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- Shoot regenerated from leaves of sweet cherry variety Dilemma in vitro on the media WPM or NN69 supplemented with cytokinin BA and auxin IAA,NAA or IBA. 在基本培养基NN69或WPM上附加BA和低浓度的NAA ,IAA ,IBA作培养基 ,诱导甜樱桃品种吉列玛试管苗的叶片产生了不定梢。
- auxin IAA 生长素
- The function of IAA in plant growth was introduced systematically.The progress of polar auxin transport mechanism was discussed. 通过了解生长素在植物生长发育中的作用,进而阐述生长素极性运输机理方面的研究进展。
- These buds themselves also produce auxin. 这些叶芽本身也产生生长素。
- There was a relationship between IAA and EHT. 结果提示IAA与EHT的发生有联系 ,多因素分析提示IAA可能是EHT的危险因素 ;
- The activities of peroxidase and IAA oxidase were 56.3 OD470/min. 过氧化物酶 ( POD)和吲哚乙酸 ( IAA)氧化酶活性处理组分别为 56 .;3OD4 70 / min
- Both pretreatments decreased the activity of IAA peroxidase. 两种处理均使两种小麦IAA过氧化物酶活性降低。
- The AUX/IAA class of genes are rapidly induced by exogenous auxin ar. 在拟南芥中,我们已经知道AUX/IAA丛因能快速地被外源生长素诱导,并且许多这个家族的基因已经被详细地描述。
- Auxin, cytokinin and abscisic acid contents also affect male sterility. 在雄性不育特性方面,生长素、细胞分裂素和脱落酸有重要作用;
- The results also showed that auxin could raise the amount of root RNA. 试验中发现生长素提高根系核酸的含量。
- These suggested that auxin could regulate RSV replication in rice plant. 由此可见水稻体内生长素含量的变化能够影响RSV在寄主体内的复制。
- IBA,NAA and IAA are often used in the rooting culture of tree peony. 生根培养中常使用的生长调节物质有IBA、NAA和IAA。
- A study on extraction methods of endogenous IAA and ABA in tea plant. 茶树内源激素IAA和ABA提取方法研究
- The data suggest that atrC in the atrABC cluster was involved in IAA synthesis. 此结果表明,atrC基因参与了IAA合成。
- MS medium added 0.5mg/L BA and 1.0mg/L IAA was the best subculture medium. MS附加BA0.;5mg/L、IAA1
- Endogenous hormones IAA, ZR, GA3 and ABA in methanol extract of Rosa rugosa C. 摘要对平阴玫瑰花芽分化期叶片甲醇提取物进行IAA、ZR、GA3、ABA的分离、纯化和测定。
- The role of IAA in the differentiation of the vascular elements was discussed. 对于IAA在嫁接体维管分子分化过程中的作用进行了讨论。
- However, the changes of IAA, ZR and GA3 contents in leaf were contrary. 叶中IAA、ZR和GA3的变化则与根系相反。
- Paclobutrazol treatment reduced endogenous ABA and IAA levels by about 1/3. 但巴克素却使内生离层酸与吲乙酸含量下降约1/3。
- Auxin homeostasis, polar transport and signaling affect the whole progress of leaf development. 生长素的稳态调控、极性运输和信号转导影响叶片发育的全过程。
