RT Journal
A1 Sorrells, Mark E.
A1 La Rota, Mauricio
A1 Bermudez-Kandianis, Catherine E.
A1 Greene, Robert A.
A1 Kantety, Ramesh
A1 Munkvold, Jesse D.
A1 Miftahudin
A1 Mahmoud, Ahmed
A1 Ma, Xuefeng
A1 Gustafson, Perry J.
A1 Qi, Lili L.
A1 Echalier, Benjamin
A1 Gill, Bikram S.
A1 Matthews, David E.
A1 Lazo, Gerard R.
A1 Chao, Shiaoman
A1 Anderson, Olin D.
A1 Edwards, Hugh
A1 Linkiewicz, Anna M.
A1 Dubcovsky, Jorge
A1 Akhunov, Eduard D.
A1 Dvorak, Jan
A1 Zhang, Deshui
A1 Nguyen, Henry T.
A1 Peng, Junhua
A1 Lapitan, Nora L.V.
A1 Gonzalez-Hernandez, Jose L.
A1 Anderson, James A.
A1 Hossain, Khwaja
A1 Kalavacharla, Venu
A1 Kianian, Shahryar F.
A1 Choi, Dong-Woog
A1 Close, Timothy J.
A1 Dilbirligi, Muharrem
A1 Gill, Kulvinder S.
A1 Steber, Camille
A1 Walker-Simmons, Mary K.
A1 McGuire, Patrick E.
A1 Qualset, Calvin O.
T1 Comparative DNA Sequence Analysis of Wheat and Rice Genomes
JF Genome Research 
JO Genome Research 
YR 2003 
FD August 01 
VO 13 
IS 8 
SP 1818 
OP 1827 
DO 10.1101/gr.1113003 
UL http://genome.cshlp.org/content/13/8/1818.abstract 
AB The use of DNA sequence-based comparative genomics for evolutionary studies  and for transferring information from model species to crop species has  revolutionized molecular genetics and crop improvement strategies. This study  compared 4485 expressed sequence tags (ESTs) that were physically mapped in  wheat chromosome bins, to the public rice genome sequence data from 2251  ordered BAC/PAC clones using BLAST. A rice genome view of homologous wheat  genome locations based on comparative sequence analysis revealed numerous  chromosomal rearrangements that will significantly complicate the use of rice  as a model for cross-species transfer of information in nonconserved  regions.