198c9b8daecc44fbda6a6494c566c723920f030a
lrnassar
Wed Mar 11 18:25:21 2026 -0700
Fixing a few hundred clear typos with the help of Claude. Some are less important in code comments, but majority of them are in user-facing places. I manually approved 60%+ of the changes and didn't see any that were an incorrect suggestion, at worst it was potentially uncessesary, like a code comment having cant instead of can't. No RM.
diff --git src/hg/makeDb/trackDb/human/encodeYaleMASPlacRNATars.html src/hg/makeDb/trackDb/human/encodeYaleMASPlacRNATars.html
index 5604ae5fc46..3545dfdd1d0 100644
--- src/hg/makeDb/trackDb/human/encodeYaleMASPlacRNATars.html
+++ src/hg/makeDb/trackDb/human/encodeYaleMASPlacRNATars.html
@@ -35,31 +35,31 @@
Three independent biological replicates were generated, and each was
hybridized to at least two different arrays (technical replicates).
Transcribed regions (TARs/transfrags) were then identified using a score
threshold of 95th percentile as well as a maximum gap of 80 bp and a
minimum run of 50 bp (between oligonucleotide positions), effectively
allowing a gap of one oligo and demanding the TAR/transfrag to
encompass at least 3 oligos.
Verification
Transcribed regions (TARs/transfrags), as determined by individual biological
samples, were compared to ensure significant overlap.
Credits
-These data were generated and analyzed by the the labs of Michael Snyder,
+These data were generated and analyzed by the labs of Michael Snyder,
Mark Gerstein and Sherman Weissman at Yale University.
References
Kapranov P, Cawley SE, Drenkow J, Bekiranov S, Strausberg RL, Fodor SP,
Gingeras TR,
Large-scale transcriptional activity in chromosomes 21 and 22,
Science. 2002 May 3;296(5569):916-9.
Rinn JL, Euskirchen G, Bertone P, Martone R, Luscombe NM, Hartman S,
Harrison PM, Nelson FK, Miller P, Gerstein M, Weissman S, Snyder M,