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The conditions necessary for floral induction to occur in tallfescue (Festuca arundinacea), meadow fescue (Festuca pratensis),and red fescue (Festuca rubra), have been investigated. Onlya Tunisian ecotype of tall fescue produced inflorescences undershort-day conditions when air temperatures were above 8 °C.Under short days with low temperatures nearly all plants ofS. 170 tall fescue and S. 215 meadow fescue produced inflorescencesafter 15 weeks' exposure, but S. 59 red fescue showed only asmall response. Evidence was obtained for the existence in bothtall fescue and meadow fescue of a juvenile stage during whichplants showed a reduced response to inductive conditions. Avariation of 35 days in the required length of exposure to inductiveconditions was demonstrated between families within the S. 170variety of tall fescue, indicating the possibility of selectingfor larger or smaller inductive requirements. A second generationof seed was produced within a 12-month period from inflorescenceswhich had developed in a heated glasshouse during the wintermonths. 相似文献
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BARRY BEAN 《The Journal of eukaryotic microbiology》1977,24(3):394-401
SYNOPSIS The normal negative geotaxis (motility oriented against gravity) of Chlamydomonas is an energy-dependent response that requires coordinated flagellar activity. It is evident from quantitative assays that the rate of geotaxis is steady, and slow relative to the average swimming speed.
Geotaxis is inhibited when the horizontal swimming path is less than 200 μm, suggesting that normal geotactic reorientation maneuvers involve long gradual turns. Videomicrographic tracking of cells confirms that such turns are common. In contrast, contact-reorientations generate random cell orientations. When collision frequencies increase, geotaxis in inhibited. The mechanism of normal geotactic orientation, then, depends on long slow reorientation maneuvers (from net downward to net upward vectors) that require hundreds of micrometers of free swimming space. Mechanisms of geotaxis that would require passive reorientation or sedimentation, or rapid active responding, are excluded.
Unusually dense populations sediment with atypical rapidity, probably due to formation of functionally aggregated subpopulations.
Sodium azide causes an inhibition of orientation behavior that is selective relative to its effects on general motility. Evidence presented suggests that active physiologic mechanisms for geotaxis should be reconsidered. 相似文献
Geotaxis is inhibited when the horizontal swimming path is less than 200 μm, suggesting that normal geotactic reorientation maneuvers involve long gradual turns. Videomicrographic tracking of cells confirms that such turns are common. In contrast, contact-reorientations generate random cell orientations. When collision frequencies increase, geotaxis in inhibited. The mechanism of normal geotactic orientation, then, depends on long slow reorientation maneuvers (from net downward to net upward vectors) that require hundreds of micrometers of free swimming space. Mechanisms of geotaxis that would require passive reorientation or sedimentation, or rapid active responding, are excluded.
Unusually dense populations sediment with atypical rapidity, probably due to formation of functionally aggregated subpopulations.
Sodium azide causes an inhibition of orientation behavior that is selective relative to its effects on general motility. Evidence presented suggests that active physiologic mechanisms for geotaxis should be reconsidered. 相似文献
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Growth factor receptors (GFRs) are often aberrantly expressed in tumor cells,and altered GFR expression and activity contribute to the pathogenesis of many types of cancer.A variety of mechanisms have ... 相似文献