【摘 要】
:
G-protein signaling and ubiquitin-dependent degradation are both involved in grain development in rice,but how these pathways are coordinated in regulating this process is unknown.Here,we show that Chang Li Geng 1(CLG1),which encodes an E3 ligase,regulate
【机 构】
:
Key Laboratory of Plant Molecular Physiology,Institute of Botany,Chinese Academy of Sciences,Beijing
论文部分内容阅读
G-protein signaling and ubiquitin-dependent degradation are both involved in grain development in rice,but how these pathways are coordinated in regulating this process is unknown.Here,we show that Chang Li Geng 1(CLG1),which encodes an E3 ligase,regulates grain size by targeting the Gγ protein GS3,a negative regulator of grain length,for degradation.Overexpression of CLG1 led to increased grain length,while over-expression of mutated CLG1 with changes in three conserved amino acids decreased grain length.We found that CLG1 physically interacts with and ubiquitinats GS3which is subsequently degraded through the endo-some degradation pathway,leading to increased grain size.Furthermore,we identified a critical SNP in the exon 3 of CLG1 that is significantly associated with grain size variation in a core collection of cultivated rice.This SNP results in an amino acid substitution from Arg to Ser at position 163 of CLG1 that enhances the E3 ligase activity of CLG1 and thus increases rice grain size.Both the expression level of CLG1 and the SNP CLG1163S may be useful variations for manipulating grain size in rice.
其他文献
Dear Editor,rnRice(Oryza sativa)is one of the most important crops in the world and a common model plant for genomic research.The genomes of Xian/Indica and Geng/Japonica have been completely sequenced and annotated with accurate genome information.Over t
Major signaling components in the plant immune system have been discovered via genetic screens.The use of ethylmethane sulfonate or fast-neutron mutagenesis has generated a myriad of mutants with a hyper-or hypoactivated immune system,which led to the dis
Transcriptional regulation plays a crucial role in plant adaptation to diverse environments.Several transcription factors(TFs),the so-called master switch TFs or hub TFs,regulate various genes critical for adaptation to different stresses.STOP1(SENSITIVE
Rice is an important food crop and is consumed by nearly half of the world\'s population.Rice grain size is a key yield trait and also affects the quality of grain appearance.Several pathways that control grain size have been identified in rice,such as
Plants resist viral infection through multiple mechanisms.These include physical barriers,activation of NUCLEOTIDE-BINDING LEUCINE-RICH REPEAT PROTEINS(NLRs),autophagy,biosyn-thesis of defense-related phytohormones,and RNA interference(RNAi).RNAi suppress
Apoplastic iron(Fe)in roots represents an essential Fe storage pool.Reallocation of apoplastic Fe is of great importance to plants experiencing Fe deprivation,but how this reallocation process is regulated re-mains elusive,likely because of the highly com
Iron(Fe)storage in plant seeds is not only necessary for seedling establishment following germination but is also a major source of dietary Fe for humans and other animals.Accumulation of Fe in seeds is known to be low during early seed development.Howeve
As important structures for water and nutrient absorption,lateral roots are formed at regular time points along with root growth.The sites of lateral root initiation are pre-patterned by an oscillatory mechanism known as the root clock,which is regu-lated
Paulownias are among the fastest growing trees in the world,but they often suffer tremendous loss of wood production due to infection by Paulownia witches\'broom(PaWB)phytoplasmas.In this study,we have sequenced and assembled a high-quality nuclear geno
Production of reactive oxygen species(ROS)via the activity of respiratory burst oxidase homologs(RBOHs)plays a vital role in multiple layers of the plant immune system,including pathogen-associated molecular pattern-triggered immunity(PTI),damage-associat