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Plant responses to cold: transcriptome analysis of wheat (2010)
Journal Article
Winfield, M. O., Lu, C., Wilson, I. D., Coghill, J. A., & Edwards, K. J. (2010). Plant responses to cold: transcriptome analysis of wheat. Plant Biotechnology Journal, 8(7), 749-771. https://doi.org/10.1111/j.1467-7652.2010.00536.x

Temperature and light are important environmental stimuli that have a profound influence on the growth and development of plants. Wheat varieties can be divided on the basis of whether they require an extended period of cold to flower (vernalization)... Read More about Plant responses to cold: transcriptome analysis of wheat.

A proteomic analysis of oligo(dT)-bound mRNP containing oxidative stress-induced Arabidopsis thaliana RNA-binding proteins ATGRP7 and ATGRP8 (2010)
Journal Article
Schmidt, F., Marnef, A., Cheung, M. K., Wilson, I. D., Hancock, J. T., Staiger, D., & Ladomery, M. (2010). A proteomic analysis of oligo(dT)-bound mRNP containing oxidative stress-induced Arabidopsis thaliana RNA-binding proteins ATGRP7 and ATGRP8. Molecular Biology Reports, 37(2), 839-845. https://doi.org/10.1007/s11033-009-9636-x

Plants are highly adapted to respond to a range of environmental stresses commonly by altering their gene expression and metabolism as a result of cell signalling which may be mediated by reactive oxygen species. The glycine-rich RNA-binding proteins... Read More about A proteomic analysis of oligo(dT)-bound mRNP containing oxidative stress-induced Arabidopsis thaliana RNA-binding proteins ATGRP7 and ATGRP8.

Lipid peroxidation levels in soybean (Glycine max (L.) Merr.) seed parts as a consequence on imbibition stress (2009)
Journal Article
Lisjak, M., Wilson, I. D., Civale, L., Hancock, J. T., & Teklic, T. (2009). Lipid peroxidation levels in soybean (Glycine max (L.) Merr.) seed parts as a consequence on imbibition stress. Agriculture, 15, 32-37

High rainfall and rapid water uptake by dry seed after sowing in the field can result in so-called seed imbibitional damage. Here, lipid peroxidation levels were evaluated in seed testa, embryos and cotyledons of three soybean cultivars (Podravka 95,... Read More about Lipid peroxidation levels in soybean (Glycine max (L.) Merr.) seed parts as a consequence on imbibition stress.

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.

Cold- and light-induced changes in the transcriptome of wheat leading to phase transition from vegetative to reproductive growth (2009)
Journal Article
Edwards, K. J., Coghill, J. A., Winfield, M. O., Lu, C., & Wilson, I. D. (2009). Cold- and light-induced changes in the transcriptome of wheat leading to phase transition from vegetative to reproductive growth. BMC Plant Biology, 9(55), 1-14. https://doi.org/10.1186/1471-2229-9-55

Abstract. Background. For plants to flower at the appropriate time, they must be able to perceive and respond to various internal and external cues. Wheat is generally a long-day plant that will go through phase transition from vegetative to floral g... Read More about Cold- and light-induced changes in the transcriptome of wheat leading to phase transition from vegetative to reproductive growth.

SlTPR1, a tomato tetratricopeptide repeat protein, interacts with the ethylene receptors NR and LeETR1, modulating ethylene and auxin responses and development (2008)
Journal Article
Lin, Z., Arciga-Reyes, L., Zhong, S., Alexander, L., Hackett, R., Wilson, I., & Grierson, D. (2008). SlTPR1, a tomato tetratricopeptide repeat protein, interacts with the ethylene receptors NR and LeETR1, modulating ethylene and auxin responses and development. Journal of Experimental Botany, 59(15), 4271-4287. https://doi.org/10.1093/jxb/ern276

The gaseous hormone ethylene is perceived by a family of ethylene receptors which interact with the Raf-like kinase CTR1. SlTPR1 encodes a novel TPR (tetratricopeptide repeat) protein from tomato that interacts with the ethylene receptors NR and LeET... Read More about SlTPR1, a tomato tetratricopeptide repeat protein, interacts with the ethylene receptors NR and LeETR1, modulating ethylene and auxin responses and development.

Nitric oxide, stomatal closure, and abiotic stress (2008)
Journal Article
Ribeiro, D., Harrison, J., Neill, S., Barros, R. S., Bright, J., Desikan, R., …Wilson, I. D. (2008). Nitric oxide, stomatal closure, and abiotic stress. Journal of Experimental Botany, 59(2), 165-176. https://doi.org/10.1093/jxb/erm293

Various data indicate that nitric oxide (NO) is an endogenous signal in plants that mediates responses to several stimuli. Experimental evidence in support of such signalling roles for NO has been obtained via the application of NO, usually in the fo... Read More about Nitric oxide, stomatal closure, and abiotic stress.