期刊: DEVELOPMENTAL CELL, 2022; 57 (7)
The switch from mitosis to meiosis ensures the successive formation of gametes. However, it remains unclear how meiotic initiation occurs within the c......
期刊: DEVELOPMENTAL CELL, 2022; 57 (20)
Gasdermin D (GSDMD)-mediated pyroptosis induces immunogenic cell death and promotes inflammation. However, the functions of GSDMD in tissue homeostasi......
期刊: DEVELOPMENTAL CELL, 2022; 57 (5)
As sessile organisms, plants are highly sensitive to environmental stresses. In response to stresses, globally repressed translation initiation leads ......
期刊: DEVELOPMENTAL CELL, 2022; 57 (21)
Mitochondrial perturbations within neurons communicate stress signals to peripheral tissues, coordinating organismal-wide mitochondrial homeostasis fo......
期刊: DEVELOPMENTAL CELL, 2022; 57 (23)
Plant root architecture flexibly adapts to changing nitrate (NO3-) availability in the soil; however, the underlying molecular mechanismof this adapti......
期刊: DEVELOPMENTAL CELL, 2022; 57 (12)
then manufacturer???s Real-time primer-Wilk not analysis
期刊: DEVELOPMENTAL CELL, 2022; 57 (22)
Heart development is controlled by a complex transcriptional network composed of transcription factors and epigenetic regulators. Mutations in key dev......
期刊: DEVELOPMENTAL CELL, 2022; 57 (24)
Spinal cord development is precisely orchestrated by spatiotemporal gene regulatory programs. However, the underlying epigenetic mechanisms remain lar......
期刊: DEVELOPMENTAL CELL, 2022; 57 (14)
Hair follicle stem cells are regulated by dermal papilla fibroblasts, their principal signaling niche. Overactivation of Hedgehog signaling in the nic......
期刊: DEVELOPMENTAL CELL, 2022; 57 (9)
Aging men display reduced reproductive health; however, testis aging is poorly understood at the molecular and genomic levels. Here, we utilized singl......
期刊: DEVELOPMENTAL CELL, 2022; 57 (10)
Understanding the complex functions of plant leaves requires a thorough characterization of discrete cell features. Although single-cell gene expressi......
期刊: DEVELOPMENTAL CELL, 2022; 57 (20)
Plants have evolved signaling mechanisms that guide growth away from adverse environments that can cause yield losses. Root halotropism is a sodium-sp......
期刊: DEVELOPMENTAL CELL, 2022; 57 (10)
Drosophila has long been a successful model organism in multiple biomedical fields. Spatial gene expression patterns are critical for the understandin......
期刊: DEVELOPMENTAL CELL, 2022; 57 (15)
H2O2 affects the expression of genes that are involved in plant responses to diverse environmental stresses; however, the underlying mechanisms remain......
