Genomic selection: A tool for accelerating the efficiency of molecular breeding for development of climate-resilient crops
Since the inception of the theory and conceptual framework of genomic selection (GS),
extensive research has been done on evaluating its efficiency for utilization in crop …
extensive research has been done on evaluating its efficiency for utilization in crop …
[HTML][HTML] Integrated genomic selection for rapid improvement of crops
An increase in the rate of crop improvement is essential for achieving sustained food
production and other needs of ever-increasing population. Genomic selection (GS) is a …
production and other needs of ever-increasing population. Genomic selection (GS) is a …
Plant breeding for harmony between sustainable agriculture, the environment, and global food security: an era of genomics‐assisted breeding
Main conclusion Genomics-assisted breeding represents a crucial frontier in enhancing the
balance between sustainable agriculture, environmental preservation, and global food …
balance between sustainable agriculture, environmental preservation, and global food …
Performance of Bayesian and BLUP alphabets for genomic prediction: analysis, comparison and results
We evaluated the performances of three BLUP and five Bayesian methods for genomic
prediction by using nine actual and 54 simulated datasets. The genomic prediction accuracy …
prediction by using nine actual and 54 simulated datasets. The genomic prediction accuracy …
Genomic selection for target traits in the Australian lentil breeding program
A Gebremedhin, Y Li, ASK Shunmugam… - Frontiers in Plant …, 2024 - frontiersin.org
Genomic selection (GS) uses associations between markers and phenotypes to predict the
breeding values of individuals. It can be applied early in the breeding cycle to reduce the …
breeding values of individuals. It can be applied early in the breeding cycle to reduce the …
Genomics‐assisted lentil breeding: Current status and future strategies
Genomics‐assisted breeding has become a powerful tool to develop high‐yielding climate‐
resilient varieties for adaptation to adverse environmental conditions such as heat and …
resilient varieties for adaptation to adverse environmental conditions such as heat and …
Advances in genomic tools for plant breeding: harnessing DNA molecular markers, genomic selection, and genome editing
Conventional pre-genomics breeding methodologies have significantly improved crop yields
since the mid-twentieth century. Genomics provides breeders with advanced tools for whole …
since the mid-twentieth century. Genomics provides breeders with advanced tools for whole …
Wheat omics: advancements and opportunities
Plant omics, which includes genomics, transcriptomics, metabolomics and proteomics, has
played a remarkable role in the discovery of new genes and biomolecules that can be …
played a remarkable role in the discovery of new genes and biomolecules that can be …
Intelligent characterization of lentil genetic resources: evolutionary history, genetic diversity of germplasm, and the need for well‐represented collections
The genetic and phenotypic characterization of crops allows us to elucidate their
evolutionary and domestication history, the genetic basis of important traits, and the use of …
evolutionary and domestication history, the genetic basis of important traits, and the use of …
Harnessing genetic diversity in the USDA pea germplasm collection through genomic prediction
Phenotypic evaluation and efficient utilization of germplasm collections can be time-
intensive, laborious, and expensive. However, with the plummeting costs of next-generation …
intensive, laborious, and expensive. However, with the plummeting costs of next-generation …