1,721,023 research outputs found
Table_S1 – Supplemental material for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data
Supplemental material, Table_S1 for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data by Jordan M. Singer and Jacob J. Hughey in Journal of Biological Rhythms</p
Table_S5 – Supplemental material for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data
Supplemental material, Table_S5 for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data by Jordan M. Singer and Jacob J. Hughey in Journal of Biological Rhythms</p
Table_S2 – Supplemental material for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data
Supplemental material, Table_S2 for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data by Jordan M. Singer and Jacob J. Hughey in Journal of Biological Rhythms</p
limorhyde_supp – Supplemental material for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data
Supplemental material, limorhyde_supp for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data by Jordan M. Singer and Jacob J. Hughey in Journal of Biological Rhythms</p
Table_S4 – Supplemental material for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data
Supplemental material, Table_S4 for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data by Jordan M. Singer and Jacob J. Hughey in Journal of Biological Rhythms</p
Table_S3 – Supplemental material for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data
Supplemental material, Table_S3 for LimoRhyde: A Flexible Approach for Differential Analysis of Rhythmic Transcriptome Data by Jordan M. Singer and Jacob J. Hughey in Journal of Biological Rhythms</p
Supplementary Material, Fig._S1 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts
Supplementary Material, Fig._S1 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p
sj-csv-3-jbr-10.1177_07487304221134160 – Supplemental material for Sex Inclusion in Transcriptome Studies of Daily Rhythms
Supplemental material, sj-csv-3-jbr-10.1177_07487304221134160 for Sex Inclusion in Transcriptome Studies of Daily Rhythms by Dora Obodo, Elliot H. Outland and Jacob J. Hughey in Journal of Biological Rhythms</p
Supplementary Material, Fig._S2 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts
Supplementary Material, Fig._S2 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p
sj-csv-8-jbr-10.1177_07487304221134160 – Supplemental material for Sex Inclusion in Transcriptome Studies of Daily Rhythms
Supplemental material, sj-csv-8-jbr-10.1177_07487304221134160 for Sex Inclusion in Transcriptome Studies of Daily Rhythms by Dora Obodo, Elliot H. Outland and Jacob J. Hughey in Journal of Biological Rhythms</p
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