fungi fungus 中文意思是什麼
fungi fungus
解釋
的復數-
Seeing from the morphology of the colony and the structure and the morphology of the bacteria, the fungus is identified as the sac fungi
從菌落形態和顯微鏡觀察到的菌體結構與形態情況看,初步確定該真菌屬于子囊菌。 -
Its product was relatively pure l - lactic acid. according to the fungus taxonomy, it belongs to hyphomycetales, hyphomycetes, deuteromycotina, eumycota, fungi
據真菌分類學分類,該菌為真菌門、半知菌亞門、絲孢綱、絲孢目。 -
A fungus ball composed of blue - staining hyphal elements of aspergillus is seen here in a bronchus. fungus balls may also form when fungi colonize cavitary lesions of tuberculosis
支氣管處可見由藍色的菌絲構成的真菌球。當真菌在因結核損害形成的腔洞內植入時,就可能形成真菌球。 -
Research on high efficient mixed fungus - agent of ecto - mycorrhizal fungi
高效外生菌根菌復合菌劑的研究 -
In the artificial - planting, the strain of cordyceps militaris is easy to degenerate. at present, the study about the fungus in cordyceps genus are just in the identification of fungi 、 the nutrition analysis 、 the using in medicine and artificial - planting. although, it could reduce the lost by the usual breeding way, we could not solve the problem at basic. about the degeneration of strain, people mostly use the gender - cycling 、 the fusing - cytoplasmic technology and the genetic - engineering method to reform the strain. most of people use moleculor method in the study of relationships among the species and between the species
用常規選育方法雖然能減少一定的損失,但不能從根本上解決菌種退化這一長期困擾企業生產的問題。針對菌種退化問題,主要是利用有性循環、原生質體融合和遺傳工程等途徑進行菌株改良,應用分子生物學手段只是研究種內、種間的系統關系等,而關于菌種退化遺傳機理的研究尚未見報道。菌種退化是菌類栽培過程中普遍存在的,也是生產當中迫切希望得到解決的問題。 -
The am fungus could obtain adequate carbon resources for itself, thus ensuring normal growth and metabolic activit y owing to the efflux of carbohydrate from the plasma membrane of the host root cortical cells to the interface of the symbiosis. thirdly, the structure and composition of the root cortex cellular plasma membrane kept good integrity and the leakage of carbohydrate maintained at low level when the plant obtained enough p and metabolizes normally. although enough carbohydrate was synthesized by plant, the am fungi could not obtain enough energy, resulting in inhibition of growth of the extraradical hyphae and decreased metabolic activity of the am fungi
由此,我們認為植物磷營養狀況調控菌根真菌生長和代謝活性的機制是:當植物處于嚴重缺磷脅迫時,不能合成足夠的碳水化合物供給自身生長的需要,也不能向真菌提供額外的碳水化合物,因而菌根真菌生長受阻,代謝活性較低;當植物中度缺磷時,根皮層細胞質膜的組成和結構不完整,通透性大,碳水化合物通過質膜向外的滲漏量大,菌根真菌因而獲得充足的碳源,保證真菌正常的生長和旺盛的代謝;當植物獲得足夠的磷而使體內磷營養代謝正常時,其細胞質膜組成和結構完整,碳水化合物的滲漏量保持在較低的水平,盡管此時植物合成了足夠的碳水化合物,但菌根真菌仍不能獲得足夠的能量,導致真菌生長受阻和代謝活性降低。 -
Many reports showed that endophytic pestalotiopsis were a major group of endophytic fungi. however, only seven species of endophytic pestalotiopsis were recorded since espinosa - garcia et al. firstly reported pestalotiopsis funerea as an endophytic fungus in sequoia sempervirens in 1990
( 1990 )首次報導枯斑擬盤多毛孢( pestalotiopsisfunerea )是紅杉的重要內生真菌后,已有7種擬盤多毛孢被報導是內生真菌。
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