查看更多>>摘要:Obligate biotrophs depend on living hosts for nutrient acquisition to complete their life cycle,yet the mech-anisms by which hosts restrict nutrient availability to pathogens remain largely unknown.The fungal path-ogen Sporisorium reilianum infects maize seedlings and causes head smut disease in inflorescences at maturity,while a cell wall-associated kinase,ZmWAK,provides quantitative resistance against it.In this study,we demonstrate that S.reilianum can rapidly activate ZmWAK kinase activity,which is sustained by the 407th threonine residue in the juxtamembrane domain,enabling it to interact with and phosphorylate ZmSnRK1α2,a conserved sucrose non-fermenting-related kinase α subunit.The activated ZmSnRK1α2 translocates from the cytoplasm to the nucleus,where it phosphorylates and destabilizes the transcription factor ZmWRKY53.The reduced ZmWRKY53 abundance leads to the downregulation of genes involved in transmembrane transport and carbohydrate metabolism,resulting in nutrient starvation for S.reilianum in the apoplast.Collectively,our study uncovers a WAK-SnRK1α2-WRKY53 signaling module in maize that conveys phosphorylation cascades from the plasma membrane to the nucleus to confer plant resistance against head smut in maize,offering new insights and potential targets for crop disease management.
查看更多>>摘要:Bread wheat(Triticum aestivum)became a globally dominant crop after incorporating the D genome from the donor species Aegilops tauschii,but the evolutionary history that shaped the D genome during this pro-cess remains to be clarified.Here,we propose a renewed evolutionary model linking Ae.tauschii and the hexaploid wheat D genome by constructing an ancestral haplotype map covering 762 Ae.tauschii and hexaploid wheat accessions.We dissected the evolutionary trajectories of Ae.tauschii lineages and reported a few independent intermediate accessions,demonstrating that low-frequency inter-sublineage gene flow had enriched the diversity of Ae.tauschii.We discovered that the D genome of hexa-ploid wheat was inherited from a unified ancestral template,but with a mosaic composition that was highly mixed and derived mainly from three Ae.tauschii L2 sublineages located in the Caspian coastal region.This result suggests that early agricultural activities facilitated innovations in D-genome composition and final-ized the success of hexaploidization.We found that the majority(51.4%)of genetic diversity was attributed to novel mutations absent in Ae.tauschii,and we identified large Ae.tauschii introgressions from various lineages,which expanded the diversity of the wheat D genome and introduced beneficial alleles.This work sheds light on the process of wheat hexaploidization and highlights the evolutionary significance of the multi-layered genetic diversity of the bread wheat D genome.
查看更多>>摘要:Most coexisting insect species exhibit stunted growth compared to individual species on plants.This phenomenon reflects an interspecific antagonism drawing extensive attention,while the underlying mecha-nisms remain largely uncharacterized.Mirids(Apolygus lucorum)and cotton bollworms(Helicoverpa armigera)are two common cotton pests.We identified a secretory protein,ASP1,from the oral secretion of mirids,found in the nucleus of mirid-infested cotton leaves.ASP1 specifically targets the transcriptional co-repressor TOPLESS(TPL)and inhibits NINJA-mediated recruitment of TPL,promoting plant defense response and gossypol accumulation in cotton glands.ASP1-enhanced defense inhibits the growth of cotton bollworms on cotton plants,while having limited impact on mirids.The mesophyll-feeding characteristic al-lows mirids to avoid most cotton glands,invalidating cotton defense.Our investigation reveals the molecular mechanism by which mirids employ cotton defense to selectively inhibit the feeding of cotton bollworms.
查看更多>>摘要:Thousands of nuclear-encoded proteins are transported into chloroplasts through the TOC-TIC translocon that spans the chloroplast envelope membranes.A motor complex pulls the translocated proteins out of the TOC-TIC complex into the chloroplast stroma by hydrolyzing ATP.The Orf2971-FtsHi complex has been suggested to serve as the ATP-hydrolyzing motor in Chlamydomonas reinhardtii,but little is known about its architecture and assembly.Here,we report the 3.2-Å resolution structure of the Chlamydomonas Orf2971-FtsHi complex.The 20-subunit complex spans the chloroplast inner envelope,with two bulky modules protruding into the intermembrane space and stromal matrix.Six subunits form a hetero-hexamer that potentially provides the pulling force through ATP hydrolysis.The remaining subunits,including potential enzymes/chaperones,likely facilitate the complex assembly and regulate its proper function.Taken together,our results provide the structural foundation for a mechanistic understanding of chloroplast protein translocation.
Jakub HajnýTereza TrávníčkováMartina ŠpundováMichelle Roenspies...
1719-1732页
查看更多>>摘要:In plants,sugars are the key source of energy and metabolic building blocks.The systemic transport of sugars is essential for plant growth and morphogenesis.Plants evolved intricate molecular networks to effectively distribute sugars.The dynamic distribution of these osmotically active compounds is a handy tool for regulating cell turgor pressure,an instructive force in developmental biology.In this study,we have investigated the molecular mechanism behind the dual role of the receptor-like kinase CANAR.We functionally characterized a long non-coding RNA,CARMA,as a negative regulator of CANAR.Sugar-responsive CARMA specifically fine-tunes CANAR expression in the phloem,the route of sugar transport.Our genetic,molecular,microscopy,and biophysical data suggest that the CARMA-CANAR module con-trols the shoot-to-root phloem transport of sugars,allows cells to flexibly adapt to the external osmolality by appropriate water uptake,and thus adjust the size of vascular cell types during organ growth and development.Our study identifies a nexus of plant vascular tissue formation with cell internal pressure monitoring,revealing a novel functional aspect of long non-coding RNAs in developmental biology.
万方数据
维普