Appropriate cell division and differentiation ensure normal anther development in angiosperms. BARELY ANY MERISTEM 1/2 (BAM1/2) and RECEPTOR-LIKE PROTEIN KINASE2 (RPK2), two groups of leucine-rich repeat receptor-like protein kinases, are required for early anther cell specification. However, little is known about the molecular mechanisms underlying these two RLK-mediated signaling pathways. Here, we show that CLAVATA3 INSENSITIVE RECEPTOR KINASEs (CIKs), a group of novel coreceptor protein kinase-controlling stem cell homeostasis, play essential roles in BAM1/2- and RPK2-regulated early anther development in The archesporial cells of triple and quadruple mutant anthers perform anticlinal division instead of periclinal division. Defective cell division and specification of the primary and inner secondary parietal cells occur in these mutant anthers. The disordered divisions and specifications of anther wall cells finally result in excess microsporocytes and a lack of one to three parietal cell layers in mutant anthers, resembling or mutant anthers. Genetic and biochemical analyses indicate that CIKs function as coreceptors of BAM1/2 and RPK2 to regulate archesporial cell division and determine the specification of anther parietal cells.
Introducing common sense to natural language understanding systems has received increasing research attention. It remains a fundamental question on how to evaluate whether a system has a sense making capability. Existing benchmarks measures commonsense knowledge indirectly and without explanation. In this paper, we release a benchmark to directly test whether a system can differentiate natural language statements that make sense from those that do not make sense. In addition, a system is asked to identify the most crucial reason why a statement does not make sense. We evaluate models trained over large-scale language modeling tasks as well as human performance, showing that there are different challenges for system sense making.
Hospitalized children with 2009 influenza A (H1N1) infection can have a wide range of presentation and clinical complications including neurologic complications. The severe cases and deaths concentrate in previously healthy older children.
The embryonic cuticle integrity is critical for the embryo to separate from the neighboring endosperm. The sulfated TWISTED SEED1 (TWS1) peptide precursor generated in the embryo diffuses through gaps of the nascent cuticle to the surrounding endosperm, where it is cleaved by ABNORMAL LEAF SHAPE1 (ALE1) and becomes an active mature form. The active TWS1 is perceived by receptor-like protein kinases GASSHO1 (GSO1) and GSO2 in the embryonic epidermal cells to start the downstream signaling and guide the formation of an intact embryonic cuticle. However, the early signaling events after TWS1 is perceived by GSO1/2 are still unknown.Here, we report that serk1/2/3 embryos show cuticle defects similar to ale1, tws1, and gso1/2. Genetic and biochemical analyses were performed to dissect the signaling pathway mediated by SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASEs (SERKs) during cuticle development.SERKs function with GSO1/2 in a common pathway to monitor the integrity of the embryonic cuticle. SERKs interact with GSO1/2, which can be enhanced dramatically by TWS1. The phosphorylation levels of SERKs and GSO1/2 rely on each other and can respond to and be elevated by TWS1.Our results demonstrate that SERKs may function as coreceptors of GSO1/2 to transduce the TWS1 signal and ultimately regulate embryonic cuticle integrity.
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