...常见染色体加倍剂: 秋水仙碱(olchicine)氨磺乐灵(oryzalin)和氟乐灵 (trifluralin)这类有丝分裂抑制剂在细胞有丝分裂过程中可以与微观蛋白二聚体结合,从而阻止微管进而纺锤丝的形成(Pet...
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(8)被认为通过抑制植物细胞有丝分裂而显示除草效果的有效成分,如氟乐灵(trifluralin)、黄草消(oryzalin)、磺乐灵(nitralin)、胺硝草(pendimethalin)、丁氟消草(ethalfluralin)、乙丁氟灵(benfluralin)、氨氟乐灵(prodiamine)这样的二硝...
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...加有效的诱导试剂,经研究[3],发现几种抗微管除草剂甲酰胺草磷(Amiprophose methyl,APM)、氟乐灵(Trifluralin)和胺磺灵(Oryzalin)、二甲戊乐灵(Pendimethalin)也具有染色体加倍的效应,在西葫芦[4]和黄瓜[5]上已有报道,药害也比秋水仙素轻,诱导效率高,且价格低廉...
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The mutation effect of tetraploid were increased with the increasing of concentrations and the prolongation of treatment time in dropping seeding. And it were 3.33% only by treatment of the germinated seeds were immersed into ORYZALIN solution.
随着滴苗浓度的提高和时间的延长四倍体诱变率也随之提高。
参考来源 - ORYZALIN不同处理方法对西瓜及甜瓜四倍体诱变效果的研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The total yield of oryzalin was over 55%.
安磺灵的总收率在55%以上。
In this paper, the process of synthesizing new model weedicide oryzalin was studied.
本文对新型除草剂安磺灵的合成工艺进行了研究。
The syntheses of 3,5-dinitro-4-di-n-propylamidobenzenesulfong chloride and oryzalin was improved, makes more is fit for the requirement in the industrial production.
改进了中间体3,5-二硝基-4-二正丙胺基苯磺酰氯和最终产品安磺灵的合成方法,使之更适合于工业生产的要求。
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