Opinion Exploiting genomics to improve the benefits of wheat: Prospects and limitations

[1]  Robert P. Davey,et al.  Evolution of the bread wheat D-subgenome and enriching it with diversity from Aegilops tauschii , 2021, bioRxiv.

[2]  M. Beaumont,et al.  The role of gene flow and chromosomal instability in shaping the bread wheat genome , 2021, Nature Plants.

[3]  Bernardo J. Clavijo,et al.  Multiple wheat genomes reveal global variation in modern breeding , 2020, Nature.

[4]  J. Poland,et al.  Genomic Selection for Grain Yield in the CIMMYT Wheat Breeding Program—Status and Perspectives , 2020, Frontiers in Plant Science.

[5]  A. Lovegrove,et al.  Strategies to improve wheat for human health , 2020, Nature Food.

[6]  P. Borrill,et al.  Applying genomic resources to accelerate wheat biofortification , 2020, Heredity.

[7]  P. Sharp,et al.  Improving wheat as a source of iron and zinc for global nutrition , 2019, Nutrition bulletin.

[8]  V. K. Mishra,et al.  Genetic dissection of grain zinc concentration in spring wheat for mainstreaming biofortification in CIMMYT wheat breeding , 2018, Scientific Reports.

[9]  Jonathan D. G. Jones,et al.  Shifting the limits in wheat research and breeding using a fully annotated reference genome , 2018, Science.

[10]  J. Li,et al.  Medicine is not health care, food is health care: plant metabolic engineering, diet and human health. , 2017, The New phytologist.

[11]  K. Edwards,et al.  Wheat Landrace Genome Diversity , 2017, Genetics.

[12]  Leah Clissold,et al.  Uncovering hidden variation in polyploid wheat , 2017, Proceedings of the National Academy of Sciences.

[13]  K. Edwards,et al.  A step change in the transfer of interspecific variation into wheat from Amblyopyrum muticum , 2016, Plant biotechnology journal.

[14]  J. Poland,et al.  Wheat quality improvement at CIMMYT and the use of genomic selection on it , 2016, Applied & translational genomics.

[15]  S. Griffiths,et al.  Application of a library of near isogenic lines to understand context dependent expression of QTL for grain yield and adaptive traits in bread wheat , 2016, BMC Plant Biology.

[16]  Keith A. Gardner,et al.  A highly recombined, high‐density, eight‐founder wheat MAGIC map reveals extensive segregation distortion and genomic locations of introgression segments , 2016, Plant biotechnology journal.

[17]  Teresa A. Webster,et al.  High‐density SNP genotyping array for hexaploid wheat and its secondary and tertiary gene pool , 2015, Plant biotechnology journal.

[18]  J. Dubcovsky,et al.  A NAC Gene Regulating Senescence Improves Grain Protein, Zinc, and Iron Content in Wheat , 2006, Science.