排序方式: 共有38条查询结果,搜索用时 250 毫秒
31.
32.
SEIDLOVA F.; LOZHNIKOVA V. N.; NEGRETSKY V. A.; CHAILAKHYAN M. KH. 《Journal of experimental botany》1990,41(10):1347-1349
Anatomical changes in the shoot apex of Chenopodium rubrum L.treated with an extract from flowering tobacco plants and cultivatedin non-inductive conditions are described. They are comparedwith the anatomy of non-treated vegetative apices and with apicesof plants induced with a short day. Treatment with the extractresulted in both activation of cell division in the upper partof the apex and in apex elongation. Acceleration of leaf primordiainitiation and stimulation of branching took place. The effectcorresponds to the sequence of changes in photoperiodically-inducedplants but is more pronounced. Elongation following 104M GA3 treatment was of a differentnature; there was only a slight stimulation in the upper partof the apex in contrast with a strong stimulation of growthin length in the lower internodes. These preliminary resultssuggest a similarity between apical changes evoked by a stimulusproduced by short days and an exogenously applied floral stimulus.The changes differed from those caused by exogenous phytohormones. Key words: Chenopodium rubrum, florigen, shoot apex 相似文献
33.
34.
35.
A bioprocess for machine washable wool, combining the advantages of both protease and transglutaminase in a simultaneous enzymatic treatment has been developed. This process reduced the felting tendency of woven wool fabrics by 9% at the expense of only 2% weight and tensile strength loss. In contrast to previously described protease-based processes for shrink resistant wool, the anti-felting properties achieved in the simultaneous enzymatic treatment produced insignificant fibre damage, confirmed also by scanning electron images of the fabrics. 相似文献
36.
37.
A significant effort is made by the cell to maintain certain phospholipids at specific sites. It is well described that proteins involved in intracellular signaling can be targeted to the plasma membrane and organelles through phospholipid-binding domains. Thus, the accumulation of a specific combination of phospholipids, denoted here as the ‘phospholipid code'', is key in initiating cellular processes. Interestingly, a variety of extracellular proteins and pathogen-derived proteins can also recognize or modify phospholipids to facilitate the recognition of dying cells, tumorigenesis and host–microbe interactions. In this article, we discuss the importance of the phospholipid code in a range of physiological and pathological processes. 相似文献
38.