MPB_2025v16n2

3 Transcriptional Regulation under Water Deficit	5
2 Application of Doubled Haploid Breeding in Disea	45
2.1 Principles and development of dh breeding tech	45
2.2 DH induction and doubling process	45
2.3 Advantages of DH breeding	45
3 Role of Germplasm Innovation in Disease-Resistan	45
3.1 Sources and methods of germplasm innovation	45
3.2 Germplasm innovation for disease resistance tr	46
3.3 Successful cases of germplasm innovation in ma	46
4 Breeding Strategies Integrating DH Breeding and	47
4.1 Strategies for integrating germplasm innovatio	47
4.2 Process for rapid selection of disease-resista	47
4.3 Doubling and propagation of disease-resistant	47
4.4 Successful cases of integrating disease-resist	47
5 Case Study: Application of Integrated DH Breedin	47
5.1 Case study on resistance breeding for southern	47
5.2 Case study on resistance breeding for northern	48
5.3 Case study on breeding for multi-disease resis	48
6 Advantages and Limitations of the Integrated Str	48
6.1 Advantages of the integrated breeding strategy	48
6.2 Limitations in technology and resources	49
6.3 Solutions and technology optimization	49
7 Future Research Directions and Application Prosp	49
7.1 Development of efficient haploid induction tec	49
7.2 Application of gene editing in disease-resista	50
7.3 Global collaboration and germplasm resource sh	50
8 Concluding Remarks	51

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