Carbon gains by desiccation-tolerant plants at elevated CO2

1. There have been no reports of the long-term responses of the desiccation-tolerant (DT) plants to elevated CO₂. Xerophyta scabrida is a DT woody shrub, which loses chlorophylls and thylakoids during desiccation: a so-called poikilochlorophyllous desiccation-tolerant species (PDT). When the leaves of X. scabria are allowed to desiccate, the species shows many of the normal features of (P)DT plants.
2. However, the duration of photosynthesis in X. scabria is prolonged by 300% when the measurements are made at 700 as opposed to 350p.p.m. CO₂. The implication is that the carboxylating enzymes must still have been active at this time to enable appreciable photosynthetic activity. This response could have far-reaching implications for the success of such species in a future climate.
3. Lichens and mosses, representing the homoiochlorophyllous DTs (HDT), retain their chlorophyll content and photosynthetic apparatus during desiccation. We show the desiccation responses of two common HDT species ( Cladonia convoluta and Tortula ruralis ) to elevated CO₂ for comparison. Both HDT species showed increased net CO₂ uptake in the material grown at high CO₂ by more than 30% in moss and by more than 50% in lichen. It is concluded that desiccation-tolerant plants will be among the main beneficiaries of a high CO₂ future.     

小麦根系过氧化氢积累与耐盐性的关系

以抗盐性不同的2个小麦品系为材料,对其在盐胁迫下根细胞膜的膜渗透率,MDA含量,H2O2积累以及POD,SOD相对活性进行了分析和对比。结果表明：盐胁迫下抗性低的小麦品系93029#POD活性下降,导致活性氧积累而引起膜脂的过氧化作用;而抗盐性强的906#,在盐胁迫下。POD活性显著升高,没有明显的活性氧积累和膜脂过氧化现象,植物的抗盐性与其活性氧代谢和H2O2水平有关,抗必品系具有较高的清除活性氧的能力,使得H2O2浓度处于较低的水平,不对细胞造成伤害,外施Ca^2 和Vc可部分缓解盐害。     

Short term 22Na+ and 42K+ uptake in intact, mid-vegetative plants

Spergularia marina (L.) Griseb. is. a rapidly growing, annual, coastal halophyte. Because of its small size, it is suitable for isotope studies of ion transport well beyond the seedling stage. The purpose of this report is to establish the similarities and differences between ²²Na⁺ and ⁴²K⁺ uptake in S. marina and in more commonly used mesophytic crop species. Vegetative plants were used 18 days after transfer to solution culture. Plants were grown either on Na⁺-free medium or on 0.2 × sea water. ²²Na⁺ uptake was linear with time for several hours. The rate was relatively insensitive to external concentration between 1 and 180 mol Na⁺ m?³, particularly in Na⁺-free plants. Transport to the shoot accounted for 40 to 70% of the total uptake, dependent on salinity but largely independent of time. ⁴²K⁺ uptake decreased with increasing salinity in Na⁺-free plants and increased in 0.2 × sea water plants. Both uptake and transport to the shoot were non-linear with time, upward concavity suggesting recovery from a manipulative and/or osmotic injury. Steady state root contents were compared with predicted contents based on cortical cell electrical potentials using the Nernst equation. Reasonable agreement was found in all cases except Na⁺ content of 0.2 × sea water plants, in which active efflux was indicated. Uptake studies conducted in the presence of chemical modifiers (dicyclohexylcarbodiimide, dinitrophenol and fusicoccin) showed responses of ⁴²K⁺ uptake as expected from studies on agronomic species, and implied the presence of a similar active uptake here despite the appearance of equilibrium. Active Na⁺ uptake was suggested at low Na⁺ levels. We conclude that S. marina is a promising experimental system combining the rapid nutrient acquisition strategy of agionomically important annuals with a high degree of salt tolerance.     

Tree seedling responses to in situ CO2-enrichment differ among species and depend on understorey light availability

Seedlings of six major European temperate forest tree species (Fagus sylvatica, Acer pseudoplatanus, Quercus robur, Taxus baccata, Abies alba, Pinus sylvestris) were exposed to 360, 500, and 660 μL CO₂ L^?1 in the understorey of a 120‐y‐old forest over two growing seasons. Seedlings rooted in the natural forest soil within 36 open‐top chambers (12 OTCs per CO₂ treatment), each with a different known quantum flux density (QFD) ranging from 0.36 to 2.16 mol m^?2 d^?1 (= 0.8% to 4.8% of full sun). In contrast to a frequent assumption the natural CO₂ concentration in the understorey is close to the ambient concentration in the free atmosphere during daytime. The CO₂‐effect on seedling growth differed greatly among species and was strongly codetermined by microsite‐specific QFD. Biomass production in the deep‐shade tolerant species Fagus and Taxus increased by 73% and 37% under elevated CO₂ in low QFD microsites but was not significantly different among CO₂‐treatments in high QFD microsites. The less shade‐tolerant species Acer, Quercus, and Abies showed no significant response to elevated CO₂ in low QFD microsites, but increased their biomass by 39%, 25%, and 55% in high QFD microsites. In the shade‐intolerant Pinus, seedling survival was too low for a safe conclusion. Our data showed that the largest relative responses to increasing CO₂ occurred at a comparatively small increase from 360 to 500 μL L^?1 with only small and non‐significant changes with a further increase to 660 μL L^?1. Subtle shifts in the availability of light can totally reverse interspecific differences in the CO₂ response. Given these different responses, we conclude that increasing atmospheric CO₂ is likely to induce changes in species composition of temperate forests due to altered chances of recruitment. However, these shifts will depend on light patterns in the understorey, and thus on canopy structure, disturbance patterns and forest management.     

沙冬青AmFAD2-1基因的克隆及其功能分析

细胞膜脂的不饱和度主要由脂肪酸去饱和酶(fatty acid desaturase,FAD)决定,二者与植物抵抗低温和高盐等逆境胁迫密切相关。沙冬青(Ammopiptanthus mongolicus)是中亚荒漠区唯一的常绿旱生阔叶植物,具有很强的耐寒、耐旱和耐盐碱等特性。该研究利用RT-PCR方法克隆到沙冬青油酸去饱和酶基因AmFAD2-1的cDNA和gDNA,其中后者不含内含子。在AmFAD2-1蛋白(含382个氨基酸残基)序列中含有FAD家族必须的保守组氨酸簇和内质网定位信号及跨膜结构域。进化分析表明,AmFAD2-1与大豆(Glycine max)和柠条锦鸡儿(Caragana korshinskii)等豆科植物的FAD2距离较近,而与玉米(Zea mays)和拟南芥(Arabidopsis thaliana)等其他植物的FAD2距离较远。qRT-PCR分析表明,在室内培养的沙冬青幼苗中,AmFAD2-1的表达量在低温处理2～24h和干旱处理6～13d期间显著上调,在盐胁迫处理期间则呈现升高、降低、再升高的变化趋势;在野外生长的沙冬青成株嫩叶中,其表达量在秋季和冬季总体上明显高于春季和夏季。成功构建了植物表达载体p3300-35S-AmFAD2-1并通过根癌农杆菌介导法转化野生型拟南芥,获得16株转AmFAD2-1基因植株。耐逆性鉴定表明,转基因株系的耐冻性较野生型拟南芥显著提高,其耐旱性和耐盐性也比后者有较明显的改善。     

Change in overwintering mechanism of the Cucujid beetle, Cucujus clavipes

Overwintering larvae of the Cucujid beetle, Cucujus clavipes, were freeze tolerant, able to survive the freezing of their extracellular body fluids, during the winter of 1978–1979. These larvae had high levels of polyols (glycerol and sorbitol), thermal hysteresis proteins and haemolymph ice nucleators that prevented extensive supercooling (the supercooling points of the larvae were ? 10°C), thus preventing lethal intracellular ice formation. In contrast, C. clavipes larvae were freeze suspectible, died if frozen, during the winter of 1982–1983, but supercooled to ～ ? 30°C. The absence of the ice nucleators in the 1982–1983 larvae, obviously essential in the now freeze-susceptible insects, was the major detected difference in the larvae from the 2 years. However, experiments in which the larvae were artifically seeded at ? 10°C (the temperature at which the natural haemolymph ice nucleators produced spontaneous nucleation in the 1978–1979 freeze tolerant larvae) demonstrated that the absence of the ice nucleators was not the critical factor, or at least not the only critical factor, responsible for the loss of freeze tolerance in the 1982–1983 larvae. The lower lethal temperatures for the larvae were approximately the same during the 2 winters in spite of the change in overwintering strategy.     

NtMTP1基因过表达对增强烟草Zn胁迫耐受性的研究

该研究采用实时荧光定量PCR（qRT PCR）技术,对烟草金属耐受蛋白1（MTP1）基因（NtMTP1）在烟草不同组织以及不同质量浓度ZnSO4处理下的表达进行了分析;利用农杆菌介导法,将NtMTP1基因植物过表达载体pBI121 35S∶∶MTP1转化野生型烟草,筛选得到NtMTP1基因过表达的转基因烟草植株,并进行不同质量浓度ZnSO₄处理,检测NtMTP1基因过表达对烟草Zn胁迫耐受性的影响。结果表明：NtMTP1基因在烟草中呈现组织特异性表达,主要在花与叶中表达;NtMTP1基因的表达受到Zn²⁺诱导,在400 μmol/L ZnSO₄处理后,表达量达到最高,为对照组的3.81倍;3株转基因烟草植株中NtMTP1基因表达量分别为野生型的10.42、7.61和11.84倍,与野生型相比,过表达植株对Zn胁迫的耐受性显著增强。研究结果为阐明NtMTP1基因在烟草体内Zn²⁺转运过程中的生物学功能提供了重要依据。     

Characterization of a PutCAX1 gene from Puccinellia tenuiflora that confers Ca and Ba tolerance in yeast

The gene for a novel cation/H⁺ antiporter from Puccinellia tenuiflora, PutCAX1, was cloned from a cDNA library. The PutCAX protein was localized in the vacuolar membrane using a GFP marker. Several yeast transformants were created using full-length and truncated form of PutCAX1 and their growths in the presence of various cations (Mg²⁺, Ca²⁺, Mn²⁺, Ni²⁺, Cu²⁺, Zn²⁺, Se²⁺, and Ba²⁺) were analyzed. PutCAX1 expression was found to affect the response to Ca²⁺ and Ba²⁺ in yeast. The PutCAX1 and C-terminally truncated PutCAX1 (ΔCPutCAX1) transformants grew in the presence of 70 mM Ca²⁺ as well as in the presence of 8 mM Ba²⁺. However, the ΔCPutCAX1 transformant was able to grow in the presence of 20 mM Ba²⁺ while the PutCAX1 transformant could not. On the other hand, expression of the N-terminally truncated form and the N- and C-terminally truncated form failed to suppress the Ca²⁺ or Ba²⁺ sensitivity of yeast. These results suggest that PutCAX1 can complement the active Ca²⁺ transporters at some level and confer yeast Ba²⁺ tolerance, and that the N- and C-terminal regions of PutCAX1 play important roles in increasing the Ca²⁺ or Ba²⁺ tolerance of yeast.     

Chronic blockade of the AT2 receptor with PD123319 impairs insulin signaling in C57BL/6 mice

The renin-angiotensin system modulates insulin action. Angiotensin type 1 receptor exerts a deleterious effects while the angiotensin type 2 receptor (AT2R) appears to have beneficial effects providing protection against insulin resistance and type 2 diabetes. Although recent reports indicate that agonism of AT2R ameliorates diabetes and insulin resistance, the phenotype of AT2R-knockout mice seems to be controversial relating this aspect. Thus, in this study we have explored the role of AT2R in the control of insulin action. To that end, C57Bl/6 mice were administered the synthetic AT2R antagonist PD123319 for 21 days (10 mg/kg/day ip); vehicle treated animals were used as control. Glucose tolerance, metabolic parameters, in vivo insulin signaling in main insulin-target tissues as well as levels of adiponectin, TNF-α, MCP-1 and IL-6 in adipose tissue were assessed. AT2R blockade with PD123319 induced a marginal effect on glucose homeostasis but an important reduction in the insulin-induced phosphorylation of the insulin receptor and Akt in both liver and adipose tissue. Insulin signaling in skeletal muscle remained unaltered after treatment with PD123319, which could explain the minimal effect on glucose homeostasis induced by PD123319. Our current results reinforce the notion that the AT2R has a physiological role in the conservation of insulin action.     

Tracer studies of gas circulation in Nuphar: 18O2 and 14CO2 transport

The objective of this study was to investigate the behaviour of different legumes against salinity and water stress, thus trying to discover simultaneous adaptations to both stresses. The nitrogen fixation, transpiration, predawn leaf water potential, and stomatal response of Medicago sativa L. (cvs. Tierra de Campos and Aragon), Trifolium repens L. (cv. Aberystwyth S-184) and T. brachycalycinum Katzn. et Morley (= T. subterraneum L. cv. Clare) were compared at three levels of stress (0.05, 0.3 and 0.5 MPa of either NaCl or polyethylene glycol 6000) in nutrient solution. The plants were stressed for three days and then returned to control nutrient solution. The changes in the parameters analyzed were dependent on the proportion of stress treatments and the nature of the species, always being greater in plants from PEG than from NaCl solutions. Transfer of lucerne and subclover plants from NaCl at 0.05 MPa to a non-saline medium resulted in an increase of nitrogen fixation above the level of the non-salinized control plants, especially significant in lucerne. Analysis of possible inorganic impurities in commercial PEG suggest that such type of impurities are not responsible for the toxic effects reported. Plant damage resulting from PEG treatment was apparently due to penetrations of PEG (as determined qualitatively by using the tetraiodinebismuthic acid technique) or low-molecular organic impurities into the plant. – The results are discussed as part of the adaptation of the different species to salinity and water stress. The best performance was given by "Tierra de Campos".     

Control of Na+ and K+ transport in Spergularia marina I. Transpiration effects

In this paper we begin our study of factors controlling Na⁺ and K⁺ uptake in the halophyte Spergularia marina (L.) Griseb., with emphasis on plants growing at moderate salinity (0.2x sea water). The involvement of transpiration was considered first because of its potential to account for much or all of the transport of ions, and particularly of Na⁺, to the shoot under these growth conditions. Transpiration was constant with time through most of the light period, quickly dropping to 6% of the day time rate at night. ²²Na⁺ uptake, on the other hand, showed much less day/night variation, and relative transport to the shoot was constant. After establishing that transpiration was linearly related to leaf weight, possible transpiration effects were further considered as correlations between leaf weight and transport to the shoot. Under constant, day-time conditions, with linear effects of time and plant size removed, total transport of ²²Na⁺ to the shoot (per plant) was not correlated to leaf weight. A similar result was found when transport was expressed per gram of root, and when partitioning of total label to the shoot was considered. Finally, the correlation was considered between leaf weight and a Na⁺/K⁺ enrichment factor defined as the Na⁺/K⁺ ratio in the leaves divided by that in the roots. This correlation was also insignificant. The results indicate that analysis of control of Na⁺ and K⁺ uptake and transport in this experimental system need not consider effects of transpiration.     

Efficiency of intrathymic tolerance induction in various inbred rat strains: relationship with TH1/TH2 status of the recipient?

The simultaneous transplantation and intrathymic tolerance induction (STITTI) protocol induces a longlasting state of functional tolerance in over 90% of AO (RT1^u) recipients transplanted with a fully MHC-incompatible PVG (RT1^c) cardiac allograft. Similar results are obtained when using LEWIS (RT1¹) rats as recipients of either PVG or DA (RT1^avl) grafts. However, when STITTI is performed on PVG and BN (RT1ⁿ) as recipient animals receiving spleen cells intrathymically and a cardiac allograft from respectively AO and PVG rats, this procedure results in significantly shorter graft survival (MST PVG → BN 25 ± 9 days; AO → PVG 31 ± 8 days) as compared to the combinations using AO (MST PVG → AO > 236 ± 28 days) and LEWIS (MST PVG → LEW > 366 ± 51 days; DA → LEW > 123 ± 33 days) rats as recipients. Since both PVG and BN rats are relatively deficient in their ability to produce IFNγ and intrathymic IFNγ responses are very dominant upon intrathymic injection of alloantigens, it is argued that the inability to effectively induce a longlasting state of functional tolerance in BN and PVG rats using the STITTI protocol may be related to their decreased IFNγ-production potential.