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1.
Reverse Genetic Approaches for Functional Genomics of Rice 总被引:7,自引:0,他引:7
T-DNA and transposable elements e.g., Ds and Tos17, are used to generate a large number of insertional mutant lines in rice.
Some carry the GUS or GFP reporter for gene trap or enhancer trap. These reporter systems are valuable for identifying tissue-
or organ-preferential genes. Activation tagging lines have also been generated for screening mutants and isolating mutagenized
genes. To utilize these resources more efficiently, tagged lines have been produced for reverse genetic approaches. DNA pools
of the T-DNA tagged lines and Tos17 lines have been prepared for PCR screening of insertional mutants in a given gene. Tag
end sequences (TES) of the inserts have also been produced. TES databases are beneficial for analyzing the function of a large
number of rice genes. 相似文献
2.
Molecular genetics using T-DNA in rice 总被引:19,自引:0,他引:19
Now that sequencing of the rice genome is nearly completed, functional analysis of its large number of genes is the next challenge. Because rice is easy to transform, T-DNA has been used successfully to generate insertional mutant lines. Collectively, several laboratories throughout the world have established at least 200,000 T-DNA insertional lines. Some of those carry the GUS or GFP reporters for either gene or enhancer traps. Others are activation tagging lines for gain-of-function mutagenesis when T-DNA is inserted in the intergenic region. A forward genetic approach showed limited success because of somaclonal variations induced during tissue culture. To utilize these resources more efficiently, tagged lines have been produced for reverse genetics approaches. DNA pools of the T-DNA-tagged lines have been prepared for polymerase chain reaction (PCR) screening of insertional mutants in a given gene. Appropriate T-DNA insertion sites are determined by sequencing the region flanking the T-DNA. This information is then used to make databases that are shared with the scientific community. International efforts on seed amplification and maintenance are needed to exploit these valuable materials efficiently. 相似文献
3.
Yimian Ma Luo Liu Chengguang Zhu Changhui Sun Bo Xu Jun Fang Jiuyou Tang Anding Luo Shouyun Cao Gupo Li Qian Qian Yongbiao Xue Chengcai Chu 《遗传学报》2009,36(5):267-276
About 25,000 rice T-DNA insertional mutant lines were generated using the vector pCAS04 which has both promoter-trapping and activation-tagging function. Southern blot analysis revealed that about 40% of these mutants were single copy integration and the average T-DNA insertion number was 2.28. By extensive phenotyping in the field, quite a number of agronomically important mutants were obtained. Histochemical GUS assay with 4,310 primary mutants revealed that the GUS-staining frequency was higher than that of the previous reports in various tissues and especially high in flowers. The T-DNA flanking sequences of some mutants were isolated and the T-DNA insertion sites were mapped to the rice genome. The flanking sequence analysis demonstrated the different integration pattern of the right border and left border into rice genome. Compared with Arabidopsis and poplar, it is much varied in the T-DNA border junctions in rice. 相似文献
4.
对从日本获得的水稻Tos17插入突变基因进行了鉴定,并通过PCR技术对其插入位点和纯合体进行了分析和筛选。结果表明,Tos17插入在序列号为DP000086的基因,在此基因反向互补序列的1579bp处,在mRNA序列的第5个外显子区域,是水稻的一个叶绿素a氧化酶基因,而且此基因在单一的铵营养下表达减弱,氮饥饿条件下表达增强。利用Tos17未端和插入位点上下游设计引物进行PCR反应,鉴定到3株纯合突变体株,为进一步研究其功能奠定了基础。 相似文献
5.
T-DNA insertional mutagenesis for functional genomics in rice 总被引:56,自引:0,他引:56
Jeon JS Lee S Jung KH Jun SH Jeong DH Lee J Kim C Jang S Yang K Nam J An K Han MJ Sung RJ Choi HS Yu JH Choi JH Cho SY Cha SS Kim SI An G 《The Plant journal : for cell and molecular biology》2000,22(6):561-570
We have produced 22 090 primary transgenic rice plants that carry a T-DNA insertion, which has resulted in 18 358 fertile lines. Genomic DNA gel-blot and PCR analyses have shown that approximately 65% of the population contains more than one copy of the inserted T-DNA. Hygromycin resistance tests revealed that transgenic plants contain an average of 1.4 loci of T-DNA inserts. Therefore, it can be estimated that approximately 25 700 taggings have been generated. The binary vector used in the insertion contained the promoterless beta-glucuronidase (GUS) reporter gene with an intron and multiple splicing donors and acceptors immediately next to the right border. Therefore, this gene trap vector is able to detect a gene fusion between GUS and an endogenous gene, which is tagged by T-DNA. Histochemical GUS assays were carried out in the leaves and roots from 5353 lines, mature flowers from 7026 lines, and developing seeds from 1948 lines. The data revealed that 1.6-2.1% of tested organs were GUS-positive in the tested organs, and that their GUS expression patterns were organ- or tissue-specific or ubiquitous in all parts of the plant. The large population of T-DNA-tagged lines will be useful for identifying insertional mutants in various genes and for discovering new genes in rice. 相似文献
6.
A rice gene activation/knockout mutant resource for high throughput functional genomics 总被引:9,自引:6,他引:3
Hsing YI Chern CG Fan MJ Lu PC Chen KT Lo SF Sun PK Ho SL Lee KW Wang YC Huang WL Ko SS Chen S Chen JL Chung CI Lin YC Hour AL Wang YW Chang YC Tsai MW Lin YS Chen YC Yen HM Li CP Wey CK Tseng CS Lai MH Huang SC Chen LJ Yu SM 《Plant molecular biology》2007,63(3):351-364
Using transfer DNA (T-DNA) with functions of gene trap and gene knockout and activation tagging, a mutant population containing
55,000 lines was generated. Approximately 81% of this population carries 1–2 T-DNA copies per line, and the retrotransposon
Tos17 was mostly inactive in this population during tissue culture. A total of 11,992 flanking sequence tags (FSTs) have been obtained
and assigned to the rice genome. T-DNA was preferentially (∼80%) integrated into genic regions. A total of 19,000 FSTs pooled
from this and another T-DNA tagged population were analyzed and compared with 18,000 FSTs from a Tos17 tagged population. There was difference in preference for integrations into genic, coding, and flanking regions, as well
as repetitive sequences and centromeric regions, between T-DNA and Tos17; however, T-DNA integration was more evenly distributed in the rice genome than Tos17. Our T-DNA contains an enhancer octamer next to the left border, expression of genes within genetics distances of 12.5 kb
was enhanced. For example, the normal height of a severe dwarf mutant, with its gibberellin 2-oxidase (GA2ox) gene being activated
by T-DNA, was restored upon GA treatment, indicating GA2ox was one of the key enzymes regulating the endogenous level of GA.
Our T-DNA also contains a promoterless GUS gene next to the right border. GUS activity screening facilitated identification
of genes responsive to various stresses and those regulated temporally and spatially in large scale with high frequency. Our
mutant population offers a highly valuable resource for high throughput rice functional analyses using both forward and reverse
genetic approaches.
Electronic Supplementary Material Supplementary material is available in the online version of this article at and is accessible for authorized users.
Yue-Ie Hsing, Chyr-Guan Chern, and Ming-Jen Fan have contributed equally. 相似文献
7.
Lorieux M Blein M Lozano J Bouniol M Droc G Diévart A Périn C Mieulet D Lanau N Bès M Rouvière C Gay C Piffanelli P Larmande P Michel C Barnola I Biderre-Petit C Sallaud C Perez P Bourgis F Ghesquière A Gantet P Tohme J Morel JB Guiderdoni E 《Plant biotechnology journal》2012,10(5):555-568
We report here the molecular and phenotypic features of a library of 31,562 insertion lines generated in the model japonica cultivar Nipponbare of rice (Oryza sativa L.), called Oryza Tag Line (OTL). Sixteen thousand eight hundred and fourteen T-DNA and 12,410 Tos17 discrete insertion sites have been characterized in these lines. We estimate that 8686 predicted gene intervals--i.e. one-fourth to one-fifth of the estimated rice nontransposable element gene complement--are interrupted by sequence-indexed T-DNA (6563 genes) and/or Tos17 (2755 genes) inserts. Six hundred and forty-three genes are interrupted by both T-DNA and Tos17 inserts. High quality of the sequence indexation of the T2 seed samples was ascertained by several approaches. Field evaluation under agronomic conditions of 27,832 OTL has revealed that 18.2% exhibit at least one morphophysiological alteration in the T1 progeny plants. Screening 10,000 lines for altered response to inoculation by the fungal pathogen Magnaporthe oryzae allowed to observe 71 lines (0.7%) developing spontaneous lesions simulating disease mutants and 43 lines (0.4%) exhibiting an enhanced disease resistance or susceptibility. We show here that at least 3.5% (four of 114) of these alterations are tagged by the mutagens. The presence of allelic series of sequence-indexed mutations in a gene among OTL that exhibit a convergent phenotype clearly increases the chance of establishing a linkage between alterations and inserts. This convergence approach is illustrated by the identification of the rice ortholog of AtPHO2, the disruption of which causes a lesion-mimic phenotype owing to an over-accumulation of phosphate, in nine lines bearing allelic insertions. 相似文献
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10.
Isolation and characterization of rice phytochrome A mutants 总被引:19,自引:0,他引:19
To elucidate phytochrome A (phyA) function in rice, we screened a large population of retrotransposon (Tos17) insertional mutants by polymerase chain reaction and isolated three independent phyA mutant lines. Sequencing of the Tos17 insertion sites confirmed that the Tos17s interrupted exons of PHYA genes in these mutant lines. Moreover, the phyA polypeptides were not immunochemically detectable in these phyA mutants. The seedlings of phyA mutants grown in continuous far-red light showed essentially the same phenotype as dark-grown seedlings, indicating the insensitivity of phyA mutants to far-red light. The etiolated seedlings of phyA mutants also were insensitive to a pulse of far-red light or very low fluence red light. In contrast, phyA mutants were morphologically indistinguishable from wild type under continuous red light. Therefore, rice phyA controls photomorphogenesis in two distinct modes of photoperception--far-red light-dependent high irradiance response and very low fluence response--and such function seems to be unique and restricted to the deetiolation process. Interestingly, continuous far-red light induced the expression of CAB and RBCS genes in rice phyA seedlings, suggesting the existence of a photoreceptor(s) other than phyA that can perceive continuous far-red light in the etiolated seedlings. 相似文献