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渗透胁迫对绿豆下胚轴延伸生长及H^+分泌的影响 被引量:1

EFFECTS OF SOMOTIC STRESS ON ELONGATION GROWTH AND H + EXTRUSION OF MUNGBEAN SEEDLING HYPOCOTYL
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摘要 -0.9MPa甘露醇渗透胁迫处理,明显抑制绿豆幼苗下胚轴延伸生长和生长部位H+分泌,而且随胁迫时间延长抑制程度增大。PMH+-ATPase活性在渗透胁迫下先下降而后升高并超过对照水平。胁迫处理也使绿豆幼苗下胚轴生长区相对含水量(RWC)持续下降。在渗透胁迫下,绿豆下胚轴延伸生长与RWC和H+分泌之间都存在正相关性;而H+分泌和PMH+-ATPase之间,延伸生长和PMH+-ATPase之间无相关性。 With -0.9 MPa D Mannitol treatment,the elongation growth (LER) and H + extrusion of mung bean seedling hypocotyl was significantly inhibited,and the inhibition was even more serious with treatment time.The PMH + ATPase activity under osmotic stress decreased first,then increased even above the control,maintaining in a high level.The RWC also declined continually with treatment.Under Osmotic stress,the RWC and H + extrusion both had positive correlation with LER,but the relationship between H + extrusion and PMH + ATPase activity,and that between LER and PMH + ATPase acti vity were not so correlative.These suggested that osmotic stress changed the role of PMH + ATPase in the processes of H + extrusion and elongation growth.
作者 龚月桦 王俊儒 高俊凤 荆家海
机构地区 西北农业大学基础科学系
出处 《西北植物学报》 CAS CSCD 1998年第4期527-532,共6页 Acta Botanica Boreali-Occidentalia Sinica
基金 国家自然科学基金
关键词 绿豆 渗透胁迫 延伸生长 H^+分泌 PMH^+-ATPase mung bean,osmotic stress,elongation growth,H + extrusion, PMH + ATPase
分类号 S522.01 [农业科学—作物学] Q945.3 [生物学—植物学]
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参考文献12

二级参考文献13

  • 1Lin W,Plant Physiol,1984年,74卷,212页
  • 2Lin W,Plant Physiol,1982年,70卷,326页
  • 3陈志,植物生理学报,1991年,17卷,333页
  • 4焦新之,植物生理学报,1991年,17卷,49页
  • 5Chung G C,Plant Cell Physiol,1989年,30卷,1133页
  • 6张坤,植物生理学报,1989年,15卷,289页
  • 7李琳,植物生理学通讯,1980年,6期,152页
  • 8王建华,1992年
  • 9焦新之,植物生理学报,1992年,18卷,63页
  • 10Chen J,Bericht der botanikertagung in regensburg,1990年

共引文献57

同被引文献25

  • 1曹晶,谢锦云,张丽军,陈平,梁宋平.2-DE技术中疏水性和碱性蛋白质的研究进展[J].生命科学研究,2004,8(3):207-214. 被引量:7
  • 2胡章立,李琳,荆家海,焦新之.水分胁迫对玉米幼叶生长区细胞质膜H^+-ATPase活性的影响[J].植物生理学报(0257-4829),1993,19(2):124-130. 被引量:35
  • 3刘凤霞,薛刚,高俊凤.两相分配法分离棉花根和下胚轴质膜高聚物的浓度选择[J].新疆农业科学,1995,32(2):69-72. 被引量:1
  • 4ZHANG W,ZHAO Y,ZHOU G,et al. Affnity enrichment of plasma membrane for proteomic analysis [J]. Electrophoresis, 2003,24 (16) : 2855-2863.
  • 5RABILLOUD T, BLISNICK T, HELER M,et al. Analysis of membrane proteins by two-immensional electrophoresis: Comparison of the proteins extracted from normal or Plasmodium falciparum-infected erythroeyte ghosts [J]. Electophoresis, 1999.20:3603-3610.
  • 6SANTOIN V,KIEFFER S,DESCLAUX,et al. Membrane proteomic:use of additive main effects with multiplicative interaction model to classify plasma membrane proteins according to their solubility and electrophoretic properties [J].2000,21 (16) :3329-3344.
  • 7KANSHINO Y,HARAYAMA T,PAKRASI H B,et al. Preparation of membrane proteins for analysis by two -dimensional gel electrophoresis [J ].Journal of Chromatography B, 2007,849: 282-292.
  • 8SAZUKA T, KETA S,SHIRATAKE K,et al. A proteomic approach to identification of trans-membrane proteins and membrane anchored proteins of Arobidopsis thaliana by peptide sequencing [J ].DNA Research, 2004,11 : 101-113.
  • 9BOHLER S,BAGARD M,PLANCHON S,et al. A DIGE analysis of developing poplar leaves subjected to ozone reveals major changes in carbon metabolism[J]. Proteomics,2007,7(10):1584-1599.
  • 10ANDON N L,HOLLINGWORTH S,KOLLER A,et al. Proteomic characterization of wheat myloplasts using identification of proteins by tandem mass spectrometry[J].Proteomics,2002,2(9):1156-1168.

引证文献1

二级引证文献3

西北植物学报
1998年 第4期

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