Tekijä: Yan Xu; Yuchen Zhang; Zhao Yang Dong; Rui Zhang Kustantaja: Taylor & Francis Ltd (2020) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
Tekijä: Yan Xu; Yuchen Zhang; Zhao Yang Dong; Rui Zhang Kustantaja: Taylor & Francis Ltd (2022) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
Tekijä: Xiaobo Zhou; Oleg Sokolsky; Lu Yan; Eun-Sun Jung; Zili Shao; Yi Mu; Dong-Chun Lee; Daeyoung Kim; Young-Sik Jeong; C Xu Kustantaja: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG (2006) Saatavuus: Noin 17-20 arkipäivää
Tekijä: Yizeng Liang; Qing-Song Xu; Hong-Dong Li; Dong-Sheng Cao Kustantaja: Taylor & Francis Inc (2011) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
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An ultimate goal of modern biology is to understand how the genetic blueprint of cells(genotype)determinesthestructure,function,andbehaviorofalivingorganism (phenotype). At the center of this scienti?c endeavor is characterizing the bioch- ical and cellular roles of proteins, the working molecules of the machinery of life. A key to understanding of functional proteins is the knowledge of their folded str- tures in a cell, as the structures provide the basis for studying proteins’ functions and functional mechanisms at the molecular level. Researchers working on structure determination have traditionally selected - dividual proteins due to their functional importance in a biological process or pa- way of particular interest. Major research organizations often have their own protein X-ray crystallographic or/and nuclear magnetic resonance facilities for structure - termination, which have been conducted at a rate of a few to dozens of structures a year. Realizing the widening gap between the rates of protein identi?cation (through DNA sequencing and identi?cation of potential genes through bioinformatics an- ysis) and the determination of protein structures, a number of large scienti?c init- tives have been launched in the past few years by government funding agencies in the United States, Europe, and Japan, with the intention to solve protein structures en masse, an effort called structural genomics. A number of structural genomics centers (factory-like facilities) have been established that promise to produce solved protein structures in a similar fashion to DNA sequencing.