Table of Contents

Acyl-ACPs that enable fatty acid biosynthesis were uniquely profiled and quantified, resulting in discovery of novel ACP products with unknown function and providing a method for rigorous comparisons.

The protein-interaction domains of Chlamydomonas CHT7, and not its CXC domain, are critical for nutrient-responsive regulation of cell cycle genes and consequently the entry and exit from quiescence.

The cyclin-dependent kinase CDKG1 stabilizes recombination intermediates during male meiosis and DNA damage-induced somatic homologous recombination.

Unlike in Arabidopsis, loss of function of Polymerase IV in the Brassicaceae species Capsella rubella causes microspore arrest, revealing an important role for Polymerase IV in pollen development.

A population of endosperm cells adjacent to the embryo scutellum shows transcriptomic enrichment in transport functions and is influenced by embryo development.

Map-based cloning of a gene underlying grain shape in wheat suggests that modest genetic changes induce dramatic phenotypic variations associated with a new wheat subspecies during evolution.

Exon junction complex footprints account for a sizable proportion of major RNA degradation intermediates and can serve as markers for mRNA degradation before steady state translation.

SUMO protease SMT7 regulates cell cycle division number of the mat3 cells through deSUMOylation of SUMOylated RIBOSOMAL PROTEIN L30.

Map-based cloning of a gene underlying grain shape in wheat suggests that modest genetic changes induce dramatic phenotypic variations associated with a new wheat subspecies during evolution.

Nonsense-mediated mRNA decay is a major regulatory process by which pattern recognition receptors fine-tune resistance gene transcript levels to reduce fitness costs and achieve effective immunity.

The OPR protein MTHI1 is a major actor in the biogenesis of chloroplast ATP synthase in green algae that coregulates the expression of AtpH and AtpI, the two subunits of the proton channel.

Transit-peptide motifs that specifically enhance protein import into root leucoplasts demonstrate tissue-specific regulation of plastid protein import.

CRK2 associates with and activates RBOHD to trigger MAMP-induced ROS production, revealing a regulatory mechanism for plant NADPH oxidases through phosphorylation of the C terminus.

Reactive oxygen species produced in the chloroplast phosphorylate a key translation initiation factor, thereby sensitizing cytosolic protein synthesis to the metabolic status of the chloroplast.

A population of endosperm cells adjacent to the embryo scutellum shows transcriptomic enrichment in transport functions and is influenced by embryo development.

A population of endosperm cells adjacent to the embryo scutellum shows transcriptomic enrichment in transport functions and is influenced by embryo development.

The OPR protein MTHI1 is a major actor in the biogenesis of chloroplast ATP synthase in green algae that coregulates the expression of AtpH and AtpI, the two subunits of the proton channel.

HY5 promotes activation rather than repression of its direct targets, including SPA1, revealing a light-regulated feedback mechanism.

Starch degradation in guard cells is induced by the phytohormone brassinosteroid and the redox signal hydrogen peroxide to promote stomatal opening.

The protein-interaction domains of Chlamydomonas CHT7, and not its CXC domain, are critical for nutrient-responsive regulation of cell cycle genes and consequently the entry and exit from quiescence.

Map-based cloning of a gene underlying grain shape in wheat suggests that modest genetic changes induce dramatic phenotypic variations associated with a new wheat subspecies during evolution.

Analysis of the gene expression atlas of Selaginella moellendorffii reveals transcriptional programs that arose in vascular plants over the course of one billion of years of evolution.

REC8 association with the genome correlates with multiple chromatin states and is required to organize meiotic chromosome architecture and interhomolog recombination.

A persulfidation-based reversible post-translational modification of Cys desulfhydrase and NADPH oxidase RBOHD fine-tunes guard cell ABA signaling.

Metabolic RNA labeling coupled to RNA sequencing detects low-abundance RNAs and RNA processing intermediates, allowing for inhibitor-free RNA stability measurements in Arabidopsis seedlings.

Reactive oxygen species produced in the chloroplast phosphorylate a key translation initiation factor, thereby sensitizing cytosolic protein synthesis to the metabolic status of the chloroplast.

In addition to its role in sister chromatid cohesion, the cohesin complex subunit ZmSMC3 participates in meiotic centromere pairing in maize to ensure accurate chromosome segregation.

JAZ repressors of the jasmonate pathway directly interact with and suppress RHD6 and RSL1 transcription factors to integrate jasmonate signaling and root hair development in Arabidopsis.

Analysis of the gene expression atlas of Selaginella moellendorffii reveals transcriptional programs that arose in vascular plants over the course of one billion of years of evolution.

CRK2 associates with and activates RBOHD to trigger MAMP-induced ROS production, revealing a regulatory mechanism for plant NADPH oxidases through phosphorylation of the C terminus.

BBX24 regulates the jasmonic acid pathway, Fusarium wilt resistance, and storage root yield in sweet potato, providing a candidate target gene for enhancing pathogen resistance without yield penalty.

REC8 association with the genome correlates with multiple chromatin states and is required to organize meiotic chromosome architecture and interhomolog recombination.

Exon junction complex footprints account for a sizable proportion of major RNA degradation intermediates and can serve as markers for mRNA degradation before steady state translation.

JAZ repressors of the jasmonate pathway directly interact with and suppress RHD6 and RSL1 transcription factors to integrate jasmonate signaling and root hair development in Arabidopsis.

Starch degradation in guard cells is induced by the phytohormone brassinosteroid and the redox signal hydrogen peroxide to promote stomatal opening.

CRK2 associates with and activates RBOHD to trigger MAMP-induced ROS production, revealing a regulatory mechanism for plant NADPH oxidases through phosphorylation of the C terminus.

ice1-1 is a widely accepted mutant allele known to abolish cold-inducible expression of DREB1A, which encodes a key transcription factor involved in plant cold stress adaptation, but DREB1A repression in ice1-1 is a case of transgene-induced silencing and not genetic regulation by ICE1.

Acyl-ACPs that enable fatty acid biosynthesis were uniquely profiled and quantified, resulting in discovery of novel ACP products with unknown function and providing a method for rigorous comparisons.

Nonsense-mediated mRNA decay is a major regulatory process by which pattern recognition receptors fine-tune resistance gene transcript levels to reduce fitness costs and achieve effective immunity.

Nonsense-mediated mRNA decay is a major regulatory process by which pattern recognition receptors fine-tune resistance gene transcript levels to reduce fitness costs and achieve effective immunity.

Exon junction complex footprints account for a sizable proportion of major RNA degradation intermediates and can serve as markers for mRNA degradation before steady state translation.

ice1-1 is a widely accepted mutant allele known to abolish cold-inducible expression of DREB1A, which encodes a key transcription factor involved in plant cold stress adaptation, but DREB1A repression in ice1-1 is a case of transgene-induced silencing and not genetic regulation by ICE1.

Nonsense-mediated mRNA decay is a major regulatory process by which pattern recognition receptors fine-tune resistance gene transcript levels to reduce fitness costs and achieve effective immunity.

Silencing phosphoenolpyruvate carboxylase in a Crassulacean acid metabolism species prevented nocturnal CO₂ fixation and malate accumulation and perturbed the circadian clock and guard cell signaling.

Analysis of the gene expression atlas of Selaginella moellendorffii reveals transcriptional programs that arose in vascular plants over the course of one billion of years of evolution.

A systemic analysis identifies GROWTH-REGULATING FACTORS as DELLA-targeted transcription factors during cold stress in Arabidopsis.

Nonsense-mediated mRNA decay is a major regulatory process by which pattern recognition receptors fine-tune resistance gene transcript levels to reduce fitness costs and achieve effective immunity.

Exon junction complex footprints account for a sizable proportion of major RNA degradation intermediates and can serve as markers for mRNA degradation before steady state translation.

Metabolic RNA labeling coupled to RNA sequencing detects low-abundance RNAs and RNA processing intermediates, allowing for inhibitor-free RNA stability measurements in Arabidopsis seedlings.

Transit-peptide motifs that specifically enhance protein import into root leucoplasts demonstrate tissue-specific regulation of plastid protein import.

BBX24 regulates the jasmonic acid pathway, Fusarium wilt resistance, and storage root yield in sweet potato, providing a candidate target gene for enhancing pathogen resistance without yield penalty.