ligand-ligand interaction 中文意思是什麼
ligand-ligand interaction
解釋
配體間相互作用- ligand : n. 【化學】配合基[體],向心配合(價)體。
- interaction : n. 1. 相互作用,相互影響,互動。2. 【航空】干擾。
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The color of devices is disturbed badly and the luminescent efficiency of devices is degradated because of exciplex ' s emission. the mechanism is investigated in this paper on the formation of exciplex and on the mixing - layer device structure eliminating the exciplex based on rare - earth complex, specially on eu ( dbm ) 3bath and gd ( dbm ) 3bath. it is thought that the exciplex results from the interaction between the singlet excited state of the ligand of electron acceptor material and the ground state of electron donor material
本論文以稀土配合物oel為重點和基礎,以eu ( dbm ) _ 3bath和gd ( dbm ) _ 3bath為典型材料,研究了激基復合物的形成和稀土配合物器件中混合層能夠消除激基復合物,認為激基復合物是電子受體材料配體能級的單重態與電子給體材料的基態相互作用而產生的。 -
Mekler idlis ( m - i ) pair theory suggests that each codon - directed amino acid residue in a sense peptide may make a specific pair - wise interaction with the corresponding complementary codon - directed residue in the complementary peptide. ahbs theory suggests also the parts between / in the proteins that are capable of interacting specifically. the interaction between receptor and ligand is the recognition and interaction between proteins. if the receptor is the sens e peptide, the ligand, which can specifically bind to it, must have one or several antisense peptides. these antisense peptides muat be located at the key place which has relationship with the function of the ligand
Ahbs (反義同源盒)理論和分子識別理論描述了蛋白分子內和蛋白分子間可以特異結合的區域結構具有正義與反義的關系。受體與配體的相互作用實質上是蛋白質分子間的識別、結合和相互作用的過程。將受體看作是有義肽,那麼可與之特異結合的配體分子中可能存在一段或多段反義肽,而且其存在的部位是配體功能的關鍵位置。 -
The self - incompatibility is involved in a signal transduction process resulted from the interaction between ligand and receptor. up to now, some achievements for ligand and receptor have already been made, but the research progress on downstream protein factors is slower than that of upstream components, highlighting the downstream proteins in priority of research. some downstream components have not been isolated, which are similar to the unknown function of those isolated ones
自交不親和反應是一種配體和受體相互識別的信號傳導過程,在這一過程中,對配體和受體的研究已經取得突破性成果,而對下游的磷酸化蛋白研究相對上游受體來說要緩慢得多,所以對信號傳導的下游組分研究顯得尤為重要,特?是下游還有許多未分離到的組分,而分離到的組分其功能還不清楚。
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