide low-cost heat for the homestead house.

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Sustainable aviation fuels: a pathway to economic opportunity and a low carbon future

Earlier this year, the United States officially re-entered the Paris Climate Agreement, an international accord that brings many nations together to address climate change. This reconciliation puts the U.S. on track to adopt cleaner energy policies in the pursuit of eventual carbon neutrality. This return also reinforces the importance of advancing environmental research to decrease our dependence on fossil fuels, which is critical to curbing carbon dioxide emissions.

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Genome Insider S2 Episode 7: THE Bioenergy Tree

The US Department of Energy’s favorite tree is poplar. They’re the fastest growing trees in the Northern Hemisphere, making them tantalizing plants to harness for bioenergy. In this episode, hear from Oak Ridge National Laboratory scientists who have uncovered remarkable genetic secrets that bring us closer to making poplar an economical and sustainable source of energy and materials.

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What makes plant cell walls both strong and extensible?

UNIVERSITY PARK, Pa. — A plant cell wall’s unique ability to expand without weakening or breaking — a quality required for plant growth — is due to the movement of its cellulose skeleton, according to new research that models the cell wall. The new model, created by Penn State researchers, reveals that chains of cellulose bundle together within the cell wall, providing strength, and slide against each other when the cell is stretched, providing extensibility.

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The Plant Cell Wall: A Complex and Dynamic Structure As Revealed by the Responses of Genes under Stress Conditions

The plant cell wall has a diversity of functions. It provides a structural framework to support plant growth and acts as the first line of defense when the plant encounters pathogens. The cell wall must also retain some flexibility, such that when subjected to developmental, biotic, or abiotic stimuli it can be rapidly remodeled in response. Genes encoding enzymes capable of synthesizing or hydrolyzing components of the plant cell wall show differential expression when subjected to different stresses, suggesting they may facilitate stress tolerance through changes in cell wall composition. In this review we summarize recent genetic and transcriptomic data from the literature supporting a role for specific cell wall-related genes in stress responses, in both dicot and monocot systems. These studies highlight that the molecular signatures of cell wall modification are often complex and dynamic, with multiple genes appearing to respond to a given stimulus. Despite this, comparisons between publically available datasets indicate that in many instances cell wall-related genes respond similarly to different pathogens and abiotic stresses, even across the monocot-dicot boundary. We propose that the emerging picture of cell wall remodeling during stress is one that utilizes a common toolkit of cell wall-related genes, multiple modifications to cell wall structure, and a defined set of stress-responsive transcription factors that regulate them.

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DOE Announces Nearly $200 Million to Reduce Emissions From Cars and Trucks

WASHINGTON, D.C. — Vice President Kamala Harris will join U.S. Secretary of Energy Jennifer M. Granholm in New York today to announce the U.S. Department of Energy (DOE) has awarded $199 million to fund 25 projects aimed at putting cleaner cars and trucks on America’s roads, including long-haul trucks powered by batteries and fuel cells, and at improving the nation’s electric vehicle (EV) charging infrastructure. While in New York, they will discuss the enormous benefits of electrification and alternative-fuel technologies, through programs like SuperTruck, to combat the climate crisis and create good-paying jobs across the country.

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Bioproduct Basics

Bio-based chemicals and materials can serve as renewable alternatives to many of the products derived from petroleum or natural gas, such as plastics, fertilizers, lubricants, and industrial chemicals. They also often require less energy during production and produce fewer greenhouse gases than their petroleum-based equivalents.

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