Recent Posts

Review. Multicellular systems biology: Applying network science to plant organ patterning and function (Mol Plant)

I really enjoyed this review article, which very successfully introduces the reader to the why and how of how to apply network science to plant science. Bassel never veers off into abstraction or “math-speak”, but instead roots his explanations in familiar biological or ordinary terms. As an example,…

EXPANSIN A1-mediated radial swelling of pericycle cells positions anticlinal cell divisions during lateral root initiation ($) (PNAS)

Lateral root development helps plants explore the soil for mineral nutrients and water, and there are environmental and internal cues that precede the formation of lateral root primordia. In Arabidopsis thaliana, some of these internal cues include increased auxin concentrations around lateral root founder…

Moonlighting activities and control of meristem maintenance in maize ($) (Nature Plants)

The phosphorylated disaccharide trehalose 6-phosphate (T6P) is a regulator of meristem fate. Mutations in enzymes related to T6P metabolism (such as TPS, the synthase, or the phosphatase trehalose 6-phosphate phosphatase TPP, i.e., RAMOSA3 that dephosphorylates T6P to trehalose), are linked to defects…

Review: Tackling plant phosphate starvation by the roots (Devel. Cell)

The root is remarkably responsive to nutrient status of both the local environment and the whole plant. These external and internal factors affect the expression of transporters, interactions with mycorrhizal symbionts and also the overall pattern of growth and development of the root system. In this…

High-temporal-resolution transcriptome landscape of early maize seed development (Plant Cell)

Seeds determine the yield and quality of the plants. In maize, seed development initiates from a double fertilization event where one pollen sperm fuses with the egg and the other with the central cell of female gametophyte to produce the progenitors of embryo and endosperm, respectively. The embryo…

Single-cell RNA sequencing reveals developmental trajectories of Arabidopsis root cells

New advances in sequencing technologies have made possible the understanding of the dynamics of developmental processes in an unprecedented manner. In a recent study, Denyer, Ma, et al. profiled nearly 5,000 cells from Arabidopsis roots using single-cell RNA sequencing technology. Gene expression profiles…

Control of proliferation in the haploid meristem by CLE peptide signaling in Marchantia polymorpha (PLOS Genetics)

The peptide/hormones CLE (CLAVATA3/EMBRYO SURROUNDING REGION-related) and their receptors are a fascinating cell signal system that regulates meristems activity in angiosperms and is crucial for the establishment of 3D forms. How this system works in bryophytes is very relevant to understand its evolution…

How Does Light Cause Arabidopsis Cotyledons to Open?

Dong et al. investigate cotyledon-specific light-regulated gene expression in Arabidopsis. The Plant Cell (2019). https://doi.org/10.1105/tpc.18.00803  By J. Dong, N. Sun, J. Yang, Z. Deng, J. Lan, G. Qin, H. He, X. W. Deng, V. F. Irish, H. Chen, and N. Wei Background: When germinating in darkness…

The lateral root cap acts as an auxin sink that controls meristem size (Curr Biol)

During root growth, cellular activities need to be coordinated across tissues. Mambro et al. have identified molecular mechanisms involved in root apical meristem maintenance by auxin homeostasis regulation in lateral root cap (LRC) cells. The cytokinin response regulator ARR1 regulates expression of…