Buell_2005_Genome.Res_15_1284

Reference

Title : Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species - Buell_2005_Genome.Res_15_1284
Author(s) : Buell CR , Yuan Q , Ouyang S , Liu J , Zhu W , Wang A , Maiti R , Haas B , Wortman J , Pertea M , Jones KM , Kim M , Overton L , Tsitrin T , Fadrosh D , Bera J , Weaver B , Jin S , Johri S , Reardon M , Webb K , Hill J , Moffat K , Tallon L , Van Aken S , Lewis M , Utterback T , Feldblyum T , Zismann V , Iobst S , Hsiao J , de Vazeille AR , Salzberg SL , White O , Fraser C , Yu Y , Kim H , Rambo T , Currie J , Collura K , Kernodle-Thompson S , Wei F , Kudrna K , Ammiraju JS , Luo M , Goicoechea JL , Wing RA , Henry D , Oates R , Palmer M , Pries G , Saski C , Simmons J , Soderlund C , Nelson W , de la Bastide M , Spiegel L , Nascimento L , Huang E , Preston R , Zutavern T , Palmer LE , O'Shaughnessy A , Dike S , McCombie WR , Minx P , Cordum H , Wilson R , Jin W , Lee HR , Jiang J , Jackson S
Ref : Genome Res , 15 :1284 , 2005
Abstract :

Rice (Oryza sativa L.) chromosome 3 is evolutionarily conserved across the cultivated cereals and shares large blocks of synteny with maize and sorghum, which diverged from rice more than 50 million years ago. To begin to completely understand this chromosome, we sequenced, finished, and annotated 36.1 Mb ( approximately 97%) from O. sativa subsp. japonica cv Nipponbare. Annotation features of the chromosome include 5915 genes, of which 913 are related to transposable elements. A putative function could be assigned to 3064 genes, with another 757 genes annotated as expressed, leaving 2094 that encode hypothetical proteins. Similarity searches against the proteome of Arabidopsis thaliana revealed putative homologs for 67% of the chromosome 3 proteins. Further searches of a nonredundant amino acid database, the Pfam domain database, plant Expressed Sequence Tags, and genomic assemblies from sorghum and maize revealed only 853 nontransposable element related proteins from chromosome 3 that lacked similarity to other known sequences. Interestingly, 426 of these have a paralog within the rice genome. A comparative physical map of the wild progenitor species, Oryza nivara, with japonica chromosome 3 revealed a high degree of sequence identity and synteny between these two species, which diverged approximately 10,000 years ago. Although no major rearrangements were detected, the deduced size of the O. nivara chromosome 3 was 21% smaller than that of japonica. Synteny between rice and other cereals using an integrated maize physical map and wheat genetic map was strikingly high, further supporting the use of rice and, in particular, chromosome 3, as a model for comparative studies among the cereals.

PubMedSearch : Buell_2005_Genome.Res_15_1284
PubMedID: 16109971
Gene_locus related to this paper: orysa-Q852M6 , orysa-Q8S5X5 , orysa-Q84QZ6 , orysa-Q84QY7 , orysa-Q851E3 , orysa-q6ave2 , orysj-cgep , orysj-q0dud7 , orysj-q10j20 , orysj-q10ss2

Related information

Gene_locus orysa-Q852M6    orysa-Q8S5X5    orysa-Q84QZ6    orysa-Q84QY7    orysa-Q851E3    orysa-q6ave2    orysj-cgep    orysj-q0dud7    orysj-q10j20    orysj-q10ss2

Citations formats

Buell CR, Yuan Q, Ouyang S, Liu J, Zhu W, Wang A, Maiti R, Haas B, Wortman J, Pertea M, Jones KM, Kim M, Overton L, Tsitrin T, Fadrosh D, Bera J, Weaver B, Jin S, Johri S, Reardon M, Webb K, Hill J, Moffat K, Tallon L, Van Aken S, Lewis M, Utterback T, Feldblyum T, Zismann V, Iobst S, Hsiao J, de Vazeille AR, Salzberg SL, White O, Fraser C, Yu Y, Kim H, Rambo T, Currie J, Collura K, Kernodle-Thompson S, Wei F, Kudrna K, Ammiraju JS, Luo M, Goicoechea JL, Wing RA, Henry D, Oates R, Palmer M, Pries G, Saski C, Simmons J, Soderlund C, Nelson W, de la Bastide M, Spiegel L, Nascimento L, Huang E, Preston R, Zutavern T, Palmer LE, O'Shaughnessy A, Dike S, McCombie WR, Minx P, Cordum H, Wilson R, Jin W, Lee HR, Jiang J, Jackson S (2005)
Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species
Genome Res 15 :1284

Buell CR, Yuan Q, Ouyang S, Liu J, Zhu W, Wang A, Maiti R, Haas B, Wortman J, Pertea M, Jones KM, Kim M, Overton L, Tsitrin T, Fadrosh D, Bera J, Weaver B, Jin S, Johri S, Reardon M, Webb K, Hill J, Moffat K, Tallon L, Van Aken S, Lewis M, Utterback T, Feldblyum T, Zismann V, Iobst S, Hsiao J, de Vazeille AR, Salzberg SL, White O, Fraser C, Yu Y, Kim H, Rambo T, Currie J, Collura K, Kernodle-Thompson S, Wei F, Kudrna K, Ammiraju JS, Luo M, Goicoechea JL, Wing RA, Henry D, Oates R, Palmer M, Pries G, Saski C, Simmons J, Soderlund C, Nelson W, de la Bastide M, Spiegel L, Nascimento L, Huang E, Preston R, Zutavern T, Palmer LE, O'Shaughnessy A, Dike S, McCombie WR, Minx P, Cordum H, Wilson R, Jin W, Lee HR, Jiang J, Jackson S (2005)
Genome Res 15 :1284