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| -rw-r--r-- | blog/2021/proteome/Wang_WIlliams_Rat_Brain_Proteome_For_Blog.md | 4 |
1 files changed, 2 insertions, 2 deletions
diff --git a/blog/2021/proteome/Wang_WIlliams_Rat_Brain_Proteome_For_Blog.md b/blog/2021/proteome/Wang_WIlliams_Rat_Brain_Proteome_For_Blog.md index 80898e0..8286db9 100644 --- a/blog/2021/proteome/Wang_WIlliams_Rat_Brain_Proteome_For_Blog.md +++ b/blog/2021/proteome/Wang_WIlliams_Rat_Brain_Proteome_For_Blog.md @@ -138,7 +138,7 @@ Results** table should look like the screenshot below. I have highlighted the row 8---the ARNTL protein---a major transcription factor involved in circadian rhythms that is upregulated by DRD2 -signaling (PMID: 16606840 in PNAS, 2006) +signaling (PMID: 16606840 in PNAS 2006) **Step 3.** To begin to answer the second question---is there a major modulator of multiple dopamine-associated proteins---we need to re-sort @@ -159,7 +159,7 @@ proteins---Chr 19 at about 60 Mb. But before we head to Chr 19, let\'s continue to work with this proximal part of Chr 1 and try to figure out why the variation in expression of this band of nine proteins map to this part of the rat genome. Step 3 below is a long step---my -apologysorry. Perhaps time for a coffee break. +apology, sorry. Perhaps time for a coffee break. **Step 3** involves mapping one or more of these nine proteins. I will pick SYT7 since it has the highest expression (9 log2 units of |