Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species. The Rice Chromosome 3 Sequencing Consortium

C. Robin Buell; W. Richard McCombie; Rod A. Wing; Qiaoping Yuan; Shu Ouyang; Jia Liu; Wei Zhu; Aihui Wang; Rama Maiti; Brian Haas; Jennifer Wortman; Mihaela Pertea; Kristine M. Jones; Mary Kim; Larry Overton; Tamara Tsitrin; Douglas Fadrosh; Jayati Bera; Jayati Weaver; Shaohua Jin; Shivani Johri; Matt Reardon; Kristen Webb; Jessica Hill; Kelly Moffat; Luke Tallon; Susan Van Aken; Matthew Lewis; Teresa Utterback; Tamara Feldblyum; Victoria Zismann; Stacey Iobst; Joseph Hsiao; Aymeric R. De Vazeille; Steven L. Salzberg; Owen White; Claire Fraser; Yeisoo Yu; Hey Ran Kim; Teri Rambo; Jennifer Currie; Kristi Collura; Shelly Kernodle-Thompson; Fusheng Wei; David Kudrna; Jetty Siva S. Ammiraju; Meizhong Luo; Jos Luis Goicoechea; David Henry; Ryan Oates; Michael Palmer; Gina Pries; Christopher Saski; Jessica Simmons; Carol Soderlund; Carol Soderlund; Carol Soderlund; William Nelson; Carol Soderlund; Melissa De La Bastide; Lori Spiegel; Lidia Nascimento; Emily Huang; Raymond Preston; Theresa Zutavern; Lance Palmer; Andrew O'haughnessy; Sujit Dike; W. Richard McCombie; Pat Minx; Holly Cordum; Richard Wilson; Weiwei Jin; Hye Ran Lee; Jiming Jiang; Scott Jackson

doi:10.1101/gr.3869505

Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species. The Rice Chromosome 3 Sequencing Consortium

C. Robin Buell, W. Richard McCombie, Rod A. Wing, Qiaoping Yuan, Shu Ouyang, Jia Liu, Wei Zhu, Aihui Wang, Rama Maiti, Brian Haas, Jennifer Wortman, Mihaela Pertea, Kristine M. Jones, Mary Kim, Larry Overton, Tamara Tsitrin, Douglas Fadrosh, Jayati Bera, Jayati Weaver, Shaohua JinShivani Johri, Matt Reardon, Kristen Webb, Jessica Hill, Kelly Moffat, Luke Tallon, Susan Van Aken, Matthew Lewis, Teresa Utterback, Tamara Feldblyum, Victoria Zismann, Stacey Iobst, Joseph Hsiao, Aymeric R. De Vazeille, Steven L. Salzberg, Owen White, Claire Fraser, Yeisoo Yu, Hey Ran Kim, Teri Rambo, Jennifer Currie, Kristi Collura, Shelly Kernodle-Thompson, Fusheng Wei, David Kudrna, Jetty Siva S. Ammiraju, Meizhong Luo, Jos Luis Goicoechea, David Henry, Ryan Oates, Michael Palmer, Gina Pries, Christopher Saski, Jessica Simmons, Carol Soderlund, Carol Soderlund, Carol Soderlund, William Nelson, Carol Soderlund, Melissa De La Bastide, Lori Spiegel, Lidia Nascimento, Emily Huang, Raymond Preston, Theresa Zutavern, Lance Palmer, Andrew O'haughnessy, Sujit Dike, W. Richard McCombie, Pat Minx, Holly Cordum, Richard Wilson, Weiwei Jin, Hye Ran Lee, Jiming Jiang, Scott Jackson

Research output: Contribution to journal › Article › peer-review

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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 (∼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 ∼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. ©2005 by Cold Spring Harbor Laboratory Press.

Original language	English (US)
Journal	Genome Research
Volume	15
Issue number	9
DOIs	https://doi.org/10.1101/gr.3869505
State	Published - Sep 1 2005
Externally published	Yes

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Buell, C. R., McCombie, W. R., Wing, R. A., Yuan, Q., Ouyang, S., Liu, J., Zhu, W., Wang, A., Maiti, R., Haas, B., Wortman, J., Pertea, M., Jones, K. M., Kim, M., Overton, L., Tsitrin, T., Fadrosh, D., Bera, J., Weaver, J., ... Jackson, S. (2005). Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species. The Rice Chromosome 3 Sequencing Consortium. Genome Research, 15(9). https://doi.org/10.1101/gr.3869505

@article{3e3cc0948cad4d5f9ab9238ccb70e271,

title = "Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species. The Rice Chromosome 3 Sequencing Consortium",

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 (∼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 ∼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. {\textcopyright}2005 by Cold Spring Harbor Laboratory Press.",

author = "Buell, {C. Robin} and McCombie, {W. Richard} and Wing, {Rod A.} and Qiaoping Yuan and Shu Ouyang and Jia Liu and Wei Zhu and Aihui Wang and Rama Maiti and Brian Haas and Jennifer Wortman and Mihaela Pertea and Jones, {Kristine M.} and Mary Kim and Larry Overton and Tamara Tsitrin and Douglas Fadrosh and Jayati Bera and Jayati Weaver and Shaohua Jin and Shivani Johri and Matt Reardon and Kristen Webb and Jessica Hill and Kelly Moffat and Luke Tallon and {Van Aken}, Susan and Matthew Lewis and Teresa Utterback and Tamara Feldblyum and Victoria Zismann and Stacey Iobst and Joseph Hsiao and {De Vazeille}, {Aymeric R.} and Salzberg, {Steven L.} and Owen White and Claire Fraser and Yeisoo Yu and Kim, {Hey Ran} and Teri Rambo and Jennifer Currie and Kristi Collura and Shelly Kernodle-Thompson and Fusheng Wei and David Kudrna and Ammiraju, {Jetty Siva S.} and Meizhong Luo and Goicoechea, {Jos Luis} and David Henry and Ryan Oates and Michael Palmer and Gina Pries and Christopher Saski and Jessica Simmons and Carol Soderlund and Carol Soderlund and Carol Soderlund and William Nelson and Carol Soderlund and {De La Bastide}, Melissa and Lori Spiegel and Lidia Nascimento and Emily Huang and Raymond Preston and Theresa Zutavern and Lance Palmer and Andrew O'haughnessy and Sujit Dike and McCombie, {W. Richard} and Pat Minx and Holly Cordum and Richard Wilson and Weiwei Jin and Lee, {Hye Ran} and Jiming Jiang and Scott Jackson",

note = "Generated from Scopus record by KAUST IRTS on 2019-11-20",

year = "2005",

month = sep,

day = "1",

doi = "10.1101/gr.3869505",

language = "English (US)",

volume = "15",

journal = "Genome Research",

issn = "1549-5469",

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Buell, CR, McCombie, WR, Wing, RA, 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, J, 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, HR, Rambo, T, Currie, J, Collura, K, Kernodle-Thompson, S, Wei, F, Kudrna, D, Ammiraju, JSS, Luo, M, Goicoechea, JL, Henry, D, Oates, R, Palmer, M, Pries, G, Saski, C, Simmons, J, Soderlund, C, Soderlund, C, Soderlund, C, Nelson, W, Soderlund, C, De La Bastide, M, Spiegel, L, Nascimento, L, Huang, E, Preston, R, Zutavern, T, Palmer, L, O'haughnessy, 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. The Rice Chromosome 3 Sequencing Consortium', Genome Research, vol. 15, no. 9. https://doi.org/10.1101/gr.3869505

TY - JOUR

T1 - Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species. The Rice Chromosome 3 Sequencing Consortium

AU - Buell, C. Robin

AU - McCombie, W. Richard

AU - Wing, Rod A.

AU - Yuan, Qiaoping

AU - Ouyang, Shu

AU - Liu, Jia

AU - Zhu, Wei

AU - Wang, Aihui

AU - Maiti, Rama

AU - Haas, Brian

AU - Wortman, Jennifer

AU - Pertea, Mihaela

AU - Jones, Kristine M.

AU - Kim, Mary

AU - Overton, Larry

AU - Tsitrin, Tamara

AU - Fadrosh, Douglas

AU - Bera, Jayati

AU - Weaver, Jayati

AU - Jin, Shaohua

AU - Johri, Shivani

AU - Reardon, Matt

AU - Webb, Kristen

AU - Hill, Jessica

AU - Moffat, Kelly

AU - Tallon, Luke

AU - Van Aken, Susan

AU - Lewis, Matthew

AU - Utterback, Teresa

AU - Feldblyum, Tamara

AU - Zismann, Victoria

AU - Iobst, Stacey

AU - Hsiao, Joseph

AU - De Vazeille, Aymeric R.

AU - Salzberg, Steven L.

AU - White, Owen

AU - Fraser, Claire

AU - Yu, Yeisoo

AU - Kim, Hey Ran

AU - Rambo, Teri

AU - Currie, Jennifer

AU - Collura, Kristi

AU - Kernodle-Thompson, Shelly

AU - Wei, Fusheng

AU - Kudrna, David

AU - Ammiraju, Jetty Siva S.

AU - Luo, Meizhong

AU - Goicoechea, Jos Luis

AU - Henry, David

AU - Oates, Ryan

AU - Palmer, Michael

AU - Pries, Gina

AU - Saski, Christopher

AU - Simmons, Jessica

AU - Soderlund, Carol

AU - Nelson, William

AU - Soderlund, Carol

AU - De La Bastide, Melissa

AU - Spiegel, Lori

AU - Nascimento, Lidia

AU - Huang, Emily

AU - Preston, Raymond

AU - Zutavern, Theresa

AU - Palmer, Lance

AU - O'haughnessy, Andrew

AU - Dike, Sujit

AU - McCombie, W. Richard

AU - Minx, Pat

AU - Cordum, Holly

AU - Wilson, Richard

AU - Jin, Weiwei

AU - Lee, Hye Ran

AU - Jiang, Jiming

AU - Jackson, Scott

N1 - Generated from Scopus record by KAUST IRTS on 2019-11-20

PY - 2005/9/1

Y1 - 2005/9/1

N2 - 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 (∼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 ∼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. ©2005 by Cold Spring Harbor Laboratory Press.

AB - 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 (∼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 ∼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. ©2005 by Cold Spring Harbor Laboratory Press.

UR - http://www.genome.org/cgi/doi/10.1101/gr.3869505

UR - http://www.scopus.com/inward/record.url?scp=24344490228&partnerID=8YFLogxK

U2 - 10.1101/gr.3869505

DO - 10.1101/gr.3869505

M3 - Article

SN - 1549-5469

VL - 15

JO - Genome Research

JF - Genome Research

IS - 9

ER -

Sequence, annotation, and analysis of synteny between rice chromosome 3 and diverged grass species. The Rice Chromosome 3 Sequencing Consortium

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