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Illustration of SSMD, z score, SSMD*, z* score, and t statistic for hit selection in RNAi high-throughput screens Journal article
Zhang X.D.. Illustration of SSMD, z score, SSMD*, z* score, and t statistic for hit selection in RNAi high-throughput screens[J]. Journal of Biomolecular Screening, 2011, 16(7), 775-785.
Authors:  Zhang X.D.
Favorite | TC[WOS]:137 TC[Scopus]:146 | Submit date:2019/01/03
High-throughput Screening  Ssmd  Ssmd**  t Statistic  z Score  Z*Z**Z* Z*sZ*cZ*oZ*rZ*eZ*  
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  
Error rates and powers in genome-scale RNAi screens Journal article
Zhang X.D., Marine S.D., Ferrer M.. Error rates and powers in genome-scale RNAi screens[J]. Journal of Biomolecular Screening, 2009, 14(3), 230-238.
Authors:  Zhang X.D.;  Marine S.D.;  Ferrer M.
Favorite | TC[WOS]:10 TC[Scopus]:10 | Submit date:2019/01/03
False-negative Rate  Power  Restricted False-positive Rate  Strictly Standardized Mean Difference  Type i Error  Type Ii Error  
Novel analytic criteria and effective plate designs for quality control in genome-scale RNAi screens Journal article
Zhang X.D.. Novel analytic criteria and effective plate designs for quality control in genome-scale RNAi screens[J]. Journal of Biomolecular Screening, 2008, 13(5), 363-377.
Authors:  Zhang X.D.
Favorite | TC[WOS]:56 TC[Scopus]:60 | Submit date:2019/01/03
Plate Design  Quality Control  Rnai High-throughput Screening  Strictly Standardized Mean Difference  z Factor  
Integrating experimental and analytic approaches to improve data quality in genome-wide RNAi screens Journal article
Zhang X.D., Espeseth A.S., Johnson E.N., Chin J., Gates A., Mitnaul L.J., Marine S.D., Tian J., Stec E.M., Kunapuli P., Holder D.J., Heyse J.F., Strulovici B., Ferrer M.. Integrating experimental and analytic approaches to improve data quality in genome-wide RNAi screens[J]. Journal of Biomolecular Screening, 2008, 13(5), 378-389.
Authors:  Zhang X.D.;  Espeseth A.S.;  Johnson E.N.;  Chin J.;  Gates A.; et al.
Favorite | TC[WOS]:29 TC[Scopus]:33 | Submit date:2019/01/03
Plate Design  Quality Control  Rnai High-throughput Screening  Strictly Standardized Mean Difference  z Factor  
Median absolute deviation to improve hit selection for genome-scale RNAi screens Journal article
Chung N., Zhang X.D., Kreamer A., Locco L., Kuan P.-F., Bartz S., Linsley P.S., Ferrer M., Strulovici B.. Median absolute deviation to improve hit selection for genome-scale RNAi screens[J]. Journal of Biomolecular Screening, 2008, 13(2), 149-158.
Authors:  Chung N.;  Zhang X.D.;  Kreamer A.;  Locco L.;  Kuan P.-F.; et al.
Favorite | TC[WOS]:143 TC[Scopus]:152 | Submit date:2019/01/03
Data Analysis  Functional Genomics  High-throughput Screen  Hit Selection  Mad  Median Absolute Deviation  Rna Interference  Rnai  Sirna  
A new method with flexible and balanced control of false negatives and false positives for hit selection in RNA interference high-throughput screening assays Journal article
Zhang X.D.. A new method with flexible and balanced control of false negatives and false positives for hit selection in RNA interference high-throughput screening assays[J]. Journal of Biomolecular Screening, 2007, 12(5), 645-655.
Authors:  Zhang X.D.
Favorite | TC[WOS]:68 TC[Scopus]:71 | Submit date:2019/01/03
Completely Balanced Error Level  d+-probability  High-throughput Screening  Hit Selection  Restricted False-positive Rate  Strictly Standardized Mean Difference  
The use of strictly standardized mean difference for hit selection in primary RNA interference high-throughput screening experiments Journal article
Zhang X.D., Ferrer M., Espeseth A.S., Marine S.D., Stec E.M., Crackower M.A., Holder D.J., Heyse J.F., Strulovici B.. The use of strictly standardized mean difference for hit selection in primary RNA interference high-throughput screening experiments[J]. Journal of Biomolecular Screening, 2007, 12(4), 497-509.
Authors:  Zhang X.D.;  Ferrer M.;  Espeseth A.S.;  Marine S.D.;  Stec E.M.; et al.
Favorite | TC[WOS]:76 TC[Scopus]:77 | Submit date:2019/01/03
d+-probability  High-throughput Screening  Hit Rate Point  Restricted False-positive Rate  Strictly Standardized Mean Difference