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However, advances in molecular marker technologies and optimized phenotyping techniques aided in the identification of the major QTL Submergence tolerance 1 (Sub1) (Xu, Deb, and Mackill, 2004).
For this, high-throughput molecular marker technologies are needed.
The molecular marker technologies available since the 1980s allows dissecting the variation in traits.
Several field pea linkage maps have been previously developed with successive adoption of new molecular marker technologies [ 10, 12- 17].
In the last decade, a number of molecular marker technologies have been developed, including RAPD, AFLP, SSR and SNP.
Rapid advances in molecular marker technologies are revolutionizing the ways in which resistance can be manipulated in breeding programmes.
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More advanced biotechnology applications that may be of value are molecular marker technology and genetic engineering.
Since the advent of molecular marker technology, some quantitative trait loci (QTLs) for HI have been identified and mapped in rice.
The advancement of molecular marker technology has led to the development of genetic maps that make it possible to identify and locate genes or quantitative trait loci (QTLs) controlling quantitative characters.
Recent advances in molecular marker technology have enabled the dissection of the genetic basis of salinity tolerance to identify major-effect QTLs and their use in marker-assisted breeding to develop salinity-tolerant rice varieties (Munns 2005; Tuberosa and Salvi 2006; Passioura et al. 2007; Thomson et al. 2010, 2012; Thomson 2014; Hossain et al. 2015).
This paper summarized the latest research progress of molecular biology of flax, including molecular marker technology, construction of genetic map, gene engineering and omics researches, in order to provide the reference to understand the development and research status for flax molecular breeding researchers.
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molecular marker information
molecular discovery technologies
molecular breeding technologies
molecular analysis technologies
molecular marker proteins
molecular pathology technologies
molecular sequencing technologies
molecular combing technologies
molecular computing technologies
molecular marker genotypes
molecular imprinting technologies
molecular imaging technologies
molecular profiling technologies
molecular marker systems
molecular marker analyses
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