A series of transgenic restorer lin

A series of transgenic restorer lines and hybrid combinations with high yield and good quality have been approved for large scale pre-productive trials and are now in the process of rigorous and overall biosafety assessment which is the last step before commercialization. In the future, if these engineered Bt rice varieties are approved for commercialization, small and poor farm households will benefit from higher yields of rice. At the same time, reduction of chemical pesticide usage will contribute to improved health (Huang et al., 2005). A group of Chinese agro-economists estimated that approximately $40 billion worth of benefits will result by 2010 (Huang, personal communication).
3.3.3. Bt poplar
With seven million hectares of poplar, Populus nigra, planted, China has the largest area of poplars in the world ( Lu and Hu, 2006). Poplar is one of the most important forest trees, and is attacked by various foliage-eating lepidopteran pests including poplar loopers, Lygris populata and Ectropis crepuscularia, gypsy moth, Porthetria dispar, poplar caterpillar, Clostera anachoreta, and fall webworm, Hyphantria cunea. Pest control with chemical pesticides was not only costly but also causes serious environmental pollution. It was shown that two species of transgenic poplar, N12, P. nigra, and Hybrid 741, Populus tomentosa, harboring the cry1Ac gene and the cry1Ac gene stacked with the Api (arrowhead proteinase inhibitor) gene, respectively, were highly resistant to the poplar pests listed above. Mortality averaged 85–100% in laboratory bioassays and field trials ( Tian et al., 1993). These two species of poplar were approved for commercial planting in 2002. A large system of poplar molecular breeding has now been established and several new engineered varieties of Bt poplar are under development ( Lu and Hu, 2006).
3.3.4. Other Bt plants
In order to improve insecticidal efficacy to control corn borer, O. furnacali, a modified cry1A gene was transferred into various self-pollinated and hybrid lines of corn. Since transgenic progeny showed excellent pest resistance, a number of combinations have been approved for large scale testing to determine insecticidal activity and biosafety.
For long-term control of grubs, which usually live in soil and are difficult to control with contact insecticides, a plant engineering strategy was employed. A cry8Ca2 gene was modified with plant preference codon usage and mutated at two sites, Q439 to P439 and E642 to G642. The construct driven by a root tissue-specific expression promoter TobRB7 was transformed into tobacco. Bioassay results showed that the transgenic tobacco plants were highly toxic to the larvae of two species of scarab grubs, A. corpulenta andAnomala exoleta. The root system and the upper part of the transgenic plants were protected against insect attack, while non-transgenic plants were destroyed by the grubs. Recently, three novel cry8 genes including cry8Ca2, cry8Ea1 and cry8Ga1 were introduced into some species of turfgrass, such as creeping bentgrass, Agrostis palustris, and ryegrass, Lolium perenne. Transgenic turf plants showed significant resistance to grubs of A. corpulenta. These results demonstrated the advantages of using plant transgenic technology to control destructive soil-inhabiting pests.
4. Prospects
China’s agriculture is undergoing an important transformation from traditional and high-input agriculture to modern technology-driven and sustainable agriculture. Microbial control is environmental friendly, economical and has great potential, and it has been placed on the National Mid-Long-Term Plan for Science and Technology Development. This insures a bright future and rapid advances.
Biotechnology is an important tool to make microbial control more effective. Biotechnology of Bt, such as the discovery of its novel insecticidal genes, construction of engineered strains and the development of pest resistant, transgenic plants are good examples of the advances that these tools can produce. With research progress on gene expression and regulation, insecticidal modes of action and genetic modification of Bt, baculoviruses, and entomopathogenic fungi, the level of microbial control will be further enhanced.
China has rich microbial resources, but has lacked a systematic and comprehensive study of these in the past. In order to optimize industrialization of biopesticides and to expand their application to microbial control, a combination of conventional and biotechnological approaches will be employed in the areas of discovery and characterization, production technology, formulation processing and development of quality standards and use recommendations. For this purpose, recent experience with development of Bt products provides an excellent model for other novel agricultural products.