中国生物化学与分子生物学报
中國生物化學與分子生物學報
중국생물화학여분자생물학보
CHINESE JOURNAL OF BIOCHEMISTRY AND MOLECULAR BIOLOGY
2008年
8期
704-711
,共8页
盛艳敏%尹金植%石德成%王得利
盛豔敏%尹金植%石德成%王得利
성염민%윤금식%석덕성%왕득리
碱胁迫%抗氧化酶系统%盐胁迫%盐碱混合胁迫%向日葵
堿脅迫%抗氧化酶繫統%鹽脅迫%鹽堿混閤脅迫%嚮日葵
감협박%항양화매계통%염협박%염감혼합협박%향일규
alkali stress%antioxidant enzyme%salt stress%salt alkaline mixed stress%sunflower
根据中国东北盐碱土壤特点,将4种盐NaCl、NaHCO3、Na2SO4,和Na2CO3,按不同比例混合,模拟出25种盐度和pH值各不相同的复杂盐碱条件(盐浓度为50~250 mmol/L,pH值为7.12~10.46),并对向日葵苗进行盐碱混合胁迫处理,研究了向日葵超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和过氧化物酶(POD)酶等抗氧化酶系统和丙二醛(MDA)的盐碱协同胁迫效应.结果表明,向日葵抗氧化物酶活性强弱同时与盐度和碱度密切相关,3种抗氧化物酶活性对于盐浓度的反应相似,均为其含量随着盐浓度的升高开始逐渐升高然后下降,而对于pH的影响,不同酶反应结果不同.即随着pH值升高,SOD酶活性和CAT酶活性降低,而POD酶活性反应则是随着pH值升高活性也升高.双向方差分析(ANOVA)结果表明:盐碱效应对于3种酶活力的影响是显著的.其中,盐效应对POD和SOD活性的影响比pH值的影响大,而pH值对CAT活性的影响效应比盐效应大.除SOD外,盐碱效应的交互作用显著(P<0.001).抗氧化酶系统和MDA含量两者间相关性和逐步回归分析表明,3种酶对MDA的影响效应随其强度不同呈现显著不同.其中SOD是1个主导因子,CAT处于次位,而POD的影响不大,甚至可以忽略.
根據中國東北鹽堿土壤特點,將4種鹽NaCl、NaHCO3、Na2SO4,和Na2CO3,按不同比例混閤,模擬齣25種鹽度和pH值各不相同的複雜鹽堿條件(鹽濃度為50~250 mmol/L,pH值為7.12~10.46),併對嚮日葵苗進行鹽堿混閤脅迫處理,研究瞭嚮日葵超氧化物歧化酶(SOD)、過氧化氫酶(CAT)和過氧化物酶(POD)酶等抗氧化酶繫統和丙二醛(MDA)的鹽堿協同脅迫效應.結果錶明,嚮日葵抗氧化物酶活性彊弱同時與鹽度和堿度密切相關,3種抗氧化物酶活性對于鹽濃度的反應相似,均為其含量隨著鹽濃度的升高開始逐漸升高然後下降,而對于pH的影響,不同酶反應結果不同.即隨著pH值升高,SOD酶活性和CAT酶活性降低,而POD酶活性反應則是隨著pH值升高活性也升高.雙嚮方差分析(ANOVA)結果錶明:鹽堿效應對于3種酶活力的影響是顯著的.其中,鹽效應對POD和SOD活性的影響比pH值的影響大,而pH值對CAT活性的影響效應比鹽效應大.除SOD外,鹽堿效應的交互作用顯著(P<0.001).抗氧化酶繫統和MDA含量兩者間相關性和逐步迴歸分析錶明,3種酶對MDA的影響效應隨其彊度不同呈現顯著不同.其中SOD是1箇主導因子,CAT處于次位,而POD的影響不大,甚至可以忽略.
근거중국동북염감토양특점,장4충염NaCl、NaHCO3、Na2SO4,화Na2CO3,안불동비례혼합,모의출25충염도화pH치각불상동적복잡염감조건(염농도위50~250 mmol/L,pH치위7.12~10.46),병대향일규묘진행염감혼합협박처리,연구료향일규초양화물기화매(SOD)、과양화경매(CAT)화과양화물매(POD)매등항양화매계통화병이철(MDA)적염감협동협박효응.결과표명,향일규항양화물매활성강약동시여염도화감도밀절상관,3충항양화물매활성대우염농도적반응상사,균위기함량수착염농도적승고개시축점승고연후하강,이대우pH적영향,불동매반응결과불동.즉수착pH치승고,SOD매활성화CAT매활성강저,이POD매활성반응칙시수착pH치승고활성야승고.쌍향방차분석(ANOVA)결과표명:염감효응대우3충매활력적영향시현저적.기중,염효응대POD화SOD활성적영향비pH치적영향대,이pH치대CAT활성적영향효응비염효응대.제SOD외,염감효응적교호작용현저(P<0.001).항양화매계통화MDA함량량자간상관성화축보회귀분석표명,3충매대MDA적영향효응수기강도불동정현현저불동.기중SOD시1개주도인자,CAT처우차위,이POD적영향불대,심지가이홀략.
Based on the characteristics of salt.alkalinized soil in northeastem China,twenty-five kinds of salt alkaline conditions with different salinities and pH were simulated by mixing NaCl,NaHCO3,Na2SO4,and Na2CO3,in various proportions and applied to sunflower (Helianthus annuus L.) seedlings to investigate the coordinative effects of salt and alkali stresses on its antioxidant enzyme system.The soil was conditioned with a salt concentration range between 50 to 250 mmol/L and pH values from 7.12 to 10.46.Several physiological indexes of stressed seedlings were measured,including the activities of superoxide dismutase (SOD),catalase (CAT),and pemxidase (POD),as well as the content of malondialdehyde (MDA).The results showed that the responses of the antioxidant enzyme system in sunflowers were influenced by salinity and alkalinity,which all three antioxidant enzymes exhibited a rise-drop pattern as salinity increased,whereas their responses to alkalinity appeared to be diverse:decreased for SOD and CAT,and increase for POD along when increasing alkalinity.A two-way analysis of variance (ANOVA) showed that the effects of salinity and alkalinity on the activities of the three enzymes were significant (P<0.001).The effect of salinity on POD and SOD was greater than that of alkalinity,whereas the effect of alkalinity on CAT was greater than that of salinity.The interrelation of salinity and alkalinity on each antioxidant enzyme was significant (P<0.001) except for SOD.The correlation and stepwise regression analyses between the activity of the antioxidant enzyme system and the MDA content were significant to difierent extend,SOD was a dominant factor,and POD was neglectable.
