scholarly journals The transcription factor CmLEC1 positively regulates the seed-setting rate in hybridization breeding of chrysanthemum

2021 ◽  
Vol 8 (1) ◽  
Author(s):  
Sujuan Xu ◽  
Ze Wu ◽  
Huizhong Hou ◽  
Jingya Zhao ◽  
Fengjiao Zhang ◽  
...  
Keyword(s):  
Seed Development ◽  
Embryo Development ◽  
Seed Storage Protein ◽  
Late Embryogenesis Abundant Protein ◽  
Regulation Mechanism ◽  
Seed Setting ◽  
Distant Hybridization ◽  
Embryo Abortion ◽  
Positive Role ◽  
Seed Setting Rate

AbstractDistant hybridization is widely used to develop crop cultivars, whereas the hybridization process of embryo abortion often severely reduces the sought-after breeding effect. The LEAFY COTYLEDON1 (LEC1) gene has been extensively investigated as a central regulator of seed development, but it is far less studied in crop hybridization breeding. Here we investigated the function and regulation mechanism of CmLEC1 from Chrysanthemum morifolium during its seed development in chrysanthemum hybridization. CmLEC1 encodes a nucleic protein and is specifically expressed in embryos. CmLEC1’s overexpression significantly promoted the seed-setting rate of the cross, while the rate was significantly decreased in the amiR-CmLEC1 transgenic chrysanthemum. The RNA-Seq analysis of the developing hybrid embryos revealed that regulatory genes involved in seed development, namely, CmLEA (late embryogenesis abundant protein), CmOLE (oleosin), CmSSP (seed storage protein), and CmEM (embryonic protein), were upregulated in the OE (overexpressing) lines but downregulated in the amiR lines vs. wild-type lines. Future analysis demonstrated that CmLEC1 directly activated CmLEA expression and interacted with CmC3H, and this CmLEC1–CmC3H interaction could enhance the transactivation ability of CmLEC1 for the expression of CmLEA. Further, CmLEC1 was able to induce several other key genes related to embryo development. Taken together, our results show that CmLEC1 plays a positive role in the hybrid embryo development of chrysanthemum plants, which might involve activating CmLEA’s expression and interacting with CmC3H. This may be a new pathway in the LEC1 regulatory network to promote seed development, one perhaps leading to a novel strategy to not only overcome embryo abortion during crop breeding but also increase the seed yield.

A novel ERF transcription factor, CmERF12, negatively influences chrysanthemum embryo development

2021 ◽  
Author(s):  
Sujuan Xu ◽  
Huizhong Hou ◽  
Ze Wu ◽  
Jingya Zhao ◽  
Fengjiao Zhang ◽  
...  
Keyword(s):  
Transcription Factor ◽  
Embryo Development ◽  
Chrysanthemum Morifolium ◽  
Original Method ◽  
Distant Hybridization ◽  
Embryo Abortion ◽  
Real Time Quantitative Pcr ◽  
Hybrid Embryo ◽  
Ear Motif ◽  
Ethylene Responsive Factor

Abstract Embryo abortion often occurs during distant hybridization events. Apetala 2/ethylene-responsive factor (AP2/ERF) proteins are key transcription factor (TF) regulators of plant development and stress resistance, but their roles in hybrid embryo development are poorly understood. We isolated a novel AP2/ERF TF, CmERF12, from chrysanthemum and showed that it adversely affects embryo development during distant hybridization. Transcriptome and real-time quantitative PCR data demonstrated that CmERF12 is expressed at significantly higher levels in aborted ovaries compared with normal ovaries. CmERF12 localizes to the cell nucleus and contains a conserved EAR motif that mediates its transcription repressor function in yeast and plant cells. We generated an amiR-CmERF12 transgenic Chrysanthemum morifolium (C.m.) var. ‘Yuhualuoying’ and conducted distant hybridization with the wild-type tetraploid, Chrysanthemum nankingense (C.n.), revealing that CmERF12 knockdown significantly promoted embryo development and increased the seed setting rates during hybridization. The expression of various embryo development-related genes was up-regulated in developing ovaries from the ♀amiR-CmERF12-C.m. × ♂C.n. cross. Furthermore, CmERF12 directly interacted with CmSUF4 and significantly reduced its ability to activate its target gene CmEC1. Overall, we invented an original method to overcome plant distant hybridization barriers and unraveled the mechanism by which CmERF12 negatively affects chrysanthemum embryo development.

scholarly journals A New Way of Rice Breeding: Polyploid Rice Breeding

Plants ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 422
Author(s):  
Rongrong Chen ◽  
Ziyi Feng ◽  
Xianhua Zhang ◽  
Zhaojian Song ◽  
Detian Cai
Keyword(s):  
Gene Expression Regulation ◽  
Agronomic Traits ◽  
Rice Breeding ◽  
Seed Setting ◽  
Distant Hybridization ◽  
Nutritional Components ◽  
History Of ◽  
New Germplasm ◽  
Seed Setting Rate ◽  
Japanese Scientist

Polyploid rice, first discovered by Japanese scientist Eiiti Nakamori in 1933, has a history of nearly 90 years. In the following years, polyploid rice studies have mainly focused on innovations in breeding theory, induction technology and the creation of new germplasm, the analysis of agronomic traits and nutritional components, the study of gametophyte development and reproduction characteristics, DNA methylation modification and gene expression regulation, distant hybridization and utilization among subspecies, species and genomes. In recent years, PMeS lines and neo-tetraploid rice lines with stable high seed setting rate characteristics have been successively selected, breaking through the bottleneck of low seed setting rate of polyploid rice. Following, a series of theoretical and applied studies on high seed setting rate tetraploid rice were carried out. This has pushed research on polyploid rice to a new stage, opening new prospects for polyploid rice breeding.

scholarly journals LEAFY COTYLEDON1 expression in the endosperm enables embryo maturation in Arabidopsis

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Jingpu Song ◽  
Xin Xie ◽  
Chen Chen ◽  
Jie Shu ◽  
Raj K. Thapa ◽  
...  
Keyword(s):  
Seed Development ◽  
Embryo Development ◽  
Growth Regulators ◽  
Seed Maturation ◽  
Embryo Maturation ◽  
Leafy Cotyledon1 ◽  
Functional Relevance ◽  
Necessary And Sufficient ◽  
Zygote Stage

AbstractThe endosperm provides nutrients and growth regulators to the embryo during seed development. LEAFY COTYLEDON1 (LEC1) has long been known to be essential for embryo maturation. LEC1 is expressed in both the embryo and the endosperm; however, the functional relevance of the endosperm-expressed LEC1 for seed development is unclear. Here, we provide genetic and transgenic evidence demonstrating that endosperm-expressed LEC1 is necessary and sufficient for embryo maturation. We show that endosperm-synthesized LEC1 is capable of orchestrating full seed maturation in the absence of embryo-expressed LEC1. Inversely, without LEC1 expression in the endosperm, embryo development arrests even in the presence of functional LEC1 alleles in the embryo. We further reveal that LEC1 expression in the endosperm begins at the zygote stage and the LEC1 protein is then trafficked to the embryo to activate processes of seed maturation. Our findings thus establish a key role for endosperm in regulating embryo development.

scholarly journals Characterization of the ‘Oat-Like Rice’ Caused by a Novel Allele OsMADS1Olr Reveals Vital Importance of OsMADS1 in Regulating Grain Shape in Oryza sativa L.

Rice ◽  
2020 ◽  
Vol 13 (1) ◽  
Author(s):  
Penghui Li ◽  
Hui Li ◽  
Zhijian Liu ◽  
Yong Zhuang ◽  
Ming Wei ◽  
...  
Keyword(s):  
Transgenic Plants ◽  
Point Mutation ◽  
Grain Shape ◽  
Dominant Negative Effect ◽  
Mads Box ◽  
Grain Development ◽  
Seed Setting ◽  
Seed Setting Rate ◽  
Novel Allele

Abstract Background Grain shape is a critical agronomic trait affecting grain yield and quality. Exploration and functional characterization of grain shape-related genes will facilitate rice breeding for higher quality and yield. Results Here, we characterized a recessive mutant named Oat-like rice for its unique grain shape which highly resembles oat grains. The Oat-like rice displayed abnormal floral organs, an open hull formed by remarkably elongated leafy lemmas and paleae, occasionally formed conjugated twin brown rice, an aberrant grain shape and a low seed setting rate. By map-based cloning, we discovered that Oat-like rice harbors a novel allele of OsMADS1 gene (OsMADS1Olr), which has a spontaneous point mutation that causes the substitution of an amino acid that is highly conserved in the MADS-box domain of the MADS-box family. Further linkage analysis indicated that the point mutation in the OsMADS1Olr is associated with Oat-like rice phenotype, and expression analysis of the OsMADS1 by qRT-PCR and GUS staining also indicated that it is highly expressed in flower organs as well as in the early stages of grain development. Furthermore, OsMADS1Olr-overexpressing plants showed similar phenotypes of Oat-like rice in grain shape, possibly due to the dominant negative effect. And OsMADS1-RNAi plants also displayed grain phenotypes like Oat-like rice. These results suggested that OsMADS1Olr is responsible for the Oat-like rice phenotype including aberrant grain shape. Moreover, the expression levels of representative genes related to grain shape regulation were apparently altered in Oat-like rice, OsMADS1Olr-overexpressing and OsMADS1-RNAi transgenic plants. Finally, compared with Oat-like rice, OsMADS1Olr-overexpressing and OsMADS1-RNAi plants, mild phenotype of seed-specific OsMADS1-RNAi transgenic plants indicated that OsMADS1 may has has a direct regulation role in grain development and the grain phenotypes of Oat-like rice, OsMADS1Olr-overexpressing and OsMADS1-RNAi plants are majorly caused by the abnormal lemma and palea development. Conclusions Altogether, our results showed that grain shape and a low seed setting rate of the notable ‘Oat-like rice’ are caused by a spontaneous point mutation in the novel allele OsMADS1Olr. Furthermore, our findings suggested that OsMADS1 mediates grain shape possibly by affecting the expression of representative genes related to grain shape regulation. Thus, this study not only revealed that OsMADS1 plays a vital role in regulating grain shape of rice but also highlighted the importance and value of OsMADS1 to improve the quality and yield of rice by molecular breeding.

Differentiation of reproductive traits between central and peripheral populations of Allium wallichii Kunth

2021 ◽  
Author(s):  
Hanqing Tang ◽  
Demei Hu ◽  
Chao Zhang ◽  
Juan Yang ◽  
Mengda Xiang ◽  
...  
Keyword(s):  
Pollen Germination ◽  
Plant Density ◽  
Peripheral Populations ◽  
Seed Setting ◽  
Peripheral Population ◽  
Reproductive Characteristics ◽  
Central Population ◽  
Floral Visitors ◽  
Different Populations ◽  
Seed Setting Rate

The differentiation of reproductive characteristics not only exists between different populations, but also may exist within populations. In this work, the differences between the central and peripheral populations were experimentally compared and analyzed in terms of biodiversity index, plant traits, anthesis, pollen germination, floral visitors, seed setting rate, and ploidy. The results showed that the diversity and richness of other plant species, in the central population were significantly lower than those in the peripheral population, but the plant density was much higher than in the peripheral population. The plant anatomical traits, anthesis, pollen germination, floral visitors, seed setting rate, and ploidy were significantly different between central population and peripheral populations. The term increasing rate (IR) is proposed as a means of comparing morphologies in different organs. IR differences in vegetative characteristics were more stable, while those in reproductive characteristics differed significantly. For the central population, the effect of the intraspecific reproductive competition and pollinator selection on plants may significant, and morphology was differentiated in terms of reproductive characteristics. Plants in the peripheral populations were visited by many more pollinators than in the central population, and all pollinators visited infrequently. The reproductive characteristics of plants in the peripheral populations may therefore only be weakly affected by pollinator selection. The reproductive characteristics of plants in the peripheral population may weakly affected by the selection of pollinators and the variation was small. In conclusion, morphological differentiation among the different populations was associated with differences in vegetative and reproductive characteristics.

scholarly journals The Sp1-Responsive microRNA-15b Negatively Regulates Rhabdovirus-Triggered Innate Immune Responses in Lower Vertebrates by Targeting TBK1

2021 ◽  
Vol 11 ◽  
Author(s):  
Renjie Chang ◽  
Qing Chu ◽  
Weiwei Zheng ◽  
Lei Zhang ◽  
Tianjun Xu
Keyword(s):  
Immune Response ◽  
Immune Responses ◽  
Innate Immune ◽  
Infection Model ◽  
Regulation Mechanism ◽  
Type I ◽  
Innate Immune Responses ◽  
Positive Role ◽  
Siniperca Chuatsi ◽  
Antiviral Immune Response

As is known to all, the production of type I interferon (IFN) plays pivotal roles in host innate antiviral immunity, and its moderate production play a positive role in promoting the activation of host innate antiviral immune response. However, the virus will establish a persistent infection model by interfering with the production of IFN, thereby evading the organism inherent antiviral immune response. Therefore, it is of great necessity to research the underlying regulatory mechanisms of type I IFN appropriate production under viral invasion. In this study, we report that a Sp1–responsive miR-15b plays a negative role in siniperca chuatsi rhabdovirus (SCRV)-triggered antiviral response in teleost fish. We found that SCRV could dramatically upregulate miiuy croaker miR-15b expression. Enhanced miR-15b could negatively regulate SCRV-triggered antiviral genes and inflammatory cytokines production by targeting TANK-binding kinase 1 (TBK1), thereby accelerating viral replication. Importantly, we found that miR-15b feedback regulates antiviral innate immune response through NF-κB and IRF3 signaling pathways. These findings highlight that miR-15b plays a crucial role in regulating virus–host interactions, which outlines a new regulation mechanism of fish’s innate immune responses.

An analysis of seed development in Pisum sativum. VII. Embryo development and precocious germination in vitro

1988 ◽  
Vol 14 (2) ◽  
pp. 89-101 ◽  
Author(s):  
S. K. Cook ◽  
H. Adams ◽  
C. L. Hedley ◽  
M. J. Ambrose ◽  
T. L. Wang
Keyword(s):  
Pisum Sativum ◽  
Seed Development ◽  
Embryo Development ◽  
Precocious Germination

Effects of Different Water Managements on Yield and Cadmium Accumulation in Rice

2014 ◽  
Vol 1073-1076 ◽  
pp. 248-252
Author(s):  
Yin Fei Lv ◽  
Yan Fang Ren ◽  
Dong Liu ◽  
Yan Chao Zhang ◽  
Jun Yu He
Keyword(s):  
Rice Yield ◽  
Cadmium Accumulation ◽  
Aerobic Treatment ◽  
Seed Setting ◽  
Ph Change ◽  
Panicle Number ◽  
Intermittent Irrigation ◽  
Cd Distribution ◽  
Seed Setting Rate ◽  
Cadmium Contaminated Soil

Water management affects the bioavailability of cadmium (Cd) in the soil and hence their accumulation in rice and grain yields. A pot experiment was carried out to investigate the effects of different water managements (flooding, intermittent irrigation and aerobic) on rice yield and cadmium accumulation in rice plants growing on cadmium contaminated soil. The results showed that compared to the flooding and aerobic treatment, the intermittent irrigation increased grain yield by 7.55-29.58%, which contributed to the increase of seed setting rate and panicle number. Compared with the intermittent irrigation, aerobic treatment significantly increased Cd contents in roots, straw and grains, while flooding reduced the Cd contents in rice. Compared with flooding, both aerobic and intermittent irrigation enhanced Cd distribution in the root and reduced it in the straw and grain. With increasing irrigation from aerobic to flooded conditions, the soil available Cd concentrations decreased significantly. The patterns of soil pH change were just opposite to those of soil available Cd. Thus, intermittent irrigation could increase rice yield and also reduce Cd in the grain.

scholarly journals AtNSE1 and AtNSE3 are required for embryo pattern formation and maintenance of cell viability during Arabidopsis embryogenesis

2019 ◽  
Vol 70 (21) ◽  
pp. 6229-6244
Author(s):  
Gang Li ◽  
Wenxuan Zou ◽  
Liufang Jian ◽  
Jie Qian ◽  
Jie Zhao
Keyword(s):  
Cell Death ◽  
Cell Viability ◽  
Cell Fate ◽  
Embryo Development ◽  
Higher Plants ◽  
Early Embryo ◽  
Embryo Cell ◽  
Early Embryogenesis ◽  
Embryo Abortion ◽  
Cell Fate Decisions

Abstract Embryogenesis is an essential process during seed development in higher plants. It has previously been shown that mutation of the Arabidopsis non-SMC element genes AtNSE1 or AtNSE3 leads to early embryo abortion, and their proteins can interact with each other directly. However, the crucial regions of these proteins in this interaction and how the proteins are cytologically involved in Arabidopsis embryo development are unknown. In this study, we found that the C-terminal including the Ring-like motif of AtNSE1 can interact with the N-terminal of AtNSE3, and only the Ring-like motif is essential for binding with three α motifs of AtNSE2 (homologous to AtMMS21). Using genetic assays and by analysing molecular markers of cell fate decisions (STM, WOX5, and WOX8) in mutant nse1 and nse3 embryos, we found that AtNSE1 and AtNSE3 work non-redundantly in early embryo development, and that differentiation of the apical meristem and the hypophysis fails in the mutants, which have disrupted auxin transportation and responses. However, the upper cells of the suspensor in the mutants seem to have proper embryo cell identity. Cytological examination showed that cell death occurred from the early embryo stage, and that vacuolar programmed cell death and necrosis in the nse1 and nse3 mutant embryos led to ovule abortion. Thus, AtNSE1 and AtNSE3 are essential for maintaining cell viability and growth during early embryogenesis. Our results improve our understanding of the functions of SMC5/6 complex in early embryogenesis in Arabidopsis.

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