菌丝融合

来源于不同菌丝融合群的nit突变体间不能产生互补反应。

No complementation was observed between any nit mutants recovered from the strains of different anastomosis groups .

同时，同一菌丝融合群内的各营养亲和群代表菌株间，培养性状亦有较大差异。

Meanwhile the vegetative compatible groups of the same anastomosis group were different significantly in cultural properties .

另外成功运用nit作为分子标记研究了禾谷镰刀菌对氰烯菌酯的抗药性在菌丝融合过程中的遗传和变异。

Graminearum , which was used to study JS 399 - 19 resistance transferability in hyphal fusion .

用11个限制性内切酶处理代表11个已报道的立枯丝核菌的菌丝融合群的25个种内类群的161个样品，来研究18S核rRNA的基因区的DNA多态性。

DNA polymorphism in the 18S nuclear rRNA gene region was investigated by using 11 restriction endonucleases for 161 isolates of 25 intraspecific groups ( ISGs ) representing 11 reported anastomosis groups ( AGs ) of Rhizoctonia solani .

茭白纹枯病菌菌丝融合群及其致病性测定

Assessment of Anastomosis Groups of Water Bamboo Sheath Bright and Their Pathogenicity

新疆苜蓿立枯丝核菌菌丝融合群及其致病性研究

Study on anastomosis groups and their pathogenicity of Rhizoctonia solani isolated from alfalfa in Xinjiang

江苏玉米纹枯病菌的菌丝融合群及其对药剂的敏感性

The Anastomosis Groups and Their Sensitivity to Fungicides of Corn Sheath Blight in Jiangsu Province

运用菌丝融合法对从全国各地所采集分离的81个双核丝核菌菌株进行分群。

Hyphal fusion among 81 isolates of R.

湖北省小麦纹枯病病原菌菌丝融合群研究

Study on pathogenic anastomosis group of Rhizoctonia causal agent of sharp eyespot of wheat in Hubei Province

湖北省水稻纹枯病菌菌丝融合群鉴定

Identification of anastomosis groups of pathogens on sheath blight of rice ( rhizoctonia solani ) in Hubei Province

菌丝融合技术中，如何培养筛选出真正的融合生产线，是菌丝融合技术成败的关键。

In term of inoculated hypha technology , the key point for successful is to breed and scan the real inoculated growth line .

这是我国草坪褐斑病菌ITS序列的首次测定，测定结果与形态鉴定和菌丝融合群测定结果具有相关性。

This was the first mensuration of brown patch pathogen ITS in China , and the results were relative with morphology and anastomosis groups.12 .

这些结果说明由菌丝融合导致的无性重组在稻瘟病菌对异稻瘟净的抗药性群体发展中可能起着重要的作用。

These results suggested that asexual recombination caused by hyphal fusion might play an important role in the development of fungicide resistant population in M. grisea .

菌丝可以融合并形成异核的菌丝体。

The hyphae can fuse and form a heterocaryotic mycelium .

利用菌丝体融合选育酿造新菌株Tu-3的研究

A Study on the Elective Breeding of the New Brewing Strain by Fused Hyphostroma

抗、感腐霉利菌株菌丝细胞融合可导致融合后代抗性水平的变异。

Variation of resistant level to procymidone due to hyphal fusion between sensitive isolate and resistant isolate could be detected .