Plasmalemma-associated malate dehydrogenase activity in onion root cells

Summary Plasma membrane vesicles isolated from onion roots showed oxaloacetate reductase activity as well as other oxidoreductase activities. Purification and further sequencing showed that the protein responsible for the activity is a 40 kDa protein which corresponds to the cytosolic soluble malate dehydrogenase. However, the activity remained bound to the membrane after repeated freezing and thawing cycles and further washing, excluding a cytosolic contamination as the source of the activity. Furthermore, a second 28 kDa protein has been copurified together with the 40 kDa protein. The plasmalemma oxaloacetate reductase activity shows both donor and acceptor sites located towards the cytoplasmic side of the plasma membrane. This enzyme catalyzed the oxidation of NADH by oxaloacetate and the reduction of NAD⁺ by malate in the presence of an oxaloacetate-withdrawing system. We conclude that a significant amount of the cytosolic malate dehydrogenase can be specifically attached to the cytosolic face of the plasmalemma. A possible role in a putative malate shuttle associated to the plasma membrane is discussed.Abbreviations AFR ascorbate free radical - DQ duroquinone - OA oxaloacetate - DPIP dichlorophenolindophenol - MDH malate dehydrogenase - PHMB p-hydroxymercuribenzoate     

The chilling sensitivity of root ammonium influx in a cultivated and wild tomato

A chilling episode of a few hours damaged root ammonium absorption in a cultivated tomato ( Lycopersicon esculentum cv. T-5), but not in a wild congener from high altitudes ( Lycopersicon hirsutum LA1778). In the cultivar, ammonium influx was strongly temperature dependent and showed the residual effects of chilling, whereas ammonium efflux was nearly temperature invariant and showed no persistent effects. A 2 h exposure to 5 °C significantly depressed subsequent ammonium absorption at 20 °C, and about 12 h at 20 °C was required for recovery. For both the cultivated and wild species, rerooted cuttings were slightly less sensitive to chilling than seedlings. The relative inhibition (mean ± SE) of ammonium absorption before and after chilling was 58·4 ± 2·5% for the cultivated species and 29·0 ± 9·1% for the wild species. The F₁ hybrid between the species showed a relative inhibition of 52·4 ± 3·6%, suggesting that chilling sensitivity may be dominant. In a backcross of the hybrid to L. esculentum , the phenotypic distribution of the relative inhibition of ammonium absorption indicated that this trait is segregating.     

Spatial distributions of tissue expansion and cell division rates are related to irradiance and to sugar content in the growing zone of maize roots

We have investigated the way in which the radiation absorbed by leaves affects the rate of elongation of maize ( Zea mays L.) roots. In five repeated growth chamber experiments, plants previously grown at a photon irradiance of 23 mol m^–2 d^–1 received either 7 or 34 mol m^–2 d^–1 from day 10 to day 20 after germination. The elongation rate of primary roots steadily decreased for 4 d after reduction in irradiance and then stabilized at 60% of that in plants at high irradiance. The elongating zone was slightly shorter after 2 d at low irradiance, and was further reduced after 8 d. The concentrations of sucrose and glucose in the elongating zone were greatly decreased after 2 d at low irradiance and the gradient of both sugars was suppressed. The longer period at low irradiance affected neither sugar content nor gradient. In the same way, cell production rate was reduced after 2 d at low irradiance and was not appreciably decreased afterwards. The root zone with cell division was shorter in plants at low irradiance, but cell division rate remained nearly constant temporally and spatially, and was unaffected by the irradiance treatment. Our results suggest that primary events after a reduction in irradiance were a change in cell flux and sugar content in the elongating zone. Change in elongation rate was slower and probably the result of a time-related developmental effect, which may be related to the change in cell production.     

Effect of phosphorus supply on the formation and function of proteoid roots of white lupin (Lupinus albus L.)

We investigated (1) the effect of constant and altered inorganic phosphate (P_i) supply (1–100 mmol m^–3) on proteoid root production by white lupin ( Lupinus albus L.); and (2) the variation in citrate efflux, enzyme activity and phosphate uptake along the proteoid root axis in solution culture. Proteoid root formation was greatest at P_i solution concentrations of 1–10 mmol m^–3 and was suppressed at 25 mmol m^–3 P_i and higher. Except at 1 mmol m^–3 P_i, the formation of proteoid roots did not affect plant dry matter yields or shoot to root dry matter ratios, indicating that proteoid roots can form under conditions of adequate P supply and not at the expense of dry matter production. Plants with over 50% of the root system as proteoid roots had tissue P concentrations considered adequate for maximum growth, providing additional evidence that proteoid roots can form on P-sufficient plants. There was an inverse relationship between the P_i concentration in the youngest mature leaf and proteoid root formation. Citrate efflux and the activities of enzymes associated with citric acid synthesis (phosphoenolpyruvate carboxylase and malate dehydrogenase) varied along the proteoid root axis, being greatest in young proteoid rootlets of the 1–3 cm region from the root tip. Citrate release from the 0–1 and 5–9 cm regions of the proteoid root was only 7% (per unit root length) of that from the 1–3 cm segment. Electrical potential and ³²P_i uptake measurements showed that P_i uptake was more uniform along the proteoid root than citrate efflux.     

沙棘共生固氮根瘤及其内生弗兰克氏菌

用透射电镜研究了中国沙棘（Ｈｉｐｐｏｐｈａｅ ｒｈａｍｎｏｙｄｅｓ Ｌ．）根瘤的超微结构。它的侵梁细胞位于皮层中部,非侵染细胞与之间排列,富含多酚和淀粉粒。在根瘤的发育过程中,具有以下特征：（１）早期侵染细胞中具有核仁联合体;（２）由内生菌丝趋核生长而形成的核膜内陷处,有许多核孔出现;（３）在中期侵染细胞的内生菌丝和泡囊的荚膜附近,有成束的微管存在;（４）在４、５月瘤样的维管束细胞、非侵染细胞及早     

旱作果园深沟施肥对苹果树根系分布的影响

用干挖壕沟法研究了深沟施肥农艺措施对旱作苹果树根系的重量、结构和分布范围等的影响,结果表明,与未挖泡的对照相比,深沟施肥后,根系的总重量、总体积和分布深度都大幅度减少,总重量减少了５０％,总体积减少了６０％,分布深度减小了１．８ｍ;但吸收根的总长度增加,吸收根在总根量中所占的比例亦大幅度提高。     

Global change and root function

Global change includes land-use change, elevated CO₂ concentrations, increased temperature and increased rainfall variability. All four aspects by themselves and in combination will influence the role of roots in linking below- and above-ground ecosystem function via organic and inorganic resource flows. Root-mediated ecosystem functions which may be modified by global change include below-ground resource (water, nutrients) capture, creation and exploitation of spatial heterogeneity, buffering of temporal variations in above-ground factors, supply and storage of C and nutrients to the below-ground ecosystem, mobilization of nutrients and C from stored soil reserves, and gas exchange between soil and atmosphere including the emission from soil of greenhouse gases. The theory of a functional equilibrium between root and shoot allocation is used to explore predicted responses to elevated CO₂ in relation to water or nutrient supply as limiting root function. The theory predicts no change in root:shoot allocation where water uptake is the limiting root function, but substantial shifts where nutrient uptake is (or becomes) the limiting function. Root turnover will not likely be influenced by elevated CO₂, but by changes in regularity of water supply. A number of possible mechanisms for root-mediated N mineralization is discussed in the light of climate change factors. Rhizovory (root consumption) may increase under global change as the balance between plant chemical defense and adapted root consuming organisms may be modified during biome shifts in response to climate change. Root-mediated gas exchange allows oxygen to penetrate into soils and methane (CH₄) to escape from wetland soils of tundra ecosystems as well as tropical rice production systems. The effect on net greenhouse gas emissions of biome shifts (fens replacing bogs) as well as of agricultural land management will depend partly on aerenchyma in roots.     

Detection of hatching inhibitors and hatching factor stimulants for golden potato cyst nematode, Globodera rostochiensis, in potato root leachate

In a comparison of four potato varieties, in-soil hatch of the golden potato cyst nematode (Globodera rostochiensis) was positively correlated to in vitro hatch in response to potato root leachate (PRL). The in-soil hatch of cysts of G. rostochiensis to two of the four varieties was significantly less than that of the control (cysts in gravel without potato plants) in the first 2 wk after plant emergence, suggesting the production of hatching inhibitors (HIs) by young potato plants. The hatching factor: hatching inhibitor ratio of PRL was positively associated with the net hatching activity of the PRL. Four zones of HI activity were resolved following gel permeation chromatography of PRL on Sephadex G-10. Hatch-inactive chemicals, which stimulated the activity of hatching factors (HFs) in PRL (hatching factor stimulants, HSs), were also isolated from PRL, hatch levels induced by individual HFs responding differently to the same HS preparation. The complex interactions between individual HFs and other hatching chemicals in PRL was illustrated when addition of the hatch-active potato glycoalkaloid α-solanine caused both inhibition and stimulation of PRL-induced hatch, depending on the α-solanine concentration.     

Growth and Alkaloid Patterns of Roots of Tabernaemontana pachysiphon and Rauvolfia mombasiana as Influenced by Environmental Factors

The influence of environmental factors on the indole alkaloid content and biomass of the roots of Tabernaemontana pachysiphon and Rauvolfia mombasiana, two species of considerable local medicinal use in tropical East Africa, was investigated. Both species, belonging to the Apocynaceae, are frequent constituents of the residual tropical forests, prefering sites of different ecological conditions. Experimental plants, raised from seeds, were grown for 16 months in a temperature- and humidity-controlled greenhouse. Environmental factors at variance were water and nutrient supply, and light intensity. At sufficient water and nutrient supply, the more drought and nutrient shortage-tolerating heliophilous Rauvolfia mombasiana showed increased alkaloid accumulation, concurrently with reduced root biomass. Under the same conditions, the drought-sensitive and higher levels of nutrient-requiring ombrophilous Tabernaemontana pachysiphon produced more root biomass but accumulated less alkaloids in the roots. The results indicate that the accumulation of indole alkaloids in the roots, as well as biomass allocation to the roots, is influenced in an opposite manner by the nutrient and water supply to the heliophilous and the ombrophilous species.     

大鼠背根节神经元后超极化中Ca~(2 )激活K~ 电流的蜂毒明肽敏感成分I_(AHP)

为了明确大鼠背根节（DRG）神经元中存在慢的Ca2 激活K 电流成分,本实验在新鲜分散的DRG神经元胞体上,采用全细胞电压箝技术,给予DRG神经元一定强度的去极化刺激,记录刺激结束后30ms时的尾电流幅度。结果发现：（1）随着去极化时间从1ms延长至180ms时,尾电流幅度由9．3±2．8pA逐渐增大至64.1±3．4pA（P＜0．001）;（2）当去极化结束后的复极化电位降低时,尾电流幅度先逐渐下降到零,然后改变方向,逆转电位约为-63mV;（3）细胞外施加500μmol／LCd2 或细胞内液中施加11mmol／LEGTA时尾电流明显减小甚至完全消失;（4）尾电流中慢成分的幅度在细胞外给与200nmol／L蜂毒明肽后,减小了约26.32±3。9％（P＜0。01）;（5）细胞外施加10mmol／LTEA,可明显降低尾电流中的快成分。结果提示,在DRG神经元启超极化中存在Ca2 激活K 电流的蜂毒明肽敏感成分──IAHP。