[HTML][HTML] Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model
OOM Iheshiulor, JA Woolliams, M Svendsen… - Genetics Selection …, 2017 - Springer
Background The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …
Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model.
OOM Iheshiulor, JA Woolliams, M Svendsen, T Solberg… - 2017 - cabidigitallibrary.org
Background: The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …
Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model
OOM Iheshiulor, JA Woolliams… - Genetics Selection …, 2017 - research.ed.ac.uk
BACKGROUND: The rapid adoption of genomic selection is due to two key factors:
availability of both high-throughput dense genotyping and statistical methods to estimate …
availability of both high-throughput dense genotyping and statistical methods to estimate …
Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model.
OOM Iheshiulor, JA Woolliams… - Genetics, Selection …, 2017 - europepmc.org
Background The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …
Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model.
OOM Iheshiulor, JA Woolliams… - Genetics Selection …, 2017 - search.ebscohost.com
Background: The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …
[PDF][PDF] Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model
O Iheshiulor, JA Woolliams, M Svendsen, TR Solberg… - 2017 - nmbu.brage.unit.no
Background: The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …
Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model
OOM Iheshiulor, JA Woolliams, M Svendsen… - Genetics Selection …, 2017 - hal.science
AbstractBackgroundThe rapid adoption of genomic selection is due to two key factors:
availability of both high-throughput dense genotyping and statistical methods to estimate …
availability of both high-throughput dense genotyping and statistical methods to estimate …
[PDF][PDF] Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model
OOM Iheshiulor, JA Woolliams, M Svendsen, T Solberg… - 2017 - pure.ed.ac.uk
Background: The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …
[PDF][PDF] Simultaneous fitting of genomic-BLUP and Bayes-C components in a genomic prediction model
OOM Iheshiulor, JA Woolliams, M Svendsen, T Solberg… - 2017 - core.ac.uk
Background: The rapid adoption of genomic selection is due to two key factors: availability of
both high-throughput dense genotyping and statistical methods to estimate and predict …
both high-throughput dense genotyping and statistical methods to estimate and predict …