中国马铃薯
中國馬鈴藷
중국마령서
CHINESE POTATO
2014年
4期
238-242
,共5页
高琪昕%胡新喜%王欢妍%曹可%索欢%何长征
高琪昕%鬍新喜%王歡妍%曹可%索歡%何長徵
고기흔%호신희%왕환연%조가%색환%하장정
水杨酸%抗病性%机制
水楊痠%抗病性%機製
수양산%항병성%궤제
salicylic acid%disease resistance%mechanism
水杨酸(SA)是诱导植物抗性的信号分子,可通过诱导植物产生病程相关蛋白(PR蛋白)、调节相关保护酶活性等途径使植物体产生系统获得性抗性(SAR)。SA与具有过氧化氢酶(CAT)活性的水杨酸受体蛋白(SABP)结合后,抑制其CAT活性,导致细胞内过氧化氢(H2O2)浓度升高,H2O2作为第二信使激活植物体内抗性基因的表达。植物体内SA积累使病程相关基因非表达子1(NPR1)低聚体水解还原成单体NPR1后,通过与转录因子相互作用诱导病程相关基因的表达。SA作为信号分子在植物体内的运输、SA合成相关基因及其上调转录因子转化植株后对其抗病性的影响以及SA激活NPR1基因表达的具体方式将是今后的研究重点。
水楊痠(SA)是誘導植物抗性的信號分子,可通過誘導植物產生病程相關蛋白(PR蛋白)、調節相關保護酶活性等途徑使植物體產生繫統穫得性抗性(SAR)。SA與具有過氧化氫酶(CAT)活性的水楊痠受體蛋白(SABP)結閤後,抑製其CAT活性,導緻細胞內過氧化氫(H2O2)濃度升高,H2O2作為第二信使激活植物體內抗性基因的錶達。植物體內SA積纍使病程相關基因非錶達子1(NPR1)低聚體水解還原成單體NPR1後,通過與轉錄因子相互作用誘導病程相關基因的錶達。SA作為信號分子在植物體內的運輸、SA閤成相關基因及其上調轉錄因子轉化植株後對其抗病性的影響以及SA激活NPR1基因錶達的具體方式將是今後的研究重點。
수양산(SA)시유도식물항성적신호분자,가통과유도식물산생병정상관단백(PR단백)、조절상관보호매활성등도경사식물체산생계통획득성항성(SAR)。SA여구유과양화경매(CAT)활성적수양산수체단백(SABP)결합후,억제기CAT활성,도치세포내과양화경(H2O2)농도승고,H2O2작위제이신사격활식물체내항성기인적표체。식물체내SA적루사병정상관기인비표체자1(NPR1)저취체수해환원성단체NPR1후,통과여전록인자상호작용유도병정상관기인적표체。SA작위신호분자재식물체내적운수、SA합성상관기인급기상조전록인자전화식주후대기항병성적영향이급SA격활NPR1기인표체적구체방식장시금후적연구중점。
Salicylic acid (SA) is the signal molecule to induce the systemic acquired resistance in plants by inducing pathogenesis related proteins (PR protein) and regulating the activity of plant protective enzymes. The concentration of H2O2 increase with the combination of SA and the salicylic acid-binding protein (SABP) which inhibits the catalatic activity of the SABP, and H2O2 works as a second messenger molecule to activate the expression of resistance genes. SA accumulation in plants to make nonexpressor of pathogenesis-related genes 1 (NPR1) oligomers hydrolyzed into monomers NPR1, and the monomers induce the expression of related genes by interacted with transcription factors. The transportation of the SA in plant as a signal molecule, the effects of transformation of genes related to SA biosynthesis and their up-regulating transcription factors on the disease resistance of the transgenic plants, and how does the SA activate the expression of NPR1 gene would be the focus of the future research.
