| Biotechnology Research Institute The Chinese Academy of Agricultural Sciences Patent applications |
| Patent application number | Title | Published |
|---|
| 20110196142 | DNA molecule for expressing Hairpin RNA, the constructing method and the use thereof - DNA molecule for expressing hairpin RNA, the constructing method and the use thereof are provided. The DNA molecule is a closed single-strand cyclic DNA molecule which is constructed by linking four fragments A, B, C and D as following order: A-C-B-D or A-D-B-C, wherein A is a sense strand or anti-sense strand fragment of the target double-strand DNA; B is the fragment which is reversely complementary to A; C and D are DNA fragments with stem-loop structure and they meet one of the following requirements: 1) the nucleotide sequence of fragment C or D comprises at least one sequence e; 2) the nucleotide sequence of fragment C comprises at least one sequence e, the nucleotide sequence of fragment D comprises at least one sequence f, wherein sequences e and f individually are one strand of different restriction endonuclease recognition sequences. The DNA molecule for expressing hairpin RNA and its constructing method are useful in constructing lhRNA library. | 08-11-2011 |
| 20110173716 | EPSP synthase with high glyphosate resistance and its encoded sequence - An EPSP synthase (5-enolpyruvylshikimate-3-phosphate synthase) with high glyphosate resistance and a nucleotide sequence encoding the synthase are disclosed. The gene encoding the EPSP synthase has low homology with the reported EPSP synthase. A transgenic plant obtained by the expression of the gene in plant has an increased resistance to glyphosate after experimental confirmation. | 07-14-2011 |
| 20110088121 | Genes for improving salt tolerance and drought tolerance of plant and the uses thereof - Provide a nucleotide coding sequence and another nucleotide coding sequence artificially synthesized according to biased codons of plant. Construct recombinant vectors containing the genes as above and transform them into host cells including prokaryotic cells and eukaryotic cells. It is confirmed that the resulting transgenic plant has improved salt and drought tolerance after the said genes are expressed in the plant. | 04-14-2011 |
