All Outputs (11)

Barley TAPETAL DEVELOPMENT and FUNCTION1 (HvTDF1) gene reveals conserved and unique roles in controlling anther tapetum development in dicot and monocot plants (2023)
Journal Article
Hua, M., Yin, W., Fernández Gómez, J., Tidy, A., Xing, G., Zong, J., …Wilson, Z. A. (2023). Barley TAPETAL DEVELOPMENT and FUNCTION1 (HvTDF1) gene reveals conserved and unique roles in controlling anther tapetum development in dicot and monocot plants. New Phytologist, 240(1), 173-190. https://doi.org/10.1111/nph.19161

The anther tapetum helps control microspore release and essential components for pollen wall formation. TAPETAL DEVELOPMENT and FUNCTION1 (TDF1) is an essential R2R3 MYB tapetum transcription factor in Arabidopsis thaliana; however, little is known a... Read More about Barley TAPETAL DEVELOPMENT and FUNCTION1 (HvTDF1) gene reveals conserved and unique roles in controlling anther tapetum development in dicot and monocot plants.

Sporophytic control of pollen meiotic progression is mediated by tapetum expression of ABORTED MICROSPORES (2022)
Journal Article
Tidy, A. C., Ferjentsikova, I., Vizcay-Barrena, G., Liu, B., Yin, W., Higgins, J. D., …Wilson, Z. A. (2022). Sporophytic control of pollen meiotic progression is mediated by tapetum expression of ABORTED MICROSPORES. Journal of Experimental Botany, 73(16), 5543-5558. https://doi.org/10.1093/jxb/erac225

Pollen development is dependent on the tapetum, a sporophytic anther cell layer surrounding the microspores that functions in pollen wall formation but is also essential for meiosis-associated development. There is clear evidence of crosstalk and co-... Read More about Sporophytic control of pollen meiotic progression is mediated by tapetum expression of ABORTED MICROSPORES.

Auxin export from proximal fruits drives arrest in temporally competent inflorescences (2020)
Journal Article
Walker, C. H., Ware, A., Walker, C. H., Šimura, J., González-Suárez, P., Ljung, K., …Bennett, T. (2020). Auxin export from proximal fruits drives arrest in temporally competent inflorescences. Nature Plants, 6, 699–707. https://doi.org/10.1038/s41477-020-0661-z

© 2020, The Author(s), under exclusive licence to Springer Nature Limited. A well-defined set of regulatory pathways control entry into the reproductive phase in flowering plants, but little is known about the mechanistic control of the end-of-flower... Read More about Auxin export from proximal fruits drives arrest in temporally competent inflorescences.

Yielding to the image: how phenotyping reproductive growth can assist crop improvement and production (2018)
Journal Article
Dreccer, M. F., Molero, G., Rivera-Amado, C., John-Bejai, C., & Wilson, Z. (in press). Yielding to the image: how phenotyping reproductive growth can assist crop improvement and production. Plant Science, https://doi.org/10.1016/j.plantsci.2018.06.008

Reproductive organs are the main reason we grow and harvest most plant species as crops, yet they receive less attention from phenotyping due to their complexity and inaccessibility for analysis. This review highlights recent progress towards the qua... Read More about Yielding to the image: how phenotyping reproductive growth can assist crop improvement and production.

Dissecting the role of MADS-box genes in monocot floral development and diversity (2018)
Journal Article
Callens, C., Tucker, M. R., Zhang, D., & Wilson, Z. (2018). Dissecting the role of MADS-box genes in monocot floral development and diversity. Journal of Experimental Botany, 69(10), 2435-2459. https://doi.org/10.1093/jxb/ery086

Many monocot plants have high social and economic value. These include grasses such as rice (Oryza sativa), wheat (Triticum aestivum) and barley (Hordeum vulgare), which produce soft commodities for many food and beverage industries, and ornamental f... Read More about Dissecting the role of MADS-box genes in monocot floral development and diversity.

RiceAntherNet: a gene co-expression network for identifying anther and pollen development genes (2017)
Journal Article
Lin, H., Yu, J., Pearce, S., Zhang, D., & Wilson, Z. A. (2017). RiceAntherNet: a gene co-expression network for identifying anther and pollen development genes. Plant Journal, 92(6), https://doi.org/10.1111/tpj.13744

In plants, normal anther and pollen development involves many important biological events and complex molecular regulatory coordination. Understanding gene regulatory relationships during male reproductive development is essential for fundamental bio... Read More about RiceAntherNet: a gene co-expression network for identifying anther and pollen development genes.

Transcription factor MYB26 is key to spatial specificity in anther secondary thickening formation (2017)
Journal Article
Yang, C., Song, J., Ferguson, A. C., Klisch, D., Simpson, K., Mo, R., …Wilson, Z. A. (2017). Transcription factor MYB26 is key to spatial specificity in anther secondary thickening formation. Plant Physiology, 175(1), https://doi.org/10.1104/pp.17.00719

Successful fertilization relies on the production and effective release of viable pollen. Failure of anther opening (dehiscence), results in male sterility, although the pollen may be fully functional. MYB26 regulates the formation of secondary thick... Read More about Transcription factor MYB26 is key to spatial specificity in anther secondary thickening formation.

Non-destructive determination of floral staging in cereals using X-ray micro computed tomography (µCT) (2017)
Journal Article
Tracy, S. R., Gómez, J. F., Sturrock, C., Wilson, Z. A., & Ferguson, A. (2017). Non-destructive determination of floral staging in cereals using X-ray micro computed tomography (µCT). Plant Methods, 13(1), https://doi.org/10.1186/s13007-017-0162-x

Background Accurate floral staging is required to aid research into pollen and flower development, in particular male development. Pollen development is highly sensitive to stress and is critical for crop yields. Research into male development under... Read More about Non-destructive determination of floral staging in cereals using X-ray micro computed tomography (µCT).

Conferred resistance to Botrytis cinerea in Lilium by overexpression of the RCH10 chitinase gene (2015)
Journal Article
Núñez de Cáceres González, F., Davey, M. R., Cancho Sánchez, E., & Wilson, Z. A. (2015). Conferred resistance to Botrytis cinerea in Lilium by overexpression of the RCH10 chitinase gene. Plant Cell Reports, 34(7), https://doi.org/10.1007/s00299-015-1778-9

The production of ornamentals is an important global industry, with Lilium being one of the six major bulb crops in the world. The international trade in ornamentals is in the order of £60-75 billion and is expected to increase worldwide by 2-4 % per... Read More about Conferred resistance to Botrytis cinerea in Lilium by overexpression of the RCH10 chitinase gene.

FlowerNet: a gene expression correlation metwork for anther and pollen development (2015)
Journal Article
Pearce, S., Ferguson, A., King, J., & Wilson, Z. A. (2015). FlowerNet: a gene expression correlation metwork for anther and pollen development. Plant Physiology, 167(4), https://doi.org/10.1104/pp.114.253807

Floral formation, in particular anther and pollen development, is a complex biological process with critical importance for seed set and for targeted plant breeding. Many key transcription factors regulating this process have been identified; however... Read More about FlowerNet: a gene expression correlation metwork for anther and pollen development.

Aborted microspores acts as a master regulator of pollen wall formation in Arabidopsis (2014)
Journal Article
Xu, J., Ding, Z., Vizcay-Barrena, G., Shi, J., Liang, W., Yuan, Z., …Zhang, D. (2014). Aborted microspores acts as a master regulator of pollen wall formation in Arabidopsis. Plant Cell, 26(4), https://doi.org/10.1105/tpc.114.122986

Mature pollen is covered by durable cell walls, principally composed of sporopollenin, an evolutionary conserved, highly resilient, but not fully characterized, biopolymer of aliphatic and aromatic components. Here, we report that ABORTED MICROSPORES... Read More about Aborted microspores acts as a master regulator of pollen wall formation in Arabidopsis.