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Philipp E. Bayer
Philipp E. Bayer
Verified email at uwa.edu.au - Homepage
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Cited by
Cited by
Year
Early allopolyploid evolution in the post-Neolithic Brassica napus oilseed genome
B Chalhoub, F Denoeud, S Liu, IAP Parkin, H Tang, X Wang, J Chiquet, ...
science 345 (6199), 950-953, 2014
19002014
Shifting the limits in wheat research and breeding using a fully annotated reference genome
International Wheat Genome Sequencing Consortium (IWGSC), R Appels, ...
Science 361 (6403), eaar7191, 2018
18892018
The transcriptional landscape of polyploid wheat
RH Ramírez-González, P Borrill, D Lang, SA Harrington, J Brinton, ...
Science 361 (6403), eaar6089, 2018
5602018
The pangenome of an agronomically important crop plant Brassica oleracea
AA Golicz, PE Bayer, GC Barker, PP Edger, HR Kim, PA Martinez, ...
Nature communications 7 (1), 13390, 2016
3392016
The pangenome of hexaploid bread wheat
JD Montenegro, AA Golicz, PE Bayer, B Hurgobin, HT Lee, CKK Chan, ...
The Plant Journal 90 (5), 1007-1013, 2017
3022017
A reference genome for pea provides insight into legume genome evolution
J Kreplak, MA Madoui, P Cápal, P Novák, K Labadie, G Aubert, PE Bayer, ...
Nature genetics 51 (9), 1411-1422, 2019
2672019
Plant pan-genomes are the new reference
PE Bayer, AA Golicz, A Scheben, J Batley, D Edwards
Nature plants 6 (8), 914-920, 2020
2452020
Homoeologous exchange is a major cause of gene presence/absence variation in the amphidiploid Brassica napus
B Hurgobin, AA Golicz, PE Bayer, CKK Chan, S Tirnaz, A Dolatabadian, ...
Plant biotechnology journal 16 (7), 1265-1274, 2018
1932018
A comprehensive draft genome sequence for lupin (Lupinus angustifolius), an emerging health food: insights into plant–microbe interactions and legume evolution
JK Hane, Y Ming, LG Kamphuis, MN Nelson, G Garg, CA Atkins, PE Bayer, ...
Plant biotechnology journal 15 (3), 318-330, 2017
1732017
Climate change and the need for agricultural adaptation
R Anderson, PE Bayer, D Edwards
Current opinion in plant biology 56, 197-202, 2020
1442020
Assembly and comparison of two closely related Brassica napus genomes
PE Bayer, B Hurgobin, AA Golicz, CKK Chan, Y Yuan, HT Lee, M Renton, ...
Plant biotechnology journal 15 (12), 1602-1610, 2017
1402017
Pangenomics comes of age: from bacteria to plant and animal applications
AA Golicz, PE Bayer, PL Bhalla, J Batley, D Edwards
Trends in Genetics 36 (2), 132-145, 2020
1092020
OpenSNP–a crowdsourced web resource for personal genomics
B Greshake, PE Bayer, H Rausch, J Reda
PloS one 9 (3), e89204, 2014
882014
Variation in abundance of predicted resistance genes in the Brassica oleracea pangenome
PE Bayer, AA Golicz, S Tirnaz, CKK Chan, D Edwards, J Batley
Plant Biotechnology Journal 17 (4), 789-800, 2019
872019
Construction and comparison of three reference‐quality genome assemblies for soybean
B Valliyodan, SB Cannon, PE Bayer, S Shu, AV Brown, L Ren, J Jenkins, ...
The Plant Journal 100 (5), 1066-1082, 2019
802019
Adapting legume crops to climate change using genomic approaches
M Mousavi‐Derazmahalleh, PE Bayer, JK Hane, B Valliyodan, ...
Plant, Cell & Environment 42 (1), 6-19, 2019
772019
Improvements in genomic technologies: application to crop genomics
Y Yuan, PE Bayer, J Batley, D Edwards
Trends in Biotechnology 35 (6), 547-558, 2017
732017
Characterization of disease resistance genes in the Brassica napus pangenome reveals significant structural variation
A Dolatabadian, PE Bayer, S Tirnaz, B Hurgobin, D Edwards, J Batley
Plant biotechnology journal 18 (4), 969-982, 2020
722020
High resolution skim genotyping by sequencing reveals the distribution of crossovers and gene conversions in chickpea and canola
PE Bayer, P Ruperao, A Mason, J Stiller, CKK Chan, S Hayashi, Y Long, ...
Theoretical and Applied Genetics 128, 1039–1047, 2015
72*2015
Plant pangenomics: approaches, applications and advancements
MF Danilevicz, CGT Fernandez, JI Marsh, PE Bayer, D Edwards
Current opinion in plant biology 54, 18-25, 2020
682020
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