中国农业科技导报
中國農業科技導報
중국농업과기도보
REVIEW OF CHINA AGRICULTURAL SCIENCE AND TECHNOLOGY
2013年
5期
93-99
,共7页
李俊容%杨凤玺%刘志斌%杨毅%李旭锋
李俊容%楊鳳璽%劉誌斌%楊毅%李旭鋒
리준용%양봉새%류지빈%양의%리욱봉
AtOHRP1%氧化胁迫%突变体
AtOHRP1%氧化脅迫%突變體
AtOHRP1%양화협박%돌변체
AtOHRP1%oxidative stress%mutant
C3 HC4 RING finger结构在植物非生物胁迫应答中发挥着重要作用。在对拟南芥基因组进行生物信息学分析过程中发现,NP_195772.1含有一个 C3HC4 RING finger保守结构域。基因表达分析显示该基因受H2 O2显著诱导。其突变体对高光、过氧化氢、高盐以及黑暗等胁迫高度敏感,叶片白化现象显著,相对叶绿素含量较于野生型也有明显降低,故将其命名为 AtOHRP1( Arabidopsis thaliana Oxidative Hypersensitive RING Finger Protein 1)。通过分析氧化胁迫后植物体内过氧化氢的含量及抗氧化酶活性的变化,发现突变体体内有更多过氧化氢的积累且活性氧清除系统中关键酶,超氧化物歧化酶( SOD)、过氧化氢酶( CAT)、抗坏血酸过氧化物酶( APX)活性比野生型降低明显。表明AtOHRP1在氧化胁迫等非生物胁迫过程中发挥着重要的生理功能。
C3 HC4 RING finger結構在植物非生物脅迫應答中髮揮著重要作用。在對擬南芥基因組進行生物信息學分析過程中髮現,NP_195772.1含有一箇 C3HC4 RING finger保守結構域。基因錶達分析顯示該基因受H2 O2顯著誘導。其突變體對高光、過氧化氫、高鹽以及黑暗等脅迫高度敏感,葉片白化現象顯著,相對葉綠素含量較于野生型也有明顯降低,故將其命名為 AtOHRP1( Arabidopsis thaliana Oxidative Hypersensitive RING Finger Protein 1)。通過分析氧化脅迫後植物體內過氧化氫的含量及抗氧化酶活性的變化,髮現突變體體內有更多過氧化氫的積纍且活性氧清除繫統中關鍵酶,超氧化物歧化酶( SOD)、過氧化氫酶( CAT)、抗壞血痠過氧化物酶( APX)活性比野生型降低明顯。錶明AtOHRP1在氧化脅迫等非生物脅迫過程中髮揮著重要的生理功能。
C3 HC4 RING finger결구재식물비생물협박응답중발휘착중요작용。재대의남개기인조진행생물신식학분석과정중발현,NP_195772.1함유일개 C3HC4 RING finger보수결구역。기인표체분석현시해기인수H2 O2현저유도。기돌변체대고광、과양화경、고염이급흑암등협박고도민감,협편백화현상현저,상대협록소함량교우야생형야유명현강저,고장기명명위 AtOHRP1( Arabidopsis thaliana Oxidative Hypersensitive RING Finger Protein 1)。통과분석양화협박후식물체내과양화경적함량급항양화매활성적변화,발현돌변체체내유경다과양화경적적루차활성양청제계통중관건매,초양화물기화매( SOD)、과양화경매( CAT)、항배혈산과양화물매( APX)활성비야생형강저명현。표명AtOHRP1재양화협박등비생물협박과정중발휘착중요적생리공능。
The motif of C3 HC4 RING finger has been reported to play important roles in abiotic stress. According to bio-informatic analysis, we noticed an unknown function protein ( NP_568885. 1 ) in Arabidopsis, containing a conserved C3 HC4 RING finger domain. Expression profile showed that the gene was dominantly accumulated in plant old tissues and significantly induced by hydrogen peroxide. Phenotypic analysis showed that the mutant exhibited hypersensitive to NaCl, H2 O2 , high light and dark treatment. Thereby, we named it AtOHRP1 ( Arabidopsis thaliana Oxidative Hypersensitive RING Finger Protein 1). Accordantly, decreased chlorophyll content and increased level of hydrogen peroxide production were detected in atohrp1, and reduced activity of antioxidant enzymes including Superoxide Dismutase (SOD), Catalase (CAT) and Ascorbate Peroxidase (APX), was distinct, compared with those in wild-type plants. All of these results suggested that RING Finger Protein AtOHRP1 may play an important physiological role in oxidative stress process.
