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[sgn.git] / cgi-bin / solanaceae-project / summary.pl
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1 use strict;
2 use CXGN::Page;
3 my $page=CXGN::Page->new('summary.html','html2pl converter');
4 $page->header('Meeting Summary');
5 print<<END_HEREDOC;
8 <h3>Meeting Summary</h3>
10 <p><strong>Topic:</strong> <em>An International Workshop to Discuss Sequencing of the Tomato Genome: Feasibility, Benefits and Strategy</em></p>
11 <p><strong>Location:</strong> Washington, D.C. (Holiday Inn Dulles International)</p>
12 <p><strong>Date:</strong> November 3, 2003</p>
14 <h4>Objectives</h4>
16 <p>The purpose of this
17 gathering was to determine the feasibility, utility, strategy and
18 level of international interest/commitment for sequencing the
19 tomato genome as a reference for the family Solanaceae and other
20 closely related plant families. The workshop brought
21 together and international group of scientists to
22 discuss:</p>
23 <ol>
24 <li>the current status of Solanaceae research, including aspects of plant biology for
25 which Solanaceous species are a preferred model</li>
26 <li>the impact of sequencing the tomato genome on research in the Solanaceae and plant biology in general</li>
27 <li>sequencing strategy</li>
28 <li>mechanisms by which such a sequencing project can be conducted as part of a multinational consortium</li>
29 <li>strategies for sequence information management, curation and public dissemination</li>
30 </ol>
32 <h4>Summary of Events</h4>
34 <ul>
36 <li>Broad international interest in tomato genome sequencing as a central
37 component to a larger Solanaceae Genome Initiative
39 <p>Sixty-nine researchers representing academic and government research labs, industry and
40 extension/outreach specialists with interest in the Solanaceae met
41 for a full day to discuss how the tomato genome could be sequenced
42 as a reference for the broader Solanaceae. Representatives of eleven
43 countries summarized national interest and prospects for
44 state-sponsored sequencing support within their respective
45 countries. The
46 Netherlands has already funded sequencing of 20 Mb of the R-gene
47 rich region of tomato chromosome 6 (apx. 8\% of the estimated 250 Mb
48 tomato gene space) and the US is nearing completion of an anchored
49 tomato physical map to facilitate targeted sequencing of the gene
50 space. Representatives
51 of France and the UK reported on discussions with administrators of
52 their respective national funding agencies and indicated proposals
53 to sequence one or two tomato chromosomes were
54 encouraged. Similar,
55 though less specific positions were relayed by representatives of
56 Spain, Italy, Canada and S. Korea and all agreed that funding would
57 depend on the initiation of efforts in other countries to insure
58 that the outcome of their investments would be ultimately
59 realized. There was
60 general agreement among those working on other members of the
61 Solanaceae (pepper, potato, eggplant, tobacco) that tomato
62 presented the appropriate reference genome for the
63 Solanaceae. Ongoing
64 and proposed activities in these species including development of
65 comparative maps, EST and low density shotgun sequencing which
66 would facilitate connection of the various Solanaceae genomes to
67 the tomato reference.</p></li>
69 <li>Developing the Solanaceae as a model for systems biology in plant research
71 <p>Systems biology takes advantage of diverse and integrated knowledge
72 to yield novel biological insights which could not be established
73 via more traditional narrow analyses. Systems biology is an outcome of
74 the "omics" era and the Solanaceae are positioned to be a model for
75 Systems biology.
76 Following the morning breakout discussion session, summaries of the
77 state of comparative Solanaceae genomics, host-pathogen
78 interactions, fruit and tuber development, ecological genetics,
79 quantitative traits, systematics, germplasm resources, metabolism,
80 and proteomics were presented. A major outcome of these
81 discussions was that there are clear and optimal opportunities for
82 system analysis in the Solanaceae. Comparative maps link the major
83 members of this family to tomato and each other and extensive
84 marker resources are publicly available. Diverse germplasm including large
85 collections of mutations, wild species, and multiple fixed and
86 ordered introgression populations provide unsurpassed allelic
87 variation for simple and quantitative trait analysis. In particular, the use of fixed
88 homozygous introgression collections developed in tomato has
89 facilitated extensive analysis of diverse metabolites and QTLs
90 which can now be linked to mapped gene loci, allelic variation,
91 gene expression and protein accumulation. The repertoire of molecular and
92 germplasm resources available in the Solanaceae make this family
93 and ideal model for systems biology. In addition and as pointed out by
94 several of the discussion presenters, the ease of tomato
95 transformation and its relatively short life cycle (apx. 12 weeks
96 seed to seed) has made tomato an increasingly popular model crop
97 for testing hypotheses developed in model systems such as
98 Arabidopsis, further extending the biological insights that can be
99 gained through the Solanaceae.</p></li>
101 <li>Strategy for tomato genome sequencing
103 <p>There was general
104 agreement to sequence the euchromatic gene space of tomato via a
105 targeted minimal tiling approach in which BACs would be anchored to
106 the genetic map and those from the gene space would serve as
107 initiation points for genome sequencing. BAC fingerprinting and
108 end-sequencing would provide the information needed to make
109 additional steps down the tiling path. This approach would also
110 facilitate the division of labor among participating
111 groups/countries based on whole or partial chromosomes thus
112 providing clear references for group and national
113 contributions. There
114 was strong and broad agreement to development of a single virtual
115 entry point for Solanaceae genome sequence and related genomics and
116 systems information to facilitate utility by the user
117 community. A plan for
118 implementation of a mirrored informatics interface that could be
119 developed in multiple participating countries but with a single
120 external face was also viewed positively by the group as the
121 objective of such a plan would be to maximize input and
122 participation while delivering a user friendly and comprehensive
123 product.</p></li>
125 </ul>
127 <h4>Followup and Next Steps</h4>
129 <p>Given the strong
130 international interest in sequencing the tomato genome and
131 developing the Solanaceae as a model for systems
132 biology, several
133 specific items were agreed upon as next steps.</p>
135 <ol>
137 <li>Formation of Steering Committee for the International Solanaceae Genome Project (ISGP)
139 <p>It was decided that the
140 committee will be
141 comprised of representative scientists from each of the countries
142 actively
143 participating in the ISGP. Marc Zabeau (Belgium) and
144 Dani Zamir (Israel) have agreed to serve as initial co-chairs of
145 this committee and will work with the international community to
146 establish membership of this committee no later than Dec 31,
147 2003. This committee
148 will be charged with facilitating and helping coordinate research
149 and funding for the various components of the ISGP. They will also be charged with
150 drafting a white paper for the ISGP (see
151 below). The
152 committee will meet annually at the Solanaceae Genomics meeting
153 which will be held annually in one of the participating countries
154 (also see below).</p></li>
156 <li>Drafting of a white paper for the Solanaceae Genome Initiative
158 <p>A white paper describing the
159 goals, components and (where possible) time tables for the ISGP
160 will be drafted and distributed to the participants of the meeting
161 for comments and suggestions no later than December 1,
162 2003. The goal
163 is to have a final draft of this white paper no later than December
164 31, 2003 so that various participating countries can use the
165 document to help with planning and funding of the components in
166 which they will be involved.</p></li>
168 <li>Drafting of a technical document for sequencing of the tomato genome
170 <p>A central component of
171 the ISGP is sequencing of the tomato genome. Based on the November 3,
172 2003 meeting in Washington DC, a general strategy was decided (see
173 earlier section) which would accomplish a fully contiged sequence
174 of the euchromatic portion of the genome. The sequencing project would be
175 conducted in a manner that would allow multi-country
176 participation.
177 To facilitate this central component of the ISGP, a
178 technical document describing the specifics of the
179 sequencing project will be drafted and distributed to the
180 participants of the meeting no later than December 1,
181 2003. The goal is to
182 have a final technical document for the sequencing
183 portion of the ISGP completed no later than December 31,
184 2003.</p></li>
186 <li>Formation of an International Bioinformatics Steering
187 Committee to oversee bioinformatics for the ISGP and especially
188 sequencing of the tomato genome
190 <p>Lukas Mueller (curator for Solanaceae Genome Network (SGN) database/website) has agreed to organize and serve
191 as the chair of this
192 committee. This committee will be charged
193 with drafting and overseeing both the bioinformatics components of
194 the ISGP as well as the technical document for
195 sequencing the tomato genome. This committee will work
196 hand-in-hand with the ISGP Steering Committee. These bioinformatics
197 components will be contained in the drafts of both the
198 white paper for the ISGP and the technical
199 document for the tomato sequencing project.</p></li>
201 <li>Establishment of an annual International Solanacaeae
202 Genomics Conference
204 <p>It was agreed
205 that an annual
206 conference will be held devoted to the topic of genomics research
207 in the Solanaceae. The
208 first meeting will be held in July 2004 and hosted by
209 Holland. The meeting times and
210 locations for the 2005 and 2006 meetings will be decided within the
211 next 6 months.
212 It was suggested that the 2006 meetings might be held at the
213 University of Wisconsin as part of the Solanaceae systematics
214 meetings. Both the
215 ISGP Steering
216 Committee and the Bioinformatics Steering Committee will hold
217 discussion sections at these gatherings.</p></li>
219 <li>Assimilation and distribution of both the powerpoint
220 presentations and digitally filmed copies of the November 3, 2003
221 Washington DC meeting
223 <p>Currently, Lindsay Welsh (cugenomics\@cornell.edu) at Cornell
224 University is collecting the powerpoint files which will be ready
225 for distribution to participants by December 1, 2003. Likewise, digital copies of the
226 meeting proceedings will be ready shortly for
227 distribution. Several
228 of the participants thought these items would be useful in
229 discussing participation and funding in their own countries.</p></li>
231 <li>Compilation of a comprehensive list of Solanaceae
232 researchers worldwide, including institutional affiliations,
233 contact information (e.g. e.mail addresses) and major research
234 focus areas
236 <p>The first draft of this list should be completed
237 and ready for distribution by December 31, 2003.</p></li>
238 </ol>
240 END_HEREDOC
241 $page->footer();