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Characterization Of Aspen Isoprene Synthase, An Enzyme Responsible For Leaf Isoprene Emission To The Atmosphere, Gary M. Silver, Ray Fall
Characterization Of Aspen Isoprene Synthase, An Enzyme Responsible For Leaf Isoprene Emission To The Atmosphere, Gary M. Silver, Ray Fall
Aspen Bibliography
Isoprene (2-methyl-1,3-butadiene) is a volatile hydrocarbon emitted from many plant species to the atmosphere, where it plays an important role in atmospheric chemistry. An enzyme extracted from aspen (Populus tremuloides) leaves was previously found to catalyze the Mg2+-dependent elimination of pyrophosphate from dimethylallyl diphosphate (DMAPP) to form isoprene (Silver, G. M., and Fall, R.(1991) Plant Physiol. 97, 1588-1591). This enzyme, isoprene synthase, has now been purified 4000-fold to near homogeneity. The enzyme had a native molecular mass of 98-137 kDa and isoelectric point of 4.7 and contained 58- and 62-kDa subunits, implying that it is a heterodimer. …
Carbon Allocation And Partitioning In Aspen Clones Varying In Sensitivity To Tropospheric Ozone, M.D. Coleman, R.E. Dickson, J.G. Isebrands, D.F. Karnosky
Carbon Allocation And Partitioning In Aspen Clones Varying In Sensitivity To Tropospheric Ozone, M.D. Coleman, R.E. Dickson, J.G. Isebrands, D.F. Karnosky
Aspen Bibliography
No abstract provided.
Quaking Aspen Productivity Recovers After Repeated Prescribed Fire, Donald A. Perala
Quaking Aspen Productivity Recovers After Repeated Prescribed Fire, Donald A. Perala
Aspen Bibliography
No abstract provided.
Parent Stand Age And Harvesting Treatment Effects On Juvenile Aspen Biomass Productivity, H. Grewal
Parent Stand Age And Harvesting Treatment Effects On Juvenile Aspen Biomass Productivity, H. Grewal
Aspen Bibliography
No abstract provided.
Improving Aspen Kraft Pulp By A Novel, Low Technology Fungal Pretreatment, Y.R. Chen, E.L. Schmidt
Improving Aspen Kraft Pulp By A Novel, Low Technology Fungal Pretreatment, Y.R. Chen, E.L. Schmidt
Aspen Bibliography
This study investigated the biopulping agent Phanerochaete chrysosporium with a new process that required neither wood sterilization nor pure culture incubation conditions. Aspen (Populus tremuloides Michaux) chip bales with three treatments were studied. Each bale was kraft cooked after 8.5 weeks of pretreatment. The effects of fungal inoculation and foil-wrapping on pulp and paper strength properties were evaluated. Fungal pretreatment caused significantly faster response to beating as lower freeness was noted. Foil-wrapping retarded the loss of moisture within the bale, and as a result, prolonged fungal activities, resulting in substantial increases in burst strength. Tear was slightly increased, but there …
Cankers On Western Quaking Aspen, David W. Johnson, Jerome S. Beatty, Thomas E. Hinds
Cankers On Western Quaking Aspen, David W. Johnson, Jerome S. Beatty, Thomas E. Hinds
Aspen Bibliography
No abstract provided.