水生生物学报
水生生物學報
수생생물학보
ACTA HYDROBIOLOGICA SINICA
2009年
4期
613-619
,共7页
徐勤松%施国新%计汪栋%杜开和%许晔
徐勤鬆%施國新%計汪棟%杜開和%許曄
서근송%시국신%계왕동%두개화%허엽
Zn%荇菜%SOD%POD%脯氨酸%可溶性糖%Ca2+%应答
Zn%荇菜%SOD%POD%脯氨痠%可溶性糖%Ca2+%應答
Zn%행채%SOD%POD%포안산%가용성당%Ca2+%응답
Zn%Nymphoides peltatum%SOD%POD%Proline%Soluble sugar%Calcium%Response
本文以不同浓度Zn(0、5、10、15、20 mg/L)处理荇菜(Nymphoides peltatum(Gruel.)O.Kuntze)9d,分析了Zn对叶片超氧化物歧化酶(SOD)和过氧化物酶(POD)活性、渗透调节物质(脯氨酸和可溶性糖)含量的影响,并用焦锑酸钙沉淀的细胞化学方法观察了Zn胁迫条件下叶肉细胞内Ca2+水平和分布的动态变化,以揭示水生植物对Zn胁迫的应答机制.研究结果表明,Zn明显抑制了SOD活性和刺激POD活性上升;脯氨酸和可溶性糖积累显著.电镜观察发现,正常条件下叶细胞中的Ca2+主要定位在胞间隙和液泡中,细胞基质和细胞核中较少.添加Zn后,胞间隙和液泡中的Ca2+逐渐进入细胞质,使细胞质中Ca2+浓度明显升高,特别是在质膜内侧和细胞核中出现大量较大的呈圆环状的钙沉淀颗粒.作者认为与保护酶活性紊乱相比,脯氨酸和可溶性糖在荇菜对Zn胁迫的适应中发挥更大的作用.同时细胞内Ca2+水平的增加,可能与许多生理生化过程的改变有关,其在质膜和细胞核等局部区域的大量分布,将会引发对植物的伤害,直至最终死亡.由此可见,荇菜体内多种防御系统同时对Zn胁迫做出反应,包括诱导胁迫相关酶(POD)活性,增加渗透调节物质(脯氨酸和可溶性糖)合成或含量以及改变疏松结合钙的亚细胞分布和含量等.
本文以不同濃度Zn(0、5、10、15、20 mg/L)處理荇菜(Nymphoides peltatum(Gruel.)O.Kuntze)9d,分析瞭Zn對葉片超氧化物歧化酶(SOD)和過氧化物酶(POD)活性、滲透調節物質(脯氨痠和可溶性糖)含量的影響,併用焦銻痠鈣沉澱的細胞化學方法觀察瞭Zn脅迫條件下葉肉細胞內Ca2+水平和分佈的動態變化,以揭示水生植物對Zn脅迫的應答機製.研究結果錶明,Zn明顯抑製瞭SOD活性和刺激POD活性上升;脯氨痠和可溶性糖積纍顯著.電鏡觀察髮現,正常條件下葉細胞中的Ca2+主要定位在胞間隙和液泡中,細胞基質和細胞覈中較少.添加Zn後,胞間隙和液泡中的Ca2+逐漸進入細胞質,使細胞質中Ca2+濃度明顯升高,特彆是在質膜內側和細胞覈中齣現大量較大的呈圓環狀的鈣沉澱顆粒.作者認為與保護酶活性紊亂相比,脯氨痠和可溶性糖在荇菜對Zn脅迫的適應中髮揮更大的作用.同時細胞內Ca2+水平的增加,可能與許多生理生化過程的改變有關,其在質膜和細胞覈等跼部區域的大量分佈,將會引髮對植物的傷害,直至最終死亡.由此可見,荇菜體內多種防禦繫統同時對Zn脅迫做齣反應,包括誘導脅迫相關酶(POD)活性,增加滲透調節物質(脯氨痠和可溶性糖)閤成或含量以及改變疏鬆結閤鈣的亞細胞分佈和含量等.
본문이불동농도Zn(0、5、10、15、20 mg/L)처리행채(Nymphoides peltatum(Gruel.)O.Kuntze)9d,분석료Zn대협편초양화물기화매(SOD)화과양화물매(POD)활성、삼투조절물질(포안산화가용성당)함량적영향,병용초제산개침정적세포화학방법관찰료Zn협박조건하협육세포내Ca2+수평화분포적동태변화,이게시수생식물대Zn협박적응답궤제.연구결과표명,Zn명현억제료SOD활성화자격POD활성상승;포안산화가용성당적루현저.전경관찰발현,정상조건하협세포중적Ca2+주요정위재포간극화액포중,세포기질화세포핵중교소.첨가Zn후,포간극화액포중적Ca2+축점진입세포질,사세포질중Ca2+농도명현승고,특별시재질막내측화세포핵중출현대량교대적정원배상적개침정과립.작자인위여보호매활성문란상비,포안산화가용성당재행채대Zn협박적괄응중발휘경대적작용.동시세포내Ca2+수평적증가,가능여허다생리생화과정적개변유관,기재질막화세포핵등국부구역적대량분포,장회인발대식물적상해,직지최종사망.유차가견,행채체내다충방어계통동시대Zn협박주출반응,포괄유도협박상관매(POD)활성,증가삼투조절물질(포안산화가용성당)합성혹함량이급개변소송결합개적아세포분포화함량등.
Zinc (Zn) is an essential microelement for normal growth and development of plants at low concentration ; however, it is also an important environmental pollutant due to anthropogenic pressure as well. In the present study, Nymphoides peltatum, a rooted-floating aquatic macrophyte, was cultivated with elevated concentration of Zn (0,5,10,15 and 20mg/L) for 9d respectively. The response of activities of superoxide dismutase (SOD) and peroxidase (POD), osmolytes (proline and soluble sugar) to Zn stress was investigated and Ca2+ ultrastructural distribution in leaf cells was examined with the cytochemical method of calcium antimonate precipitation. The results indicated that Zn decreased SOD activity by 11.46%-75.22% and the inhibition action reached significant level (R = - 0. 8642, p < 0.05) compared with that of control ; while it stimulated POD activity and increased by 2.55--3.89 fold over that of control; in response to Zn pollution, N. peltatum exhibited a enhancement in proline level and increased by 49.93%--142.31% in comparison to control ; the same tendency was also recorded in soluble sugar level under Zn stress, its accumulation showed progressive increase with the rise of external Zn concentration and enhanced by 13.83% to 100.64% , respectively. Electron microscope observation showed that Ca2+ mainly distributed within intercellular space and vacuole, some calcium deposits could be randomly found in cytoplasmic matrix and nucleus under normal conditions, when different dose of Zn was added into the culture solution, and the calcium level in these compartments lowered while that in cytoplasm increased remarkably, especially bigger particles of calcium deposits appeared at the inner aspect of plasmalemma and cell nucleus, which might be attributed to the opening of the calcium channels in plasmalemma and tonoplast and the loss of activity of the Ca2+ pump, this, in turn further enhanced the calcium level of cell interior. The rise of Ca2+ level in cytoplasm and cell nucleus maybe related to the changes of a series of physiological and biochemical processes. The dense distribution of Ca2+ in inner aspect of plasmalemma and in cell nucleus might lead to the damage to the plant cell or the death in the end. Based on observations in the present investigation, it can be concluded that several defense systems are activated simultaneously when affected by Zn, including the induction of stress enzymes (POD), increase of synthesis or content in osmolytes (proline and soluble sugar) and changes in the distribution and content of loosely-bound Ca2+.