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11.
Danielle J. Donnelly William E. Vidaver Kwai Y. Lee 《Plant Cell, Tissue and Organ Culture》1985,4(1):43-50
The leaf, petiole, stem and root anatomy of an aseptically cultured red raspberry clone (Rubus idaeus L.) was studied before and 5 weeks after transfer to soil under controlled environmental conditions. Tissues persistent from culture showed little or no change with time in soil; they grew minimally and slight secondary wall deposition occurred. New organs formed in successive weeks after transplantation showed a graded increase in potential size and development. Some features, such as collenchyma formation, rapidly returned to control levels; this was seen in new leaves expanding in the first week after transplantation. Other features, such as sclerenchyma formation, did not occur in leaves expanding during the first 2 weeks after transplantation, even when these were a month or more in age. Some sclerenchyma was seen in leaves expanding in the third week after transplantation, increasing in later-formed leaves. Increasing the light intensity of transplant accelerated the return to control-type organ size and appearance. During acclimatization transitional forms of leaves, petioles, stems and roots develop that ranged anatomically from culture-to control-type. This trend is analagous to the normal developmental sequence of organ formation as it affects the potential for development of successily formed organs. 相似文献
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Danielle G. Marty 《Biotechnology letters》1985,7(12):900-904
Summary Study of CMC fermentation by a marine syntrophic association of an anaerobic cellulose-degrader, a carbohydrate-fermenter, and a methanogen. Altered fermentation pattern in general agreement with the concept of interspecies hydrogen transfer was obtained only with pregrowth of methanogen followed by inoculation of the two fermentative bacteria. 相似文献
14.
Felix Bronner Danielle Pansu Arlette Bosshard Jeffrey H. Lipton 《Journal of cellular physiology》1983,116(3):322-328
Intestinal cells were isolated by a combination of mechanical and enzymatic means, and their calcium uptake was assayed by a rapid filtration procedure. Calcium uptake was a time- and concentration-dependent process that was markedly elevated at 25 and 37°C, as compared to 0°C. Cells isolated from rat duodenum exhibited higher uptakes than cells from jejunum, which in turn took up more calcium than cells from the ileurn. Duodenal cells from vitamin D-deficient animals took up less calcium than cells from vitamin D-replete cells. In vivo vitamin D repletion with 1,25-dihydroxyvitamin D3 raised calcium uptake by duodenal cells from treated animals toward that of cells from replete rats. Furthermore, calcium uptake by duodenal cells from vitamin D-deficient animals approximated that of ileal cells from replete rats. These findings with isolated cells parallel prior findings of tissue calcium transport and suggest that cellular calcium uptake may be related to the saturable component of intestinal calcium absorption. Isolated intestinal cells may therefore constitute one experimental model for the study of transcellular calcium transport. 相似文献
15.
Dr. Isabelle A. Carré Ady S. Oster Danielle L. Laval-Martin Leland N. Edmunds Jr. 《Current microbiology》1989,19(4):223-229
The photosynthesis-deficient ZC mutant ofEuglena gracilis Klebs (strain Z) was cultured at 16°C on an aerated, magnetically stirred, mineral medium containing 0.1% ethanol (pH 7.0). Cell division could be entrained by a 12: 12 light: dark cycle (LD: 12, 12) or even by a one-pulse skeleton photoperiod (LD: 1,23) The rhythm free-ran in DD for at least 8 days with a circadian period (=25.5 h) in populations that had been previously entrained by LD. The freerunning rhythm could be phase-shifted by a single 1-h light pulse (3000 lx). The strong (Type 0) phase-response curve derived from the resetting effects of such signals given at different circadian times was similar to that for the photosynthetic wild-type strain. These results demonstrate that the presence of a functional chloroplast compartment is not necessary for the circadian clock to function inEuglena and suggest that phase resetting of the circadian clock by light occurs via a similar pathway in both photosynthetic and non-photosynthetic cell types. 相似文献
16.
Françoise Mead Catherine Habersetzer Danielle Gabouriaut Jacques Gervet 《Journal of Ethology》1994,12(1):43-51
This study focused on how a decrease in prey availability affected the development of aP. dominulus Christ colony. Nutritional oophagy and larval development were parameters found to be most directly affected. The more indirect
effects on the growth of the nest and on offspring production were also analyzed. 相似文献
17.
Prof. Danielle Swinne 《Mycopathologia》1994,128(2):65-65
Editor's Note. Dr Vanbreuseghem was a member of the Mycopathologia Educational Board from 1959 to 1960. 相似文献
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Danielle Davelaar 《Hydrobiologia》1993,253(1-3):179-192
The purpose of this study was to find theoretical evidence that bacteria, in particular those capable of polyphosphate (polyP) metabolism, are directly implicated in sediment phosphorus (P) dynamics and control P metabolism of freshwater ecosystems. The specific attributes and functional role of such bacteria were investigated on successive levels of ecological organization: individual microorganism, microbial community, freshwater ecosystem. The results of this systematic approach have been formulated as a number of hypotheses.
- PolyP metabolism is the mechanism which enables individual polyP bacteria to survive and grow under the fluctuating redox conditions characteristic of their habitat at the sediment-water interface.
- PolyP metabolism together with anaerobic Mn and/or Fe respiration is the mechanism that confers upon polyP bacteria the advantage required to fill a unique ecological niche within the microbial community to which they belong.
- To the freshwater ecosystem as a whole bacterial polyP metabolism is a homeostatic mechanism which limits P availability and makes ecosystem productivity self-correcting as a function of oxygen availability. Bacterial polyP pools in the sediment are vital components of the P cycle. It was suggested that the impact of this bacterial mechanism should be tested with regard to the eutrophication issue.