Genetic and molecular characterization of embryonic mutants identified following seed transformation in Arabidopsis

Over 5000 transgenic families of Arabidopsis thaliana produced following seed transformation with Agrobacterium tumefaciens were screened for embryonic lethals, defectives, and pattern mutants. One hundred and seventy-eight mutants with a wide range of developmental abnormalities were identified. Forty-one mutants appear from genetic studies to be tagged (36% of the 115 mutants examined in detail). Mapping with visible markers demonstrated that mutant genes were randomly distributed throughout the genome. Seven mutant families appeared to contain chromosomal translocations because the mutant genes exhibited linkage to visible markers on two different chromosomes. Chromosomal rearrangements may therefore be widespread following seed transformation. DNA gel blot hybridizations with 34 tagged mutants and three T-DNA probes revealed a wide range of insertion patterns. Models of T-DNA structure at each mutant locus were constructed to facilitate gene isolation. The value of such models was demonstrated by using plasmid rescue to clone flanking plant DNA from four tagged mutants. Further analysis of genes isolated from these insertional mutants should help to elucidate the relationship between gene function and plant embryogenesis.     

Embryonic Lethals and T-DNA Insertional Mutagenesis in Arabidopsis

T-DNA insertional mutagenesis represents a promising approach to the molecular isolation of genes with essential functions during plant embryo development. We describe in this report the isolation and characterization of 18 mutants of Arabidopsis thaliana defective in embryo development following seed transformation with Agrobacterium tumefaciens. Random T-DNA insertion was expected to result in a high frequency of recessive embryonic lethals because many target genes are required for embryogenesis. The cointegrate Ti plasmid used in these experiments contained the nopaline synthase and neomycin phosphotransferase gene markers. Nopaline assays and resistance to kanamycin were used to estimate the number of functional inserts present in segregating families. Nine families appeared to contain a T-DNA insert either within or adjacent to the mutant gene. Eight families were clearly not tagged with a functional insert and appeared instead to contain mutations induced during the transformation process. DNA gel blot hybridization with internal and right border probes revealed a variety of rearrangements associated with T-DNA insertion. A general strategy is presented to simplify the identification of tagged embryonic mutants and facilitate the molecular isolation of genes required for plant embryogenesis.     

Insertional mutagenesis of genes required for seed development in Arabidopsis thaliana.

The purpose of this project was to identify large numbers of Arabidopsis genes with essential functions during seed development. More than 120,000 T-DNA insertion lines were generated following Agrobacterium-mediated transformation. Transgenic plants were screened for defective seeds and putative mutants were subjected to detailed analysis in subsequent generations. Plasmid rescue and TAIL-PCR were used to recover plant sequences flanking insertion sites in tagged mutants. More than 4200 mutants with a wide range of seed phenotypes were identified. Over 1700 of these mutants were analyzed in detail. The 350 tagged embryo-defective (emb) mutants identified to date represent a significant advance toward saturation mutagenesis of EMB genes in Arabidopsis. Plant sequences adjacent to T-DNA borders in mutants with confirmed insertion sites were used to map genome locations and establish tentative identities for 167 EMB genes with diverse biological functions. The frequency of duplicate mutant alleles recovered is consistent with a relatively small number of essential (EMB) genes with nonredundant functions during seed development. Other functions critical to seed development in Arabidopsis may be protected from deleterious mutations by extensive genome duplications.     

Identification of further <Emphasis Type="Italic">Craterostigma plantagineum cdt</Emphasis> mutants affected in abscisic acid mediated desiccation tolerance

The resurrection plant (Craterostigma plantagineum) is desiccation tolerant. However, callus derived from this plant, when propagated in vitro, requires exogenously applied abscisic acid (ABA) in order to survive desiccation. Treatment of callus tissue with ABA induces most of the genes that are induced by dehydration in the whole plant. This property has been exploited for the isolation of mutants that show dominant phenotypes resulting from the ectopic expression of endogenous genes induced by the insertion of a foreign promoter. Here we describe new T-DNA tagged Craterostigma desiccation-tolerant (cdt) mutants with different molecular and physiological characteristics, suggesting that different pathways of desiccation tolerance are affected. One of the mutants, cdt-2, constitutively expresses known osmoprotective Lea genes in callus and leaf tissue. Further analysis of this mutant revealed that the tagged locus is similar to a previously characterised gene, CDT-1, which codes for a signalling molecule that confers desiccation tolerance. The nature of the T-DNA insertion provides insight into the mechanism by which the CDT-1/2 gene family functions in ABA signal transduction.     

An Arabidopsis mutant showing aberrations in male meiosis

A male-sterile mutant, mei-1, of Arabidopsis thaliana is described. In this mutant, instead of a tetrad of four microspores being formed after meiosis, a tetrad consisting of from five to eight microspores is formed. The microspores show a wide range of sizes and of DNA contents. The mutant is female-fertile. This mutant was produced by seed transformation with Agrobacterium and appears to be T-DNA tagged.     

MEI1, an Arabidopsis gene required for male meiosis: isolation and characterization

 The T-DNA tagged mutant gene of Arabidopsis thaliana, mei1, produces after meiosis an abnormal tetrad, consisting of five to eight microspores of varying sizes and DNA contents. Plant DNA flanking the inserted T-DNA was isolated by inverse PCR. An approximately 16-kb DNA fragment spanning the T-DNA insertion site was isolated by screening a wild-type genomic library, using the plant flanking DNA as a probe. Using RT-PCR and RNA isolated from very young flower buds, a cDNA fragment was obtained. Nucleotide sequence comparison of the cDNA and the genomic sequence in this region indicated a gene which contained two introns. The 5′ and 3′ splice sites of neither intron comply with the :GU...AG: rule. In the mutant, the T-DNA had inserted into one of the introns. The deduced sequence of the MEI1 wild-type gene, which contains 89 amino acids, shows possible similarity with the human acrosin-trypsin inhibitor, HUSI-II, and is about the same size. Two wild-type DNA fragments, both extending over the T-DNA insertion site, were introduced into mutant plants by Agrobacterium-mediated transformation and plants were selected for both hygromycin and kanamycin resistance. Several independent male-fertile transformants were obtained with one of the DNA fragments. The fragment showing complementation of the mutant phenotype indicated that the sequence with similarity to the acrosin-trypsin inhibitor is MEI1. Within the 16-kb genomic fragment two other genes were identified; one showed no overall similarity to any protein sequence in the database and the other had almost complete identity with an Arabidopsis-transcribed sequence tag with similarity to ACC oxidase. Double mutants between mei1 and qrt1 were made, permitting better characterization of the mei1 phenotype because the individual microspores continued to be held together after callose dissolution. Received: 21 April 1998 / Revision accepted: 11 June 1998     

提高水稻插入突变体库利用效率的尝试

T-DNA标签法是一种以农杆菌介导的遗传转化为基础来创造插入突变体库, 从而高通量地分离和克隆植物功能基因的方法。但由于种种原因, 水稻插入突变体库的利用效率较低。为了提高水稻插入突变体库的利用效率, 结合水稻一个双拷贝T-DNA插入突变体的发现和鉴定研究, 通过特异PCR检测、侧翼序列与目标性状的共分离分析, 在1个双插入位点均为杂合的植株的后代株系中分拆了2个插入事件, 分离出目标性状存在遗传分离且只带有1个插入事件的后代株系, 为后续的共分离检测和基因克隆研究打下了重要的基础。由此产生了对插入突变体库中的非串联多拷贝插入标签系进行研究的一些思路和方法, 提出来与同行商榷。     

Early and multiple Ac transpositions in rice suitable for efficient insertional mutagenesis

A GFP excision assay was developed to monitor the excision of Ac introduced into rice by Agrobacterium-mediated transformation. The presence of a strong double enhancer element of the CaMV 35S promoter adjacent to the Ac promoter induced very early excision, directly after transformation into the plant cell, exemplified by the absence of Ac in the T-DNA loci. Excision fingerprint analysis and characterization of transposition events from related regenerants revealed an inverse correlation between the number of excision events and transposed Ac copies, with single early excisions after transformation generating Ac amplification. New transpositions were generated at a frequency of 15–50% in different lines, yielding genotypes bearing multiple insertions, many of which were inherited in the progeny. The sequence of DNA flanking Ac in three representative lines provided a database of insertion tagged sites suitable for the identification of mutants of sequenced genes that can be examined for phenotypes in a reverse genetics strategy to elucidate gene function. Remarkably, two-thirds of Ac tagged sites showing homology to sequences in public databases were in predicted genes. A clear preference of transposon insertions in genes that are either predicted by protein coding capacity or by similarity to ESTs suggests that the efficiency of recovering knockout mutants of genes could be about three times higher than random. Linked Ac transposition, suitable for targeted tagging, was documented by segregation analysis of a crippled Ac element and by recovery of a set of six insertions in a contiguous sequence of 70 kb from chromosome 6 of rice.     

Saturating the genetic map of Arabidopsis thaliana with embryonic mutations

One goal of the Arabidopsis genome project is to identify every gene with an essential function in growth and development. Towards that end, the results are reported here of a mapping project designed to enhance the linkage map of Arabidopsis and establish a valuable resource of mutations in essential genes with known map locations. Embryo-defective (emb) mutations were chosen because they represent the most common heritable defect identified following mutagenesis in Arabidopsis. Multiple marker lines with easily scored phenotypes were constructed to facilitate mapping efforts. Recombination data were obtained for 169 mutants defective in embryo-genesis. The chromosomal locations of 110 emb genes are presented in this report. Twenty-six of these genes are tagged with T-DNA. Nine other mutants isolated following seed transformation appear to contain chromosomal translocations. Another 31 mutant genes in the collectiohave been assigned to a linkage group but not yet placed on the map. Nineteen examples of duplicate alleles have also been found. This is consistent with the estimate that approximately 500 genes readily mutate to give an embryo-defective phenotype in Arabidopsis. With continued progress, it may therefore be possible to approach saturation for this important class of mutations. Molecular cloning of these genes should be facilitated by identifying cDNAs and genomic sequences that map to similar locations.     

Characterization of three male-sterile mutants of Arabidopsis thaliana exhibiting alterations in meiosis

Male-sterile mutants are being studied to deepen our understanding of the complex processes of microsporogenesis and microgametogenesis. Due to difficulties associated with isolating the mutated gene, there is currently very little molecular information on the defects responsible for male sterility. As a first step in utilizing male-sterile mutants to better understand the bio-chemical and molecular processes that control pollen development, we have characterized a number of Arabidopsis thaliana lines that were generated by seed transformation and exhibit male sterility. We report here the identification and characterization of three male-sterile A. thaliana lines, all of which are tagged with T-DNA and show aberrant meiosis. A detailed cytochemical study was conducted on these lines to better understand the timing and nature of each mutation and to investigate how these mutations affect subsequent steps of pollen development. All three mutants undergo apparently normal morphogenesis until the onset of meiosis. In one line (6492) the mutation is most notable at the tetrad stage when up to eight microspores can be seen in each callose-encased tetrad. The resulting mutant microspores are of variable sizes and contain different amounts of DNA. Two other mutants (7219 and 7593) possess many common features, including variable developmental pathways, failure to produce callose, production of vacuolate, coenocytic (multi-nucleate) cells that are surrounded by persistent microsporocyte walls, and asynchronous patterns of development. Unlike the situation in wild-type plants, where developmental stages are correlated with bud length, such correlations are almost impossible with these two mutants. The sporogenous tissue within all three of these mutant lines collapses prior to anthesis.     

The ternary transformation system: constitutive virG on a compatible plasmid dramatically increases Agrobacterium-mediated plant transformation

This paper describes a so-called ternary transformation system for plant cells. We demonstrate that Agrobacterium tumefaciens strain LBA4404 supplemented with a constitutive virG mutant gene (virGN54D) on a compatible plasmid is capable of very efficient T-DNA transfer to a diverse range of plant species. For the plant species Catharanthus roseus it is shown that increased T-DNA transfer results in increased stable transformation frequencies. Analysis of stably transformed C. roseus cell lines showed that, although the T-DNA transfer frequency is greatly enhanced by addition of virGN54D, only one or a few T-DNA copies are stably integrated into the plant genome. Thus, high transformation frequencies of different plant species can be achieved by introduction of a ternary plasmid carrying a constitutive virG mutant into existing A. tumefaciens strains in combination with standard binary vectors.     

激活标签法构建拟南芥突变体库及其表型分析

以拟南芥(ArabMopsis thaliana)野生生态型(Columbia)植株为实验材料,以含有激活标记双元质粒pCB260的农杆菌进行转化,并以抗除草剂Basta为筛选标记,构建了拟南芥激活标签突变体库,所用pCB260双元质粒含有两个Ds位点、一个GFP标记基因与一个抗basta标记基因,可以方便高效地筛选转基因植物.目前经初步筛选获得了约10 000个独立转化株系(T1代),其中约50个株系具有明显的表型变化,包括花期改变、株型变异、叶形特异、育性降低、花发育异常、种子颜色变浅等.运用TAIL-PCR技术,成功获得了其中10个表型特异株系的T-DNA侧翼序列,分别分布于拟南芥基因组的5条染色体上.     

Detection of T-DNA transfer to plant cells by A. tumefaciens virulence mutants using agroinfection

Summary To test whether virulence mutants of Agrobacterium tumefaciens are capable of promoting T-DNA transfer into plant cells, a tandem array of Cauliflower Mosaic Virus (CaMV) DNA was cloned between T-region border sequences on a wide host range plasmid and introduced into various virulence mutants. The resulting strains were used to infect Brassica rapa cv. Just Right. This assay, recently referred to as agroinfection, is based on the appearance of viral symptoms following transfer of T-DNA to plant cells, and is shown to be at least 100 times more sensitive in detecting T-DNA transfer than tumour formation. Mutants in the loci vir A, B and G, which were avirulent on turnip, failed to induce virus symptoms. Of the two vir D mutants tested, neither induced tumours, but one was capable of inducing virus symptoms. Mutants in vir E, C and F, which induced respectively no, small and normal tumours on turnip, all induced virus symptoms.     

Trichome Development in Arabidopsis thaliana. I. T-DNA Tagging of the GLABROUS1 Gene

Progeny from a transformed Arabidopsis plant (produced by the Agrobacterium-mediated seed transformation procedure) were found to be segregating for an altered trichome phenotype. The mutant plants have normal leaf trichomes but completely lack trichomes usually found on the stem. The mutation is tightly linked to a T-DNA insert. Complementation analysis with genetically characterized trichome mutants revealed that the new mutation is an allele of the GL1 locus. The new trichome mutant has been designated gl1-43. DNA gel blot analysis indicated that the insert site contains a complex array of at least four tandemly linked T-DNA units oriented as both direct and inverted repeats. A genomic library, constructed using DNA from gl1-43 plants, was used to clone DNA that flanks the left end of the T-DNA insert. The availability of DNA from the region interrupted by the insert has allowed initial characterization of the wild-type GL1 gene and will permit the eventual cloning and sequencing of this developmentally interesting gene.     

T-DNA insertion mutagenesis in Arabidopsis: mutational spectrum

More than 8000 transformants of Arabidopsis have been generated by treating germinating seeds with cultures of Agrobacterium tumefaciens. Genetic characterization of a subset of the transformants indicates that they contain an average of 1.4 inserts each, as assayed by kanamycin resistance. Molecular analysis shows that the inserts are predominantly concatamers of T-DNAs arranged as direct and inverted repeats. More recently these 8000 lines have been screened under a variety of growth conditions for visible alterations in phenotype. More than 1000 putative mutants were observed during the application of these screening procedures. These mutants fall into several general classes: seedling-lethals, size variants, pigment, embryo-defective, reduced-fertility, dramatic (morphological), and physiological. The majority of the mutants (88%) segregate in a Mendelian manner for the mutant phenotype. An analysis of approximately 50 mutants in this group shows that > 80% are tagged with a functional insert. The wide spectrum of mutants observed suggests that it may be feasible to develop a comprehensive collection of mutant lines in which each gene is tagged by a T-DNA insertion.     

Generation and flanking sequence analysis of a rice T-DNA tagged population

Insertional mutagenesis provides a rapid way to clone a mutated gene. Transfer DNA (T-DNA) of Agrobacterium tumefaciens has been proven to be a successful tool for gene discovery in Arabidopsis and rice (Oryza sativa L. ssp. japonica). Here, we report the generation of 5,200 independent T-DNA tagged rice lines. The T-DNA insertion pattern in the rice genome was investigated, and an initial database was constructed based on T-DNA flanking sequences amplified from randomly selected T-DNA tagged rice lines using Thermal Asymmetric Interlaced PCR (TAIL-PCR). Of 361 T-DNA flanking sequences, 92 showed long T-DNA integration (T-DNA together with non-T-DNA). Another 55 sequences showed complex integration of T-DNA into the rice genome. Besides direct integration, filler sequences and microhomology (one to several nucleotides of homology) were observed between the T-DNA right border and other portions of the vector pCAMBIA1301 in transgenic rice. Preferential insertion of T-DNA into protein-coding regions of the rice genome was detected. Insertion sites mapped onto rice chromosomes were scattered in the genome. Some phenotypic mutants were observed in the T₁ generation of the T-DNA tagged plants. Our mutant population will be useful for studying T-DNA integration patterns and for analyzing gene function in rice.Electronic Supplementary Material Supplementary material is available in the online version of this article at .Communicated by D. Mackill