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Jungil Yang Lae‐Hyeon Cho Jinmi Yoon Hyeryung Yoon Antt Htet Wai Woo‐Jong Hong Muho Han Hitoshi Sakakibara Wanqi Liang Ki‐Hong Jung Jong‐Seong Jeon Hee‐Jong Koh Dabing Zhang Gynheung An 《Plant biotechnology journal》2019,17(1):178-187
Grain number is an important agronomic trait. We investigated the roles of chromatin interacting factor Oryza sativa VIN3‐LIKE 2 (OsVIL2), which controls plant biomass and yield in rice. Mutations in OsVIL2 led to shorter plants and fewer grains whereas its overexpression (OX) enhanced biomass production and grain numbers when compared with the wild type. RNA‐sequencing analyses revealed that 1958 genes were up‐regulated and 2096 genes were down‐regulated in the region of active division within the first internodes of OX plants. Chromatin immunoprecipitation analysis showed that, among the downregulated genes, OsVIL2 was directly associated with chromatins in the promoter region of CYTOKININ OXIDASE/DEHYDROGENASE2 (OsCKX2), a gene responsible for cytokinin degradation. Likewise, active cytokinin levels were increased in the OX plants. We conclude that OsVIL2 improves the production of biomass and grain by suppressing OsCKX2 chromatin. 相似文献
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Takashi Yazawa Yoshitaka Imamichi Koh‐ichi Yuhki Junsuke Uwada Daisuke Mikami Masayuki Shimada Kaoru Miyamoto Takeshi Kitano Satoru Takahashi Toshio Sekiguchi Nobuo Suzuki Md. Rafiqul Islam Khan Fumitaka Ushikubi Akihiro Umezawa Takanobu Taniguchi 《Molecular reproduction and development》2019,86(7):786-797
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Liu P Sudhaharan T Koh RM Hwang LC Ahmed S Maruyama IN Wohland T 《Biophysical journal》2007,93(2):684-698
Single wavelength fluorescence cross-correlation spectroscopy (SW-FCCS), introduced to study biomolecular interactions, has recently been reported to monitor enzyme activity by using a newly developed fluorescent protein variant together with cyan fluorescent protein. Here, for the first time to our knowledge, SW-FCCS is applied to detect interactions between membrane receptors in vivo by using the widely used enhanced green fluorescent protein and monomeric red fluorescent protein. The biological system studied here is the epidermal growth factor/ErbB receptor family, which plays pivotal roles in the development of organisms ranging from worms to humans. It is widely thought that a ligand binds to the monomeric form of the receptor and induces its dimeric form for activation. By using SW-FCCS and F?rster resonance energy transfer, we show that the epidermal growth factor receptor and ErbB2 have preformed homo- and heterodimeric structures on the cell surface and quantitation of dimer fractions is performed by SW-FCCS. These receptors are major targets of anti-cancer drug development, and the receptors' homo- and heterodimeric structures are relevant for such developments. 相似文献
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水稻幼苗活力性状的低温反应数量性状基因座检测 总被引:3,自引:0,他引:3
以籼粳交“密阳23/吉冷1号”的F2:3代200个家系作为作图群体,在12℃冷水胁迫下,进行苗高、苗鲜重和苗干重等水稻幼苗活力性状的低温反应鉴定,并利用由SSR标记构建的分子连锁图谱为基础,对冷水胁迫下苗高、苗鲜重和苗干重以及它们的低温反应指数进行了数量性状基因座(QTLs)检测。研究结果表明,低温胁迫下上述幼苗活力性状在F3家系群中均表现为接近正态的连续分布,表现为由多基因控制的数量性状;在第1、2、7、8和12染色体上,检测到与幼苗活力性状的低温反应相关的QTL共12个,对表型变异的贡献率范围为5.2%-17.9%,其中位于第2染色体RM262-RM263区间和第12染色体RM270-RM17区间的与低温下苗高相关的qCSH2和qCSH12,以及位于第12染色体RM19-RM270区间和第1染色体RM129-RM9区间的分别控制低温下苗干重及其低温反应指数的qSDW12和qCSDW1对表型变异的贡献率较大,分别为16.6%、17.9%、15.9%和16.2%。其增效等位基因均来自吉冷1号,前两者均表现为加性效应,后两者分别表现为显性和超显性。 相似文献
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Mesenchymal stromal cells (MSCs) have proven useful for cell and immune therapy, but the molecular constituents responsible for their functionalities, in particular, those on the plasma membrane, remain largely unknown. Here we employed both gel and nongel based MS to analyze human MSCs' membrane proteome before and after adipogenesis. 2-DE of cells that were pretreated with membrane impermeable fluorescent dyes revealed that both the whole cell proteome and the cell surface subproteome were independent of donors. LC coupled with tandem MS analysis of the plasma membrane-containing fraction allowed us to identify 707 proteins, approximately half of which could be annotated as membrane-related proteins. Of particular interest was a subset of ectodomain-containing membrane-bound proteins that encompass most known surface markers for MSCs, but also contain a multitude of solute carriers and ATPases. Upon adipogenic differentiation, this proteomic profile was amended to include several proteins involved in lipid metabolism and trafficking, at the expense of, most noticeably, ectoenzymes. Our results here provide not only a basis for future studies of MSC-specific molecular mechanisms, but also a molecular inventory for the development of antibody-based cell isolation and identification procedures. 相似文献
70.
Davis GE Koh W Stratman AN 《Birth defects research. Part C, Embryo today : reviews》2007,81(4):270-285
Recent data have revealed new mechanisms that underlie endothelial cell (EC) lumen formation during vascular morphogenic events in development, wound repair, and other disease states. It is apparent that EC interactions with extracellular matrices (ECMs) establish signaling cascades downstream of integrin ligation leading to activation of the Rho GTPases, Cdc42 and Rac1, which are required for lumen formation. In large part, this process is driven by intracellular vacuole formation and coalescence, which rapidly leads to the creation of fluid-filled matrix-free spaces that are then interconnected via EC-EC interactions to create multicellular tube structures. EC vacuoles markedly accumulate in a polarized fashion directly adjacent to the centrosome in a region that strongly accumulates Cdc42 protein as indicated by green fluorescent protein (GFP)-Cdc42 during the lumen formation process. Downstream of Cdc42-mediated signaling, key molecules that have been identified to be required for EC lumen formation include Pak2, Pak4, Par3, Par6, and the protein kinase C (PKC) isoforms zeta and epsilon. Together, these molecules coordinately regulate the critical EC lumen formation process in three-dimensional (3D) collagen matrices. These events also require cell surface proteolysis mediated through membrane type 1 matrix metalloproteinase (MT1-MMP), which is necessary to create vascular guidance tunnels within the 3D matrix environment. These tunnels represent physical spaces within the ECM that are necessary to regulate vascular morphogenic events, including the establishment of interconnected vascular tube networks as well as the recruitment of pericytes to initiate vascular tube maturation (via basement membrane matrix assembly) and stabilization. Current research continues to analyze how specific molecules integrate signaling information in concert to catalyze EC lumen formation, pericyte recruitment, and stabilization processes to control vascular morphogenesis in 3D extracellular matrices. 相似文献