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Sophie A. Harrington
Sophie A. Harrington
Postdoctoral Researcher, Babraham Institute
Verified email at babraham.ac.uk - Homepage
Title
Cited by
Cited by
Year
The transcriptional landscape of polyploid wheat
RH Ramírez-González, P Borrill, D Lang, SA Harrington, J Brinton, ...
Science 361 (6403), eaar6089, 2018
7682018
Potential for re-emergence of wheat stem rust in the United Kingdom
CM Lewis, A Persoons, DP Bebber, RN Kigathi, J Maintz, K Findlay, ...
Communications biology 1 (1), 13, 2018
1332018
Applying the latest advances in genomics and phenomics for trait discovery in polyploid wheat
P Borrill, SA Harrington, C Uauy
The Plant Journal 97 (1), 56-72, 2019
1082019
A roadmap for gene functional characterisation in crops with large genomes: lessons from polyploid wheat
NM Adamski, P Borrill, J Brinton, SA Harrington, C Marchal, AR Bentley, ...
Elife 9, e55646, 2020
104*2020
Identification of transcription factors regulating senescence in wheat through gene regulatory network modelling
P Borrill, SA Harrington, J Simmonds, C Uauy
Plant Physiology 180 (3), 1740-1755, 2019
882019
Genome-wide sequence and expression analysis of the NAC transcription factor family in polyploid wheat
P Borrill, SA Harrington, C Uauy
G3: Genes, Genomes, Genetics 7 (9), 3019-3029, 2017
642017
The wheat GENIE3 network provides biologically-relevant information in polyploid wheat
SA Harrington, AE Backhaus, A Singh, K Hassani-Pak, C Uauy
G3: Genes, Genomes, Genetics, 2020
31*2020
Conserved residues in the wheat (Triticum aestivum) NAM-A1 NAC domain are required for protein binding and when mutated lead to delayed peduncle and flag …
SA Harrington, LE Overend, N Cobo, P Borrill, C Uauy
BMC Plant Biology 19, 1-16, 2019
222019
Identification of a dominant chlorosis phenotype through a forward screen of the Triticum turgidum cv. Kronos TILLING population
SA Harrington, N Cobo, M Karafiátová, J Doležel, P Borrill, C Uauy
Frontiers in Plant Science 10, 471225, 2019
212019
A two-gene strategy increases iron and zinc concentrations in wheat flour, improving mineral bioaccessibility
SA Harrington, JM Connorton, NIM Nyangoma, R McNelly, YML Morgan, ...
Plant physiology 191 (1), 528-541, 2023
142023
A heat-shock inducible system for flexible gene expression in cereals
SA Harrington, AE Backhaus, S Fox, C Rogers, P Borrill, C Uauy, ...
Plant Methods 16, 1-16, 2020
72020
Genetic basis of historical pea mutants that hyper-accumulate iron
SA Harrington, M Franceschetti, J Balk
bioRxiv, 2023.06. 05.543728, 2023
12023
A two-gene strategy increases the iron and zinc concentration of wheat flour and improves mineral bioaccesibility for human nutrition. 2
SA Harrington, JM Connorton, NIM Nyangoma, R McNelly, YML Morgan, ...
12022
Genetic basis of the historical iron‐accumulating dgl and brz mutants in pea
SA Harrington, M Franceschetti, J Balk
The Plant Journal 117 (2), 590-598, 2024
2024
Identification of a dominant chlorosis phenotype through a forward screen of theTriticum turgidumcv. Kronos TILLING population
SA Harrington, N Cobo, M Karafiátová, J Doležel, P Borrill, C Uauy
2019
Understanding the molecular and genetic mechanisms regulating senescence in wheat.
S Harrington
University of East Anglia, 2019
2019
A forward genetics approach to identifying novel-senescence related genes in Triticum turgidum subsp. durum [Conference poster].
S Harrington, P Borrill, C Uauy
2017
Functional genomics approaches reveal the gene network regulating senescence in wheat [Conference poster].
P Borrill, R Ramirez-Gonzalez, S Harrington, C Uauy
2017
A beginner's guide to wheat: www. wheat-training. com [Conference poster].
P Borrill, J Brinton, NM Adamski, O Shorinola, C Marchal, S Harrington, ...
2017
Genome-wide sequence and expression analysis of the NAC transcription factor family in
P Borrill, SA Harrington, C Uauy
interaction 1 (268), 445, 2013
2013
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Articles 1–20