Julian I Schroeder

Overview

Explore the profile of Julian I Schroeder including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 189

Citations 14662

Followers 0

Related Specialties

Biology

Cell Biology

Science

Top 10 Co-Authors

Yohei Takahashi

Felix Hauser

Hannes Kollist

Tomoaki Horie

Po-Kai Hsu

Rainer Waadt

June M Kwak

Shintaro Munemasa

Noriyuki Nishimura

Honghong Hu

Published In

Plant Physiol

Proc Natl Acad Sci U S A

Plant J

Plant Cell

New Phytol

Affiliations

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Recent Articles

Transcriptomic dynamics of ABA response in Brassica napus guard cells

Villiers F, Suhail Y, Lee J, Hauser F, Hwang J, Bader J, et al.

Stress Biol . 2024 Oct; 4(1):43. PMID: 39400760

Drought has a significant, negative impact on crop production; and these effects are poised to increase with climate change. Plants acclimate to drought and water stress through diverse physiological responses,...

Warming triggers stomatal opening by enhancement of photosynthesis and ensuing guard cell CO sensing, whereas higher temperatures induce a photosynthesis-uncoupled response

Pankasem N, Hsu P, Lopez B, Franks P, Schroeder J

New Phytol . 2024 Oct; 244(5):1847-1863. PMID: 39353606

Plants integrate environmental stimuli to optimize photosynthesis vs water loss by controlling stomatal apertures. However, stomatal responses to temperature elevation and the underlying molecular genetic mechanisms remain less studied. We...

CO2 response screen in grass Brachypodium reveals the key role of a MAP kinase in CO2-triggered stomatal closure

Lopez B, Ceciliato P, Takahashi Y, Rangel F, Salem E, Kernig K, et al.

Plant Physiol . 2024 May; 196(1):495-510. PMID: 38709683

Plants respond to increased CO2 concentrations through stomatal closure, which can contribute to increased water use efficiency. Grasses display faster stomatal responses than eudicots due to dumbbell-shaped guard cells flanked...

Land surface conductance linked to precipitation: Co-evolution of vegetation and climate in Earth system models

Franks P, Herold N, Bonan G, Oleson K, Dukes J, Huber M, et al.

Glob Chang Biol . 2024 Mar; 30(3):e17188. PMID: 38462677

Vegetation and precipitation are known to fundamentally influence each other. However, this interdependence is not fully represented in climate models because the characteristics of land surface (canopy) conductance to water...

Hydrotropism mechanisms and their interplay with gravitropism

Wexler Y, Schroeder J, Shkolnik D

Plant J . 2024 Feb; 118(6):1732-1746. PMID: 38394056

Plants partly optimize their water recruitment from the growth medium by directing root growth toward a moisture source, a phenomenon termed hydrotropism. The default mechanism of downward growth, termed gravitropism,...

Distinct guard cell-specific remodeling of chromatin accessibility during abscisic acid- and CO-dependent stomatal regulation

Seller C, Schroeder J

Proc Natl Acad Sci U S A . 2023 Dec; 120(52):e2310670120. PMID: 38113262

In plants, epidermal guard cells integrate and respond to numerous environmental signals to control stomatal pore apertures, thereby regulating gas exchange. Chromatin structure controls transcription factor (TF) access to the...

Zinc accumulation in Atriplex lentiformis is driven by plant genes and the soil microbiome

Kushwaha P, Tran A, Quintero D, Song M, Yu Q, Yu R, et al.

Sci Total Environ . 2023 Jul; 899:165667. PMID: 37478925

Successful phytoremediation of acidic metal-contaminated mine tailings requires amendments to condition tailings properties prior to plant establishment. This conditioning process is complex and includes multiple changes in tailings bio-physico-chemical properties....

Arabidopsis PLANT U-BOX44 down-regulates osmotic stress signaling by mediating Ca2+-DEPENDENT PROTEIN KINASE4 degradation

Fan W, Liao X, Tan Y, Wang X, Schroeder J, Li Z

Plant Cell . 2023 Jun; 35(10):3870-3888. PMID: 37338064

Calcium (Ca2+)-dependent protein kinases (CPKs) are essential regulators of plant responses to diverse environmental stressors, including osmotic stress. CPKs are activated by an increase in intracellular Ca2+ levels triggered by...

Distinct guard cell specific remodeling of chromatin accessibility during abscisic acid and CO dependent stomatal regulation

Seller C, Schroeder J

bioRxiv . 2023 May; PMID: 37215031

In plants, epidermal guard cells integrate and respond to numerous environmental signals to control stomatal pore apertures thereby regulating gas exchange. Chromatin structure controls transcription factor access to the genome,...

10.

A role for ethylene signaling and biosynthesis in regulating and accelerating CO - and abscisic acid-mediated stomatal movements in Arabidopsis

Azoulay-Shemer T, Schulze S, Nissan-Roda D, Bosmans K, Shapira O, Weckwerth P, et al.

New Phytol . 2023 Mar; 238(6):2460-2475. PMID: 36994603

Little is known about long-distance mesophyll-driven signals that regulate stomatal conductance. Soluble and/or vapor-phase molecules have been proposed. In this study, the involvement of the gaseous signal ethylene in the...