1 / 23

Cell cycle expression patterns are highly correlated in F2 islets

A sub-group of transcripts that are positively correlated. Cell cycle expression patterns are highly correlated in F2 islets. A sub-group of transcripts that are positively correlated. F2 mice are stratified by cell cycle expression patterns. lower insulin higher glucose lower # islets

deborahball
Télécharger la présentation

Cell cycle expression patterns are highly correlated in F2 islets

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. A sub-group of transcripts that are positively correlated Cell cycle expression patterns are highly correlated in F2 islets

  2. A sub-group of transcripts that are positively correlated F2 mice are stratified by cell cycle expression patterns lower insulin higher glucose lower # islets higher TG lower body weight lower c-peptide “non-diabetic” “diabetic”

  3. Distribution of a few cell cycle genes in F2 islets Is this difference in the expression of cell cycle genes sufficient to play a role in causing diabetes in the F2 mice?

  4. Islet genes with “Regulation of progression through cell cycle” GO term Genome-wide linkage of cell cycle regulatory transcripts

  5. Adipose genes with “Regulation of progression through cell cycle” GO term Genome-wide linkage of cell cycle regulatory transcripts

  6. Islet genes with “Regulation of progression through cell cycle” GO term eQTL linkage on Chr 2 for cell cycle genes in islet

  7. Islet genes with “Regulation of progression through cell cycle” GO term eQTL linkage on Chr 2 for cell cycle genes in islet

  8. Islet genes with “Regulation of progression through cell cycle” GO term cis and trans eQTLs on Chr 2 for cell cycle regulation Gene Chr Mb Cdk5rap1 2 153.8 E2f1 2 154.0 Rbl1 (p107) 2 156.6 Igf2 7 137.1 Aip 19 39.0 LOD

  9. Ccnh Cdkn2b Ccnd1 Strong cell cycle linkages occur across the genome Pdgfb Foxa2 Cdk3 Rb1 Ccnk LOD

  10. body wt. # transcripts (divided by 20) with eQTL lod > 2

  11. cell cycle module Co-expression modules identified in female F2 islets F2 female islet network MDS plot

  12. Expression heat map for female F2 islets ~7500 transcripts in 14 modules cell cycle 228 female F2 mice

  13. Cell cycle genes common in time course and F2 female islet modules

  14. Genome-wide mapping of cell cycle gene set in F2 islets Nfx1 nuclear transcription factor, x-box binding 1 Chr 4, 41.1 Mb Prc1 protein regulator of cytokenesis 1 Chr 7, 80.1 Mb LOD Nrm nurim Chr 17, 35.4 Mb

  15. LOD rescaled for each transcript, p-value threshold = 0.05 Genome-wide mapping of cell cycle gene set in F2 islets

  16. LOD rescaled for each transcript, p-value threshold = 1.0 (will include all traits) Genome-wide mapping of cell cycle gene set in F2 islets

  17. LOD rescaled for each transcript, p-value threshold = 1.0 (will include all traits) Mapping of cell cycle gene set in F2 islets to putative “hot spots”

  18. LOD not rescaled for each transcript p-value threshold = 1.0 (will include all traits) Mapping other modules in female F2 islets F2 female islet network

More Related