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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.
Characterization of a rice chlorophyll-deficient mutant using the T-DNA gene-trap system 总被引:47,自引:0,他引:47
Jung KH Hur J Ryu CH Choi Y Chung YY Miyao A Hirochika H An G 《Plant & cell physiology》2003,44(5):463-472
We have previously generated a large pool of T-DNA insertional lines in rice. In this study, we screened those T-DNA pools for rice mutants that had defective chlorophylls. Among the 1,995 lines examined in the T2 generation, 189 showed a chlorophyll-deficient phenotype that segregated as a single recessive locus. Among the mutants, 10 lines were beta-glucuronidase (GUS)-positive in the leaves. Line 9-07117 has a T-DNA insertion into the gene that is highly homologous to XANTHA-F in barley and CHLH in ARABIDOPSIS: This OsCHLH gene encodes the largest subunit of the rice Mg-chelatase, a key enzyme in the chlorophyll branch of the tetrapyrrole biosynthetic pathway. In the T2 and T3 generations, the chlorina mutant phenotypes are co-segregated with the T-DNA. We have identified two additional chlorina mutants that have a Tos17 insertion in the OsCHLH gene. Those phenotypes were co-segregated with Tos17 in the progeny. GUS assays and RNA blot analysis showed that expression of the OsCHLH gene is light inducible, while TEM analysis revealed that the thylakoid membrane of the mutant chloroplasts is underdeveloped. The chlorophyll content was very low in the OschlH mutants. This is the first report that T-DNA insertional mutagenesis can be used for functional analysis of rice genes. 相似文献
3.
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
4.
Agrobacterium transfer DNA (T-DNA) is an effective plant mutagen that has been used to create sequence-indexed T-DNA insertion lines in Arabidopsis thaliana as a tool to study gene function. Creating T-DNA insertion lines requires a dependable method for locating the site of insertion in the genome. In this protocol, we describe an adapter ligation-mediated PCR method that we have used to screen a mutant library and identify over 150,000 T-DNA insertional mutants; the method can also be applied to map individual mutants. The procedure consists of three steps: a restriction enzyme-mediated ligation of an adapter to the genomic DNA; a PCR amplification of the T-DNA/genomic DNA junction with primers specific to the adapter and T-DNA; and sequencing of the T-DNA/genomic junction to enable mapping to the reference genome. In most cases, the sequenced genomic region extends to the T-DNA border, enabling the exact location of the insert to be identified. The entire process takes 2 weeks to complete. 相似文献
5.
Lee S Kim J Son JS Nam J Jeong DH Lee K Jang S Yoo J Lee J Lee DY Kang HG An G 《Plant & cell physiology》2003,44(12):1403-1411
We have generated 47 DNA pools and 235 subpools from 21,049 T-DNA insertion lines of rice. DNA pools of 500-1,000 lines were adequate for screening a T-DNA insertion within a 2-kb region. To examine the efficacy of the DNA pools, we selected MADS-box genes, which play an important role in controlling various aspects of plant development. A total of 34 MIKC-type MADS-box genes have now been identified from rice sequence databases. Our PCR screening for T-DNA insertions within 12 MADS-box genes resulted in the identification of five insertions in four different genes. These DNA pools will be valuable when isolating T-DNA insertional mutants in various rice genes. The DNA pool screening service and the mutant seeds are available upon request to genean@postech.ac.kr. 相似文献
6.
Isolation and Characterization of a Rice Cysteine Protease Gene, OsCP1, Using T-DNA Gene-Trap System 总被引:13,自引:0,他引:13
The T-DNA gene-trap system has been efficiently used to elucidate gene functions in plants. We report here a functional analysis of a cysteine protease gene, OsCP1, isolated from a pool of T-DNA insertional rice. GUS assay with the T-DNA tagged line indicated that the OsCP1 promoter was highly active in the rice anther. Sequence analysis revealed that the deduced amino acid sequence of OsCP1 was homologous to those of papain family cysteine proteases containing the highly conserved interspersed amino acid motif, ERFNIN. This result suggested that the gene encodes a cysteine protease in rice. We also identified a suppressed mutant from T2 progeny of the T-DNA tagged line. The mutant showed a significant defect in pollen development. Taken together, the results demonstrated that OsCP1 is a cysteine protease gene that might play an important role in pollen development. 相似文献
7.
Jung KH Lee J Dardick C Seo YS Cao P Canlas P Phetsom J Xu X Ouyang S An K Cho YJ Lee GC Lee Y An G Ronald PC 《PLoS genetics》2008,4(8):e1000164
Functional redundancy limits detailed analysis of genes in many organisms. Here, we report a method to efficiently overcome this obstacle by combining gene expression data with analysis of gene-indexed mutants. Using a rice NSF45K oligo-microarray to compare 2-week-old light- and dark-grown rice leaf tissue, we identified 365 genes that showed significant 8-fold or greater induction in the light relative to dark conditions. We then screened collections of rice T-DNA insertional mutants to identify rice lines with mutations in the strongly light-induced genes. From this analysis, we identified 74 different lines comprising two independent mutant lines for each of 37 light-induced genes. This list was further refined by mining gene expression data to exclude genes that had potential functional redundancy due to co-expressed family members (12 genes) and genes that had inconsistent light responses across other publicly available microarray datasets (five genes). We next characterized the phenotypes of rice lines carrying mutations in ten of the remaining candidate genes and then carried out co-expression analysis associated with these genes. This analysis effectively provided candidate functions for two genes of previously unknown function and for one gene not directly linked to the tested biochemical pathways. These data demonstrate the efficiency of combining gene family-based expression profiles with analyses of insertional mutants to identify novel genes and their functions, even among members of multi-gene families. 相似文献
8.
Krysan PJ Young JC Jester PJ Monson S Copenhaver G Preuss D Sussman MR 《Omics : a journal of integrative biology》2002,6(2):163-174
A key component of a sound functional genomics infrastructure is the availability of a knockout mutant for every gene in the genome. A fruitful approach to systematically knockingout genes in the plant Arabidopsis thaliana has been the use of transferred-DNA (T-DNA) from Agrobacterium tumefaciens as an insertional mutagen. One of the assumptions underlying the use of T-DNA as a mutagen is that the insertion of these DNA elements into the Arabidopsis genome occurs at randomly selected locations. We have directly investigated the distribution of T-DNA insertions sites in populations of transformed Arabidopsis using two different approaches. To begin with, we utilized a polymerase chain reaction (PCR) procedure to systematically catalog the precise locations of all the T-DNA elements inserted within a 65 kb segment of chromosome IV. Of the 47 T-DNA insertions identified, 30% were found within the coding regions of genes. We also documented the insertion of T-DNA elements within the centromeric region of chromosome IV. In addition to these targeted T-DNA screens, we also mapped the genomic locations of 583 randomly chosen T-DNA elements by sequencing the genomic DNA flanking the insertion sites from individual T-DNA-transformed lines. 35% of these randomly chosen T-DNA insertions were located within the coding regions of genes. For comparison, coding sequences account for 44% of the Arabidopsis genome. Our results demonstrate that there is a small bias towards recovering T-DNA insertions within intergenic regions. However, this bias does not limit the utility of T-DNA as an effective insertional mutagen for use in reverse-genetic strategies. 相似文献
9.
10.
Chern CG Fan MJ Yu SM Hour AL Lu PC Lin YC Wei FJ Huang SC Chen S Lai MH Tseng CS Yen HM Jwo WS Wu CC Yang TL Li LS Kuo YC Li SM Li CP Wey CK Trisiriroj A Lee HF Hsing YI 《Plant molecular biology》2007,65(4):427-438
With the completion of the rice genome sequencing project, the next major challenge is the large-scale determination of gene
function. As an important crop and a model organism, rice provides major insights into gene functions important for crop growth
or production. Phenomics with detailed information about tagged populations provides a good tool for functional genomics analysis.
By a T-DNA insertional mutagenesis approach, we have generated a rice mutant population containing 55,000 promoter trap and
gene activation or knockout lines. Approximately 20,000 of these lines have known integration sites. The T0 and T1 plants
were grown in net “houses” for two cropping seasons each year since 2003, with the mutant phenotypes recorded. Detailed data
describing growth and development of these plants, in 11 categories and 65 subcategories, over the entire four-month growing
season are available in a searchable database, along with the genetic segregation information and flanking sequence data.
With the detailed data from more than 20,000 T1 lines and 12 plants per line, we estimated the mutation rates of the T1 population,
as well the frequency of the dominant T0 mutants. The correlations among different mutation phenotypes are also calculated.
Together, the information about mutant lines, their integration sites, and the phenotypes make this collection, the Taiwan
Rice Insertion Mutants (TRIM), a good resource for rice phenomics study. Ten T2 seeds per line can be distributed to researchers
upon request.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
Chyr-Guan Chern, Ming-Jen Fan, and Su-May Yu have contributed equally to this work. 相似文献