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1.
Talamè V Bovina R Sanguineti MC Tuberosa R Lundqvist U Salvi S 《Plant biotechnology journal》2008,6(5):477-485
A sodium azide-mutagenized population of barley (cv. 'Morex') was developed and utilized to identify mutants at target genes using the 'targeting induced local lesions in genomes' (TILLING) procedure. Screening for mutations at four agronomically important genes (HvCO1, Rpg1, eIF4E and NR) identified a total of 22 new mutant alleles, equivalent to the extrapolated rate of one mutation every 374 kb. All mutations except one were G/C to A/T transitions and several (approximately 68%) implied a change in protein amino acid sequence and therefore a possible effect on phenotype. The high rate of mutation detected through TILLING is in keeping with the high frequency (32.7%) of variant phenotypes observed amongst the M(3) families. Our results indicate the feasibility of using this resource for both reverse and forward genetics approaches to investigate gene function in barley and related crops. 相似文献
2.
The nuclear genome of Arabidopsis thaliana was sequenced to near completion a few years ago, and ahead lies the challenge of understanding its meaning and discerning its potential. How many genes are there? What are they? What do they do? Computer algorithms combined with genome array technologies have proven efficient in addressing the first two questions as shown in a recent report ( Yamada et al., 2003 ). However, assessing the function of every gene in every cell will require years of careful analyses of the phenotypes caused by mutations in each gene. Current progress in generating large numbers of molecular markers and near‐saturation insertion mutant collections has immensely facilitated functional genomics studies in Arabidopsis. In this review, we focus on how gene function can be revealed through the analysis of mutants by either forward or reverse genetics. These mutants generally fall into two distinct classes. The first class typically includes point mutations or small deletions derived from chemical or fast neutron mutagenesis whereas the second class includes insertions of transferred‐DNA or transposon elements. We describe the current methods that are used to identify the gene corresponding to these mutations, which can then be used as a probe to further dissect its function. 相似文献
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Urbański DF Małolepszy A Stougaard J Andersen SU 《The Plant journal : for cell and molecular biology》2012,69(4):731-741
Use of insertion mutants facilitates functional analysis of genes, but it has been difficult to identify a suitable mutagen and to establish large populations for reverse genetics in most plant species. The main challenge is developing efficient high-throughput procedures for both mutagenesis and identification of insertion sites. To date, only floral-dip T-DNA transformation of Arabidopsis has produced independent germinal insertions, thereby allowing generation of mutant populations from seeds of single plants. In addition, advances in insertion detection have been hampered by a lack of protocols, including software for automated data analysis, that take full advantage of high-throughput next-generation sequencing. We have addressed these challenges by developing the FSTpoolit protocol and software package, and here we demonstrate its efficacy by detecting 8935 LORE1 insertions in 3744 Lotus japonicus plants. The identified insertions show that the endogenous LORE1 retrotransposon is well suited for insertion mutagenesis due to homogenous gene targeting and exonic insertion preference. As LORE1 transposition occurs in the germline, harvesting seeds from a single founder line and cultivating progeny generates a complete mutant population. This ease of LORE1 mutagenesis, combined with the efficient FSTpoolit protocol, which exploits 2D pooling, Illumina sequencing and automated data analysis, allows highly cost-efficient development of a comprehensive reverse genetic resource. 相似文献
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Cai-Ping Feng John Mundy 《植物学报(英文版)》2006,48(1):5-14
The present mini-review describes newer methods and strategies, including transposon and T-DNA insertions, TILLING, Deleteagene, and RNA interference, to functionally analyze genes of interest in the model plant Arabidopsis. The relative advantages and disadvantages of the systems are also discussed. 相似文献
6.
McCarty DR Settles AM Suzuki M Tan BC Latshaw S Porch T Robin K Baier J Avigne W Lai J Messing J Koch KE Hannah LC 《The Plant journal : for cell and molecular biology》2005,44(1):52-61
We implement a novel strategy for harnessing the power of high-copy transposons for functional analysis of the maize genome, and report behavioral features of the Mutator system in a uniform inbred background. The unique UniformMu population and database facilitate high-throughput molecular analysis of Mu-tagged mutants and gene knockouts. Key features of the population include: (i) high mutation frequencies (7% independent seed mutations) and moderation of copy number (approximately 57 total Mu elements; 1-2 MuDR copies per plant) were maintained by continuous back-crossing into a phenotypically uniform inbred background; (ii) a bz1-mum9 marker enabled selection of stable lines (loss of MuDR), inhibiting further transpositions in lines selected for molecular analysis; (iii) build-up of mutation load was prevented by screening Mu-active parents to exclude plants carrying pre-existing seed mutations. To create a database of genomic sequences flanking Mu insertions, selected mutant lines were analyzed by sequencing of MuTAIL PCR clone libraries. These sequences were annotated and clustered to facilitate bioinformatic subtraction of ancestral elements and identification of insertions unique to mutant lines. New insertions targeted low-copy, gene-rich sequences, and in silico mapping revealed a random distribution of insertions over the genome. Our results indicate that Mu populations differ markedly in the occurrence of Mu insertion hotspots and the frequency of suppressible mutations. We suggest that controlled MuDR copy number in UniformMu lines is a key determinant of these differences. The public database (http://uniformmu.org; http://endosperm.info) includes pedigree and phenotypic data for over 2000 independent seed mutants selected from a population of 31 548 F2 lines and integrated with analyses of 34 255 MuTAIL sequences. 相似文献
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Caldwell DG McCallum N Shaw P Muehlbauer GJ Marshall DF Waugh R 《The Plant journal : for cell and molecular biology》2004,40(1):143-150
Two large-scale ethylmethanesulfonate (EMS) mutant populations from barley (Hordeum vulgare L.) cv. Optic have been developed to promote both forward and reverse genetics in this crop. Leaf material and seed from approximately 20 000 M(2) plants were individually harvested, freeze-dried and archived. DNA was isolated from 9216 plants from the 20 and 30 mm EMS treatments and assembled into 1152 eight-plant pools. To facilitate PCR-based mutation scanning an approach has been employed that combines cleavage of heteroduplexes using the Cel nuclease (Cel I), post-cleavage intercalating dye labeling and the subsequent detection of cleaved products on a Transgenomic WAVE-HS. The populations were evaluated by screening for induced mutations in two genes of interest and the induced mutations were validated by sequence analysis. To enhance the screening process, 12-16 M(3) progeny from each of the M(2) plants were assessed for visible phenotypes and the data entered into a web accessible database (http://bioinf.scri.sari.ac.uk/distilling/distilling.html). 相似文献
9.
A transgenic dTph1 insertional mutagenesis system for forward genetics in mycorrhizal phosphate transport of Petunia 总被引:1,自引:0,他引:1
Wegmüller S Svistoonoff S Reinhardt D Stuurman J Amrhein N Bucher M 《The Plant journal : for cell and molecular biology》2008,54(6):1115-1127
The active endogenous dTph1 system of the Petunia hybrida mutator line W138 has been used in several forward-genetic mutant screens that were based on visible phenotypes such as flower morphology and color. In contrast, defective symbiotic phosphate (Pi ) transport in mycorrhizal roots of Petunia is a hidden molecular phenotype as the symbiosis between plant roots and fungi takes place below ground, and, while fungal colonization can be visualized histochemically, Pi transport and the activity of Pi transporter proteins cannot be assessed visually. Here, we report on a molecular approach in which expression of a mycorrhiza-inducible bi-functional reporter transgene and insertional mutagenesis in Petunia are combined. Bi-directionalization of a mycorrhizal Pi transporter promoter controlling the expression of two reporter genes encoding firefly luciferase and GUS allows visualization of mycorrhiza-specific Pi transporter expression. A population of selectable transposon insertion mutants was established by crossing the transgenic reporter line with the mutator W138, from which the P i transporter downregulated ( ptd1 ) mutant was identified, which exhibits strongly reduced expression of mycorrhiza-inducible Pi transporters in mycorrhizal roots. 相似文献
10.
A transgenic perspective on plant functional genomics 总被引:17,自引:0,他引:17
Pereira A 《Transgenic research》2000,9(4-5):245-260
Transgenic crops are very much in the news due to the increasing public debate on their acceptance. In the scientific community
though, transgenic plants are proving to be powerful tools to study various aspects of plant sciences. The emerging scientific
revolution sparked by genomics based technologies is producing enormous amounts of DNA sequence information that, together
with plant transformation methodology, is opening up new experimental opportunities for functional genomics analysis. An overview
is provided here on the use of transgenic technology for the functional analysis of plant genes in model plants and a link
made to their utilization in transgenic crops. In transgenic plants, insertional mutagenesis using heterologous maize transposons
or Agrobacterium mediated T-DNA insertions, have been valuable tools for the identification and isolation of genes that display a mutant phenotype.
To discover functions of genes that do not display phenotypes when mutated, insertion sequences have been engineered to monitor
or change the expression pattern of adjacent genes. These gene detector insertions can detect adjacent promoters, enhancers
or gene exons and precisely reflect the expression pattern of the tagged gene. Activation tag insertions can mis-express the
adjacent gene and confer dominant phenotypes that help bridge the phenotype gap. Employment of various forms of gene silencing
technology broadens the scope of recovering knockout phenotypes for genes with redundant function. All these transgenic strategies
describing gene-phenotype relationships can be addressed by high throughput reverse genetics methods that will help provide
functions to the genes discovered by genome sequencing. The gene functions discovered by insertional mutagenesis and silencing
strategies along with expression pattern analysis will provide an integrated functional genomics perspective and offer unique
applications in transgenic crops.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
11.
Tuberculosis, mainly caused by the pathogenic bacterium Mycobacterium tuberculosis, remains an inestimable public health problem, despite the established use of the Bacillus Calmette-Guerin (BCG) vaccine, multidrug therapy and the existence of global tuberculosis control programmes. Statistics show that nearly 2 billion people (approximately one-third of the world's population) are infected with M. tuberculosis. For unknown reasons, only about 10 per cent of those infected by M. tuberculosis will develop tuberculosis, resulting in 9 million new cases yearly and 2 million deaths. A better understanding of the host--mycobacterial--environmental interplay is central to developing better antituberculosis vaccines and treatments. This review will discuss how a clearer idea of this interplay is emerging with new genomic strategies in mouse models. 相似文献
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Christine Le Signor Vincent Savois Grégoire Aubert Jérôme Verdier Marie Nicolas Gaelle Pagny Françoise Moussy Myriam Sanchez Dave Baker Jonathan Clarke Richard Thompson 《Plant biotechnology journal》2009,7(5):430-441
Medicago truncatula has been widely adopted as a model plant for crop legume species of the Vicieae. Despite the availability of transformation and regeneration protocols, there are currently limited tools available in this species for the systematic investigation of gene function. Within the framework of the European Grain Legumes Integrated Project ( http://www.eugrainlegumes.org ), chemical mutagenesis was applied to M. truncatula to create two mutant populations that were used to establish a TILLING (targeting induced local lesions in genomes) platform and a phenotypic database, allowing both reverse and forward genetics screens. Both populations had the same M2 line number, but differed in their M1 population size: population 1 was derived from a small M1 population (one-tenth the size of the M2 generation), whereas population 2 was generated by single seed descent and therefore has M1 and M2 generations of equal size. Fifty-six targets were screened, 10 on both populations, and 546 point mutations were identified. Population 2 had a mutation frequency of 1/485 kb, twice that of population 1. The strategy used to generate population 2 is more efficient than that used to generate population 1, with regard to mutagenesis density and mutation recovery. However, the design of population 1 allowed us to estimate the genetically effective cell number to be three in M. truncatula . Phenotyping data to help forward screenings are publicly available, as well as a web tool for ordering seeds at http://www.inra.fr/legumbase 相似文献
14.
EU-OSTID: A Collection of Transposon Insertional Mutants
for Functional Genomics in Rice 总被引:1,自引:2,他引:1
van Enckevort LJ Droc G Piffanelli P Greco R Gagneur C Weber C González VM Cabot P Fornara F Berri S Miro B Lan P Rafel M Capell T Puigdomènech P Ouwerkerk PB Meijer AH Pe' E Colombo L Christou P Guiderdoni E Pereira A 《Plant molecular biology》2005,59(1):99-110
15.
Li X Song Y Century K Straight S Ronald P Dong X Lassner M Zhang Y 《The Plant journal : for cell and molecular biology》2001,27(3):235-242
A new reverse genetics method has been developed to identify and isolate deletion mutants for targeted plant genes. Deletion mutant libraries are generated using fast neutron bombardment. DNA samples extracted from the deletion libraries are used to screen for deletion mutants by polymerase chain reaction (PCR) using specific primers flanking the targeted genes. By adjusting PCR conditions to preferentially amplify the deletion alleles, deletion mutants were identified in pools of DNA samples, each pool containing DNA from 2592 mutant lines. Deletion mutants were obtained for 84% of targeted loci from an Arabidopsis population of 51 840 lines. Using a similar approach, a deletion mutant for a rice gene was identified. Thus we demonstrate that it is possible to apply this method to plant species other than Arabidopsis. As fast neutron mutagenesis is highly efficient, it is practical to develop deletion mutant populations with more complete coverage of the genome than obtained with methods based on insertional mutagenesis. Because fast neutron mutagenesis is applicable to all plant genetic systems, this method has the potential to enable reverse genetics for a wide range of plant species. 相似文献
16.
One of the major objectives of the Human Genome Project is to understand the biological function of the gene and genome as well as to develop clinical applications for human diseases. For this purpose, the experimental validations and preclinical trails by using animal models are indispensable. The mouse (Mus musculus) is one of the best animal models because genetics is well established in the mouse and embryonic manipulation technologies are also well developed. Large-scale mouse mutagenesis projects have been conducted to de-velop various mouse models since 1997. Originally, the phenotype-driven mutagenesis with N-ethyl-N-nitrosourea (ENU) has been the major efforts internationally then knockout/conditional mouse projects and gene-driven mutagenesis have been following. At the beginning, simple monogenic traits in the experimental condition have been elucidated. Then, more complex traits with variety of environmental interactions and gene-to-gene interactions (epistasis) have been challenged with mutant mice. In addition, chromosomal substitution swains and collaborative cross strains are also available to elucidate the complex Waits in the mouse. Altogether, mouse models with mutagenesis and various laboratory strains will accelerate the studies of functional genomics in the mouse as well as in human. 相似文献
17.
G. S. Wilkinson F. Breden J. E. Mank M. G. Ritchie A. D. Higginson J. Radwan J. Jaquiery W. Salzburger E. Arriero S. M. Barribeau P. C. Phillips S. C. P. Renn L. Rowe 《Journal of evolutionary biology》2015,28(4):739-755
Sexual selection drives fundamental evolutionary processes such as trait elaboration and speciation. Despite this importance, there are surprisingly few examples of genes unequivocally responsible for variation in sexually selected phenotypes. This lack of information inhibits our ability to predict phenotypic change due to universal behaviours, such as fighting over mates and mate choice. Here, we discuss reasons for this apparent gap and provide recommendations for how it can be overcome by adopting contemporary genomic methods, exploiting underutilized taxa that may be ideal for detecting the effects of sexual selection and adopting appropriate experimental paradigms. Identifying genes that determine variation in sexually selected traits has the potential to improve theoretical models and reveal whether the genetic changes underlying phenotypic novelty utilize common or unique molecular mechanisms. Such a genomic approach to sexual selection will help answer questions in the evolution of sexually selected phenotypes that were first asked by Darwin and can furthermore serve as a model for the application of genomics in all areas of evolutionary biology. 相似文献
18.
Pentapeptide scanning mutagenesis is a facile transposon-based procedure for the random insertion of a variable five amino acid cassette into a target protein. The analysis of a library of proteins harbouring pentapeptide insertions can provide invaluable information on the essential and inessential regions of a target protein, as well as revealing surprising aspects of target protein function and activity. 相似文献
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林木基因组及功能基因克隆研究概述 总被引:2,自引:0,他引:2
在美国能源部资助下, 首个多年生木本植物-- 杨树的全基因组测序已经完成且序列信息已对公众开放。杨树全基因组测序的完成标志着林木基因组进入后基因组研究时代。克隆控制重要性状的主效基因是林木后基因组时代的主要研究内容。近年来, 在一些重要作物, 如水稻、蕃茄及玉米中, 先后成功克隆了多个控制重要农艺性状的主效基因, 分子育种在作物中已进入实用阶段。林木相对于这些重要作物而言, 分子遗传学的研究起步较晚, 同时, 由于林木自身的一些生物学特性, 在林木中精确定位与克隆未知基因一度被视为遗传学研究领域的难点。随着技术和研究手段的不断进步, 以及林木基因组资源的快速积累, 有望在这一领域取得突破, 为在林木中开展分子育种创造条件。文章综述了国际上林木基因组与功能基因克隆研究的现状与新发展, 并对后基因组时代的林木功能基因克隆研究的预期成果进行了展望, 以期为从事该领域研究的科研人员提供参考。 相似文献