In a recent study published in Science,Chen and colleagues unveiled the mechanism by which hepatic alkylation repair homolog protein 5(ALKBH5)regulates the glucagon receptor(GCGR)and mechanistic target of rapamycin co...In a recent study published in Science,Chen and colleagues unveiled the mechanism by which hepatic alkylation repair homolog protein 5(ALKBH5)regulates the glucagon receptor(GCGR)and mechanistic target of rapamycin complex 1(mTORC1)signaling pathways via two independent mechanisms,thereby integrating the modulation of glucose and lipid metabolism homeostasis.1 This research explores the regulation of metabolic homeostasis and the pathogenesis of metabolic diseases from the perspective of RNAbinding proteins,offering new drug targets for alleviating metabolicassociated fatty liver disease(MAFLD)and metabolic disorders.展开更多
Pumilio RNAbindingproteinsparticipateinmes-senger RNA(mRNA)degradation and t ranslational repression,but their roles in plant development are largely unclear.Here,we show that Arabidopsis PUMILIO PROTEIN24(APUM24),an ...Pumilio RNAbindingproteinsparticipateinmes-senger RNA(mRNA)degradation and t ranslational repression,but their roles in plant development are largely unclear.Here,we show that Arabidopsis PUMILIO PROTEIN24(APUM24),an atypical Pumiliohomology domaincontaining protein,plays an im-portant part in regulating seed maturation,a major stage of plant development.APUM24 is strongly expressed in maturing seeds.Reducing APUM24 expression resulted in abnormal seed maturation,wrinkled seeds,and lower seed oil contents,and APUM24 knockdown resulted in lower levels of WRINKLED 1(WRI1),a key transcription factor con-trolling seed oil accumulation,and lower expression of WRI1 target genes.APUM24 reduces the mRNA stability of BTB/POZMATH(BPM)family genes,thus decreasing BPM protein levels.BPM is responsible for the 26S proteasomemediated degradation of WRI1 and has important functions in plant growth and development.The 3′untranslated regions of BPM family genes contain putative Pumilio response elements(PREs),which are bound by APUM24.Re-duced BPM or increased WRI1 expression rescued the decient seed maturation of apum242 knock-down mutants,and APUM24 overexpression re-sulted in increased seed size and weight.Therefore,APUM24 is crucial to seed maturation through its action as a positive regulatornetuning the BPMWRI1 module,making APUM24 apromising target for breeding strategies to increase crop yields.展开更多
Brassinosteroids(BRs)are plant hormones that regulate wood formation in trees.Currently,little is known about the post-transcriptional regulation of BR synthesis.Here,we show that during wood formation,fine-tuning BR ...Brassinosteroids(BRs)are plant hormones that regulate wood formation in trees.Currently,little is known about the post-transcriptional regulation of BR synthesis.Here,we show that during wood formation,fine-tuning BR synthesis requires 3′UTR-dependent decay of Populus CONSTITUTIVE PHOTOMORPHOGENIC DWARF 1(PdCPD1).Overexpression of PdCPD1 or its 3′UTR fragment resulted in a significant increase of BR levels and inhibited secondary growth.In contrast,transgenic poplars repressing PdCPD13′UTR expression displayed moderate levels of BR and promoted wood formation.We show that the Populus GLYCINE-RICH RNA-BINDING PROTEIN1(PdGRP1)directly binds to a GU-rich element in 3′UTR of Pd CPD1,leading to its mRNA decay.We thus provide a post-transcriptional mechanism underlying BRs synthesis during wood formation,which may be useful for genetic manipulation of wood biomass in trees.展开更多
基金supported by Natural Science Foundation of Sichuan Province(Grants 2023NSFSC1154).
文摘In a recent study published in Science,Chen and colleagues unveiled the mechanism by which hepatic alkylation repair homolog protein 5(ALKBH5)regulates the glucagon receptor(GCGR)and mechanistic target of rapamycin complex 1(mTORC1)signaling pathways via two independent mechanisms,thereby integrating the modulation of glucose and lipid metabolism homeostasis.1 This research explores the regulation of metabolic homeostasis and the pathogenesis of metabolic diseases from the perspective of RNAbinding proteins,offering new drug targets for alleviating metabolicassociated fatty liver disease(MAFLD)and metabolic disorders.
基金supported by the National Natural Science Foundation of China(31870301,31370350 for S.Z.,31871222 for C.Y.)the Guangdong Province Universities and Colleges Pearl River Scholar Funded Scheme(2016 for S.Z.)the award from the Program for Changjiang Scholars(2017 for C.Y.).
文摘Pumilio RNAbindingproteinsparticipateinmes-senger RNA(mRNA)degradation and t ranslational repression,but their roles in plant development are largely unclear.Here,we show that Arabidopsis PUMILIO PROTEIN24(APUM24),an atypical Pumiliohomology domaincontaining protein,plays an im-portant part in regulating seed maturation,a major stage of plant development.APUM24 is strongly expressed in maturing seeds.Reducing APUM24 expression resulted in abnormal seed maturation,wrinkled seeds,and lower seed oil contents,and APUM24 knockdown resulted in lower levels of WRINKLED 1(WRI1),a key transcription factor con-trolling seed oil accumulation,and lower expression of WRI1 target genes.APUM24 reduces the mRNA stability of BTB/POZMATH(BPM)family genes,thus decreasing BPM protein levels.BPM is responsible for the 26S proteasomemediated degradation of WRI1 and has important functions in plant growth and development.The 3′untranslated regions of BPM family genes contain putative Pumilio response elements(PREs),which are bound by APUM24.Re-duced BPM or increased WRI1 expression rescued the decient seed maturation of apum242 knock-down mutants,and APUM24 overexpression re-sulted in increased seed size and weight.Therefore,APUM24 is crucial to seed maturation through its action as a positive regulatornetuning the BPMWRI1 module,making APUM24 apromising target for breeding strategies to increase crop yields.
基金financially supported by grants from the National Key Scientific Research Project of China(2021YFD2200205)the National Natural Science Foundation of China(31972955,32071725 and 31700526)+2 种基金the Major Science and Technology Innovation Project of Shandong Province(2022LZGC018)Shandong Youth Innovation Team Plan(2022KJ168)the Taishan Scholar Program of Shandong(tsqn202103092)。
文摘Brassinosteroids(BRs)are plant hormones that regulate wood formation in trees.Currently,little is known about the post-transcriptional regulation of BR synthesis.Here,we show that during wood formation,fine-tuning BR synthesis requires 3′UTR-dependent decay of Populus CONSTITUTIVE PHOTOMORPHOGENIC DWARF 1(PdCPD1).Overexpression of PdCPD1 or its 3′UTR fragment resulted in a significant increase of BR levels and inhibited secondary growth.In contrast,transgenic poplars repressing PdCPD13′UTR expression displayed moderate levels of BR and promoted wood formation.We show that the Populus GLYCINE-RICH RNA-BINDING PROTEIN1(PdGRP1)directly binds to a GU-rich element in 3′UTR of Pd CPD1,leading to its mRNA decay.We thus provide a post-transcriptional mechanism underlying BRs synthesis during wood formation,which may be useful for genetic manipulation of wood biomass in trees.
