| STANFORD UNIVERSITY | STANFORD UNIVERSITY SCHOOL OF MEDICINE | DEPARTMENT OF BIOCHEMISTRY |
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| :: News / In The News & Archive :: | ||||
| » Stanford Medical School's integrated version of this site (some data intensive pages not replicated there) |
Sequencing of Candida albicans completedThe diploid genome sequence of Candida albicans has been published
in Proc Natl Acad Sci U S A. 2004 May 11;101(19):7329-34. Epub 2004
May 03. [PNAS] C. neoformans B-3501A genome sequence publicly availableThe C. neoformans Genome Project has been a collaboration among Brendan Loftus and the team at The Institute for Genomic Research (TIGR) and the Stanford Genome Technology Center(SGTC). Our C. neoformans B-3501A genome sequence was posted on our web site as of December 22, 2003, and is, therefore, publicly available (http://www-sequence.stanford.edu/group/C. neoformans/index.html). We expect that this will be our last major sequence release for the C. neoformans B-3501A genome sequence. Herbert A. Sober LectureRon W. Davis will deliver the Herbert A. Sober lecture at the Annual Meeting of the American Society for Biochemistry and Molecular Biology (ASBMB), June 12-16, 2004 in Boston, MA. He will talk about "Technology Development for Yeast and Translational Medicine" on Tuesday June 15th, 2004, 4:45-5:45 pm. :: Archive ::Erwin Schroedinger LecturePeter
Oefner has been invited to give the 10th Erwin Schroedinger Lecture at
the Trinity College in Dublin/Ireland in 2004.
Schroedinger Lectures | Schroedinger Biography Geneticists unravel active genes in classic research plant.Stanford Report, November 12, 2003. Stanford geneticists, with
two other California research teams, have characterized almost a third
of active genes in a common research plant, enhancing a multinational genetic
library that could help growers control plant characteristics from cold
tolerance to flower color. Stanford Researchers make major contribution to human genome sequence.Stanford Report, February 12, 2001. Stanford researchers, as members of the International Human Genome Sequencing
Consortium, today announced the first analyses of the human genome sequence
- the 3 billion DNA letters that comprise the complete set of human genes.
Of the 20 groups - from the United States, the United Kingdom, Japan, France,
Germany and China - that were involved in the collaboration, the efforts of
the two Stanford teams combined to place Stanford ninth in terms of the amount
of draft sequence contributed to the global effort. A new mission for the Genome Technology Center. Stanford Medicine Volume 17 Number 3 Fall 2000. With DNA sequencing work nearly finished, the center's staff focuses
on discovering genes' functions. It's got a new name to go with its new
aim: the Stanford Sequencing and Technology Center is now the Stanford
Genome Technology Center. "DNA sequencing" is gone from its name because
the center's sequencing work is largely done. The major research question
these days at the center: What do all these genes actually do? Tiny Tools for Detangling DNA. Stanford
Magazine. Successfully mapping the human genome is akin to finding biology's
holy grail. But scientists like Stanford biochemist Ron Davis say the really
hard part -- figuring out what the tens of thousands of individual genes
do -- is still to come. "My suspicions are that we're going to find out
all sorts of new things about what DNA is used for," says Davis, director
of the Stanford Genome Technology Center.
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