PubMed:16927200
Annnotations
OryzaGP_2021
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| M_0 | 28-32 | hunflair:NA:Species | denotes | rice |
| M_1 | 878-882 | hunflair:NA:Species | denotes | rice |
OryzaGP_2021_FLAIR
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| M_0 | 28-32 | hunflair:NA:Species | denotes | rice |
| M_1 | 878-882 | hunflair:NA:Species | denotes | rice |
Oryza_sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| T1 | 0-99 | Sentence | denotes | Molecular analysis of early rice stamen development using organ-specific gene expression profiling. |
| T2 | 100-273 | Sentence | denotes | Elucidating the regulatory mechanisms of plant organ formation is an important component of plant developmental biology and will be useful for crop improvement applications. |
| T3 | 274-474 | Sentence | denotes | Plant organ formation, or organogenesis, occurs when a group of primordial cells differentiates into an organ, through a well-orchestrated series of events, with a given shape, structure and function. |
| T4 | 475-606 | Sentence | denotes | Research over the past two decades has elucidated the molecular mechanisms of organ identity and dorsalventral axis determinations. |
| T5 | 607-699 | Sentence | denotes | However, little is known about the molecular mechanisms underlying the successive processes. |
| T6 | 700-890 | Sentence | denotes | To develop an effective approach for studying organ formation at the molecular level, we generated organ-specific gene expression profiles (GEPs) reflecting early development in rice stamen. |
| T7 | 891-1074 | Sentence | denotes | In this study, we demonstrated that the GEPs are highly correlated with early stamen development, suggesting that this analysis is useful for dissecting stamen development regulation. |
| T8 | 1075-1278 | Sentence | denotes | Based on the molecular and morphological correlation, we found that over 26 genes, that were preferentially up-regulated during early stamen development, may participate in stamen development regulation. |
| T9 | 1279-1521 | Sentence | denotes | In addition, we found that differentially expressed genes during early stamen development are clustered into two clades, suggesting that stamen development may comprise of two distinct phases of pattern formation and cellular differentiation. |
| T10 | 1522-1660 | Sentence | denotes | Moreover, the organ-specific quantitative changes in gene expression levels may play a critical role for regulating plant organ formation. |
Oryza_sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| T1 | 0-99 | Sentence | denotes | Molecular analysis of early rice stamen development using organ-specific gene expression profiling. |
| T2 | 100-273 | Sentence | denotes | Elucidating the regulatory mechanisms of plant organ formation is an important component of plant developmental biology and will be useful for crop improvement applications. |
| T3 | 274-474 | Sentence | denotes | Plant organ formation, or organogenesis, occurs when a group of primordial cells differentiates into an organ, through a well-orchestrated series of events, with a given shape, structure and function. |
| T4 | 475-606 | Sentence | denotes | Research over the past two decades has elucidated the molecular mechanisms of organ identity and dorsalventral axis determinations. |
| T5 | 607-699 | Sentence | denotes | However, little is known about the molecular mechanisms underlying the successive processes. |
| T6 | 700-890 | Sentence | denotes | To develop an effective approach for studying organ formation at the molecular level, we generated organ-specific gene expression profiles (GEPs) reflecting early development in rice stamen. |
| T7 | 891-1074 | Sentence | denotes | In this study, we demonstrated that the GEPs are highly correlated with early stamen development, suggesting that this analysis is useful for dissecting stamen development regulation. |
| T8 | 1075-1278 | Sentence | denotes | Based on the molecular and morphological correlation, we found that over 26 genes, that were preferentially up-regulated during early stamen development, may participate in stamen development regulation. |
| T9 | 1279-1521 | Sentence | denotes | In addition, we found that differentially expressed genes during early stamen development are clustered into two clades, suggesting that stamen development may comprise of two distinct phases of pattern formation and cellular differentiation. |
| T10 | 1522-1660 | Sentence | denotes | Moreover, the organ-specific quantitative changes in gene expression levels may play a critical role for regulating plant organ formation. |
Oryza_sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| T1 | 0-99 | Sentence | denotes | Molecular analysis of early rice stamen development using organ-specific gene expression profiling. |
| T2 | 100-273 | Sentence | denotes | Elucidating the regulatory mechanisms of plant organ formation is an important component of plant developmental biology and will be useful for crop improvement applications. |
| T3 | 274-474 | Sentence | denotes | Plant organ formation, or organogenesis, occurs when a group of primordial cells differentiates into an organ, through a well-orchestrated series of events, with a given shape, structure and function. |
| T4 | 475-606 | Sentence | denotes | Research over the past two decades has elucidated the molecular mechanisms of organ identity and dorsalventral axis determinations. |
| T5 | 607-699 | Sentence | denotes | However, little is known about the molecular mechanisms underlying the successive processes. |
| T6 | 700-890 | Sentence | denotes | To develop an effective approach for studying organ formation at the molecular level, we generated organ-specific gene expression profiles (GEPs) reflecting early development in rice stamen. |
| T7 | 891-1074 | Sentence | denotes | In this study, we demonstrated that the GEPs are highly correlated with early stamen development, suggesting that this analysis is useful for dissecting stamen development regulation. |
| T8 | 1075-1278 | Sentence | denotes | Based on the molecular and morphological correlation, we found that over 26 genes, that were preferentially up-regulated during early stamen development, may participate in stamen development regulation. |
| T9 | 1279-1521 | Sentence | denotes | In addition, we found that differentially expressed genes during early stamen development are clustered into two clades, suggesting that stamen development may comprise of two distinct phases of pattern formation and cellular differentiation. |
| T10 | 1522-1660 | Sentence | denotes | Moreover, the organ-specific quantitative changes in gene expression levels may play a critical role for regulating plant organ formation. |
Oryza_sentences
| Id | Subject | Object | Predicate | Lexical cue |
|---|---|---|---|---|
| T1 | 0-99 | Sentence | denotes | Molecular analysis of early rice stamen development using organ-specific gene expression profiling. |
| T2 | 100-273 | Sentence | denotes | Elucidating the regulatory mechanisms of plant organ formation is an important component of plant developmental biology and will be useful for crop improvement applications. |
| T3 | 274-474 | Sentence | denotes | Plant organ formation, or organogenesis, occurs when a group of primordial cells differentiates into an organ, through a well-orchestrated series of events, with a given shape, structure and function. |
| T4 | 475-606 | Sentence | denotes | Research over the past two decades has elucidated the molecular mechanisms of organ identity and dorsalventral axis determinations. |
| T5 | 607-699 | Sentence | denotes | However, little is known about the molecular mechanisms underlying the successive processes. |
| T6 | 700-890 | Sentence | denotes | To develop an effective approach for studying organ formation at the molecular level, we generated organ-specific gene expression profiles (GEPs) reflecting early development in rice stamen. |
| T7 | 891-1074 | Sentence | denotes | In this study, we demonstrated that the GEPs are highly correlated with early stamen development, suggesting that this analysis is useful for dissecting stamen development regulation. |
| T8 | 1075-1278 | Sentence | denotes | Based on the molecular and morphological correlation, we found that over 26 genes, that were preferentially up-regulated during early stamen development, may participate in stamen development regulation. |
| T9 | 1279-1521 | Sentence | denotes | In addition, we found that differentially expressed genes during early stamen development are clustered into two clades, suggesting that stamen development may comprise of two distinct phases of pattern formation and cellular differentiation. |
| T10 | 1522-1660 | Sentence | denotes | Moreover, the organ-specific quantitative changes in gene expression levels may play a critical role for regulating plant organ formation. |