Lee Yun Hee, Jung Min, Shin Sun Hee, Lee Ji Hee, Choi Soon Ho, Her Nam Han, Lee Jang Ha, Ryu Ki Hyun, Paek Kee Yoeup, Harn Chee Hark
Biotechnology Institute, Nongwoo Bio Co, Ltd, Yeoju, Gyeonggi, South Korea.
Plant Cell Rep. 2009 Feb;28(2):223-32. doi: 10.1007/s00299-008-0637-3. Epub 2008 Nov 19.
The CMV (cucumber mosaic virus) is the most frequently occurring virus in chili pepper farms. A variety of peppers that are resistant to CMVP0 were developed in the middle of 1990s through a breeding program, and commercial cultivars have since been able to control the spread of CMVP0. However, a new pathotype (CMVP1) that breaks the resistance of CMVP0-resistant peppers has recently appeared and caused a heavy loss in productivity. Since no genetic source of this new pathotype was available, a traditional breeding method cannot be used to generate a CMVP1-resistant pepper variety. Therefore, we set up a transformation system of pepper using Agrobacterium that had been transfected with the coat protein gene, CMVP0-CP, with the aim of developing a new CMVP1-resistant pepper line. A large number of transgenic peppers (T(1), T(2) and T(3)) were screened for CMVP1 tolerance using CMVP1 inoculation. Transgenic peppers tolerant to CMVP1 were selected in a plastic house as well as in the field. Three independent T(3) pepper lines highly tolerant to the CMVP1 pathogen were found to also be tolerant to the CMVP0 pathogen. These selected T(3) pepper lines were phenotypically identical or close to the non-transformed lines. However, after CMVP1 infection, the height and fruit size of the non-transformed lines became shorter and smaller, respectively, while the T(3) pepper lines maintained a normal phenotype.
黄瓜花叶病毒(CMV)是辣椒种植园中最常见的病毒。20世纪90年代中期,通过育种计划培育出了多种对CMVP0具有抗性的辣椒品种,此后商业栽培品种得以控制CMVP0的传播。然而,一种新的致病型(CMVP1)最近出现,它打破了对CMVP0抗性辣椒的抗性,导致产量大幅下降。由于没有这种新致病型的遗传资源,传统育种方法无法用于培育抗CMVP1的辣椒品种。因此,我们建立了一种利用农杆菌介导的辣椒转化系统,该农杆菌已被转染了外壳蛋白基因CMVP0-CP,目的是培育一种新的抗CMVP1辣椒品系。使用CMVP1接种对大量转基因辣椒(T(1)、T(2)和T(3))进行CMVP1耐受性筛选。在塑料大棚和田间选择对CMVP1具有耐受性的转基因辣椒。发现三个对CMVP1病原体高度耐受的独立T(3)辣椒品系对CMVP0病原体也具有耐受性。这些选定的T(3)辣椒品系在表型上与未转化品系相同或接近。然而,在CMVP1感染后,未转化品系的株高和果实大小分别变矮变小,而T(3)辣椒品系保持正常表型。
