Variations of phytoplankton assemblages were studied in November–December 2001, in surface waters of the Southern Ocean along
a transect between the Sub-Antarctic Zone (SAZ) and the Seasonal Ice Zone (SIZ; 46.9°–64.9°S; 142°–143°E; CLIVAR-SR3 cruise).
Two regions had characteristic but different phytoplankton assemblages. Nanoflagellates(<20 μm) and pico-plankton (∼2 μm)
occurred in similar concentrations along the transect, but were dominant in the SAZ, Sub-Antarctic Front (SAF), Polar Front
Zone (PFZ) and the Inter-Polar Front Zone (IPFZ), (46.9°–56.9°S). Along the entire transect their average cell numbers in
the upper 70 m of water column, varied from 3 × 105 to 1.1 × 106 cells l−1. Larger cells (>20 μm), diatoms and dinoflagellates, were more abundant in the Antarctic Zone-South (AZ-S) and the SIZ, (60.9°–64.9°S).
In AZ-S and SIZ diatoms ranged between 2.7 × 105 and 1.2 × 106 cells l−1, dinoflagellates from 3.1 × 104 to 1.02 × 105 cells l−1. A diatom bloom was in progress in the AZ-S showing a peak of 1.8 × 106 cells l−1. Diatoms were dominated by Pseudo-nitzschia spp., Fragilariopsis spp., and Chaetoceros spp. Pseudo-nitzschia spp. outnumbered other diatoms in the AZ-S. Fragilaropsis spp. were most numerous in the SIZ. Dinoflagellates contained autotrophs (e.g. Prorocentrum) and heterotrophs (Gyrodinium/Gymnodinium, Protoperidinium). Diatoms and dinoflagellates contributed most to the cellular carbon: 11–25 and 17–124 μg C l−1, respectively. Small cells dominated in the northern region characterized by the lowest N-uptake and new production of the
transect. Larger diatom cells were prevalent in the southern area with higher values of N-uptake and new production. Diatom
and nanoflagellate cellular carbon contents were highly correlated with one another, with primary production, and productivity
related parameters. They contributed up to 75% to the total autotrophic C biomass. Diatom carbon content was significantly
correlated to nitrate uptake and particle export, but not to ammonium uptake, while flagellate carbon was well correlated
to ammonium uptake, but not to export. Diatoms have contributed highly to particle export along the latitudinal transect,
while flagellates played a minor role in the export. 相似文献
Although many studies have shown that amino acid ingestion acutely stimulates protein anabolism, only few studies have investigated whether long-term supplementation promotes changes in body composition. We therefore tested the hypothesis that l-leucine (LEU) and l-phenylalanine (PHE) supplementation might have a positive impact on the body composition of rats submitted to intermittent periods of food restriction and refeeding (weight cycling or WC). The WC protocol comprised three cycles, each consisting of 1 week of 50% food restriction followed by 2 weeks of ad libitum ingestion. The groups submitted to WC ingested the control diet (WC-CON) or the diet supplemented with LEU+PHE (WC-AA). A pair-fed group receiving the control diet (PF-CON) was used as a reference for the effects of WC. Although food intake was the same in all groups, higher body weight and energy efficiency were observed in the WC-AA group compared to the PF-CON and WC-CON groups although not significantly in relation to the latter. These results were the consequence of a significant increase of lean body mass and body protein content in the WC-AA group compared to the PF-CON and WC-CON groups. The WC-CON and WC-AA groups presented 36.1% and 18.9% more body fat, respectively, than the PF-CON group but this difference was not significant. Neither fasting insulin nor glucose concentration nor postprandial insulin secretion was significantly affected by the supplemented diet. In conclusion, supplementation with LEU+PHE improved the body composition profile of rats submitted to WC, mainly by increasing lean body mass and body protein content. 相似文献
The activities of the enzymes NTPDase (EC 3.6.1.5, apyrase, CD39) and 5'-nucleotidase (EC 3.1.3.5, CD73) were analyzed in platelets from rats submitted to demyelination by ethidium bromide (EB) and treated with interferon beta (IFN-beta). The following groups were studied: I - control (saline), II - (saline and IFN-beta), III - (EB) and IV - (EB and IFN-beta). After 7, 15 and 30 days, the animals (n=7) were sacrificed and the platelets were separated by the method of Lunkes et al. [Lunkes, G., Lunkes D., Morsch, V., Mazzanti, C., Morsch, A., Miron, V., Schetinger, M.R.C., 2004. NTPDase and 5'-nucleotidase in rats alloxan- induced diabetes. Diabetes Research and Clinical Practice 65, 1-6]. NTPDase activity for ATP and ADP substrates was significantly lower in groups II and III after seven days, when compared to control (p<0.001). At fifteen days, ATP hydrolysis was significantly lower in group III and IV and higher in group II (p<0.001), while there was an activation of ADP hydrolysis in group II (p<0.001), when compared with the control. 5'-nucleotidase activity was significantly higher in group IV (p<0.001) after seven days, and lower in the groups III and IV (p<0.001) after fifteen days in relation to the control. No significant differences were observed in NTPDase and 5'-nucleotidase activities after thirty days. In conclusion, our study demonstrated that the hydrolysis of adenine nucleotides is modified in platelets of rats demyelinated and treated with IFN-beta. 相似文献
Polypodium vulgare L., a widely distributed fern, is water-stress tolerant. Under controlled dehydration conditions (20% mannitol, 9 h) without
and with abscisic acid (ABA) pretreatment (2 mg l−1, 24 h), dehydration tolerance and regenerative, potential of common polypody rhizomes was investigated. We demonstrated the
positive effect of ABA on changes in dehydrated rhizome metabolism. ABA pretreatment reduced electrolyte leakage from cells:
it has also a role in regulating sucrose accumulation and thus, osmotic adjustment. Our findings confirm that P. vulgare rhizomes are well adapted to stress conditions through maintaining of ability to bud formation by dehydrated and rehydrated
rhizomes. 相似文献
Sorghum bicolor is a recalcitrant species for tissue culture regeneration and genetic transformation. Browning of explants is one of the factors limiting organ and tissue cultures. To overcome this, callus tissue was initiated from the shoot tips of in vitro germinating seeds (S. bicolor cv. Róna 1), and then cultured on modified MS media (Murashige and Skoog in Physiol Plant 15:473–497, 1962). In the first experiment, we tested callus induction on several media supplemented with casein hydrolysate, polyvinylpyrrolidone, honey, and sucrose. The best callus induction was recorded for the medium with honey and sucrose (80.0%) and for control medium (79.8%). Shoot regeneration was tested on the MS medium with 6-benzylaminopurine (BAP) supplemented with honey and sucrose at a 1:1 ratio (by weight) or with sucrose only. The highest percentage of calluses regenerating shoots was noted for those induced on the medium with sucrose and honey—approx. four times higher when compared to the control. Rooted plantlets were acclimatized with a 92% survival rate. In the second experiment, we analyzed culture responses to various ways of honey application to the induction media: honey (autoclaved or filtered) in presence or absence of sucrose. Supplementation of the medium with fructose, glucose, and maltose at a proportion typical for honey was also investigated. The explant and callus survival rates were similar to those of the honey–sucrose combination in the first experiment. Only presence of both sucrose and honey in the induction medium improved the total regeneration rate to 37.9% over the control (18.8%). Sucrose and honey appear to act synergistically for shoot regeneration in callus cultures of sorghum.
In the present study, we have identified new prenyllipid metabolites formed during high light stress in Arabidopsis thaliana, whose origin and function remained unknown so far. It was found that plastoquinone‐C accumulates mainly in the reduced form under high light conditions, as well as during short‐term excess light illumination both in the wild‐type and tocopherol biosynthetic vte1 mutant, suggesting that plastoquinone‐C, a singlet oxygen‐derived prenyllipid, is reduced in chloroplasts by photosystem II or enzymatically, outside thylakoids. Plastoquinone‐B, a fatty acid ester of plastoquinone‐C, was identified for the first time in Arabidopsis in high light grown wild‐type plants and during short‐time, excess light illumination of the wild‐type plants and the vte1 mutant. The gene expression analysis showed that vte2 gene is most pronouncedly up‐regulated among the prenyllipid biosynthetic genes under high light and induction of its expression is mainly caused by an increased level of singlet oxygen, as was demonstrated in experiments with D2O‐treated plants under excess light conditions. 相似文献