摘要
草酸是多种真菌的致病因子。在含1.2 mmol/L草酸和10μmol/L雌二醇的MS缺钙培养基上,从大约含6000个独立株系的拟南芥化学诱导突变体库中筛选草酸不敏感的突变体。初筛获得的可能的草酸不敏感突变体单株收种后,进一步复筛获得5株较抗草酸的突变体D33、D74、D154、D282和D630。对它们的TAIL-PCR的第三步产物回收、测序、比对的结果表明:D33的T-DNA插入位点位于At2g39720(Zinc finger)and At2g39730(Rubisco activase)之间,D74、D154、D282和D630都插在At5g10450(14-3-3 protein GF14 lambda)的第一个内含子上。突变体后继的遗传分析与分子分析正在进行中。
Oxalic acid (OA) is inhibitory to many fungal plant pathogens. To further characterize the molecular mechanism of OA involved in fungal pathogenesis, OA insensitive mutants were screened from a chemical inducible Arabidopsis mutant library (about 6000 lines) using MS medium (calcium free) containing 1.2 mmol/L OA and 10 Ixmol/L estradiol. Harvested putative mutants were collected separately. Individual lines of mutants were screened again on modified MS medium containing OA. Mutants D33, D74, D154, D282 and D630 with enhanced OA resistance were obtained. The T-DNA flanking sequences were amplified by TAIL-PCR. The sequences were blasted against TAIR database. The result indicated that the T-DNA of mutant D33 was inserted between At2g39720 (zinc finger) and At2g39730 (Rubisco activase), and the T-DNA junctions of the other four mutants were the same, all inserted in the same site of the first intron of At5gl0450 (14-3-3 protein GF14 lambda).
出处
《生物工程学报》
CAS
CSCD
北大核心
2008年第2期203-208,共6页
Chinese Journal of Biotechnology
基金
国家自然科学基金(Nos.30671347,30471178)~~
