src/hg/makeDb/trackDb/human/cytoBand.html 7f892f8fa5f41b18d489cfdbb0255c05b1b3e3f3

7f892f8fa5f41b18d489cfdbb0255c05b1b3e3f3
jnavarr5
  Mon Oct 7 10:55:15 2019 -0700
Updating http to https for hg19, uiLinks cronjob.

diff --git src/hg/makeDb/trackDb/human/cytoBand.html src/hg/makeDb/trackDb/human/cytoBand.html
index 5a63823..bf872d6 100644
--- src/hg/makeDb/trackDb/human/cytoBand.html
+++ src/hg/makeDb/trackDb/human/cytoBand.html
@@ -1,74 +1,74 @@
 <H2>Description</H2>
 <P>
 The chromosome band track represents the approximate 
 location of bands seen on Giemsa-stained chromosomes.
 Chromosomes are displayed in the browser with the short arm first.  
 Cytologically identified bands on the chromosome are numbered outward 
 from the centromere on the short (p) and long (q) arms.  At low resolution, 
 bands are classified using the nomenclature 
 [<em>chromosome</em>][<em>arm</em>][<em>band</em>], where <em>band</em> is a 
 single digit. Examples of bands on chromosome 3 include 3p2, 3p1, cen, 3q1, 
 and 3q2.  At a finer resolution, some of the bands are subdivided into 
 sub-bands, adding a second digit to the <em>band</em> number, e.g. 3p26. This 
 resolution produces about 500 bands. A final subdivision into a 
 total of 862 sub-bands is made by adding a period and another digit to the 
 <em>band</em>, resulting in 3p26.3, 3p26.2, etc. </P>
 
 <H2>Methods</H2>
 <P>
 A full description of the method by which the chromosome band locations are 
 estimated can be found in Furey and Haussler, 2003.
 <P>
 Barbara Trask, Vivian Cheung, Norma Nowak and others in the BAC Resource
 Consortium used fluorescent in-situ hybridization (FISH) to determine a 
 cytogenetic location for large genomic clones on the chromosomes.
 The results from these experiments are the primary source of information used
 in estimating the chromosome band locations.
 For more information about the process, see the paper, Cheung,
 <EM>et al.</EM>, 2001.  and the accompanying web site,
 <A HREF="https://www.ncbi.nlm.nih.gov/genome/cyto/hbrc.shtml" 
 TARGET=_blank>Human BAC Resource</A>.</P>
 <P>
 BAC clone placements in the human sequence are determined at UCSC using a 
 combination of full BAC clone sequence, BAC end sequence, and STS marker 
 information.</P>
 
 <H2>Credits</H2>
 <P>
 We would like to thank all the labs that have contributed to this resource:
 <UL>
-<LI><A HREF="http://www.fredhutch.org/en.html" TARGET=_blank>Fred Hutchinson Cancer 
+<LI><A HREF="https://www.fredhutch.org/en.html" TARGET=_blank>Fred Hutchinson Cancer 
 Research Center (FHCRC)</A></LI>
 <LI><A HREF="https://cgap.nci.nih.gov/" TARGET=_blank>National Cancer Institute
 (NCI)</A></LI>
 <LI><A HREF="https://www.roswellpark.org/" TARGET=_blank>Roswell Park Cancer 
 Institute (RPCI)</A></LI>
 <LI><A HREF="https://www.sanger.ac.uk/" TARGET=_blank>The
 Wellcome Trust Sanger Institute (SC)</A></LI>
 <LI><A HREF="https://www.cedars-sinai.org/" 
 TARGET=_blank>Cedars-Sinai Medical Center (CSMC)</A></LI>
 <LI><A HREF="https://www.lanl.gov/" TARGET=_blank>Los Alamos National
 Laboratory (LANL)</A></LI>
 <LI><A HREF="http://cancer.ucsf.edu/" TARGET=_blank>UC San Francisco
 Cancer Center (UCSF)</A></LI>
 </UL>
 
 <H2>References</H2>
 <p>
 Cheung VG, Nowak N, Jang W, Kirsch IR, Zhao S, Chen XN, Furey TS, Kim UJ, Kuo WL, Olivier M <em>et
 al</em>.
 <a href="https://www.nature.com/articles/35057192" target="_blank">
 Integration of cytogenetic landmarks into the draft sequence of the human genome</a>.
 <em>Nature</em>. 2001 Feb 15;409(6822):953-8.
 PMID: <a href="https://www.ncbi.nlm.nih.gov/pubmed/11237021" target="_blank">11237021</a>
 </p>
 
 <p>
 Furey TS, Haussler D.
 <a href="https://academic.oup.com/hmg/article/12/9/1037/629726/Integration-of-the-cytogenetic-map-
 with-the-draft" target="_blank">
 Integration of the cytogenetic map with the draft human genome sequence</a>.
 <em>Hum Mol Genet</em>. 2003 May 1;12(9):1037-44.
 PMID: <a href="https://www.ncbi.nlm.nih.gov/pubmed/12700172" target="_blank">12700172</a>
 </p>