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Forkhead Box Protein O Book chapter
出自: Encyclopedia of Signaling Molecules, 2nd Edition:Springer Cham, 2018, 页码:1821–1836
Authors:  ZHENG WENHUA
Favorite |  | Submit date:2024/08/31
Af6q21  Afx  Daf-16  Dfoxo  Fkh1  Fkhr  Fkhrl1  Fkhrl1p2  Foxo1  Foxo1a  Foxo3  Foxo3a  Foxo4  Foxo6  
Forkhead box protein O , a family of transcription factors integrating diverse biological functions Book
Zheng, W.. Forkhead box protein O , a family of transcription factors integrating diverse biological functions[M]:Sangdun Choi- SpringerReference, 2018.
Authors:  Zheng, W.
Favorite |  | Submit date:2022/08/31
Forkhead box protein O  FoxO1  FoxO1a  FKH1  FKHR  FoxO3  FoxO3a  FKHRL1  AF6q21  DAF-16  dFoxO  FKHRL1P2  FoxO4  AFX  FoxO6.  
Trend Following With Float-encoding Genetic Algorithm Conference paper
Jiahua Luo, Yain-Whar Si, Simon Fong. Trend Following With Float-encoding Genetic Algorithm[C]:IEEE, 2012, 173-176.
Authors:  Jiahua Luo;  Yain-Whar Si;  Simon Fong
Favorite | TC[Scopus]:3 | Submit date:2019/02/13
Stock Trend Following  p&q  Float-encoding Genetic Algorithm  Exponential Moving Average  
An effective method for controlling false discovery and false nondiscovery rates in genome-scale RNAi screens Journal article
Zhang X.D.. An effective method for controlling false discovery and false nondiscovery rates in genome-scale RNAi screens[J]. Journal of Biomolecular Screening, 2010, 15(9), 1116-1122.
Authors:  Zhang X.D.
Favorite | TC[WOS]:15 TC[Scopus]:18 | Submit date:2019/01/03
-value  False Discovery Rate  False Nondiscovery Rate  p  q  Rnai High-throughput Screening  
The use of SSMD-based false discovery and false nondiscovery rates in genome-scale RNAi screens Journal article
Zhang X.D., Lacson R., Yang R., Marine S.D., McCampbell A., Toolan D.M., Hare T.R., Kajdas J., Berger J.P., Holder D.J., Heyse J.F., Ferrer M.. The use of SSMD-based false discovery and false nondiscovery rates in genome-scale RNAi screens[J]. Journal of Biomolecular Screening, 2010, 15(9), 1123-1131.
Authors:  Zhang X.D.;  Lacson R.;  Yang R.;  Marine S.D.;  McCampbell A.; et al.
Favorite | TC[WOS]:18 TC[Scopus]:22 | Submit date:2019/01/03
-value  False Discovery Rate  False Nondiscovery Rate  High-throughput Screening  p  q  Rnai  
Application of quenching-partitioning-tempering process in hot rolled plate fabrication Conference paper
Zhou S., Wang Y., Chen N., Rong Y., Gu J.. Application of quenching-partitioning-tempering process in hot rolled plate fabrication[C], 2010, 82-85.
Authors:  Zhou S.;  Wang Y.;  Chen N.;  Rong Y.;  Gu J.
Favorite | TC[WOS]:1 TC[Scopus]:3 | Submit date:2019/01/16
Carbon Partition  Hot Rolled Plate  Q-p-t Process  Retained Austenite  
Study of a novel ultra-high strength steel with adequate ductility and toughness by quenching-partitioning-tempering process Conference paper
Wang Y., Zhou S., Guo Z., Rong Y.. Study of a novel ultra-high strength steel with adequate ductility and toughness by quenching-partitioning-tempering process[C], 2010, 37-40.
Authors:  Wang Y.;  Zhou S.;  Guo Z.;  Rong Y.
Favorite | TC[WOS]:4 TC[Scopus]:4 | Submit date:2019/01/16
Characterization  Mechanical Properties  Microstructure  Q-p-t Process  Ultra-high Strength Steel  
Analysis and control of UPQC and its DC-link power by use of p-q-r instantaneous power theory Conference paper
Fan Ng, Man-Chung Wong, Ying-Duo Han. Analysis and control of UPQC and its DC-link power by use of p-q-r instantaneous power theory[C], 2004, 43-53.
Authors:  Fan Ng;  Man-Chung Wong;  Ying-Duo Han
Favorite | TC[WOS]:13 TC[Scopus]:26 | Submit date:2018/12/23
Active Filters  Inverter Dc Power  P-q-r Power Theory  Power Quality  Upqc