Gibberellin (GA) and jasmonate (JA) are two types of phytohormones that play important roles during stamen development. For example, Arabidopsis plants deficient in either of GA or JA develop short stamens. An app...Gibberellin (GA) and jasmonate (JA) are two types of phytohormones that play important roles during stamen development. For example, Arabidopsis plants deficient in either of GA or JA develop short stamens. An apparent question to ask is whether GA action and JA action during stamen filament development are independent of each other or are in a hierarchy. Recent studies showed that GA modulates the expression of genes essential for JA biosynthesis to promote JA production and high levels of JA will induce the expression of three MYB genes MYB21, MYB24 and MYB57. These three MYB genes are crucial factors for the normal development of stamen filament in Arabidopsis.展开更多
Stamen is a unique plant organ wherein germ cells or microsporocytes that commit to meiosis are initiated from somatic cells during its early developmental process. While genes determining stamen identity are known ac...Stamen is a unique plant organ wherein germ cells or microsporocytes that commit to meiosis are initiated from somatic cells during its early developmental process. While genes determining stamen identity are known according to the ABC model of floral development, little information is available on how these genes affect germ cell initiation. By using the Affymetrix GeneChip Rice Genome Array to assess 51 279 tran- scripts, we established a dynamic gene expression profile (GEP) of the early developmental process of rice (Oryza sativa) stamen. Systematic analysis of the GEP data revealed novel expression patterns of some developmentally important genes including meiosis-, tapetum-, and phytohormone-related genes. Following the finding that a substantial amount of nuclear genes encoding photosynthetic proteins are ex- pressed at the low levels in early rice stamen, through the ChlP-seq analysis we found that a C-class MADS box protein, OsMADS58, binds many nuclear-encoded genes participated in photosystem and light reac- tions and the expression levels of most of them are increased when expression of OsMADS58 is downre- gulated in the osmads58 mutant. Furthermore, more pro-chloroplasts are observed and increased signals of reactive oxygen species are detected in the osmads58 mutant anthers. These findings implicate a novel link between stamen identity determination and hypoxia status establishment.展开更多
Heteranthery,the occurrence of functionally and structurally distinct stamens within a flower,represents a striking example of convergent evolution among diverse animal-pollinated lineages.Although the ecological basi...Heteranthery,the occurrence of functionally and structurally distinct stamens within a flower,represents a striking example of convergent evolution among diverse animal-pollinated lineages.Although the ecological basis of this somatic polymorphism is understood,the developmental and molecular mechanisms are largely unknown.To address this knowledge gap,we selected Monochoria elata(Pontederiaceae)as our study system due to its typical heterantherous floral structure.We constructed a chromosome-level genome assembly of M.elata,conducted transcriptomic analyses and target phytohormone metabolome analysis to explore gene networks and hormones associated with heteranthery.We focused on three key stamen characteristics—colour,spatial patterning,and filament elongation—selected for their significant roles in stamen differentiation and their relevance to the functional diversity observed in heterantherous species.Our analyses suggest that gene networks involving MelLEAFY3,MADS-box,and TCP genes regulate stamen identity,with anthocyanin influencing colour,and lignin contributing to filament elongation.Additionally,variation in jasmonic acid and abscisic acid concentration between feeding and pollinating anthers appears to contribute to their morphological divergence.Our findings highlight gene networks and hormones associated with intra-floral stamen differentiation and indicate that whole genome duplications have likely facilitated the evolution of heteranthery during divergence from other Pontederiaceae without heteranthery.展开更多
Glycerol-3-phosphate acyltransferase (GPAT) mediates the initial synthetic step for the formation of glycer- olipids, which act as the major components of biological membranes and the principal stored forms of energ...Glycerol-3-phosphate acyltransferase (GPAT) mediates the initial synthetic step for the formation of glycer- olipids, which act as the major components of biological membranes and the principal stored forms of energy. GPAT6 is a member of the Arabidopsis GPAT family, which is crucial for cutin biosynthesis in sepals and petals. In this work, a func- tional analysis of GPAT6 in anther development and plant fertility was performed. GPAT6 was highly expressed in the tapetum and microspores during anther development. The knockout mutant, gpat6, caused a massive reduction in seed production. This report shows that the ablation of GPAT6 caused defective tapetum development with reduced endoplas- mic reticulum (ER) profiles in the tapetum, which largely led to the abortion of pollen grains and defective pollen wall formation. In addition, pollen germination and pollen tube elongation were affected in the mutant plants. Furthermore, the double mutant analysis showed that GPAT6 and GPAT1 make joint effects on the release of microspores from tetrads and stamen filament elongation. This work shows that GPAT6 plays multiple roles in stamen development and fertility in Arabidopsis.展开更多
文摘Gibberellin (GA) and jasmonate (JA) are two types of phytohormones that play important roles during stamen development. For example, Arabidopsis plants deficient in either of GA or JA develop short stamens. An apparent question to ask is whether GA action and JA action during stamen filament development are independent of each other or are in a hierarchy. Recent studies showed that GA modulates the expression of genes essential for JA biosynthesis to promote JA production and high levels of JA will induce the expression of three MYB genes MYB21, MYB24 and MYB57. These three MYB genes are crucial factors for the normal development of stamen filament in Arabidopsis.
文摘Stamen is a unique plant organ wherein germ cells or microsporocytes that commit to meiosis are initiated from somatic cells during its early developmental process. While genes determining stamen identity are known according to the ABC model of floral development, little information is available on how these genes affect germ cell initiation. By using the Affymetrix GeneChip Rice Genome Array to assess 51 279 tran- scripts, we established a dynamic gene expression profile (GEP) of the early developmental process of rice (Oryza sativa) stamen. Systematic analysis of the GEP data revealed novel expression patterns of some developmentally important genes including meiosis-, tapetum-, and phytohormone-related genes. Following the finding that a substantial amount of nuclear genes encoding photosynthetic proteins are ex- pressed at the low levels in early rice stamen, through the ChlP-seq analysis we found that a C-class MADS box protein, OsMADS58, binds many nuclear-encoded genes participated in photosystem and light reac- tions and the expression levels of most of them are increased when expression of OsMADS58 is downre- gulated in the osmads58 mutant. Furthermore, more pro-chloroplasts are observed and increased signals of reactive oxygen species are detected in the osmads58 mutant anthers. These findings implicate a novel link between stamen identity determination and hypoxia status establishment.
基金supported by grants from the National Natural Science Foundation of China(32100186)the Selfdetermined Project of the State Key Laboratory of Plant Diversity and Specialty Crops,Chinese Academy of Sciences,China(PDSC2023-5)+1 种基金the Special Research Assistant Project,Chinese Academy of Sciences(E2291M01)a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada.
文摘Heteranthery,the occurrence of functionally and structurally distinct stamens within a flower,represents a striking example of convergent evolution among diverse animal-pollinated lineages.Although the ecological basis of this somatic polymorphism is understood,the developmental and molecular mechanisms are largely unknown.To address this knowledge gap,we selected Monochoria elata(Pontederiaceae)as our study system due to its typical heterantherous floral structure.We constructed a chromosome-level genome assembly of M.elata,conducted transcriptomic analyses and target phytohormone metabolome analysis to explore gene networks and hormones associated with heteranthery.We focused on three key stamen characteristics—colour,spatial patterning,and filament elongation—selected for their significant roles in stamen differentiation and their relevance to the functional diversity observed in heterantherous species.Our analyses suggest that gene networks involving MelLEAFY3,MADS-box,and TCP genes regulate stamen identity,with anthocyanin influencing colour,and lignin contributing to filament elongation.Additionally,variation in jasmonic acid and abscisic acid concentration between feeding and pollinating anthers appears to contribute to their morphological divergence.Our findings highlight gene networks and hormones associated with intra-floral stamen differentiation and indicate that whole genome duplications have likely facilitated the evolution of heteranthery during divergence from other Pontederiaceae without heteranthery.
基金This work was supported by grants from the National Science Foundation of China,the National Basic Research Program of China,by the Leading Academic Discipline Project of Shanghai Municipal Education Commission
文摘Glycerol-3-phosphate acyltransferase (GPAT) mediates the initial synthetic step for the formation of glycer- olipids, which act as the major components of biological membranes and the principal stored forms of energy. GPAT6 is a member of the Arabidopsis GPAT family, which is crucial for cutin biosynthesis in sepals and petals. In this work, a func- tional analysis of GPAT6 in anther development and plant fertility was performed. GPAT6 was highly expressed in the tapetum and microspores during anther development. The knockout mutant, gpat6, caused a massive reduction in seed production. This report shows that the ablation of GPAT6 caused defective tapetum development with reduced endoplas- mic reticulum (ER) profiles in the tapetum, which largely led to the abortion of pollen grains and defective pollen wall formation. In addition, pollen germination and pollen tube elongation were affected in the mutant plants. Furthermore, the double mutant analysis showed that GPAT6 and GPAT1 make joint effects on the release of microspores from tetrads and stamen filament elongation. This work shows that GPAT6 plays multiple roles in stamen development and fertility in Arabidopsis.
