tailieunhanh - Modernization in plant breeding approaches for improving biotic stress resistance in crop plants

Biotic stresses are a potential threat to global food security. The origin of new pathogens and insect races due to climatic and genetic factors is a major challenge for plant breeders in breeding biotic stress resistant crops. | Turkish Journal of Agriculture and Forestry Review Article Turk J Agric For (2015) 39: 515-530 © TÜBİTAK doi: Modernization in plant breeding approaches for improving biotic stress resistance in crop plants Babar HUSSAIN* Department of Plant Breeding and Genetics, University of Agriculture, Faisalabad, Pakistan Received: Accepted: Published Online: Printed: Abstract: Biotic stresses are a potential threat to global food security. The origin of new pathogens and insect races due to climatic and genetic factors is a major challenge for plant breeders in breeding biotic stress resistant crops. Yield losses due to biotic stresses have resulted in 800 million people underfed in the world. Reduced yield due to biotic stresses and increasing food demand put international food security at risk as 70% more food will be required in 2050. This review describes and compares the conventional and molecular genetics methods being used for breeding biotic stress resistant crops. In the past, classical breeding approaches like introduction, hybridization, composite crossing, multiline, and backcross breeding were utilized for this purpose. However, these methods were slow, expensive, and hectic for developing resistance in crops. Furthermore, breakdown of resistance due to fast evolving pathogens could not be coped with using these time consuming methods. Therefore, molecular genetics approaches like mutation, marker assisted selection (MAS), genomics, recombinant DNA technology, targeted induced local lesions in genome (TILLING), and virus induced gene silencing (VIGS) were adapted by breeders to develop effective resistance in crop plants in a shorter time. TILLING, being a nontransgenic method, is expected to become the most powerful tool for this purpose. Key words: Gene pyramiding, MAS, QTLs, TILLING, transgenic, VIGS List of Abbreviations: MAS: marker assisted .

• Nông nghiệp
• Gene pyramiding
• Biotic stresses
• Resistant crops
• Targeted induced local lesions in genome
• Plant breeders
• BMC Genetics
• Plant breeding
• Marker assisted gene pyramiding
• Multi objective optimization
• Explicit heuristic approach
• Gall midge resistance
• Markerassisted selection
• Popular rice variety
• Gallmidge resistance genes in Kavya
• Markers assisted selection
• Journal of Botany
• Multiple ectopic gene expression
• Salt stress
• Sodium/proton antiporter
• Osmotic stress
• Triticum aestivum L
• Leaf rust
• Resistance genes
• Molecular markers
• Background of wheat variety DWR 162
• Bacterial leaf blight
• Marker assisted selection
• Xanthomonas oryzae pv oryzae
• Nutri cereals
• Climate resilient
• QTL mapping
• Marker assisted back crossing
• Genetic engineering
• Plant Biology
• Breeding strategy
• Capsicum spp
• Meloidogyne spp
• Resistance gene deployment
• Root knot nematodes
• Sustainable crop protection
• Virulence emergence
• BMC Bioinformatics
• Increasingly diverse range
• Plant breeding programmes
• Physiological traits
• Antioxidant capacity
• Ascorbic acid
• Hippophae rhamnoides
• Buckthorn fruits
• Single nucleotide polymorphisms
• Food security
• Substantial yield increases
• Human consumption
• Fundamental importance
• BMC Genomics
• Fertility restorer
• RNA sequencing
• Cytoplasmic male sterility
• Nuclear genes
• Genetic diversity
• Inter simple sequence repeats
• Sequence related amplified polymorphism
• Yield of soybean
• Genetic variability
• Genetic advance in bitter gourd
• Bitter gourd
• Genetic advance of bitter gourd
• Great interest to plant breeders