Graham J Dow

Overview

Explore the profile of Graham J Dow including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 7

Citations 558

Followers 0

Related Specialties

Biology

Science

Top 10 Co-Authors

Dominique C Bergmann

Joseph A Berry

Timothy J Brodribb

John Ridgway

Madeline R Carins Murphy

Thijs J Hagenbeek

Minhong Yan

Sarah G Hymowitz

Michael T Raissig

Gregory J Jordan

Published In

New Phytol

Nature

Funct Plant Biol

AoB Plants

Front Plant Sci

Affiliations

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Recent Articles

Does stomatal patterning in amphistomatous leaves minimize the CO diffusion path length within leaves?

Watts J, Dow G, Buckley T, Muir C

AoB Plants . 2025 Feb; 16(2):plae015. PMID: 39906553

Photosynthesis is co-limited by multiple factors depending on the plant and its environment. These include biochemical rate limitations, internal and external water potentials, temperature, irradiance and carbon dioxide ( )....

From forests to farming: identification of photosynthetic limitations in breadfruit across diverse environments

Dow G, Lincoln N, Autufuga D, Paull R

Tree Physiol . 2025 Jan; 45(2). PMID: 39820701

Breadfruit (Artocarpus altilis (Parkinson) Fosberg) is a prolific tropical tree producing highly nutritious and voluminous carbohydrate-rich fruits. Already recognized as an underutilized crop of high potential, breadfruit could ameliorate food...

Editorial: Linking Stomatal Development and Physiology: From Stomatal Models to Non-model Species and Crops

McAdam S, Chater C, Shpak E, Raissig M, Dow G

Front Plant Sci . 2021 Oct; 12:743964. PMID: 34659313

No abstract available.

Vein density is independent of epidermal cell size in Arabidopsis mutants

Carins Murphy M, Dow G, Jordan G, Brodribb T

Funct Plant Biol . 2020 Jun; 44(4):410-418. PMID: 32480574

Densities of leaf minor veins and stomata are co-ordinated within and across vascular plants. This maximises the benefit-to-cost ratio of leaf construction by ensuring stomata receive the minimum amount of...

Disruption of stomatal lineage signaling or transcriptional regulators has differential effects on mesophyll development, but maintains coordination of gas exchange

Dow G, Berry J, Bergmann D

New Phytol . 2017 Aug; 216(1):69-75. PMID: 28833173

Stomata are simultaneously tasked with permitting the uptake of carbon dioxide for photosynthesis while limiting water loss from the plant. This process is mainly regulated by guard cell control of...

Patterning and processes: how stomatal development defines physiological potential

Dow G, Bergmann D

Curr Opin Plant Biol . 2014 Jul; 21:67-74. PMID: 25058395

Stomata present an excellent opportunity for connecting scientific disciplines: they are governed by complex genetic controls and unique cell biology, while also possessing a large influence over plant productivity and...

An integrated model of stomatal development and leaf physiology

Dow G, Bergmann D, Berry J

New Phytol . 2013 Nov; 201(4):1218-1226. PMID: 24251982

• Stomatal conductance (g(s)) is constrained by the size and number of stomata on the plant epidermis, and the potential maximum rate of g(s) can be calculated based on these...

The physiological importance of developmental mechanisms that enforce proper stomatal spacing in Arabidopsis thaliana

Dow G, Berry J, Bergmann D

New Phytol . 2013 Nov; 201(4):1205-1217. PMID: 24206523

• Genetic and cell biological mechanisms that regulate stomatal development are necessary to generate an appropriate number of stomata and enforce a minimum spacing of one epidermal cell between stomata....

Therapeutic antibody targeting of individual Notch receptors

Wu Y, Cain-Hom C, Choy L, Hagenbeek T, de Leon G, Chen Y, et al.

Nature . 2010 Apr; 464(7291):1052-7. PMID: 20393564

The four receptors of the Notch family are widely expressed transmembrane proteins that function as key conduits through which mammalian cells communicate to regulate cell fate and growth. Ligand binding...