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Reactive oxygen species, nitric oxide and signal crosstalk (2009)
Book Chapter
Neill, S., Hancock, J. T., & Wilson, I. D. (2009). Reactive oxygen species, nitric oxide and signal crosstalk. In K. Yoshioka, & K. Shinozaki (Eds.), Signal Crosstalk in Plant Stress Responses (136-160). Iowa: Wiley-Blackwell

Fungal elicitor Pep-25 increases cytosolic calcium ions, H 2O2 production and activates the octadecanoid pathway in Arabidopsis thaliana (2009)
Journal Article
Hu, X., Neill, S., Yang, Y., & Cai, W. (2009). Fungal elicitor Pep-25 increases cytosolic calcium ions, H 2O2 production and activates the octadecanoid pathway in Arabidopsis thaliana. Planta, 229(6), 1201-1208. https://doi.org/10.1007/s00425-009-0909-3

Transgenic Arabidopsis thaliana plants expressing the protein aequorin were used to investigate the transient change in cytosolic calcium ions caused by stimulation through the fungal elicitor Pep-25. Our results show that the elicitor Pep-25 derived... Read More about Fungal elicitor Pep-25 increases cytosolic calcium ions, H 2O2 production and activates the octadecanoid pathway in Arabidopsis thaliana.

Tools to investigate reaction oxygen species-sensitive signaling proteins (2009)
Book Chapter
Desikan, R., Neill, S., Slinn, J., & Hancock, J. T. (2009). Tools to investigate reaction oxygen species-sensitive signaling proteins. In J. T. Hancock (Ed.), Redox-Mediated Signal Transduction (84-96). Humana Press. https://doi.org/10.1007/978-1-59745-129-1_7

The thiols groups of cysteine residues on proteins are attractive oxidative targets for modification by reactive oxygen species, such as hydrogen peroxide (H2O2). Such modification can lead to important cellular signaling processes that ultimately re... Read More about Tools to investigate reaction oxygen species-sensitive signaling proteins.

Differential requirement for NO during ABA-induced stomatal closure in turgid and wilted leaves (2009)
Journal Article
Harrison, J., Ribeiro, D. M., Desikan, R., Bright, J., Confraria, A., Hancock, J. T., …Wilson, I. D. (2009). Differential requirement for NO during ABA-induced stomatal closure in turgid and wilted leaves. Plant, Cell and Environment, 32(1), 46-57. https://doi.org/10.1111/j.1365-3040.2008.01906.x

Abscisic acid (ABA)-induced stomatal closure is mediated by a complex, guard cell signalling network involving nitric oxide (NO) as a key intermediate. However, there is a lack of information concerning the role of NO in the ABA-enhanced stomatal clo... Read More about Differential requirement for NO during ABA-induced stomatal closure in turgid and wilted leaves.

Role of nitric oxide in regulating stomatal apertures (2009)
Journal Article
Wilson, I. D., Ribeiro, D. M., Bright, J., Confraria, A., Harrison, J., Barros, R. S., …Hancock, J. T. (2009). Role of nitric oxide in regulating stomatal apertures. Plant Signaling and Behavior, 4(5), 467-469. https://doi.org/10.4161/psb.4.5.8545

During stomatal closure, nitric oxide (NO) operates as one of the key intermediates in the complex, abscisic acid (ABA)-mediated, guard cell signaling network that regulates this process. However, data concerning the role of NO in stomatal closure th... Read More about Role of nitric oxide in regulating stomatal apertures.