PGT_2024v15n4

1 Introduction	16
2 Positional Cloning of the MlWE74 Gene	17
2.1 Positional cloning strategy for the MlWE74 gen	17
2.2 Fine mapping based on high-density molecular m	17
2.3 Genome sequencing and genome-wide association	17
3 Functional Analysis of the MlWE74 Gene	17
3.1 Predicted function and encoded product of the	17
3.2 Expression patterns and regulatory mechanisms	18
3.3 Research on the disease resistance mechanism o	18
3.4 Gene knockout and overexpression experiments	18
4 Application of the MlWE74 Gene in Wheat Breeding	19
4.1 Marker-assisted selection breeding of the MlWE	19
4.2 Application of transgenic and gene editing tec	19
4.3 Innovative utilization of disease-resistant ge	19
5 Phenotypic Evaluation and Breeding Performance o	19
5.1 Field performance of wheat varieties resistant	19
5.2 Correlation analysis between disease resistanc	19
5.3 Successful cases in breeding programs	20
6 Interaction Between MlWE74 and Other Disease Res	21
6.1 Research on the interaction between MlWE74 and	21
6.2 Multi-gene pyramiding breeding strategy	21
6.3 Relationship between resistance durability and	21
7 Future Research Directions and Challenges	21
7.1 In-depth functional study of the MlWE74 gene	21
7.2 Addressing genetic complexity in disease resis	22
7.3 Global promotion and application of the MlWE74	22
8 Concluding Remarks	23
Abstract The study explored the utilization of var	26
2 Molecular Markers in Genomics	27
2.1 Definition and types of molecular markers	27
2.2 Evolution of molecular marker techniques	27
2.3 Advantages of using molecular markers in plant	27
3 Commonly Used Molecular Markers in Oryza Genomic	27
3.1 Simple sequence repeats (SSRs)	27
3.2 Single nucleotide polymorphisms (SNPs)	28
3.5 Comparative analysis of these markers in the c	28
4 Applications of Molecular Markers for Species Cl	29
4.1 Case studies of molecular markers used for cla	29
4.2 Comparative analysis of marker efficiency for	30
4.3 Limitations and challenges in species classifi	30
5 Case Studies	30
5.1 A Specific case of using ssr markers to constr	30
5.2 Case studies on phylogeny reconstruction using	30
5.3 Insights gained from phylogenetic studies in O	30
6 Advancements in Molecular Marker Technologies	31
6.1 Next-generation sequencing (NGS) and its impac	31
6.2 High-throughput genotyping platforms	31
6.3 Integration of multi-omics data for enhanced p	31
7 Future Directions in Molecular Marker Research f	31
7.1 Potential of CRISPR-based and other emerging m	31
7.2 Opportunities for integrating molecular marker	32
7.3 Challenges and prospects for future research i	32
8 Concluding Remarks	33
Abstract This study focuses on the application of	37

Made with FlippingBook

RkJQdWJsaXNoZXIy MjQ4ODYzMg==