54 resultados para Drews
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During the MARGASCH cruise M52/1 in 2001 with RV Meteor we sampled surface sediments from three stations in the crater of the Dvurechenskii mud volcano (DMV, located in the Sorokin Trough of the Black Sea) and one reference station situated 15 km to the northeast of the DMV. We analysed the pore water for sulphide, methane, alkalinity, sulphate, and chloride concentrations and determined the concentrations of particulate organic carbon, carbonate and sulphur in surface sediments. Rates of anaerobic oxidation of methane (AOM) were determined using a radiotracer (14CH4) incubation method. Numerical transport-reaction models were applied to derive the velocity of upward fluid flow through the quiescently dewatering DMV, to calculate rates of AOM in surface sediments, and to determine methane fluxes into the overlying water column. According to the model, AOM consumes 79% of the average methane flux from depth (8.9 x 10**+ 6 mol a**-1), such that the resulting dissolved methane emission from the volcano into the overlying bottom water can be determined as 1.9 x 10**+ 6 mol a**-1. If it is assumed that all submarine mud volcanoes (SMVs) in the Black Sea are at an activity level like the DMV, the resulting seepage represents less than 0.1% of the total methane flux into this anoxic marginal sea. The new data from the DMV and previously published studies indicate that an average SMV emits about 2.0 x 10**+ 6 mol a**-1 into the ocean via quiescent dewatering. The global flux of dissolved methane from SMVs into the ocean is estimated to fall into the order of 10**+10 mol a**-1. Additional methane fluxes arise during periods of active mud expulsion and gas bubbling occurring episodically at the DMV and other SMVs.
Population genetic and dispersal modeling data for Bathymodiolus mussels from the Mid-Atlantic Ridge
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The zip folder comprises a text file and a gzipped tar archive. 1) The text file contains individual genotype data for 90 SNPs, 9 microsatellites and the mitochondrial ND4 gene that were determined in deep-sea hydrothermal vent mussels from the Mid-Atlantic Ridge (genus Bathymodiolus). Mussel specimens are grouped according to the population (pop)/location from which they have been sampled (first column). The remaining columns contain the respective allele/haplotype codes for the different genetic loci (names in the header line). The data file is in CONVERT format and can be directly transformed into different input files for population genetic statistics. 2) The tar archive contains NetCDF files with larval dispersal probabilities for simulated annual larval releases between 1998 and 2007. For each simulated vent location (Menez Gwen, Lucky Strike, Rainbow, Vent 1-10) two NetCDF files are given, one for an assumed pelagic larval duration of 1 year and the other one for an assumed pelagic larval duration of 6 months (6m).
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Endoproteolytic processing of the human protein C (HPC) precursor to its mature form involves cleavage of the propeptide after amino acids Lys-2-Arg-1 and removal of a Lys156-Arg157 dipeptide connecting the light and heavy chains. This processing was inefficient in the mammary gland of transgenic mice and pigs. We hypothesized that the protein processing capacity of specific animal organs may be improved by the coexpression of selected processing enzymes. We tested this by targeting expression of the human proprotein processing enzyme, named paired basic amino acid cleaving enzyme (PACE)/furin, or an enzymatically inactive mutant, PACEM, to the mouse mammary gland. In contrast to mice expressing HPC alone, or to HPC/PACEM bigenic mice, coexpression of PACE with HPC resulted in efficient conversion of the precursor to mature protein, with cleavage at the appropriate sites. These results suggest the involvement of PACE in the processing of HPC in vivo and represent an example of the engineering of animal organs into bioreactors with enhanced protein processing capacity.
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Back Row: James Brown, Jon Falk, Dave Garlow, Bill Sheridan, Tom Hassel, Reggie Mitchell, Sr. Mgr. Michael Drews, Bob Tait, Pete Wentworth, Russ Miller, Larry Barrows, John Ferens, Chuck Ritter
11th Row: Paul Alexander, Alex Agase, Bob Thornbladh, Tirrel Burton, Jerry Hanlon, Elliot Uzelac, Gary Moeller, Milan Vooletich, Jerry Meter, Lloyd Carr, Cam Cameron, Michael Trgovac
10th Row: Fritz Seyferth, Andy Johnson, John Althouse, Joel Boyden, Mike Gillette, Mike Edwards, Sean LaFountaine, Olatide Ogunfitidimi, Vincent Washington, Steve Woroniecki, Gulam Kahn, Mike Gittleson
9th Row: John Kolesar, David Weil, Scott Crawford, Chris Simmons, Brian Reid, John Plantz, Mike DePalma, Keith Mitchell, Keith Cooper, Joe Holland, Frank Petroff, Anthony Mitchell, Bob Hurst
8th Row: Mike Taylor, Demetrius Brown, Dave Arnold, Mike Jones, Brent White, Pat Olszewski, John Herrman, Jeff Brown, Bobby Abrams, Derrick Walker, J.J. Grant, Rick Hassel, Cliff Dochterman
7th Row: Ernie Bock, Kyle Anderson, Mike DeBoer, John Duerr, Scott Mandel, Dave Mandel, John Whitledge, Brad Burrows, Don Lessner, Pat Fitzgerald, Geoff Bissell, Rick Sutkiewicz, Phil Logas
6th Row: Ernie Holloway, Jamie Morris, John Zingales, Chuck Adams, Chris D'Esposito, Mark Erhardt, John Vitale, Dave Dever, John Willingham, Bob Cernak, Rick Stites, Bob Stites
5th Row: Gene Lawson, Ken Mouton, Erik Campbell, Dave Chester, Michael Dames, Mike Husar, Dave Herrick, Mark Hill, Dan Holloway, Mike Kovac, Mark Messner, Keith Evens
4th Row: Ed Hood, Tim Schulte, Ken Higgins, Steve Thibert, Phil Webb, Carlitos Bostic, David Folkertsma, Andy Borowski, Monte Robbins, Todd Schulte, Jack Walker, Russell Rein
3rd Row: Pat Moons, Marty Shimko, Andre McIntyre, Garland Rivers, Dan Rice, John Mihic, John Elliott, Gerald White, Chris Zurbrugg, Billy Harris, Keith Cowan, Doug Mallory
2nd Row: Ben Logue, Greg Randall, Mark Hammerstein, Dieter Heren, Gilvanni Johnson, Paul Jokisch, Mike Reinhold, Jerry Quaerna, Mike Krauss, Andy Moeller, Paul Schmerge, Thomas Wilcher, Coach Bo Schembechler
Front Row: Tony Gant, Bob Perryman, Bob Tabachino, Jeff Akers, Brad Cochran, Mike Mallory, Mike Hammerstein, Eric Kattus, Clay Miller, Jim Scarcelli, Jim Harbaugh, Ivan Hicks
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Mode of access: Internet.
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Mode of access: Internet.
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Bibliography: p. xii.
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"Literatur": p. 4.
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Mode of access: Internet.
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Item 1005-C
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Mode of access: Internet.
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Thesis (doctoral)--Universitat Rostock.
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Our systematic search for empirical studies on entrepreneurial motivation published over the last five years (2008-2013) retrieved 51 relevant studies (filtered from over 1,200 search results), which form the basis of this review. Considering the type and quality of studies suggests that we can be relatively confident in our answer to the first review question below (typologies). The evidence-base for the second and third review questions (drivers and consequences of entrepreneurial motivation) is weaker and still developing. Beyond answering the three broad research questions below, we develop a framework for future research synthesising the review findings. 1) What typologies exist to describe entrepreneurial motivation? 2) What influences and shapes entrepreneurial motivation? 3) What consequences have different entrepreneurial motivations for entrepreneurial performance?
