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1.
转基因与常规杂交相结合改良水稻耐盐性 总被引:11,自引:1,他引:10
通过农杆菌介导法和基因枪法将CMO、BADH、mtlD、gutD和SAMDC基因以单价或双价的形式导入水稻常规品种中,再结合常规杂交育种,选育5价强耐盐性的转基因水稻植株。1~5价9类组合的水稻品系,经PCR分子检测,在转基因后代中多价目的基因聚合,遗传稳定,且分子检测与田间耐盐性的表现一致。转基因植株在盐碱地中能正常生长,拓展了水稻常规品种耐盐性。并已获得耐0.5%~1.0%NaCl的T秀水11——品3、品6和品7等9份优良株系或中间材料。 相似文献
2.
为探讨盐胁迫条件下外源甜菜碱(GB)和脯氨酸(Pro)对不同大麦品种种子萌发及幼苗的效应,以课题组前期筛选到的耐盐品种中川大麦和盐敏感品种ZY218为材料,在萌发期和苗期以200 mmol·L-1NaCl为胁迫条件,分别施加浓度为0、0.5、1.0、5.0、10.0 mmol·L-1的外源GB和浓度为0、5.0、15.0、30.0、45.0 mmol·L-1的外源Pro进行处理,测定并分析了不同处理下大麦萌发及幼苗相关指标。结果表明,与不添加外源物质的对照相比,施加外源GB和Pro均可有效缓解盐胁迫对大麦种子萌发及地上部分生长的抑制作用;提高叶片过氧化物酶(POD)、超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性及叶绿素含量;外源Pro可以显著增加幼苗的总根长、总根体积和总根表面积,有效缓解盐胁迫对大麦幼苗根系生长的抑制作用,且对盐敏感品种效应更大。因此,施加外源GB或Pro可有效缓解盐胁迫对大麦种子萌发和幼苗生长的抑制作用。 相似文献
3.
本研究以小桐子幼苗为材料,在水培条件下,研究了外源水杨酸(SA)对PEG 6000胁迫下小桐子幼苗甘氨酸甜菜碱含量、代谢关键酶BADH活性和相关基因表达,以及Ca2+和CaM抑制剂对SA诱导甜菜碱积累的影响。结果表明:外源1.5 mmol/L SA处理可显著提高渗透胁迫下小桐子幼苗的甜菜碱含量、增加甜菜碱合成关键酶BADH的活性,以及上调JcCMO和JcBADH的表达水平。与单独用PEG处理的幼苗相比,SA处理也提高了渗透胁迫下小桐子幼苗的钙调素(CaM)活性。此外,CaCl2处理能增强SA诱导的甜菜碱积累效应,提高BADH的活性和上调JcBADH的表达水平,而Ca2+通道阻断剂 LaCl3、CaM抑制剂CPZ和TFP处理得到相反的结果。这些结果表明,外源SA处理可提高渗透胁迫下小桐子幼苗甜菜碱的生物合成能力,且SA诱导的甜菜碱积累过程可能受到Ca2+/CaM信号的调控。 相似文献
4.
《Plant Production Science》2013,16(5):533-538
AbstractCommon buckwheat (Fagopyrum esculentum Moench cv. Tsushima) and Tartary buckwheat (F. tataricum (L.) Gaertn. cv. Pontivy) were grown in a nutrient solution with or without added NaCl to investigate interspecific differences in their responses to salinity, based on their dry-matter production. The mechanism of salt tolerance was also studied. Addition of 100 mM NaCl to the culture solution (salt treatment) lowered the plant growth rate to 48% and 16% of the control in Tsushima and Pontivy, respectively, and decreased the net assimilation rate and mean leaf area of Pontivy more severely than in Tsushima. The salt treatment decreased the leaf growth rate and leaf area per leaf to 30% and 72% of the control, respectively, in Tsushima, and to 12% and 52%, respectively, in Pontivy. It decreased the photosynthetic rate to 67% and 35% of the control, and stomatal conductance to 25% and 15% of the control in Tsushima and Pontivy, respectively. It also decreased the transpiration rate to 41% and 30% of the control in Tsushima and Pontivy, respectively, and increased the wateruse efficiency 1.6 times in Tsushima, but did not influence the wateruse efficiency in Pontivy. In the saline solution, the accumulation of Na+ in leaves and stem was greater in Pontivy than in Tsushima, but that in the roots, was greater in Tsushima than in Pontivy. In both species, Na+ accumulated rapidly in the leaves after removal of the roots in the saline solution. We conclude that the difference in salt tolerance between common and Tartary buckwheat may result from the difference in accumulation of Na+ in leaves and absorption of Na+ by the roots. 相似文献
5.
The effect of plant growth-promoting Rhizobacteria (PGPR) and exogenous application of compatible solutes on seed germination and root concentrations of sodium and potassium of two wheat varieties (Triticum durum L.) were evaluated under saline stress. In this experiment, Azotobacter vinelandii strain DSM85, glycine betaine and proline were used. Inoculated seeds for each variety were placed on Whatman paper in 9 cm Petri dishes containing 15 mL of distilled water or NaCl solutions at various concentrations (control, 100, 200, 300 mM) supplemented with or without glycine betaine (GB) or proline at 5 mM. The results indicated that addition of proline (5 mM) stimulated the production of indol acetic acid and the growth of A. vinelandii at 200 and 300 mM NaCl, respectively. The germination rate index and the germination final percentage decreased significantly (p < 0.05) with increasing salinity level. The germination was significantly diminished at 300 mM with significant variation among varieties and Waha variety had higher germination percentage than Bousselam variety. Inoculation of seeds by A. vinelandii and exogenous application of proline had significantly positive effect on the germination at this concentration of NaCl. The rate of accumulation of Na+ in roots was important at 100 mM and increased at 200 mM. The concentration of K+ decreased when salinity increased. The effect of inoculation or inoculation with proline decreased the accumulation of Na' and reduced the loss of K+ under salt stress. From the present study we can conclude that the use of A. vinelandii strain DSM85 and external application of low concentrations of proline on seeds might be considered as a strategy for the protection of plants under saline stress. 相似文献
6.
Tadashi Hirasawa Kosuke Sato Makoto Yamaguchi Ryohei Narita Asuka Kodama Shunsuke Adachi 《Plant Production Science》2017,20(3):288-299
Soil salinity is a major environmental stress causing significant loss of crop productivity. Barley (Hordeum vulgare L.) is one of the few field crops that can grow in salt-affected fields and varietal differences in productivity under salinity conditions were known. To clarify the trait most responsible for grain production under salt stress, barley cultivars that were salt tolerant (OUE812) or salt sensitive (OUC613) were grown from seedling to harvest stage in vermiculite containing various concentrations of NaCl. Dry weight of aboveground parts and grain weight decreased significantly with increasing NaCl concentration. The dry weight of the aboveground parts and grain weight decreased more significantly in OUC613 than in OUE812 for plants treated with 150 mM and 200 mM NaCl. A marked reduction in ripening percentage caused significantly decreased grain production in OUC613 as compared with OUE812. In plants treated with 200 mM NaCl, the photosynthetic rate decreased three weeks after starting the NaCl treatment, but a significant difference between cultivars in photosynthetic rate did not appear until seven weeks of NaCl treatment. OUE812 kept a higher photosynthetic rate during ripening than did OUC613 and dry matter production during the period from ripening to harvest was significantly larger in OUE812 than in OUC613. Keeping a higher photosynthetic rate might have contributed to higher grain production in OUE812. Higher ripening percentage and higher rate of photosynthesis during ripening might be target traits in breeding to improve the tolerance of barley to long-term salt stress. 相似文献
7.
Khosravinejad F Heydari R Farboodnia T 《Pakistan journal of biological sciences: PJBS》2008,11(6):905-909
In this study, we investigated antioxidant responses of activities of Superoxide Dismutase (SOD), Catalase (CAT), Ascorbate Peroxidase (APX) and Guaiacol Peroxidase (GPX) to saline stress in two barley varieties named Hordeum vulgare L. var. Afzal and var. EMB82-12 treated with 50, 100, 200, 300 and 400 mM NaCl for 3 days. The MDA content of Afzal plants grown under different salt regimes remained nearly constant but it largely increased in EMB82-12 plants under the same conditions. There was a linear and significant correlation in CAT, APX, SOD, GPX activities in Afzal plants in response to increased salt concentration. The strong and positive correlation between antioxidant enzymes and salt concentrations, may account for the MDA level of Afzal plants remaining constant in response to different salt regimes. In general, the activities of antioxidant enzymes were increased in the root and shoot under saline stress. But the increase was more significant and consistent in the root. Among the antioxidant enzymes, CAT activity was increased the most drastically. 相似文献
8.
以转来自耐盐植物异苞滨藜的甜菜碱醛脱氢酶基因(BADH)玉米T8代株系BZ-136及受体对照自交系郑58(耐盐)为试材,采用盆栽种植方法,分析转基因植株中外源基因的表达情况,检测耐盐相关生理指标。结果表明,转基因株系BZ-136中的BADH酶活性及甜菜碱含量显著高于受体对照,随着盐胁迫时间的延长,其表达量先增加后减少,在胁迫7 d时分别达到了最大值。转基因株系幼苗株高和干重从盐胁迫第3天开始显著高于对照,鲜重和含水量在胁迫第5天和第7天时转基因株系显著高于对照;转基因株系根总体积显著高于对照,直径和根尖数在胁迫第5天时显著高于对照;转基因株系电导率和丙二醛含量均低于对照,分别在胁迫第3天和第7天开始达显著差异,叶绿素含量高于受体对照,从第3天开始二者差异达显著水平。由于外源BADH基因的表达显著提高了基因株系的耐盐性。 相似文献
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11.
Glycinebetaine (Glybet) accumulation, photosynthetic efficiency and growth performance in indica rice cultivated under salt stress and extreme pH stress were investigated. Betaine aldehyde dehydrogenase (BADH) activity and Glybet accumulation in the seedlings of salt-tolerant and salt-sensitive rice varieties grown under saline and acidic conditions peaked after treatment for 72 h and 96 h, respectively, and were higher than those grown under neutral pH and alkaline salt stress. A positive correlation was found between BADH activity and Glybet content in both salt-tolerant (r2=0.71) and salt-sensitive (r2=0.86) genotypes. The chlorophyll a, chlorophyll b, total chlorophyll and total carotenoids contents in the stressed seedlings significantly decreased under both acidic and alkaline stresses, especially in the salt-sensitive genotype. Similarly, the maximum quantum yield of PSII (Fv/Fm), photon yield of PSII ((PSII), non-photochemical quenching (NPQ) and net photosynthetic rate (Pn) in the stressed seedlings were inhibited, leading to overall growth reduction. The positive correlations between chlorophyll a content and Fv/Fm, total chlorophyll content and (PSII, (PSII and Pn as well as Pn and leaf area in both salt-tolerant and salt-sensitive genotypes were found. Saline acidic and saline alkaline soils may play a key role affecting vegetative growth prior to the reproductive stage in rice plants. 相似文献
12.
玉米ZmSAMS1基因在盐、干旱等逆境胁迫下的表达分析 总被引:2,自引:0,他引:2
采用Northern杂交对玉米S-腺苷甲硫氨酸合成酶基因ZmSAMS1在玉米幼苗期根、茎、叶中的表达及盐胁迫下外施不同甲基供体试剂处理下的表达进行分析。结果表明,ZmSAMS1在根、茎中均有表达,叶中信号较弱;盐胁迫外施甜菜碱、氯化胆碱、叶酸条件下该基因表达量不同,推测ZmSAMS1可能参与盐胁迫下玉米根茎木质化和栓质化过程。荧光实时定量PCR分析表明,ZmSAMS1在干旱和高温胁迫下表达量上调幅度较大,在盐、低温和ABA胁迫下表达量上调或下调幅度较小,揭示ZmSAMS1可能参与干旱、高温等逆境胁迫应答。 相似文献
13.
《Plant Production Science》2013,16(2):169-176
AbstractThe effect of NaCl stress on the structure of leaf chloroplasts was investigated in several NAD-Malic enzyme (NAD-ME) and phosphoenolpyruvate carboxykinase (PCK) type C4 plant species. Seedlings of the monocot species, except Zoysia japonica, grown in 300 mL pots were subjected to salt stress by adding 50 mL of 3% NaCl solution per day to the soil for 5 d after the fourth leaf blades were fully developed. Z. japonica and the dicot species, Amaranthus tricolor, were also treated with 3% NaCl in a similar manner from 5 wk after germination. Salt stress negatively affected the growth, chlorophyll content and chloroplast structure in all the species. At the ultrastructure level, swelling of thylakoids and disruption of envelopes were more or less observed in mesophyll cell (MC) chloroplasts after salt treatment. The structure of bundle sheath cell (BSC) chloroplasts, on the other hand, was hardly damaged under salt condition although stromal and starch areas were considerably decreased. Furthermore, salinity induced granal development in BSC chloroplasts in most species; the number of thylakoids per granum, granal indices and appressed thylakoid density in salt-treated plants were generally higher than those in control. Since the similar responses have also been reported in all NADP-ME type C4 species investigated in our previous study, the high sensitivity to salt stress in MC chloroplasts and the granal development in BSC chloroplasts by salinity were considered to be common phenomena in all three C4 subtypes. 相似文献
14.
《Plant Production Science》2013,16(3):260-269
AbstractWe grew 1005 mutated scented japonica rice lines to the seventh steady genetic generation, and treated the seedlings with six true leaves with 300 mM NaCl for three days. Only the salt-tolerant line, SM61, survived. We obtained F1, F2 and F3 populations from the cross between SM61 and a salt-susceptible indica variety, TCS17. After culture with 200 mM NaCl for five days, SM61 and F1 (SM61×TCS17; TCS17×SM61) plants survived (R) while TCS17 plants did not (S). The R to S ratio in 513 F2 plants showed a good fit to the Mendelian 3 : 1 segregation ratio by a Chi-square test indicating that the salt-tolerance of SM61 was governed by a single dominant gene. The mutated salt-tolerance gene explained close to 100% of the total phenotypic variation, and was tightly linked to RM223 (marker) located on chromosome 8, which was different from the results of previous studies investigating the relationship of QTLs with salt tolerance. This is the first report of mapping tightly linked markers of a single dominant mutated salt-tolerance gene. 相似文献
15.
《Plant Production Science》2013,16(3):215-218
AbstractDistribution of Na+ along the root axis under salinity stress was analyzed in two rice (Oryza sativa L.) cultivars with different salt resistance (salt-sensitive IR 24 and salt-resistant Pokkali). Rice plants were grown hydroponically and NaCl was applied with nutrient solution at concentrations of 0, 25 and 50 mM for 7 d after germination. The distribution of Na+ in roots under salinity was analyzed by the cryo time-of-flight secondary ion mass spectrometry (cryo TOF-SIMS). The Na+ content in the root was higher in salt-sensitive IR 24 than in salt-resistant Pokkali under NaCl stress. The content was highest at the root tip and was decreased basipetally along the root axis. The difference in Na+ content between the cultivars was apparent in all regions from the root tip. 相似文献
16.
为挖掘控制大麦耐盐相关性状的重要位点及候选基因,以国内外不同遗传背景的164份大麦品种为材料,在大麦萌发期,用200 mmol·L-1NaCl处理种子,测定大麦相对发芽率、生根数、根长、芽长、鲜重5个指标并分析其相关性。结果发现,200 mmol·L-1NaCl处理显著影响了大麦的生长,5个被测指标的变异系数为20.29%~63.00%。除相对发芽率外,其他性状间均呈显著正相关,相关系数为0.41~0.68。通过全基因组关联分析,发现148个SNP位点与大麦耐盐性显著关联;筛选出5个可靠SNP位点,分别分布在1号、 2号、3号、6号、7号染色体上。通过比较大麦基因组,挖掘出26个可能与大麦耐盐性状密切相关的候选基因,包括HORVU7Hr1G097370和HORVU7Hr1G097390编码碱性亮氨酸拉链域转录因子家族蛋白、HORVU7Hr1G096920编码高亲和K+转运体、多个基因家族编码过氧化物酶超家族蛋白等。这些候选基因可为大麦耐盐品种选育提供参考。 相似文献
17.
外界K+水平对水稻幼苗耐盐性的影响 总被引:9,自引:0,他引:9
外界K~+水平对水稻幼苗耐盐性的影响晏斌,戴秋杰(江苏省农业科学院,南京210014)EffectofExternalK~+LevelonSaltToleranceofRiceSeedlings¥YANBin,DAIQiujie(JiangsuAcad... 相似文献
18.
C. Bruno A. Tomás D. Bustos M. Monteoliva L. Ortega E. Taleisnik 《Grass and Forage Science》2016,71(4):683-698
This work assessed intracultivar variability for salt tolerance within Panicum coloratum cv. Klein, explored some physiological parameters potentially associated with it and evaluated the contribution of cell division and expansion to the decreased leaf length observed under salinity. Individual plants that had survived severe stress environments in an established pasture were collected and clonal families were obtained by vegetative propagation. These were evaluated in a greenhouse, in pots with an inert substrate irrigated with nutrient solution containing 0, 200 or 400 mm NaCl. Salt tolerance was assessed from growth variables expressed as a percentage of non‐salinized controls. Changes induced by salinity in carbon fixation, soluble sugars and compatible solutes were also measured. The selected plants showed 33% higher salt tolerance than plants from the same cultivar obtained from seeds, and variability for salt tolerance was detected within the group, suggesting these plants could be valuable germplasm for breeding programmes for saline areas. All selected plants accumulated low leaf blade Na concentrations (< 0·1 mm g?1 dry weight on average), and K concentrations tended to remain high under salinity. A kinematic analysis indicated a reduction in the number of cells in the division‐only zone was the main cause of shorter leaves under stress. Although plants showed some differences in all these traits, they were not related to salt‐tolerance variability within this group of stress‐tolerant plants. 相似文献
19.
《Plant Production Science》2013,16(1):37-38
AbstractWe measured the concentration of polyols (pinitol, ononitol, and myo-inositol), which are known to have health-promoting and/or disease-preventing functions, in the common ice plant (Mesembryanthemum crystallinum L.) cultured under salt- and drought-stressed treatments. In NaCl-treated plant the concentration of pinitol/ononitol increased with increasing NaCl concentration in culture solution. The maximal concentration was 3.6 mg g-1 FW, which was foundin the shoot top, followed by small side shoots (2.1 mg g-1 FW) of mature plants grown with 400 mM NaCl for 35 ds. The drought stress also accelerated the accumulation of pinitol/ ononitol. The maximal concentration was 1.2 mg g-1 FW, which was found in the shoot top of plants under the stress for 25 ds. The myo-inositol increased in salt-stressed plants at 3 ds after the start of the treatment and then decreased with the lapse of time during stress. The concentration of polyols in the ice plant was comparable to that in the other species reported to accumulate polyols at high levels. Radical scavenging activity evaluated by DPPH assay was increased two-fold by 400 mM NaCl treatment, which was twice as high as that in the leaves of lettuce (Lactuca sativa L.). These results indicated the high potential of the ice plant as a polyol-rich high-functional food. 相似文献
20.
《Plant Production Science》2013,16(1):33-44
AbstractThe effects of exogenously applied glycinebetaine on the salt-stress-induced inhibition of growth and ultrastructural damages in rice seedlings were investigated. Glycinebetaine was not effective in alleviating the NaCl-induced inhibition of root growth and rather enhanced the NaCl-induced inhibition. However, it was found to alleviate the inhibition of shoot growth induced by NaCl stress. Concentrations of Na were higher in salt-stressed plants than in unstressed plants. Stressed plants receiving glycinebetaine had a significantly lower Na and higher K concentrations in the shoots than the plants grown without application of glycinebetaine. Salinity induced ultrastructural damages in leaf such as swelling of thylakoids, disintegration of grana stacking and intergranal lamellae and destruction of mitochondria (deficiency of cristae, swelling and vacuolation). Such damages were largely prevented by pretreatment with glycinebetaine resulting in greening of the plants. In roots, the epidermis, cortex and root cap were more sensitive to salt stress than the meristem and stele. The most frequently observed ultrastructural alteration due to NaCl salinity was the formation of many large vacuoles in the root tip and root cap cells. The number of mitochondria was increased and they were aggregated in the cytoplasm of the root tip and root cap cells by treatment with NaCl or NaCl plus glycinebetaine. Glycinebetaine could not prevent the NaCl-induced ultrastructural damages in root cells. The effects of glycinebetaine to mitigate the ultrastructural damages in the chloroplast and mitochondria induced by NaCl might be due to the production of many vacuoles in root cells which may act to store Na and decrease its accumulation in the shoot. 相似文献