Elimination of the CRISPR/Cas9 constructs in edited plants is a prerequisite for assessing genetic stability, conducting phenotypic characterization, and applying for commercialization of the plants. However, removal ...Elimination of the CRISPR/Cas9 constructs in edited plants is a prerequisite for assessing genetic stability, conducting phenotypic characterization, and applying for commercialization of the plants. However, removal of the CRISPR/Cas9 transgenes by genetic segregation and by backcross is laborious and time consuming. We previously reported the development of the transgene killer CRISPR(TKC) technology that uses a pair of suicide genes to trigger self-elimination of the transgenes without compromising gene editing efficiency. The TKC technology enables isolation of transgene-free CRISPR-edited plants within a single generation, greatly accelerating crop improvements. Here, we presented two new TKC vectors that show great efficiency in both editing the target gene and in undergoing self-elimination of the transgenes. The new vectors replaced the CaMV35 S promoter used in our previous TKC vector with two rice promoters to drive one of the suicide genes, providing advantages over our previous TKC vector under certain conditions. The vectors reported here offered more options and flexibility to conduct gene editing experiments in rice.展开更多
A research team led by Xiang Cheng Bin from School of Life Sciences,University of Science and Technology of China discovered a molecular basis for crosstalk between jasmonic acid(JA)and auxin,two important plant hor...A research team led by Xiang Cheng Bin from School of Life Sciences,University of Science and Technology of China discovered a molecular basis for crosstalk between jasmonic acid(JA)and auxin,two important plant hormones.Their findings were published in a recent issue of Nature Communication[1].Auxin is the plant growth hormone that plays an essential展开更多
基金supported by Chinese Ministry of Agriculture and Rural Affairs (Grant No. 2018ZX0801003B)the National Transgenic Science and Technology Program (Grant No. 2016ZX08010002)
文摘Elimination of the CRISPR/Cas9 constructs in edited plants is a prerequisite for assessing genetic stability, conducting phenotypic characterization, and applying for commercialization of the plants. However, removal of the CRISPR/Cas9 transgenes by genetic segregation and by backcross is laborious and time consuming. We previously reported the development of the transgene killer CRISPR(TKC) technology that uses a pair of suicide genes to trigger self-elimination of the transgenes without compromising gene editing efficiency. The TKC technology enables isolation of transgene-free CRISPR-edited plants within a single generation, greatly accelerating crop improvements. Here, we presented two new TKC vectors that show great efficiency in both editing the target gene and in undergoing self-elimination of the transgenes. The new vectors replaced the CaMV35 S promoter used in our previous TKC vector with two rice promoters to drive one of the suicide genes, providing advantages over our previous TKC vector under certain conditions. The vectors reported here offered more options and flexibility to conduct gene editing experiments in rice.
文摘A research team led by Xiang Cheng Bin from School of Life Sciences,University of Science and Technology of China discovered a molecular basis for crosstalk between jasmonic acid(JA)and auxin,two important plant hormones.Their findings were published in a recent issue of Nature Communication[1].Auxin is the plant growth hormone that plays an essential