Time-series transcriptomics reveals that AGAMOUS-LIKE22 affects primary metabolism and developmental processes in drought-stressed arabidopsis

Bechtold, U.; Penfold, C.A.; Jenkins, D.J.; Legaie, R.; Moore, J.D.; Lawson, T.; Matthews, J.S.A.; Vialet-Chabrand, S.R.M.; Baxter, L.; Subramaniam, S.; Hickman, R.; Florance, H.; Sambles, C.; Salmon, D.L.; Feil, R.; Bowden, L.; Hill, C.; Baker, N.R.; Lunn, J.E.; Finkenstädt, B.; Mead, A.; Buchanan-Wollaston, V.; Beynon, J.; Rand, D.A.; Wild, D.L.; Denby, K.J.; Ott, S.; Smirnoff, N.; Mullineaux, P.M.

doi:10.1105/tpc.15.00910

Time-series transcriptomics reveals that AGAMOUS-LIKE22 affects primary metabolism and developmental processes in drought-stressed arabidopsis

Bechtold, U.; Penfold, C.A.; Jenkins, D.J.; Legaie, R.; Moore, J.D.; Lawson, T.; Matthews, J.S.A.; Vialet-Chabrand, S.R.M.; Baxter, L.; Subramaniam, S.; Hickman, R.; Florance, H.; Sambles, C.; Salmon, D.L.; Feil, R.; Bowden, L.; Hill, C.; Baker, N.R.; Lunn, J.E.; Finkenstädt, B.; Mead, A.; Buchanan-Wollaston, V.; Beynon, J.; Rand, D.A.; Wild, D.L.; Denby, K.J.; Ott, S.; Smirnoff, N.; Mullineaux, P.M.

Authors

Dr Ulrike Bechtold ulrike.bechtold@durham.ac.uk
Associate Professor

C.A. Penfold

D.J. Jenkins

R. Legaie

J.D. Moore

T. Lawson

J.S.A. Matthews

S.R.M. Vialet-Chabrand

L. Baxter

S. Subramaniam

R. Hickman

H. Florance

C. Sambles

D.L. Salmon

R. Feil

L. Bowden

C. Hill

N.R. Baker

J.E. Lunn

B. Finkenstädt

A. Mead

V. Buchanan-Wollaston

J. Beynon

D.A. Rand

D.L. Wild

K.J. Denby

S. Ott

N. Smirnoff

P.M. Mullineaux

Citation

Bechtold, U., Penfold, C., Jenkins, D., Legaie, R., Moore, J., Lawson, T., …Mullineaux, P. (2015). Time-series transcriptomics reveals that AGAMOUS-LIKE22 affects primary metabolism and developmental processes in drought-stressed arabidopsis. The Plant Cell, 28(2), 345-366. https://doi.org/10.1105/tpc.15.00910

Journal Article Type	Article
Publication Date	2015
Deposit Date	Aug 1, 2022
Journal	Plant Cell
Print ISSN	1040-4651
Publisher	Oxford University Press
Volume	28
Issue	2
Pages	345-366
DOI	https://doi.org/10.1105/tpc.15.00910
Public URL	https://durham-repository.worktribe.com/output/1196408

A peptide methionine sulfoxide reductase highly expressed in photosynthetic tissue in Arabidopsis thaliana can protect the chaperone-like activity of a chloroplast-localized small heat shock protein (2002)
Journal Article

Imaging the production of singlet oxygen in vivo using a new fluorescent sensor, Singlet Oxygen Sensor Green® (2006)
Journal Article

Light-induced responses of oxygen photoreduction, reactive oxygen species production and scavenging in two diatom species (2010)
Journal Article

Evidence for a direct link between glutathione biosynthesis and stress defense gene expression in arabidopsis W inside a box sign (2004)
Journal Article

C3 photosynthesis in the desert plant Rhazya stricta is fully functional at high temperatures and light intensities (2014)
Journal Article

Downloadable Citations

HTML

BIB

RTF

Authors

Citation

You might also like

Downloadable Citations