Forage Genetic Analysis

Forage Genetic Analysis

Forage-Genetic-Analysis-1

Grassland agriculture is highly dependent on a reliable source of forage as the primary feed base for ruminant livestock. Traditional breeding of forage plants has been based on natural genetic variation between or within ecotypes or genetic variation generated through sexual recombination. Advances in plant genetic manipulation over the past 15 years provide compelling evidence that it offers opportunities to enhance sources of useful genes for developing new cultivars and accelerating genetic improvement programs. Large-scale genome analyses of many organisms are underway, with human, Arabidopsis, and rice genome sequences complete. Forage plant breeding is just entering the genomic era. A large number of new technologies and tools for high-throughput gene discovery and genome-wide gene expression analysis are now providing opportunities for innovative applications for the identification, functional characterization, and use of valuable genes in forage production systems and other fields.

Solutions

Lifeasible is one of the world's leading companies specializing in forage research. We have cutting-edge new technologies and tools for high-throughput gene discovery and genome-wide expression analysis that provide opportunities for the identification, functional characterization, and innovative applications of valuable genes for forage production systems and beyond. Our following forage genetic analysis services are highly sought after by our clients worldwide.

  • High-Throughput Sequencing of Forage cDNA Libraries
  • We perform high-throughput sequencing of randomly selected cDNA library clones from multiple sources of forage grasses, providing over 100,000 expressed sequence tags (ESTs). We have applied ESTs-based forage plant arrays to molecular phenotyping. We are currently testing the integration of microarray data with conventional phenotypic selection methods currently used for temperate forage plant improvement.

  • Forage DNA Sequence Analysis
  • We provide Basic Local Alignment Search Tool (BLAST) analysis of forage DNA sequences and functional classification and clustering analysis to identify single gene sets of over 10,000 genes in forage grasses.

  • Screening for Sequences of Unknown Function in Forages
  • We develop high-density speckled cDNA microarrays of over 15,000 single gene sets as the primary screening tool for novel sequences of forage grasses of unknown function.

  • Forage Genome Sequencing
  • Our forage genome sequencing provides direct access to structural and functional aspects of protein-coding genes organized within forage plant chromosomes. In addition, based on forage genome sequencing, we also provide information on non-coding elements, including transposons and promoters, critical to understanding the evolution and diversification of forage grasses.

  • Comparative Sequence and Microarray Data Analysis
  • We perform comparative sequence and microarray data analysis of large amounts of ESTs data from different sources of forage grasses and legumes to help you gain insight into conserved and different aspects of forage grass and legume genome organization and function.

Based on our advanced molecular technologies and resources, including genetic mapping, trait profiling, comparative genomics, bioinformatics, gene discovery, and unique expertise in risk assessment. In addition, we also provide customized solutions for forage genetic analysis, including but not limited to the following:

For many years, Lifeasible has led the forage industry with innovative gene discovery, variety development, and cutting-edge technology. We provide comprehensive forage genetic analysis solutions to make adequate preparations for forage molecular breeding. We aim to develop forage species with enhanced cold tolerance, yield potential, performance, and pest protection. For more information or to discuss in detail, please contact us.

Reference

  1. Spangenberg G, Kalla R, Lidgett A, et al. (2021) Transgenesis and genomics in molecular breeding of forage plants[J].
For research or industrial raw materials, not for personal medical use!
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