Systemic Responses Arising From Localized Heat Stimuli in Tomato Plants

Localized application of heat to the terminal leaflet of leaf1 of tomato (Lycopersicon esculentum) seedlings induced bothpropagated electrical activity and the systemic production ofproteinase inhibitors. Aspirin and related compound inhibitedboth the propagated electrical activity and the systemic response.An electrical signal therefore remains a candidate for the systemicsignal in the wound response of tomato plants Proteinase inhibitor, propagated electrical activity, aspirin, tomato, Lycopersicon esculentum     

化学联合激活可明显提高小鼠孤雌胚胎发育率

为探讨一种高效的小鼠卵母细胞孤雌激活的方案,进一步提高孤雌囊胚发育率。用不同浓度的氯化锶及不同作用时间的乙醇,并分别联合6-DMAP对不同卵龄小鼠卵母细胞进行活化,统计小鼠卵母细胞卵裂率和体外发育状况。结果显示,15～16h、18～19h和20～21h卵龄组卵母细胞经6mmol/LSrCl2联合6-DMAP处理后,三组的激活率随卵龄增长而升高,其中20～21h卵龄组显著高于15～16h、18～19h组(P<0.05),激活胚胎的发育率以18～19h时最高;6mmol/L和10mmol/L的SrCl2联合6-DMAP均能有效地激活小鼠卵母细胞,激活率分别为76.4%和83.6%,桑葚胚率分别为50.0%和56.3%;70ml/L乙醇联合6-DMAP以处理7min组获得了较好的激活率和囊胚发育率,分别为77.1%和42.4%,囊胚率均显著高于4min和10min处理组(P<0.05)。6-DMAP与SrCl2或乙醇联合应用可以有效抑制第二极体的排出,提高激活胚的二倍体比率;孤雌囊胚的平均细胞数显著低于正常受精囊胚(P<0.05)。不同激活方案对孤雌活化胚的核型和发育能力的作用差异较大,小鼠卵母细胞孤雌激活率与卵龄...     

Insulin-specific tolerance induction. II. Tolerant helper T cells can be rescued by insulin complexed to Brucella abortus

Murine antibody responses to heterologous insulins are under H-2-linked immune response (Ir) gene control. We previously demonstrated that the immune response to insulin in Freund's complete adjuvant (CFA) can be specifically inhibited by prior injection of soluble insulin i.v. Unresponsiveness requires at least 4 days after i.v. injection to develop, and once induced, it lasts 4 wk or more. Unresponsiveness is caused by T cell, but not B cell, tolerance; furthermore, we have been unable to demonstrate any role for suppressor T cells in this unresponsiveness. The following experiments examine the nature of the T cell tolerance induced by i.v. injection of insulin, and the data suggest that helper T cells were not clonally deleted by this procedure. The functional activity of the tolerized T cells can be rescued by stimulation with insulin covalently complexed to the type 1 T-independent (TI-1) antigen, Brucella abortus. This observation suggests that tolerance induced by soluble insulin is due to clonal anergy rather than clonal deletion of helper T cells; thus, this system could provide a model for determining the cellular events involved in tolerance induction and reversal in helper T cells.     

Late-Blight-Resistant Tomato Plants Obtained by T-DNA Insertion Mutagenesis

T-DNA insertion mutagenesis, a novel molecular-genetic approach, was used to obtain tomato (Lycopersicon esculentumMill.) plants resistant to late-blight disease caused by Phytophthora infestans(Mont.) De Bary. Plants were inoculated with a mixed pathogen population combining isolates from several sites in the Leningrad oblast. Among the plants of the primary transformant and first generation, we discerned forms with a modified leaf pattern and relative resistance to late blight. The plants with the modified leaf pattern were sterile: their bud initials never developed into flowers. The resistant plants were obtained at a frequency of 0.1%.     

Antipredator Behavior in Desmognathus ochrophaeus: Threat‐Specific Responses to Chemical Stimuli in a Foraging Context

Prey species may reduce the likelihood of injury or death by engaging in defensive behavior but often incur costs related to decreased foraging success or efficiency. To lessen these costs, prey may adjust the intensity or type of antipredator behavior according to the nature of the perceived threat. We evaluated the potential for threat‐sensitive responses by Allegheny Mountain dusky salamanders (Desmognathus ochrophaeus) exposed to chemical stimuli associated with predation by asking three questions: (1) Do individual D. ochrophaeus respond to chemical cues in a threat‐sensitive manner? (2) Do salamanders exhibit the same pattern of behavioral response while foraging? and (3) Is foraging efficiency reduced when focal individuals are exposed to stimuli from predators or predation events? In our first experiment, we evaluated salamander chemosensory movements (nose‐taps), locomotor activity (steps), and edge behavior in response to chemical stimuli from disturbed and injured conspecifics as well as predatory Gyrinophilus porphyriticus and found that individual D. ochrophaeus show a significant graded increase in nose‐taps when exposed to cues from conspecifics and a reduction in activity when exposed to the predator. In our second experiment, we again observed salamander responses to the same chemical stimuli but in this instance added five Drosophila prey to the test dishes. We found that salamanders exhibited a similar pattern of response to the chemical stimuli in the presence of prey, showing a graded increase in nose‐taps to cues from conspecifics and a reduction in activity when exposed to the predator. However, foraging efficiency (i.e. the proportion of successful strikes) did not vary significantly among treatments. Our data show that individual D. ochrophaeus detect and differentially respond to chemical stimuli associated with predation, but do not significantly reduce foraging efficiency. Overall, the type and relative intensity of these responses is largely unaffected by the presence of potential prey.     

虚拟视觉刺激引起幼年斑马鱼捕食行为放弃的研究

目的 当动物重复某种行为以逃避危险或获取奖励而无法成功时，会产生放弃。放弃是一种常见且基本的行为，在小鼠等模式动物中已经被广泛研究，但是其部分神经机制仍未被阐明。幼年斑马鱼适合进行全脑光学成像，是神经科学领域的重要模式生物。已经有研究者通过持续电击等消极刺激诱发斑马鱼放弃行为，然而奖励刺激能否引起斑马鱼放弃尚无报道。本文对奖励刺激引起的斑马鱼放弃行为进行了探究。方法 通过给予斑马鱼虚拟的食物视觉刺激，检验斑马鱼对虚拟食物的捕食情况，比较斑马鱼捕食频率和单次捕食时长随时间的变化。结果 虚拟的食物视觉刺激可以引起斑马鱼的捕食行为，接受25 min虚拟刺激后，8日龄以上斑马鱼的捕食频率和单次捕食时长均出现显著下降。结论 此研究丰富了斑马鱼放弃行为的研究范式，实验结果表明，缺失真实奖励的虚拟食物刺激可以诱导斑马鱼放弃捕食行为，这将进一步加深对动物放弃行为的理解，推动对其神经机制的研究。     

Aging by telomere loss can be reversed

Recently in Nature, Jaskelioff et al. (2010) demonstrated that multiple aging phenotypes in a mouse model of accelerated telomere loss can be reversed within 4 weeks of reactivating telomerase. This raises the major question of whether physiological aging, likely caused by a combination of molecular defects, may also be reversible.     

A Calcium-Dependent Protein Kinase Is Systemically Induced upon Wounding in Tomato Plants

A full-length cDNA clone (LeCDPK1) from tomato (Lycopersicon esculentum) encoding a calcium-dependent protein kinase (CDPK) was isolated by screening a cDNA library from tomato cell cultures exposed to Cladosporium fulvum elicitor preparations. The predicted amino acid sequence of the cDNA reveals a high degree of similarity with other members of the CDPK family. LeCDPK1 has a putative N-terminal myristoylation sequence and presents a possible palmitoylation site. The in vitro translated protein conserves the biochemical properties of a member of the CDPK family. In addition, CDPK activity was detected in soluble and particulate extracts of tomato leaves. Basal levels of LeCDPK1 mRNA were detected by northern-blot analysis in roots, stems, leaves, and flowers of tomato plants. The expression of LeCDPK1 was rapidly and transiently enhanced in detached tomato leaves treated with pathogen elicitors and H2O2. Moreover, when tomato greenhouse plants were subjected to mechanical wounding, a transient increase of LeCDPK1 steady-state mRNA levels was detected locally at the site of the injury and systemically in distant non-wounded leaves. The increase observed in LeCDPK1 mRNA upon wounding correlates with an increase in the amount and in the activity of a soluble CDPK detected in extracts of tomato leaves, suggesting that this kinase is part of physiological plant defense mechanisms against biotic or abiotic attacks.     

Analysis of the Exudation Process in Tomato Plants

We started from the supposition that the exudation is broughtabout by two processes: (1) an active transport of salt to thexylem, the ‘salt secretion’, a process that dependson metabolism and is sensitive to inhibitors, and (2) a watertransport effected by the osmotic suction of the sap in thexylem. It was demonstrated that by enhancing the concentrationof the medium the exudation rate rapidly decreases. This isfollowed by a slower rise to a new level which is the consequenceof the salt secretion that continues and enhances the osmoticvalue of the exudation sap. After some time secondary changesof the exudation rate appear. In lowering the concentrationof the medium identical changes occur, but now in the reversedirection. By tracing the influence of addition of substancesdifferent in mol. weight and lipoid solubility it could be establishedthat the gradual change was the result of salt secretion andnot of permeation of the added substance. From this simple suppositionabout the causes of the exudation process we derived formulaefor calculating the salt secretion, the osmotic value of theexudation sap, and the conductivity for water of the root system.Though most observations are in harmony with this concept, thereis a difficulty that too low a value is mostly found for theosmotic value of the exudation sap. The possible causes of thisdeviation are discussed. There is no necessity to accept anactive water secretion as well as active salt secretion sincesalt and water transport cannot be separated. Important factors in exudation are water conductivity of theprotoplasm and salt secretion into the xylem. Both factors areinfluenced by the osmotic value of the outer solution (D.P.D.of the medium) and by the presence of ions in the outer solution.The two factors must have an identical influence on the transportof water into the transpiration stream.     

Suppression of Calcium Transport to Shoots by Root Restriction in Tomato Plants

Restriction of tomato roots by growth in small containers stronglysuppressed transport of ⁴⁵Ca²⁺ ions to new leaves and apices.Water transport, expressed on a leaf area basis, was marginallyreduced by root restriction, an indication that calcium transportwas more severely limited than water transport. (Received October 11, 1996; Accepted January 27, 1997)     

Colonization of Tomato Plants by Two Agrocin-Producing Strains of Agrobacterium tumefaciens

For a bacterium to be a successful biocontrol agent against crown gall disease, it must produce an effective agrocin specific for Agrobacterium tumefaciens and be able to colonize host plants efficiently. The colonization abilities of K84 and J73, successful and potential biocontrolling strains, respectively, were compared both in vivo and in vitro. Both strains produced fibrils attaching them to tomato root surfaces and had similar colonization efficiencies up to 14 days after inoculation. However, the ability of J73 to colonize plants for longer periods was significantly less than that of K84. Thus, the presence of fibrils is not sufficient to ensure colonization. No correlation was found between hydrophobicity and colonization.     

AA-amyloidosis can be transferred by peripheral blood monocytes

Spongiform encephalopathies have been reported to be transmitted by blood transfusion even prior to the clinical onset. Experimental AA-amyloidosis shows similarities with prion disease and amyloid-containing organ-extracts can prime a recipient for the disease. In this systemic form of amyloidosis N-terminal fragments of the acute-phase reactant apolipoprotein serum amyloid A are the main amyloid protein. Initial amyloid deposits appear in the perifollicular region of the spleen, followed by deposits in the liver. We used the established murine model and induced AA-amyloidosis in NMRI mice by intravenous injections of purified amyloid fibrils ('amyloid enhancing factor') combined with inflammatory challenge (silver nitrate subcutaneously). Blood plasma and peripheral blood monocytes were isolated, sonicated and re-injected into new recipients followed by an inflammatory challenge during a three week period. When the animals were sacrificed presence of amyloid was analyzed in spleen sections after Congo red staining. Our result shows that some of the peripheral blood monocytes, isolated from animals with detectable amyloid, contained amyloid-seed that primed for AA-amyloid. The seeding material seems to have been phagocytosed by the cells since the AA-precursor (SAA1) was found not be expressed by the monocytes. Plasma recovered from mice with AA amyloidosis lacked seeding capacity. Amyloid enhancing activity can reside in monocytes recovered from mice with AA-amyloidosis and in a prion-like way trigger amyloid formation in conjunction with an inflammatory disorder. Human AA-amyloidosis resembles the murine form and every individual is expected to be exposed to conditions that initiate production of the acute-phase reactant. The monocyte-transfer mechanism should be eligible for the human disease and we point out blood transfusion as a putative route for transfer of amyloidosis.     

A Comparison of the Boron Requirements of Intact Tomato Plants and Excised Tomato Roots grown in Sterile Culture

A method is described by which boron deficiency in excised tomatoroots was obtained. Lack of boron caused complete inhibitionof growth after three days in sterile culture. The boron concentrationsupporting 50 per cent of the maximum root-growth response issimilar to that giving a 50 per cent growth response with intactplants of the same variety. These results are discussed withregard to the function of boron in plant growth.