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- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
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- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
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- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
-
- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
-
- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
-
- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
-
- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
-
- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
-
- Creator:
- Fox, Samuel E., Geniza, Matthew, Hanumappa, Mamatha, Naithani, Sushma, Sullivan, Chris, Preece, Justin, Tiwari, Vijay K., Elser, Justin, Leonard, Jeffery M., Sage, Abagail, Gresham, Cathy, Kerhornou, Arnaud, Bolser, Dan, McCarthy, Fiona, Kersey, Paul, Lazo, Gerard R., and Jaiswal, Pankaj
- Abstract:
- Background: Triticum monococcum (2n) is a close ancestor of T. urartu, the A-genome progenitor of cultivated hexaploid wheat, and is therefore a useful model for the study of components regulating photomorphogenesis in diploid wheat. In order to develop genetic and genomic resources for such a study, we constructed genome-wide transcriptomes...
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- Creator:
- Priest, Henry D., Fox, Samuel E., Rowley, Erik R., Murray, Jessica R., Michael, Todd P., and Mockler, Todd C.
- Abstract:
- Brachypodium distachyon is a close relative of many important cereal crops. Abiotic stress tolerance has a significant impact on productivity of agriculturally important food and feedstock crops. Analysis of the transcriptome of Brachypodium after chilling, high-salinity, drought, and heat stresses revealed diverse differential expression of many transcripts. Weighted Gene Co-Expression...
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- Creator:
- Priest, Henry D., Fox, Samuel E., Rowley, Erik R., Murray, Jessica R., Michael, Todd P., and Mockler, Todd C.
- Abstract:
- Brachypodium distachyon is a close relative of many important cereal crops. Abiotic stress tolerance has a significant impact on productivity of agriculturally important food and feedstock crops. Analysis of the transcriptome of Brachypodium after chilling, high-salinity, drought, and heat stresses revealed diverse differential expression of many transcripts. Weighted Gene Co-Expression...
-
- Creator:
- Jeong, Dong-Hoon, Schmidt, Skye A., Rymarquis, Linda A., Park, Sunhee, Ganssmann, Matthias, German, Marcelo A., Accerbi, Monica, Zhai, Jixian, Fahlgren, Noah, Fox, Samuel E., Garvin, David F., Mockler, Todd C., Carrington, James C., Meyers, Blake C., and Green, Pamela J.
- Abstract:
- BACKGROUND: The wild grass Brachypodium distachyon has emerged as a model system for temperate grasses and biofuel plants. However, the global analysis of miRNAs, molecules known to be key for eukaryotic gene regulation, has been limited in B. distachyon to studies examining a few samples or that rely on computational...
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- Creator:
- Jeong, Dong-Hoon, Schmidt, Skye A., Rymarquis, Linda A., Park, Sunhee, Ganssmann, Matthias, German, Marcelo A., Accerbi, Monica, Zhai, Jixian, Fahlgren, Noah, Fox, Samuel E., Garvin, David F., Mockler, Todd C., Carrington, James C., Meyers, Blake C., and Green, Pamela J.
- Abstract:
- BACKGROUND: The wild grass Brachypodium distachyon has emerged as a model system for temperate grasses and biofuel plants. However, the global analysis of miRNAs, molecules known to be key for eukaryotic gene regulation, has been limited in B. distachyon to studies examining a few samples or that rely on computational...
-
- Creator:
- Jeong, Dong-Hoon, Schmidt, Skye A., Rymarquis, Linda A., Park, Sunhee, Ganssmann, Matthias, German, Marcelo A., Accerbi, Monica, Zhai, Jixian, Fahlgren, Noah, Fox, Samuel E., Garvin, David F., Mockler, Todd C., Carrington, James C., Meyers, Blake C., and Green, Pamela J.
- Abstract:
- BACKGROUND: The wild grass Brachypodium distachyon has emerged as a model system for temperate grasses and biofuel plants. However, the global analysis of miRNAs, molecules known to be key for eukaryotic gene regulation, has been limited in B. distachyon to studies examining a few samples or that rely on computational...
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- Creator:
- Christie, Mark R., Marine, Melanie L., Fox, Samuel E., French, Rod A., and Blouin, Michael S.
- Abstract:
- The genetic underpinnings associated with the earliest stages of plant and animal domestication have remained elusive. Because a genome-wide response to selection can take many generations, the earliest detectable changes associated with domestication may first manifest as heritable changes to global patterns of gene expression. Here, to test this hypothesis,...
-
- Creator:
- Christie, Mark R., Marine, Melanie L., Fox, Samuel E., French, Rod A., and Blouin, Michael S.
- Abstract:
- The genetic underpinnings associated with the earliest stages of plant and animal domestication have remained elusive. Because a genome-wide response to selection can take many generations, the earliest detectable changes associated with domestication may first manifest as heritable changes to global patterns of gene expression. Here, to test this hypothesis,...
-
- Creator:
- Christie, Mark R., Marine, Melanie L., Fox, Samuel E., French, Rod A., and Blouin, Michael S.
- Abstract:
- The genetic underpinnings associated with the earliest stages of plant and animal domestication have remained elusive. Because a genome-wide response to selection can take many generations, the earliest detectable changes associated with domestication may first manifest as heritable changes to global patterns of gene expression. Here, to test this hypothesis,...
-
- Creator:
- Christie, Mark R., Marine, Melanie L., Fox, Samuel E., French, Rod A., and Blouin, Michael S.
- Abstract:
- The genetic underpinnings associated with the earliest stages of plant and animal domestication have remained elusive. Because a genome-wide response to selection can take many generations, the earliest detectable changes associated with domestication may first manifest as heritable changes to global patterns of gene expression. Here, to test this hypothesis,...
-
- Creator:
- Christie, Mark R., Marine, Melanie L., Fox, Samuel E., French, Rod A., and Blouin, Michael S.
- Abstract:
- The genetic underpinnings associated with the earliest stages of plant and animal domestication have remained elusive. Because a genome-wide response to selection can take many generations, the earliest detectable changes associated with domestication may first manifest as heritable changes to global patterns of gene expression. Here, to test this hypothesis,...
-
- Creator:
- Christie, Mark R., Marine, Melanie L., Fox, Samuel E., French, Rod A., and Blouin, Michael S.
- Abstract:
- The genetic underpinnings associated with the earliest stages of plant and animal domestication have remained elusive. Because a genome-wide response to selection can take many generations, the earliest detectable changes associated with domestication may first manifest as heritable changes to global patterns of gene expression. Here, to test this hypothesis,...