Phenotypical and structural characterization of the Arabidopsis mutant involved in shoot apical meristem

An Arabidopsis mutant induced by T-DNA insertion was studied with respect to its phenotype, micro-structure of shoot apical meristem (SAM) and histo-chemical localization of the GUS gene in comparison with the wild type. Phenotypical observation found that the mutant exhibited a dwarf phenotype with smaller organs (such as smaller leaves, shorter petioles), and slower development and flowering time compared to the wild type. Optical microscopic analysis of the mutant showed that it had a smaller and more flattened SAM, with reduced cell layers and a shortened distance between two leaf primordia compared with the wild type. In addi-tion, analysis of the histo-chemical localization of the GUS gene revealed that it was specifically expressed in the SAM and the vascular tissue of the mutant, which suggests that the gene trapped by T-DNA may function in the SAM, and T-DNA insertion could influence the functional activity of the related gene in the mutant, lead-ing to alterations in the SAM and a series of phenotypes in the mutant.     

拟南芥茎顶端分生组织相关突变体的表型与结构分析

以拟南芥野生型(C24)和T-DNA插入诱发的突变体(155系)为材料,通过表型分析、组织切片、GUS基因表达的组织化学定位等研究方法对155系的形态结构和生长发育进行了较为细致的观察分析,结果发现:(1)T-DNA插入诱发的155系突变体植株矮化,叶片等器官体积减小,营养生长阶段延长,发育较C24缓慢;(2)同一时期155系的茎顶端分生组织面积较C24减小,顶端平坦,细胞层数减少,两侧叶原基基部之间的距离缩短,呈现出发育迟缓、从茎顶端分生组织向花分生组织转变延迟等特征;(3)GUS基因特异性地在155系茎顶端分生组织和维管组织中表达.结果表明,T-DNA诱捕基因可能在茎顶端分生组织中发挥作用,由于T-DNA的插入使该基因的功能受到了影响,进而影响了155系中茎顶端分生组织的发育模式,产生了155系的一系列表型改变.     

拟南芥ERD15基因缺失突变体的分子鉴定和表型分析

为探究ERD15基因功能,利用反向遗传学,通过PCR及半定量PCR筛选鉴定出拟南芥(Arabidopsis thaliana) ERD15基因的T-DNA插入纯合突变体,并对其表型进行观察分析。结果表明,erd15突变体莲座叶数目显著增多,提前3～4 d开花,突变体比野生型更早从营养生长转向生殖生长。拟南芥野生型植株主茎为圆柱体,平均直径1.29 mm,而erd15突变体主茎扁平,平均直径达到2.27mm,具极显著差异。与野生型相比,erd15突变体果实心皮发育受到影响,隔膜上排列有多排种子,果荚顶端膨大,长度缩短37.67%,但角果平均结籽数升高。因此,ERD15基因参与了调控拟南芥植株的生殖生长过程。     

The genetic and physiological analysis of late-flowering phenotype of T-DNA insertion mutants of AtCAL1 and AtCAL2 in Arabidopsis

The homozygous T-DNA mutants of AtCAL1 (Rat1) and AtCAL2 (Rat2) were obtained. The double mutant of Rat2/Rat1RNAi was constructed which showed obvious late-flowering phenotype from others. The expression of various flowering-related genes was studied among mutants and wild-type plants by quantitative RT–PCR. The double mutant plants showed the shortest root length compared with T-DNA insertion mutants and wild type plants under red light, blue light, and white light. The double mutants showed hypersensitivity to NaCl and ABA. However, these mutants had no effect on stomatal closure by ABA.     

拟南芥株型突变体zpr1的性状特征与基因鉴定分析

对本研究室经T-DNA插入法获得的拟南芥株型突变株系——隐性突变体zpr1植株进行植物学性状调查和遗传分析,并对该突变基因进行鉴定、表达定位和调控元件分析。结果显示:(1)性状分析表明,与野生型拟南芥Ws-2相比,突变体zpr1的茎生叶分枝数量增加,茎生叶分枝发生于拟南芥顶端花序部位;野生型拟南芥茎生叶为披针形,而突变体zpr1没有出现分枝的茎生叶呈倒卵形,出现分枝的茎生叶呈披针型;突变体zpr1的主花序高度、株高、分枝高度和分枝长度都高于野生型,且分枝数多于野生型。(2)利用质粒挽救和反向PCR法(IPCR)确定了ZPR1基因突变发生位置是该基因起始密码子上游426bp处,证明T-DNA插入破坏了ZPR1基因的启动子区域,导致该基因在拟南芥内不能正常表达。(3)基因转录调控区域的顺式作用元件分析发现在ZPR1基因的转录调控区有多个与植物激素相关的调控元件,还有与光周期调节相关的调控元件。(4)亚细胞定位发现,ZPR1基因在所有细胞中的细胞膜中表达,而在部分细胞的细胞膜、细胞质和细胞核中均有表达。研究表明,ZPR1基因的表达对植物株型发育有重要的调控作用,该基因的表达水平受植物激素和光照的调节,最终导致了植物株型的变化。     

Rice <Emphasis Type="Italic">Importin β1</Emphasis> gene affects pollen tube elongation

Importin β1 interacts with nuclear transport factors and mediates the import of nuclear proteins. We isolated a pollen-expressed gene, rice Importin β1 (OsImpβ1), from a T-DNA insertional population that was trapped by a promoterless β-glucuronidase (GUS) gene. The GUS reporter was expressed in the anthers and ovaries from early through mature developmental stages. Its expression was also observed in all floral organs. However, these patterns changed as the spikelet developed. T-DNA was inserted into the OsImpβ1 gene at 339 bp downstream from the translation initiation site. We obtained another T-DNA insertional allele by searching the flanking sequence tag database. In both lines, the wild-type and T-DNA-carrying progeny segregated at a ratio close to 1:1. The latter genotype was heterozygous (OsImpβ1/osimpβ1). Reciprocal crosses between WT and heterozygous plants demonstrated that the mutant alleles could not be transmitted through the male gametophyte. Close examination of the heterozygous anthers revealed that the mutant pollen matured normally. However, in vitro assays showed that tube elongation was hampered in the mutant grains. These results indicate that OsImpβ1 is specifically required for pollen tube elongation.     

拟南芥AtcpSecA基因表达的特异性

前期研究表明AtcpSecA基因的突变使叶绿体发育缺陷,内部缺少正常类囊体片层结构,叶片呈黄白色。在此基础上我们进一步研究AtcpSecA基因的表达特异性,并构建了AtcpSecA基因启动子与报告基因GUS的融合基因AtcpSecA：：GUS,以农杆菌介导方法转化获得转基因拟南芥。GUS组织化学染色结果表明,在AtcpSecA：：GUS转基因拟南芥的下胚轴、子叶、叶片、果柄等绿色组织中有很强的GUS活性,而在根、花序和种荚等非绿色组织中几乎没有GUS活性。降低培养基中琼脂浓度转基因拟南芥中AtcpSecA：：GUS基因的表达明显受抑制,暗中则显著受到促进。     

Characterization of a rice chlorophyll-deficient mutant using the T-DNA gene-trap system

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.     

A rice gene activation/knockout mutant resource for high throughput functional genomics

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.     

A dominant mutation in Escherichia coli OmpR lies within a domain which is highly conserved in a large family of bacterial regulatory proteins

Summary We have fortuitously created an in-frame insertion mutation in the cloned ompR gene of Escherichia coli in the course of an experiment involving linker insertion mutagenesis. According to the DNA sequence, the mutant protein has an insertion at the 53rd amino acid residue, which replaced the original valine, with the sequence Ala-Leu-Glu. The expression level of the mutant protein, OmpRX6, in a minicell system, is similar to that of the wild-type protein and the size of the mutant is slightly larger than the wild type by approxiately 300 daltons. This mutant was completely unable to activate porin expression as the wildtype does, and in addition, this phenotype was shown to be dominant over the wild type. Comparison of the amino acid sequence of OmpRX6 with those of a family of homologous bacterial regulatory proteins revealed that the mutation lies in a domain which is highly conserved among these proteins.     

<Emphasis Type="Italic">pgd1</Emphasis>, an <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> deletion mutant,is defective in pollen germination

An Arabidopsis deletion mutant was fortuitously identified from the alpha population of T-DNA insertional mutants generated at the University of Wisconsin Arabidopsis Knockout Facility. Segregation and reciprocal crosses indicated that the mutant was a gametophytic pollen sterile mutant. Pollen carrying the mutation has the unusual phenotype that it is viable, but cannot germinate. Thus, the mutant was named pollen germination defective mutant 1 (pgd1), based on the pollen phenotype. Flanking sequences of the T-DNA insertion in the pgd1 mutant were identified by thermal asymmetric interlaced (TAIL) PCR. Sequencing of bands from TAIL PCR revealed that the T-DNA was linked to the gene XLG1, At2g23460, at its downstream end, while directly upstream of the T-DNA was a region between At2g22830 and At2g22840, which was 65 genes upstream of XLG1. Southern blotting and genomic PCR confirmed that the 65 genes plus part of XLG1 were deleted in the pgd1 mutant. A 9,177 bp genomic sequence containing the XLG1 gene and upstream and downstream intergenic regions could not rescue the pgd1 pollen phenotype. One or more genes from the deleted region were presumably responsible for the pollen germination defect observed in the pgd1 mutant. Because relatively few mutations have been identified that affect pollen germination independent of any effect on pollen viability, this mutant line provides a new tool for identification of genes specifically involved in this phase of the reproductive cycle.     

拟南芥ABA敏感突变体asm1的分离与鉴定

以拟南芥(Arabidopsis thaliana)为研究材料,从T-DNA突变体库中筛选分离得到1株脱落酸(ABA)敏感突变体asm1(ABA sensitive mutant 1,asm1),在含有ABA的培养基中,与野生型相比,asm1突变体的根伸长明显受到抑制,且其种子萌发结果显示asm1对ABA同样表现出敏感特性。在生长发育方面,asm1突变体抽苔时间提前,植株矮化,并且荚果长度明显小于野生型。利用远红外成像系统分析发现,在干旱胁迫下asm1突变体叶面温度高于野生型;失水率分析显示突变体失水率降低以及水分散失减少。遗传学分析表明,asm1是单基因隐性突变且与一个T-DNA插入共分离;通过图位克隆成功获得候选基因ASM1。RT-PCR结果显示,在突变体中ASM1的表达受到抑制,并且能够调控多种ABA信号通路和胁迫应答基因的表达水平。研究结果表明,ASM1可能参与调控ABA信号转导并应答干旱胁迫。     

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     

Effect of aPMR1 disruption on the processing of heterologous glycoproteins secreted in the yeastSaccharomyces cerevisiae

TheSaccharomyces cerevisiae PMR1 gene encodes a Ca²⁺-ATPase localized in the Golgi. We have investigated the effects ofPMR1 disruption inS. cerevisiae on the glycosylation and secretion of three heterologous glycoproteins, human α₁-antitrypsin (α₁-AT), human antithrombin III (ATHIII), andAspergillus niger glucose oxidase (GOD). Thepmr1 null mutant strain secreted larger amounts of ATHIII and GOD proteins per a unit cell mass than the wild type strain. Despite a lower growth rate of thepmr1 mutant, two-fold higher level of human ATHIII was detected in the culture supernatant from thepmr1 mutant compared to that of the wild-type strain. Thepmr1 mutant strain secreted α₁-AT and the GOD proteins mostly as core-glycosylated forms, in contrast to the hyperglycosylated proteins secreted in the wild-type strain. Furthermore, the core-glycosylated forms secreted in thepmr1 mutant migrated slightly faster on SDS-PAGE than those secreted in themnn9 deletion mutant and the wild type strains. Analysis of the recombinant GOD with anti-α1,3-mannose antibody revealed that GOD secreted in thepmr1 mutant did not have terminal α1,3-linked mannoses unlike those secreted in themnn9 mutant and the wild type strains. The present results indicate that thepmr1 mutant, with the super-secretion phenotype, is useful as a host system to produce recombinant glycoproteins lacking high-mannose outer chains.     

RLK7, a leucine-rich repeat receptor-like kinase, is required for proper germination speed and tolerance to oxidative stress in Arabidopsis thaliana

The leucine-rich repeat class of receptor-like kinase (LRR-RLKs) encoding genes represents the largest family of putative receptor genes in the Arabidopsis thaliana genome. However, very little is known about the range of biological process that they control. We present in this paper the functional characterization of RLK7 that has all the structural features of a receptor-like kinase of the plant-specific LRR type. To this end, we identified and characterized three independent T-DNA insertion mutants, constructed lines carrying truncated versions of this putative receptor, one lacking the cytoplasmic kinase domain (RLK7Δkin) and the other one lacking 14 LRR repeats (RLK7ΔLRR) and generated RLK7 overexpressing lines. We thus provide evidences that RLK7 is involved in the control of germination speed and the tolerance to oxidant stress. First, consistent with the expression kinetics of the RLK7 gene in the seeds, we found that all three mutants showed a delay in germination, whereas the overexpressors, RLK7Δkin and RLK7ΔLRR lines displayed a phenotype of more precocious germination. Second, a non-hypothesis driven proteomic approach revealed that in the seedlings of the three T-DNA insertion lines, four enzymes directly or indirectly involved in reactive oxygen species detoxification, were significantly less abundant. Consistent with this finding, the three mutants were less tolerant than the wild type to a hydrogen peroxide treatment, whereas the overexpressors, RLK7Δkin and RLK7ΔLRR lines presented the opposite phenotype.     

A method for early detection of T-DNA transfer

A mannopine synthase—β-glucuronidase gene fusion,mas-uidA, was used to detect T-DNA transfer 48 hours afterA. tumefaciens infection of radish root disks. A detailed procedure for infection, tissue preparation and GUS histochemistry is given. A CaMV 35S promoter was shown to be unsuitable as it was highly expressed in the bacteria. A distinct pattern of GUS activity was found in radish roots infected with themas-uidA fusion indicating a specificity of expression in the metabolically active cambium and phloem parenchyma cells. This assay is useful for studying T-DNA transfer and host range differences amongA. tumefaciens strains.     

Insertional mutagenesis in Arabidopsis thaliana: isolation of a T-DNA-linked mutation that alters leaf morphology

Summary We investigated the potential of the Agrobacterium tumefaciens T-DNA as an insertional mutagen in Arabidopsis thaliana. Arabidopsis lines transformed with different T-DNA vectors were generated using a leaf disc infection procedure adapted for efficient selection on either kanamycin or hygromycin medium. A standardized screening procedure was developed for the detection of recessive mutations in T2 populations of regenerated and/or transformed lines. Recessive mutations originating from the tissue culture procedure occurred at a low frequency — between 2% and 5%. Within 110 transformed lines that contained a total of about 150 T-DNA inserts, one recessive mutation, named pfl, cosegregated with a specific T-DNA copy. This pfl mutation mainly affected the morphology of the first seedling leaves under normal growth conditions and was mapped to chromosome 1. No recombination between the pfl locus and the kanamycin resistance marker on the T-DNA was detected when screening F2 and F3 populations of a mutant crossed to the wild type. The maximal genetic distance between the pfl locus and the kanamycin resistance gene, determined as 0.4±0.4 cMorgan, strongly suggests that the pfl mutation is induced by the insertion of the T-DNA. Our finding of one T-DNA-linked recessive mutation in 110 transgenic lines indicates that T-DNA can be used for mutagenization of the Arabidopsis genome under tissue culture conditions.     

Development of Male Reproductive Organs in an Insertion Mutant TPD1 of Tobacco Characterized by Extended Flowering

A tobacco clone TPD1 (Tobacco Pollen Development), characterized by an extended flowering period, was obtained using a serial agrobacterial transformation of tobacco (Nicotiana tabacum L., cv. Samsun) by constructing a DNA carrying the kanamycin resistance gene inserted into the binary pBin19 vector. However, the characteristics of the vegetative growth of these plants were similar to those of other tobacco clones and the wild type. In the insertion mutant, pollen was 1.5 times smaller than in the wild type and germinated on the stigmata of neither its own clone nor the wild-type plants. Cytochemical investigation of pollen of the TPD1-mutant did not reveal any activity of respiratory enzymes, succinate dehydrogenase and peroxidase, indicating that the pollen was nonviable. Unlike the wild type, theTPD1 mutant exhibited disturbed trophic interactions within the anther tissues, particularly suppressed starch hydrolysis in the anther wall tissues at the stage of rapidly growing microspores. We conclude that the insertion of T-DNA into the TPD1 gene produced structural and metabolic changes during the development of anther tissues in the mutant clone, resulting in pollen sterility.     

Knockout of a starch synthase gene <Emphasis Type="Italic">OsSSIIIa</Emphasis>/<Emphasis Type="Italic">Flo5</Emphasis> causes white-core floury endosperm in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

To elucidate the role of SSIIIa during starch synthesis in rice (Oryza sativa L.) endosperm, we characterized null mutants of this gene, generated by T-DNA insertions. Scanning electron microscope (SEM) analysis revealed that the starch granules in these mutants are smaller and rounder compared with the wild type controls, and that the mutant endosperm is characterized by a loosely packed central portion exhibiting a floury-like phenotype. Hence, the OsSSIIIa (Oryza sativa SSIIIa) mutations are referred to as white-core floury endosperm 5-1 (flo5-1) and flo5-2. Based upon their X-ray diffraction patterns, the crystallinity of the starch in the flo5 mutant endosperm is decreased compared with wild type. Through determination of the chain-length distribution of the mutant endosperm starch, we found that flo5-1 and flo5-2 mutants have reduced the content of long chains with degree of polymerization (DP) 30 or greater compared with the controls. This suggests that OsSSIIIa/Flo5 plays an important role in generating relatively long chains in rice endosperm. In addition, DP 6 to 8 and DP 16 to 20 appeared to be reduced in endosperm starch of flo5-1 and flo5-2, whereas DP 9 to 15 and DP 22 to 29 were increased in these mutants. By the use of differential scanning calorimetry (DSC), the gelatinization temperatures of endosperm starch were found to be 1–5°C lower than those of the control. We propose a distinct role for OsSSIIIa/Flo5 and the coordinated action of other SS isoforms during starch synthesis in the seed endosperm of rice.     

Relationship between allelic state of T-DNA and DNA methylation of chromosomal integration region in transformed <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> plants

T-DNA insertions are currently used as a tool to introduce, or knock out, specific genes. The expression of the inserted gene is frequently haphazard and up to now, it was proposed that transgene expression depends on the site of insertion within the genome, as well as the number of copies of the transgene. In this paper, we show that the allelic state of a T-DNA insertion can be at the origin of epigenetic silencing. A T-DNA insertional mutant was characterized to explore the function of AtBP80a′, a vacuolar sorting receptor previously associated with germination. Seeds homozygous for the T-DNA do not germinate, but this can be overcome by a cold treatment and maintained by the following generations. The non-germinating phenotype is only observed in homozygous seed produced by heterozygous plants indicating that it is correlated with the allelic state of the T-DNA in parental lines. Analysis of the region between the T-DNA insertion and the ATG codon of atbp80a′ showed that cytosine methylation is highly enhanced in chromatin containing the T-DNA. Data presented here show that an unpaired DNA region during meiosis could be at the origin of a de novo cytosine methylation mechanism.