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200 10$aDocumentation of ice shapes accreted on the main rotor of a UH-1H Helicopter in level flight$b[electronic resource] $efinal report /$fM. K. Hanson and John D. Lee
210  1$aColumbus, Ohio :$cOhio State University, Aeronautical and Astronautical Research Laboratory ; Cleveland, Ohio,$dNational Aeronautics and Space Administration, Lewis Research Center.$d[1986]
215   $a1 online resource (i, 11 pages) $cillustrations
225 1 $aNASA contractor report ;$v175088
300   $aTitle from title screen (viewed Sept. 21, 2012).
300   $a"March 1986."
320   $aIncludes bibliographical references (page 5)
517   $aDocumentation of ice shapes accreted on the main rotor of a UH-1H Helicopter in level flight 
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615  7$aRotary wings.
615  7$aShapes.
700   $aHanson$b M. K$01387827
701   $aLee$b John D$061929
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200 00$aSpores and Spore Formers
210   $cFrontiers Media SA$d2017
215   $a1 online resource (121 p.)
225 1 $aFrontiers Research Topics
311 08$a2-88945-238-7 
330   $aBacterial spore formers have been the focus of intense study for almost half a century centered primarily on Bacillus subtilis. This research has given us a detailed picture of the genetic, physiological and biochemical mechanisms that allow bacteria to survive harsh environmental conditions by forming highly robust spores. Although, many basic aspects of this process are now understood in great detail, bacterial sporulation still continues to be a highly attractive model for studying various cell processes at a molecular level. There are several reasons for such scientific interest. First, some of the complex steps in sporulation are not fully understood and/or only are only described by 'controversial' models. Second, intensive research on unicellular development of a single microorganism, B. subtilis, left us largely unaware of the multitude of diverse sporulation mechanisms in many other Gram-positive endospore and exospore formers. This diversity would likely increase if we were to include sporulation processes in the Gram-negative spore formers. In addition, spore formers have great potential in applied research. Spore forming bacteria are becoming increasingly important in the areas of probiotics, vaccine technology and biotechnology. This Research Topic in Frontiers in Microbiology details the most recent advances in basic science of spore research and cover also emerging areas of scientific importance involving the use of spores.
606   $aMicrobiology (non-medical)$2bicssc
610   $aBacillus cereus
610   $aBacillus subtilis
610   $aClostridium sp.
610   $aexosporium
610   $agermination
610   $aspore coat
610   $asporulation
615  7$aMicrobiology (non-medical)
700   $aEzio Ricca$4auth$01301496
702   $aSimon M. Cutting$4auth
702   $aImrich Barak$4auth
702   $aIvan Mijakovic$4auth
702   $aNeil Fairweather$4auth
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