54eaee0b6465161ede3898caaf10c5929a06b567
kuhn
  Tue Apr 12 16:07:55 2022 -0700
cosmetic tweaks and a grammar fix (that to who)

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index 481736a..814fb2d 100755
--- src/hg/htdocs/goldenPath/newsarch.html
+++ src/hg/htdocs/goldenPath/newsarch.html
@@ -50,31 +50,31 @@
 </div>
 
 <!-- ============= 2022 archived news ============= -->
 <a name="2022"></a>
 
 <a name="041222"></a>
 <h2>Apr. 12, 2022 &nbsp;&nbsp; T2T CHM13 v2.0 now available in the Genome Browser</h2>
 <p>
 The Genome Browser has a <a href="/goldenPath/history.html">rich history</a> intricately connected
 to human genomic research. We have provided display to almost two dozen human genomes beginning 
 with the first drafts in the year 2000. Nearly 22 years later, the <a 
 href="https://sites.google.com/ucsc.edu/t2tworkinggroup" target="_blank">T2T consortium</a> has 
 published the most complete human haploid genome sequence to date, having added just about all of the 200 
 million bases (8%) missing from the current reference. We are proud of all the scientists 
 involved, including our colleagues in the <a href="https://genomics.ucsc.edu/" 
-target="_blank">UCSC Genomics Institute</a>, that played a role in this release. We strive 
+target="_blank">UCSC Genomics Institute</a>, who played a role in this release. We strive
 to facilitate omics research and thus would like to announce our expanded support for 
 the <a 
 href="/cgi-bin/hgTracks?hubUrl=https://hgdownload.soe.ucsc.edu/hubs/GCA/009/914/755/GCA_009914755.4/hub.txt&genome=GCA_009914755.4&position=lastDbPos" 
 target="_blank">T2T-CHM13 v2.0 browser</a>.</p>
 
 <a name="CHM13"></a><h3>What is T2T-CHM13 v2.0?</h3>
 <p>
 <a href="https://www.science.org/doi/10.1126/science.abj6987" target="_blank">T2T-CHM13 v2.0</a> 
 was produced by sequencing the CHM13hTERT human cell line from a hydatiform mole, which is
 haploid, meaning it contains nearly uniform homozygosity. 
 It also employed recent technologies such as <a target="_blank"
 href="https://www.pacb.com/technology/hifi-sequencing/">HiFi</a> and <a target="_blank" 
 href="https://nanoporetech.com/">nanopore</a> sequencing. The result is a 
 3.055 billion base pair genome that includes gapless assemblies for all main chromosomes 
 and introduces nearly 200 Mbp of novel sequence containing 1956 gene predictions, 99 of