Large-scale systematic study on stability of the Ds element and timing of transposition in rice

Activator/Dissociation (Ac/Ds) transposon mutagenesis is a widely used tool for gene identification; however, several reports on silencing of the Ac/Ds element in starter lines and in stable transposants question the applicability of such an approach in later generations. We have performed a systematic analysis on various aspects of the silencing phenomenon in rice (Oryza sativa ssp. japonica cv. Nipponbare). High somatic and germinal transposition frequencies observed in earlier generations were maintained as late as T4 and T5 generations; thus the propagation of parental lines did not induce transposon silencing. Moreover, the stably transposed Ds element was active even at the F5 generation, since Ac could remobilize the Ds element as indicated by the footprint analysis of several revertants. Expression of the bar gene was monitored from F3 to F6 generations in >1,000 lines. Strikingly, substantial transgene silencing was not observed in any of the generations tested. We analyzed the timing of transposition during rice development and provide evidence that Ds is transposed late after tiller formation. The possibility, that the independent events could be the result of secondary transposition, was ruled out by analyzing potential footprints by reciprocal PCR. Our study validates the Ac/Ds system as a tool for large-scale mutagenesis in rice, since the Ds elements were active in the starter and insertion lines even in the later generations. We propose that harvesting rice seeds using their panicles is an alternative way to increase the number of independent transposants due to post-tillering transposition.     

Rapid, large-scale generation of Ds transposant lines and analysis of the Ds insertion sites in rice

Rapid, large-scale generation of a Ds transposant population was achieved using a regeneration procedure involving tissue culture of seed-derived calli carrying Ac and inactive Ds elements. In the F(2) progeny from genetic crosses between the same Ds and Ac starter lines, most of the crosses produced an independent germinal transposition frequency of 10-20%. Also, many Ds elements underwent immobilization even though Ac was expressed. By comparison, in a callus-derived regenerated population, over 70% of plants carried independent Ds insertions, indicating transposition early in callus formation. In the remaining population, the majority of plants carried only Ac. Most of the new Ds insertions were stably transmitted to a subsequent generation. An exceptionally high proportion of independent transposants in the regenerated population means that selection markers for transposed Ds and continual monitoring of Ac/Ds activities may not necessarily be required. By analyzing 1297 Ds-flanking DNA sequences, a genetic map of 1072 Ds insertion sites was developed. The map showed that Ds elements were transposed onto all of the rice chromosomes, with preference not only near donor sites (36%) but also on certain physically unlinked arms. Populations from both genetic crossing and tissue culture showed the same distribution patterns of Ds insertion sites. The information of these mapped Ds insertion sites was deposited in GenBank. Among them, 55% of Ds elements were on predicted open-reading frame (ORF) regions. Thus, we propose an optimal strategy for the rapid generation of a large population of Ds transposants in rice.     

利用Ac/Ds转座子系统在水稻中获得无选择标记转基因植株的方法

获得无选择标记转基因植株是进行重复转基因及消除转基因植株中标记基因潜在危害性的关键。实验采用了Ac／Ds转座子系统在水稻(Oryza sativa,L．)中进行无hpt选择标记的转基因。将含有目的基因bar的Ds元件和hpt标记基因置于同一个T-DNA中,通过农杆菌(Agrobacterium tumefaciens)EHAl05介导将Ac-T-DNA及Ds-T-DNA分别转入到不同的水稻植株,再将单拷贝的Ac-T-DNA植株与单拷贝的Ds-T-DNA植株杂交得到同时含有Ac和Ds元件的F1植株,Fl自交产生F2后代,F2植株中转座后的Ds元件与T-DNA独立分离,在总共100株F2水稻植株中筛选得到2株只含有Ds元件插入而无hpt标记基因的转基因水稻植株。结果表明,利用Ac／Ds转座子系统在水稻中获得无选择标记的转基因植株是可行的。     

水稻Ds插入纯合体的筛选和鉴定

采用Basta抗性鉴定、潮霉素抗性鉴定和PCR检测相结合的方法筛选和鉴定了水稻Ds插入纯合体。在T1代236个转化株系中,有16个株系的全部植株表现出对Basta的敏感,其余220个株系的植株表现出对Basta的抗性。经过3代的纯合筛选,共鉴定出Ds插入纯合体203个．这些Ds插入纯合体可用于构建Ac／Ds系统和对Ds插入突变体进行筛选和鉴定,为水稻功能基因组学研究提供了材料。     

Establishing an efficient Ac/Ds tagging system in rice: large-scale analysis of Ds flanking sequences

A two-element Activator/Dissociation (Ac/Ds) gene trap system was successfully established in rice (Oryza sativa ssp. japonica cv. Nipponbare) to generate a collection of stable, unlinked and single-copy Ds transposants. The germinal transposition frequency of Ds was estimated as an average of 51% by analyzing 4413 families. Study of Ds transposition pattern in siblings revealed that 79% had at least two different insertions, suggesting late transposition during rice development. Analysis of 2057 Ds flanking sequences showed that 88% of them were unique, whereas the rest within T-DNA. The insertions were distributed randomly throughout the genome; however, there was a bias toward chromosomes 4 and 7, which had two times as many insertions as that expected. A hot spot for Ds insertions was identified on chromosome 7 within a 40-kbp region. One-third of Ds flanking sequences was homologous to either proteins or rice expressed sequence tags (ESTs), confirming a preference for Ds transposition into coding regions. Analysis of 200 Ds lines on chromosome 1 revealed that 72% insertions were found in genic region. Anchoring of more than 800 insertions to yeast artificial chromosome (YAC)-based EST map showed that Ds transposes preferentially into regions rich in expressed sequences. High germinal transposition frequency and independent transpositions among siblings show that the efficiency of this system is suitable for large-scale transposon mutagenesis in rice.     

T—DNA插入水稻群体中卷叶突变体R1—A2的遗传分析

在根癌农杆菌介导的T-DNA(携带有除草剂Basta抗性基因bar和Ds因子)转化中花11水稻群体中,获得了一个叶片发生明显内卷的突变体Rl-A。经过连续三代的分离鉴定,获得突变体的纯合株(Rl-A2),并与中花11号进行杂交,在调查的36个F1植株中,全部表现为卷叶,并对Basta除草剂都表现为抗性。在852个F2单株中,卷叶为645株,正常叶207株,卷叶和正常叶的比例为3：1,其中,卷叶株均对Basta表现抗性,正常叶株均对Basta表现敏感,表明卷叶性状和Basta抗性存在着共分离关系。用扩增DS因子的引物,对F2中45个卷叶抗性株进行PCR鉴定,都获得预期长度的Ds因子片段,进一步表明在这些卷叶的植株中都有T-DNA的插入;而30个正常叶敏感株都不能检测到DS的特征片段。在以卷叶突变(Rl-A2)为回交亲本的F1B1植株中,全部植株表现卷叶;在以中花11号为回交亲本的F1B1植株中,卷叶和正常叶植株的分离比为1：1。上述结果表明该卷叶突变是个显性突变,受一个基因所控制,且该基因的突变与T-DNA的插入有关。     

T-DNA插入水稻群体中卷叶突变体R1-A2的遗传分析

在根癌农杆菌介导的T-DNA(携带有除草剂Basta抗性基因bar和Ds因子)转化中花11水稻群体中,获得了一个叶片发生明显内卷的突变体R1-A。经过连续三代的分离鉴定,获得突变体的纯合株(R1-A2),并与中花11号进行杂交,在调查的36个F_1植株中,全部表现为卷叶,并对Basta除草剂都表现为抗性。在852个F_2单株中,卷叶为645株,正常叶207株,卷叶和正常叶的比例为3:1,其中,卷叶株均对Basta表现抗性,正常叶株均对Basta表现敏感,表明卷叶性状和Basta抗性存在着共分离关系。用扩增Ds因子的引物,对F_2中45个卷叶抗性株进行PCR鉴定,都获得预期长度的Ds因子片段,进一步表明在这些卷叶的植株中都有T-DNA的插入;而30个正常叶敏感株都不能检测到Ds的特征片段。在以卷叶突变(R1-A2)为回交亲本的F_1B_1植株中,全部植株表现卷叶;在以中花11号为回交亲本的F_1B_1植株中,卷叶和正常叶植株的分离比为1:1。上述结果表明该卷叶突变是个显性突变,受一个基因所控制,且该基因的突变与T-DNA的插入有关。     

Ac/Ds(GUS)结构介导的水稻启动子捕获系统的建立

构建了基于Activator/Dissociation(β-glucuronidase)[简称Ac/Ds(GUS)]结构的捕获质粒p13B,用于分离水稻基因启动子.以此质粒用衣杆菌介导的方法转化粳稻品种中花11的胚性愈伤组织,对获得的18个独立转化株的T2代植株进行了抗除草剂筛选,从141个抗除草剂转基因植株中用PCR方法检测到其中37株是Ds因子发生了转座的植株,而且这种转座到新位置上的Ds因子是遗传的.初步观察到其中5株的GUS染色呈阳性.     

农杆菌介导籼稻优良恢复系bar基因的遗传转化研究

应用农杆菌介导转化体系,成功地将含有CaMv35s启动子启动的bar基因导入籼稻幼胚来源的愈伤组织,获得籼稻优良恢复系T461、R402和752三个品种（系）共47个抗除草剂Basta的转基因株系,Southem分析结果表明,转基因植株基因组中检测到bar基因的整合,转基因植株自交后代Basta除草剂抗性鉴定表现出分离,且大多数为1-2个整合位点的孟德尔方式遗传。结果表明,根癌农杆菌介导法可以有效且可靠地转化籼稻。     

Molecular analysis of rice plants harboring an Ac/Ds transposable element-mediated gene trapping system

In rice, limited efforts have been made to identify genes by the use of insertional mutagens, especially heterologous transposons such as the maize Ac/Ds. We constructed Ac and gene trap Ds vectors and introduced them into the rice genome by Agrobacterium-mediated transformation. In this report, rice plants that contained single and simple insertions of T-DNA were analysed in order to evaluate the gene-tagging efficiency. The 3' end of Ds was examined for putative splicing donor sites. As observed in maize, three splice donor sites were identified at the 3' end of the Ds in rice. Nearly 80% of Ds elements were excised from the original T-DNA sites, when Ac cDNA was expressed under a CaMV 35S promoter. Repetitive ratoon culturing was performed to induce new transpositions of Ds in new plants derived from cuttings. About 30% of the plants carried at least one Ds which underwent secondary transposition in the later cultures. Eight per cent of transposed Ds elements expressed GUS in various tissues of rice panicles. With cloned DNA adjacent to Ds, the genomic complexities of the insertion sites were examined by Southern hybridization. Half of the Ds insertion sites showed simple hybridization patterns which could be easily utilized to locate the Ds. Our data demonstrate that the Ac/Ds-mediated gene trap system could prove an excellent tool for the analysis of functions of genes in rice. We discuss genetic strategies that could be employed in a large scale mutagenesis using a heterologous Ac/Ds family in rice.     

不同启动子控制下Ac转座酶基因的表达对玉米Ds因子在水稻中切离频率的影响

用水稻愈伤组织比较了Ac启动子、35S启动子与Ubi启动子控制下Ac转座酶基因（Ts）的表达对Ds因子切离频率的影响。结果表明Ubi启动子与Ac转座酶编码区嵌合基因（Ubipro-Ts）反式激活Ds因子的切离频率最高,达到了72.9%。通过杂交将Ubipro-Ts基因导入Ds因子转化植株,得到9株Ubipro-Ts基因与Ds因子共存的F1代杂交水稻植株,其中有8株Ds因子发生了切离。用Inverse-PCR的方法从其中一株杂交植株中克隆到Ds因子的旁邻序列,其DNA顺序与亲本中Ds因子原插入位点的序列不同,表明Ds因子转座到了新的基因组位点。     

Transposon tagging in diploid strawberry

Fragaria vesca was transformed with a transposon tagging construct harbouring amino terminally deleted maize transposase and EGFP (Ac element), NPTII, CaMV 35S promoter (P35S) driving transposase and mannopine synthase promoter (Pmas) driving EGFP (Ds element). Of 180 primary transgenics, 48 were potential launch pads, 72 were multiple insertions or chimaeras, and 60 exhibited somatic transposition. T(1) progeny of 32 putative launch pads were screened by multiplex PCR for transposition. Evidence of germ-line transposition occurred in 13 putative launch pads; however, the transposition frequency was too low in three for efficient recovery of transposants. The transposition frequency in the remaining launch pads ranged from 16% to 40%. After self-pollination of the T(0) launch pads, putative transposants in the T(1) generation were identified by multiplex PCR. Sequencing of hiTAIL-PCR products derived from nested primers within the Ds end sequences (either P35S at the left border or the inverted repeat at the right border) of T(1) plants revealed transposition of the Ds element to distant sites in the strawberry genome. From more than 2400 T(1) plants screened, 103 unique transposants have been identified, among which 17 were somatic transpositions observed in the T(0) generation. Ds insertion sites were dispersed among various gene elements [exons (15%), introns (23%), promoters (30%), 3' UTRs (17%) as well as intergenically (15%)]. Three-primer (one on either side of the Ds insertion and one within the Ds T-DNA) PCR could be used to identify homozygous T(2) transposon-tagged plants. The mutant collection has been catalogued in an on-line database.     

插入玉米Ds转座因子的水稻转化群体及其分子分析

转座子标签法是一种利用转座因子插入高等植物基因组中造成基因突变,然后通过分离转座因子插入的旁邻顺序,进而克隆出突变基因的策略。这种策略在高等植物功能基因组学的研究中是十分有用的。为此目的,将玉米的Ds因子及bar基因连接至载体pCAMBIA1300的T-DNA区域中,构建成重组Ti质粒pDsBar1300。pDsBar1300中T-DNA区域中的潮霉素抗性基因可在转化过程中用作水稻转化植株的选择标记。插入在Ds因子中的bar基因可追踪转化后代的Ds因子。pDsBar1300通过根瘤农杆茵介导引入水稻品种中花11号的幼胚组织。从各转化愈伤组织中获得了1400株独立的Ds水稻转化植株。通过PPT抗性检测和PCR分析证明了水稻转化植株中Ds因子的整合。Southernblot分析了转化植株基因组中Ds因子的插入拷贝数,其中单拷贝插入比率约占70％。这些插有Ds因子的水稻转化植株,当引入自主型的Ac因子反式活化Ds因子后,可使Ds因子跳跃到不同位点上,就可得到更多的突变植株。     

基因枪法获得转cry1Ac基因甘蔗的研究

根据定向克隆原则,以pGreenⅡ0229为载体骨架,cry1Ac为目的基因,bar为筛选标记基因,构建了大小为8602 bp的植物表达载体pUBCG0229-cry1Ac。酶切结果表明,构建的载体pUBCG0229-cry1Ac结构完全正确。用基因枪轰击法将pUBCG0229-cry1Ac质粒DNA转化甘蔗(Saccharum Complex)品种福农95-1702和桂糖94-119的胚性愈伤组织,使用PPT(phosphinothricin)对轰击后的材料进行继代、分化和生根筛选,移栽成活后使用Basta溶液喷洒进行初步筛选,共获得86株抗性植株,通过PCR检测、Dot-Southern检测及PCR产物测序,证明已将cry1Ac基因整合到其中22株甘蔗基因组中。     

A transgenic system for generation of transposon Ac/Ds-induced chromosome rearrangements in rice

The maize Activator (Ac)/Dissociation (Ds) transposable element system has been used in a variety of plants for insertional mutagenesis. Ac/Ds elements can also generate genome rearrangements via alternative transposition reactions which involve the termini of closely linked transposons. Here, we introduced a transgene containing reverse-oriented Ac/Ds termini together with an Ac transposase gene into rice (Oryza sativa ssp. japonica cv. Nipponbare). Among the transgenic progeny, we identified and characterized 25 independent genome rearrangements at three different chromosomal loci. The rearrangements include chromosomal deletions and inversions and one translocation. Most of the deletions occurred within the T-DNA region, but two cases showed the loss of 72 kilobase pairs (kb) and 79 kb of rice genomic DNA flanking the transgene. In addition to deletions, we obtained chromosomal inversions ranging in size from less than 10 kb (within the transgene DNA) to over 1 million base pairs (Mb). For 11 inversions, we cloned and sequenced both inversion breakpoints; in all 11 cases, the inversion junctions contained the typical 8 base pairs (bp) Ac/Ds target site duplications, confirming their origin as transposition products. Together, our results indicate that alternative Ac/Ds transposition can be an efficient tool for functional genomics and chromosomal manipulation in rice.     

Transposon Ac/Ds-induced chromosomal rearrangements at the rice OsRLG5 locus

Previous studies have shown that pairs of closely-linked Ac/Ds transposable elements can induce various chromosomal rearrangements in plant genomes. To study chromosomal rearrangements in rice, we isolated a line (OsRLG5-161) that contains two inversely-oriented Ds insertions in OsRLG5 (Oryza sativa Receptor like kinase Gene 5). Among approximately 300 plants regenerated from OsRLG5-161 heterozygous seeds, 107 contained rearrangements including deletions, duplications and inversions of various sizes. Most rearrangements were induced by previously identified alternative transposition mechanism. Furthermore, we also detected a new class of rearrangements that contain juxtaposed inversions and deletions on the same chromosome. We propose that these novel alleles were generated by a previously unreported type of alternative transposition reactions involving the 5' and 3' termini of two inversely-oriented Ds elements located on the same chromatid. Finally, 11% of rearrangements contained inversions resulting from homologous recombination between the two inverted Ds elements in OsRLG5-161. The high frequency inheritance and great variety of rearrangements obtained suggests that the rice regeneration system results in a burst of transposition activity and a relaxation of the controls which normally limit the transposition competence of individual Ds termini. Together, these results demonstrate a greatly enlarged potential of the Ac/Ds system for plant chromosome engineering.     

hpt与bar基因作为水稻转基因筛选标记的比较研究

标记基因的选择是影响植物遗传转化和转基因后代筛选成败的关键因素。hpt与bar作为两种常用的水稻转化筛选标记被广泛应用于水稻的转化。为比较两者在实际应用中的效果, 文章首先对比了在潮霉素和除草剂(Bialaphos)两种筛选剂下水稻遗传转化的情况。研究表明, hpt基因的转化筛选体系相对于bar基因在转化效率上提高近两倍, 转化周期提前至少10 d, 且插入基因拷贝数更低。随后, 文章分析了利用潮霉素浸种法在田间筛选转基因水稻的可行性, 研究显示当潮霉素浓度大于167 mg/L时, 可以对以水稻品种kitaake为亲本的转基因材料进行有效筛选, 达到常规除草剂的筛选效果。但与除草剂相比较, 潮霉素的田间筛选成本却处于劣势。文章研究和讨论了hpt和bar基因在遗传转化和后代田间筛选中的优缺点, 并提供了一种利用潮霉素浸种法筛选转基因后代阳性植株的手段, 为将来在水稻转基因研究工作中根据实际需求选择合适的遗传转化、筛选体系提供参考。     

水稻转座子突变体库的构建及突变类型的遗传分析

利用根癌农杆菌介导的遗传转化法,把玉米转座子Ac片段(合成转座酶)和Ds因子(转座序列)分别导入粳稻品种中花11,获得了400多个转化株系。有63个株系的转基因T₀代植株或T₁代植株出现了可见的形态变异,包括抗病、白苗、黄苗、白条斑叶、有色秆、矮秆、匍匐茎、雄性不育、抽穗早、抽穗迟、多倍体等突变类型。对突变性状的形态及分子生物学分析,有些突变类型可能与转座子插入有关。     

Transposon-mediated single-copy gene delivery leads to increased transgene expression stability in barley

Instability of transgene expression in plants is often associated with complex multicopy patterns of transgene integration at the same locus, as well as position effects due to random integration. Based on maize transposable elements Activator (Ac) and Dissociation (Ds), we developed a method to generate large numbers of transgenic barley (Hordeum vulgare var Golden Promise) plants, each carrying a single transgene copy at different locations. Plants expressing Ac transposase (AcTPase) were crossed with plants containing one or more copies of bar, a selectable herbicide (Basta) resistance gene, located between inverted-repeat Ds ends (Ds-bar). F(1) plants were self-pollinated and the F(2) generation was analyzed to identify plants segregating for transposed Ds-bar elements. Of Ds-bar transpositions, 25% were in unlinked sites that segregated from vector sequences, other Ds-bar copies, and the AcTPase gene, resulting in numerous single-copy Ds-bar plants carrying the transgene at different locations. Transgene expression in F(2) plants with transposed Ds-bar was 100% stable, whereas only 23% of F(2) plants carrying Ds-bar at the original site expressed the transgene product stably. In F(3) and F(4) populations, transgene expression in 81.5% of plants from progeny of F(2) plants with single-copy, transposed Ds-bar remained completely stable. Analysis of the integration site in single-copy plants showed that transposed Ds-bar inserted into single- or low-copy regions of the genome, whereas silenced Ds-bar elements at their original location were inserted into redundant or highly repetitive genomic regions. Methylation of the non-transposed transgene and its promoter, as well as a higher condensation of the chromatin around the original integration site, was associated with plants exhibiting transgene silencing.