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salt tolerance mechanism
相关语句
  耐盐机理
     Salt Tolerance Mechanism and Molecular Markers of Genes Associated with Salt Tolerance in Soybean
     大豆耐盐机理及相关基因分子标记
短句来源
     Study of Salt Tolerance Mechanism of Puccinellia Tenuiflora Using Suppression Subtractive Hybridzation and cDNA Microarray
     抑制性消减杂交和cDNA微阵列技术研究星星草耐盐机理
短句来源
     STUDIES ON SALT TOLERANCE MECHANISM OF RICE Ⅱ.COMPARISON OF SALT TOLERANCE OF CALLI IN DIFFERENT GENOTYPES
     水稻耐盐机理的研究Ⅱ、不同基因型愈伤组织耐盐性比较
短句来源
     Many scientists have done their best to solve this problem and have made a lot of encouraging advancements in plant's salt tolerance mechanism, salt tolerance gene cloning and salt stress signal conduction.
     各国科学家都为此做出了不懈的努力,在植物耐盐机理、耐盐相关基因克隆和盐诱导信号传导途径研究等方面取得了许多令人鼓舞的进展。
短句来源
     In this paper, the authors review the progress of the physiology, salt tolerance mechanism, and stress signal transduction of plants under salt stress.
     综述了盐胁迫下植物的生理、耐盐机理、胁迫信号传导等方面的研究进展.
短句来源
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  “salt tolerance mechanism”译为未确定词的双语例句
     Study on the Purification of the V-H~+-ATPase in the Cells of Populus Euphratica and Its Salt Tolerance Mechanism
     胡杨液泡膜H~+-ATPase的纯化及其耐盐性机理研究
短句来源
     The characteristics of AtNHX1 gene and Na+/H+ antiporter AtNHX1,the salt tolerance mechanism of AtNHX1 are summarized in this paper,meanwhile,the relative genic engineering improvement for salt tolerance of plants is reviewed.
     简要综述了AtNHX1基因及Na+/H+逆向转运蛋白AtNHX1的特征,AtNHX1的耐盐机制以及植物耐盐基因工程改良等方面的研究进展。
短句来源
     Salt Tolerance Mechanism of the New Wheat Cultivar DK961 with Salt Tolerance and High Yield
     耐盐丰产小麦品种德抗961的耐盐生理机制
短句来源
     Salina, enkaryotic unicellular green algae, able to proliferate under saline conditions ranging from 0.1 to 5.5 mol/L NaCl; it was a better mould of studying the salt tolerance mechanism.
     杜氏盐藻是一种真核单细胞绿藻,可以在0.1~5.5mol/L的NaCl溶液中生长,是研究藻类植物耐盐机制的较好模型。
短句来源
     So gene silence study of SOS1 in Thellungiellahalophila is important for reveal the base of salt tolerance mechanism of halophyte.
     因此在盐芥中沉默SOS1基因进行研究,对揭示盐生植物耐盐性的基础具有重要意义。
短句来源
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  相似匹配句对
     Advances of salt tolerance in plants
     植物耐盐研究概况与展望
短句来源
     Study on Salt Tolerance of Tomato
     番茄耐盐性研究进展
短句来源
     Mechanisms of Salt Tolerance in Wheat and Barley
     麦类作物耐盐性机制研究进展
短句来源
     Molecule Mechanism for Salt Tolerance of Plant
     植物耐盐的分子机理
短句来源
     Studies on Salt Tolerance and Its Mechanism in Wheat
     小麦的耐盐性及其耐盐机理初探
短句来源
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  salt tolerance mechanism
The probable relationships between these changes and the salt tolerance mechanism in the plant have been discussed.
      
Role of trehalose synthesis pathways in salt tolerance mechanism of Rhodobacter sphaeroides f.
      


Two near isogenic lines (RH8706 49 and H8706 34)were cultured in Hoagland solution containing 1% NaCl for 36h,48h,60h respectively,and then restored to Hoagland solution without salt for 36h. The chloroplast ultrastructures of the two lines were observed under TEM with different treatments,the results showed that with the intensifying of salt stress,the chloroplasts were injured to a larger degree. The chloroplasts of H8706 34 with less salt tolerance were more sensitive to salt stress;after the removal of...

Two near isogenic lines (RH8706 49 and H8706 34)were cultured in Hoagland solution containing 1% NaCl for 36h,48h,60h respectively,and then restored to Hoagland solution without salt for 36h. The chloroplast ultrastructures of the two lines were observed under TEM with different treatments,the results showed that with the intensifying of salt stress,the chloroplasts were injured to a larger degree. The chloroplasts of H8706 34 with less salt tolerance were more sensitive to salt stress;after the removal of salt stress,the chloroplasts of the more salt tolerant can restore both in their morphology and internal structure,while they could not resume or difficult to restore in RH8706 34. Statistical analysis of the thylakoid membrane injury was also conducted in these two lines,the results showed that most of the thylakoids injured in RH8706 49 melt lightly,while in H8706 34,they melt seriously,which could provide evidence for the superiority of RH8706 49 to H8706 34 in salt tolerance on cell level and also provide good materials for further study on salt tolerance mechanism.

两个近似等位基因系 (RH870 6 4 9和H870 6 34 )在含有 1%NaCl的Hoagland溶液中分别培养36h、4 8h、60h ,再返回到无盐的Hoagland培养液中培养 36h ,用透射电镜对两品系在不同处理条件下叶绿体的超微结构进行了观察。结果表明 :随着盐胁迫程度的加剧 ,叶绿体受伤害程度加重 ,耐盐性较差的H870 6 34的叶绿体对盐胁迫更为敏感 ;盐胁迫解除后 ,耐盐性较强的RH870 6 4 9叶绿体的外部形态和内部结构都得到一定程度的恢复 ,耐盐性较差的品系则恢复不好或难以恢复。对两品系类囊体膜的损伤情况进行统计分析 ,发现RH870 6 4 9的类囊体膜损伤主要表现为微溶 ,H870 6 34主要表现为重溶 ,从细胞水平上为RH870 6 4 9的耐盐性优于H870 6 34提供了证据 ,为进一步研究耐盐机理提供了好材料。

Solution culture was used in this experiment to observe Na\++ localization in epidermis cells of M.zumi under NaCl stress.The results showed that at a certain NaCl range,Na\++ concentrations in root were higher than that in the above\|ground parts,indicating that the roots had a re\|absorption effect on Na\++,and this is probably one of salt tolerance mechanisms of M.zumi. When NaCl concentration being much higher a great accummulation of Na\++ in root or leaves was observed,indicating that the plant...

Solution culture was used in this experiment to observe Na\++ localization in epidermis cells of M.zumi under NaCl stress.The results showed that at a certain NaCl range,Na\++ concentrations in root were higher than that in the above\|ground parts,indicating that the roots had a re\|absorption effect on Na\++,and this is probably one of salt tolerance mechanisms of M.zumi. When NaCl concentration being much higher a great accummulation of Na\++ in root or leaves was observed,indicating that the plant had been damaged by NaCl due to massive Na\++ accummulation in cytoplasm and apprent free space.

本试验研究了水培条件下NaCl胁迫下珠眉海棠苹果组织细胞中Na+的分布及可能的耐盐机制。结果表明 :在一定NaCl胁迫浓度范围内 ,根系中Na+浓度高于地上部 ,根系对Na+有一定的再吸收作用 ,这是珠眉海棠耐盐的重要机制 ;当NaCl胁迫浓度达到一定阀值后 ,根、叶细胞Na+大量积累 ,当细胞液泡不再接纳Na+时 ,Na+大量积累于胞质和质外体 ,使质外体渗透势大大降低 ,胞质水分外流 ,破坏细胞膜系统和胞质新陈代谢 ,造成伤害。

In this article we reviewed and discussed the research advances on the marine higher plant eelgrass (Zostera marina L.) from 5 aspects including (1) characteristics of morphology and anatomical structure, (2) basic physiology, (3)salt_tolerance mechanism, (4) possible growth_limiting factors, (5) questions and expectations. Special emphasis was put on the plant's suitability with its submerged life in seawater, especially its adaptation to the salinity of seawater.

综述和讨论了目前对海洋沉水植物大叶藻的研究进展 ,主要包括 :(1 )形态解剖结构特点 ,(2 )基本生理研究 ,(3 )耐盐机理 ,(4)生存限制因子 ,(5 )问题与展望。其中着重讨论了大叶藻与海洋沉水生活相适应的一些特点 ,特别是其对海水盐度的适应机理。

 
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