Effects of Exposure in Space on Tomato Seeds: Photosynthesis,Biomass, and Water Relations of Well-Watered and Drought-Stressed Plants

Tomato seeds exposed to space conditions for nearly six years on board the Long Duration Exposure Facility (LDEF) satellite were subsequently germinated and the resultant seedlings grown on earth under controlled conditions for analysis. Photosynthesis, biomass, and water relations were compared between mature plants grown from earth-based control seeds and space-exposed seeds under both well-watered and drought-stressed conditions. No consistent significant differences in photosynthesis and water relations were observed in the two sets of plants at any level of drought stress. Fruit production, however, though limited and variable, was significantly greater in plants grown from space-exposed seeds than in plants grown from earth-based seeds. Overall, exposure of seeds to space had only minor effects on the physiology and growth of plants grown from such seed.     

枯草芽孢杆菌L-脯氨酸合成途径中glnA、proB、proA基因功能探究

【目的】从基因水平探究枯草芽孢杆菌渗透压调节因子L-脯氨酸合成途径中glnA、proB、proA基因的功能,通过分子改造实现对代谢途径的人工扰动。【方法】从枯草芽孢杆菌WB600出发,通过向胞内引入一系列基因敲除或过表达,分别构建了proB和proA基因过表达的重组菌WB601和WB602、glnA基因缺失的重组菌WB603以及在此基础之上过表达proB基因的重组菌WB604。借助菌株胞外和胞内游离脯氨酸积累的表型分析影响途径的关键节点。【结果】在非胁迫条件下,重组菌WB601和WB602胞外脯氨酸含量分别是原始菌的2.21倍和2.82倍,单位细胞胞外脯氨酸得率分别是原始菌的4.09倍和9.80倍,胞内游离脯氨酸含量分别是原始菌的1.91倍和3.34倍;重组菌WB603胞外脯氨酸含量上升至1221.43 mg/L,是原始菌的6.28倍,单位细胞胞外和胞内游离脯氨酸得率分别为原始菌的9.13倍和3.66倍;而重组菌WB604胞外脯氨酸含量最高达1391.65 mg/L,相比菌株WB603,其胞外脯氨酸含量及单位细胞得率分别提高了13.94%和14.10%,且胞内游离脯氨酸含量提高了32.60%。在5%Na Cl胁迫条件下,重组菌WB601和WB602的胞外脯氨酸含量分别是原始菌的1.94倍和1.54倍,单位细胞胞外脯氨酸得率分别是原始菌的2.15倍和2.19倍;重组菌WB603胞外脯氨酸含量及其单位细胞得率分别是原始菌的4.16倍和7.29倍;相同条件下,相比于重组菌WB603,重组菌WB604的胞外脯氨酸含量及其单位细胞得率分别提高了32.61%和5.54%。此外,实验组菌株的胞内游离脯氨酸含量均高于非胁迫时,并达到相对平衡状态。【结论】proB和proA基因的过表达均能显著提升细胞合成脯氨酸的能力,并且能增强细胞的耐盐性;glnA基因的缺失能增强脯氨酸合成途径,提高脯氨酸的积累;两种效应的正向叠加可进一步提升细胞脯氨酸合成能力。     

中山杉及其父母本幼苗对干旱胁迫和复水的响应

本文研究了落羽杉和墨杉及其杂交后代中山杉302(落羽杉♀×墨杉♂)、中山杉407(墨杉♀×落羽杉♂)、回交代中山杉118(中山杉302♀×墨杉♂)在自然干旱胁迫和复水过程中,光合特征、抗氧化酶系统和形态特性等的响应.结果表明:随干旱时间的延长,所有植株的净光合速率逐渐降低、脯氨酸开始积累且抗氧化酶系统逐渐清除丙二醛的毒性.胁迫至第8天,落羽杉净光合速率的下降幅度最大,而中山杉118的水分利用效率最高、丙二醛含量最少;墨杉的超氧化物歧化酶活性和脯氨酸含量增长最大.复水2 d后,所有植物的参数均有不同程度的恢复,其中,中山杉118恢复速率最快,其净光合速率和脯氨酸含量分别恢复了74.4%和60.2%.复水9 d后,所有植株的测定指标基本恢复至或接近正常水平,其中,中山杉118的生物量未受影响且根冠比显著增加.植物的耐旱能力依次为墨杉>中山杉118>中山杉407>中山杉302>落羽杉.回交品种中山杉118的杂种优势明显,较大程度地遗传了墨杉的耐旱性,该结论可为耐旱中山杉品种的杂交选育和推广应用提供科学依据.     

Light-induced and osmotically-induced changes in chlorophyll a fluorescence in two Synechocystis sp. PCC 6803 strains that differ in membrane lipid unsaturation

Membranes of wild-type (WT) cells of the cyanobacterium Synechocystis sp. PCC 6803 are abundant in polyunsaturated fatty acids in membrane lipids and thus more fluid than membranes of desA^-/desD^- mutant cells which contain no polyunsaturated fatty acids. Using intact cells we examined the effects of normal and chilling temperatures on membrane fluidity-dependent properties. We probed the thylakoid membranes by inducing light/dark acclimative changes in chlorophyll a (Chl a) fluorescence; and we probed the plasma membranes either by suppressing the Chl a fluorescence of light-acclimated cells under hyper-osmotic conditions, or by measuring the electric conductivity of cell suspensions. Thylakoid membranes of mutant cells undergo reversible thermotropic transition between 19 °C and 22 °C (midpoint at 20.5 °C). No analogous transition was detected in the thylakoid membranes of WT cells in the temperature range from 2 to 34 °C. Plasma me mbranes of both WT and mutant cells did not experience thermotropic transition in the temperature range from 2 °C to 34 °C as detected either fluorimetrically or by means of electric conductivity. Hyper-osmotic conditions caused fast transient fluorescence quenching in WT cells at 34 °C, but not at 14 °C, and not in mutant cells at either 34 °C or 14 °C. This transient quenching sensed probably the higher fluidity of the plasma membranes of WT cells. Hyper-osmotic media and dark acclimation had similar effects on the 77 K fluorescence of Synechocystis cells: they suppressed the ratio of photosystem II fluorescence to photosystem I fluorescence.     

A model of the effects of water stress on seed advancement and germination

A model of seed germination is proposed which uses a variable with the units of an osmotic potential (virtual osmotic potential) to integrate the effect of a constant or a varying water potential. This differs from existing models that describe the effects of fixed water potentials on germination, or the effects of fixed priming water potentials on the subsequent germination at a fixed water potential. When a seed is sown, the virtual osmotic potential is assumed to fall at a rate that depends on the ambient water potential, and on the difference between its current and a minimum value. Radicle growth is assumed to initiate when the difference between the ambient water potential and the virtual osmotic potential exceeds a threshold. The germination of carrot and onion seeds at various fixed potentials below 0 MPa was well described by the virtual osmotic potential model. The model was also used to simulate the results of experiments in which seeds were given a single step change in water potential.     

Mapping QTLs associated with drought resistance in rice: Progress, problems and prospects

The use of molecular markers in the mapping of traits of agronomic importance holds great promise for speeding the development of improved plant varieties and increasing our understanding of the physiological or molecular mechanisms behind biological phenomena. The technique is now being applied to drought resistance in rice (Oryza sativa L.). Drought is important because a considerable proportion of the world rice area is not irrigated and can be prone to water deficit. A large number of people, particular some of the poorest rice farmers, stand to gain if new varieties which combine high yield and drought resistance can be developed. Rice should be particularly useful for the molecular genetic analysis of drought resistance because of its growing role as a model monocot species and the diversity of drought resistance mechanisms which are found in the germplasm. We briefly review the traits which might be considered important in improving drought resistance in rice, before explaining the molecular mapping approach. We review progress at locating quantitative trait loci (QTLs) for individual mechanisms of drought resistance in controlled environment conditions. This includes a detailed comparison of reported QTLs related to root morphological characters. The search for QTLs associated with field performance under drought stress is analysed and the problems associated with understanding the genetic control of a complex physical and physiological phenomenon under conditions of substantial environmental variation are highlighted. We emphasise that the use of near isogenic lines in overcoming some of the problems offers considerable promise for the future.(seconded from CIRAD-CA, France)     

Isolation and characterization of a porin-like protein of 45 kilodaltons from Bacteroides fragilis

Resistance to the combination of amoxicillin and clavulanic acid in some Bacteroides fragilis strains may be associated with a lack of porin proteins. Comparison of outer membrane protein profiles from one resistant strain ( B. fragilis CFPL 358) and two susceptible strains of B . fragilis (ATCC 25285 and CFPL 92125) showed that a few proteins were missing in the resistant strain, especially a 45-kDa protein. To determine whether this protein was a porin-like protein, we attempted to isolate it from the two susceptible strains by using gel filtration (Sephacryl S-200, Superose 6) and ion exchange chromatographies (DEAE Trisacryl, DEAE Sepharose Fast Flow). Elution from DEAE resins was poor compared to the 60–67-kDa region, which suggested that the 45-kDa protein exhibited stronger cationic forms. The use of sodium dodecyl sulfate during elution improved the recovery of the 45-kDa protein, showing that detergent modified its conformation and its ionic bounds with the chromatographic matrices but it was not sufficient for good purification. Superose 6 gel filtration also failed to separate this protein from the 60–67-kDa region. The only method resulting in the positive recovery of a purified 45-kDa band from both susceptible B. fragilis strains was electroelution from SDS-PAGE. The swelling assay showed that the 45-kDa protein was a porin-like protein. From this study, we concluded that the 45-kDa protein from B. fragilis was a porin-like protein which might be involved in the antibiotic resistance of a strain in which this protein was missing.     

Age-dependent changes of the ion content and the circadian leaf movement period in thePhaseolus pulvinus

The circadian movement of the lamina of primary leaves ofPhaseolus coccineus L. depends on circadian changes of the K⁺, Cl^- and (depending on the Cl^- availability) malate content in the swelling and shrinking motor cells of the laminar pulvinus. After sowing in soil, the laminar pulvinus develops within about 26 days. When the leaves emerge from the soil (about 6 days after sowing) and the pulvinus starts with the diurnal movement (about 9 days after sowing) the pulvinar dimensions are about half of those of the mature pulvinus. The anatomical structure, however, is basically the same as in the developed pulvinus. In soil-grown plants, the K⁺, Cl^- and malate content as well as the period length of the circadian leaf movement rhythm change in the developing pulvinus. In the embryo of the dry seed, the Cl^- content is low (0.03 mmol g^-1 DW), the K⁺ content, however, 22-fold higher than the Cl^- content. When the leaves emerge from the soil, the pulvinar K⁺ and Cl^- content is the same as in the whole embryo of the dry seed. In the developing pulvinus the K⁺ content increases by a factor of 2 and the Cl^- content by a factor of 41 in the mature pulvinus. The pulvinar malate content increases between the 6th and 10th day from about 40 to 180Μmol g^-1 DW, then decreases until the 17th day and remains thereafter on a low level (around 80 Μmol g^-1 DW). These results indicate that the Cl^- availability increases in the developing pulvinus with age. It explains furthermore why in young leaves malate was found as counterion to K⁺ in the osmotic leaf movement motor, in older ones, however, Cl^-. The circadian leaf movement starts 9 days after sowing. The period length decreases during the development of the pulvinus from 31.3 to 28.6 h in leaves of intact soil-grown plants. In leaves which were cut from the plants and immersed with their petioles in distilled water, the age dependent decrease of the period length is also found. However, the period lengths are shorter by more than 1 h than in the leaves of intact plants. The increasing Cl^- availability in the developing pulvinus does not seem to be the cause for the age dependent shortening of the period length, because the period length in 22 days old Cl^- deprived pulvini is the same as in 22 days old pulvini with a high Cl^- content.