A rice (Oryza sativa L.) mutant having a low content of glutelin and a high content of prolamine

Among the mutant lines of rice that have been selected for morphological characters, one line, NM67, was found to have a low content of glutelin and a higher content of prolamine in its seed protein than other Japanese cultivars. This mutant is a semi-dwarf and partially sterile line, and its leaves turn yellow before heading. Genetic analysis after backcross to the original cultivar, Nihonmasari, revealed the following: (1) the character of low glutelin content was always accompanied by the character of high prolamine content; (2) the low glutelin (and high prolamine) character seemed to be manifested by a single dominant gene; and (3) semi-dwarfness, low fertility and early yellowing leaf of the mutant, which might also be pleiotropy, were controlled by a single recessive gene independent of the gene for protein content. The protein character of NM67 was genetically separated from semi-dwarfness and low fertility, and a new line having low glutelin content and high prolamine content with normal morphological characters comparable to those of the original cultivar was obtained from the progenies of the cross. The possible use of this line as a low protein rice cultivar is discussed.     

Mutants lacking glutelin subunits in rice: mapping and combination of mutated glutelin genes

Nine mutant lines lacking glutelin subunits were selected from M₂ seeds of about 10000 M₁ plants mutagenized with gamma rays or EMS and from 1400 mutant lines selected originally for morphological characters. There were three types of mutants, one line lacking the largest subunit among four minor bands of glutelin acidic subunits (Type 1), five lines lacking the second largest subunit band (Type 2), and three lines lacking the third largest subunit band (Type 3). Mutants lacking the smallest subunit band were not found. Type 1 lacked 2 of the 10 spots of glutelin acidic subunits separated by two-dimensional electrophoresis and 1 of the 11 spots of the 57-kDa glutelin precursor. Type 2 lacked 2 spots of acidic subunits and 1 spot of the 57-kDa glutelin precursor, and had low amounts of 1 of the 8 spots of glutelin basic subunits. Type 3 mutants lacked each of 1 spot of the acidic subunits and glutelin precursor and had low amount of 1 spot of the basic subunits. Genetic analysis of the mutated genes showed that these mutant characters were controlled by single recessive genes named glu-1, glu-2, and glu-3, respectively. Mutated genes of different lines of the same type were found to be at the same locus. RFLP analysis of F₂ plants between the mutant lines and cv `Kasalath' indicated that glu-1 is on chromosome 2, glu-2 on chromosome 10, and glu-3 on chromosome 1. These mutant genes were combined by crossing, and a line lacking the 3 minor bands of the glutelin acidic subunits was developed. However, the total glutelin content of this line was not remarkably reduced, showing a only 13% decrease. Received: 1 April 1996 / Accepted: 14 June 1996     

The purification and partial amino acid sequence of a polypeptide from the glutelin fraction of rice grains; homology to pea legumin

The glutelin fraction was extracted from grain meals of rice (Oryzea sativa) with 50 mM Tris-HCl buffer (pH 8.8) containing 6 M urea and 10 mM 2-mercaptoethanol. Polypeptides of glutelin were separated and purified by ion-exchange chromatography under denaturing conditions. Analysis by two-dimensional gel electrophoresis showed that 2 major polypeptides of the rice glutelin fraction, M_r 36 000 and 22 000, were linked in disulphide bonded pairs containing one M_r 36 000 and one M_r 22 000 subunit. A partial amino acid sequence of the purified M_r 22 000 glutelin subunit showed it to be homologous to the β-subunit of pea legumin, a storage protein which also contains disulphide-linked subunit pairs (M_r 38 000 and M_r 22 000). It is therefore proposed that the major component of rice glutelin is a legumin-like protein.     

Structural homology between semidwarfism-related proteins and glutelin seed protein in rice (Oryza sativa L.)

Summary Two semidwarfism-related proteins, SRP-1 and SRP-2, were detected as major spots in a long-culm rice cultivar, Norin 29 and its semidwarf near-isogenic line, SC-TN1, respectively, by two-dimensional gel electrophoresis (2D-PAGE). The testcross showed that SRP-1 and SRP-2 are controlled by codominant alleles, Srp-1 and Srp-2, respectively, at a single locus Srp. This locus was considered to be closely linked with the semidwarfing gene locus sd-1. SRP-1 and SRP-2 were separated by 2D-PAGE, electroblotted onto a polyvinylidene difluoride membrane, and sequenced by a gas-phase protein sequencer. The N-terminal amino acid sequences, however, could not be determined due to the blockage of the N-terminals of these proteins. After removal of the N-terminal residue with pyroglutamyl peptidase given to the membrane, the amino acid sequence in the N-terminal region was determined. The N-terminal and internal amino acid sequences of SRP-1 and SRP-2 were highly homologous with those of the glutelin -subunits of seed endosperm storage protein, which were deduced by the cDNA sequences. In the seed endosperms of Norin 29 and SC-TN1, a total of eight glutelin -subunits was identified by 2D-PAGE. The amino acid sequences in the N-terminal and internal regions of these proteins were determined. This experiment confirmed that SRP-1 and SRP-2 are almost identical in structure with the glutelin _5a- and _5b-subunits, respectively, which were identified in several organs such as endosperms, embryos, and leaves, unlike the other glutelin -subunits.     

Antisense regulation of the rice waxy gene expression using a PCR-amplified fragment of the rice genome reduces the amylose content in grain starch

The waxy gene encodes a granule-bound starch synthase. A 1.0-kb portion of the sequence of the rice waxy gene, which includes the region between exon 4 and exon 9, was inserted in an antisense orientation between the 35 S promoter and the GUS gene of pBI221. The resultant plasmid, pWXA23, was introduced into rice protoplasts by electroporation. GUS activity was clearly detected in derived callus lines, suggesting that the antisense component of the fusion gene was also expressed. Transgenic rice plants were regenerated from these callus lines and their GUS activity was confirmed. Some of the rice seeds from these transformants showed a significant reduction in the amylose content of grain starch, even though they had become polyploid. These results suggest that even when intron sequences are included, antisense constructs can bring about a reduced level of expression of a target gene. The utility of GUS, included as a reporter gene, for the simple detection of expression of an antisense gene, was apparent from these results.     

Expression of an antisense 1-aminocyclopropane-1-carboxylate oxidase gene stimulates shoot regeneration in Cucumis melo

The role of ethylene in shoot regeneration was investigated using transgenic Cucumis melo plants expressing an antisense 1-aminocyclopropane-1-carboxylate (ACC) oxidase gene. ACC oxidase catalyses the last step of ethylene biosynthesis. Leaf and cotyledon explants from the transgenic plants exhibited low ACC oxidase activity and ethylene production, whereas the regeneration capacity of the tissues was greatly enhanced (3.5- and 2.8-fold, respectively) compared to untransformed control tissues. Addition of ethylene released by 50 or 100 μm 2-chloroethylphosphonic acid dramatically reduced the shoot regeneration rate of the transgenic tissues. The results clearly demonstrate that ethylene plays an important role in C. melo morphogenesis in vitro. Received: 23 April 1997 / Revision received: 9 June 1997 / Accepted: 2 July 1997     

Accumulation of Japanese cedar pollen allergen,Cry j 1, in the protein body I of transgenic rice seeds using the promoter and signal sequence of glutelin GluB-1 gene

Recombinant Cry j 1, a Japanese cedar pollen allergen, was produced in rice seeds for potential use for oral immunotherapy. Cry j 1 cDNA was divided into two parts, an N-terminal half and a C-terminal half, and each was fused downstream to glutelin GluB-1 gene containing sequences of the promoter, 5 untranslated region and signal peptide. A gene for green fluorescent protein was also fused to the 3 end of the Cry j 1 fragment. Recombinant Cry j 1 of up to 16.6 g per mg total protein of the seeds was expressed in transgenic rice seeds. Although the recombinant Cry j 1 was expected to be accumulated in protein body II because of the employment of glutelin signal peptide, it was demonstrated to be accumulated exclusively in protein body I. The recombinant Cry j 1 was not shown to react with IgE of allergic patients, indicating the reduction of the risk of anaphylactic reaction. These results demonstrate that the transgenic rice seeds with the recombinant Cry j 1 would be useful for the study of oral immunotherapy.     

Improvement in the quality of seed storage protein by transformation of Brassica napus with an antisense gene for cruciferin

The levels of certain essential amino acids, in particular cysteine, lysine and methionine, in the seed storage protein of a commercial spring variety of rape, Brassica napus, have been increased by the introduction of an antisense gene for cruciferin, which is the most abundant storage protein in rapeseed. The antisense construct contained part of the cruA gene in an inverted orientation, and the gene was driven by the 5 flanking region of the gene for napin such that antisense RNA was expressed in a seed-specific manner. The construct was introduced by Agrobacterium-mediated gene transfer. In self-pollinated seeds (T1 seeds) of transgenic plants there was a reduction in the levels of the 11 and 2/32/3 subunits of cruciferin, whereas the level of the 44 subunit was unchanged. The total protein and lipid contents of transgenic seeds did not differ significantly from that of normal seeds. Seeds with reduced amounts of cruciferin accumulated higher amounts of napin than non-transformed seeds, but the level of oleosin was unaffected. Amino-acid analysis of the seed storage protein revealed that T1 seeds with reduced amounts of cruciferin contained higher relative levels of three essential amino acids, namely, lysine, methionine and cysteine, with increases of 10%, 8% and 32% over the respective levels in non-transgenic seeds (B. napus cv Westar).     

Genetic analysis of cysteine-poor prolamin polypeptides reduced in the endosperm of the rice esp1 mutant

The esp1 mutant CM21 specifically exhibits reduced levels of cysteine-poor (CysP) prolamin bands with pIs of 6.65, 6.95, 7.10, and 7.35 in rice seed. Matrix-assisted laser desorption-ionization time-of-flight mass spectrometry (MALDI-TOF MS) analysis demonstrated that the bands with pIs 6.65, 6.95, and 7.35 are encoded by different structural genes. These results suggest that the Esp1 locus encodes a regulatory factor involved in the synthesis and/or accumulation of CysP prolamin molecules. Isoelectric focusing (IEF) analysis of CysP prolamins in chromosome substitution lines showed that structural genes for bands with pI values of 6.95, 7.10, and 7.35, which are reduced in esp1 mutant lines, are located as a gene cluster in the 44.2 cM region on chromosome 5.     

Analysis of Transgenic Tomatoes with Expression of Antisense Polygalacturonase Gene

Authors have been transfered antisense polygalacturonase (PG, E, C, 3, 2, 1, 15) gene into two tomato cultivars (Lycopersicon esculentum cv. “Lichun” and “Qingfeng”) by Agrobacterium-mediated transformation and obtained homozygotes with expression of antisense PG gene. Analysis of Northern blot and PG activity showed that antisense PG gene had stably expressed in T0～T2 generations of transgenic tomatoes, and this expression could be inherited and enhanced in the progeny. For example, PG activity of To, T1 and T2 generation fruits in line T2-19 of"Lichun” was dropped to 27%, 20% and 4% respectively. But the remarkable decrement of PG activity did not have obvious inhibitory effect on normal fruit softening. The transgenic plants of T0～T2 generations grew and developed normally. Average yield per plant and average weight per fruit in these transgenic plants were a little more than those in nontransgenic control. The content determination of vitamin C, soluble sugar and soluble solid substances indicated that transgenic fruits kept the original texture and taste. The contents of vitamin C and soluble solid substances of “Lichun” T2-19 and soluble sugar of “Qingfeng” T2-46 were higher than those of the control. Stored in 28～32℃ for 30 days, all of nontransgenic fruits and about 50% of the transgenic ones were infected by pathologcal bacteria, a few of remainders could be perserved for 50 days. These evidences suggested that the resistance of the transgenic fruits to pathological bacteria during preservation has been strengthened. The approach which the authors used to study regulation of tomato fruit ripening will be desirable to improve the storability of certain famous and precious fruits.     

Efficient transformation of wheat by using a mutated rice acetolactate synthase gene as a selectable marker

Acetolactate synthase (ALS) is a target enzyme for many herbicides, including sulfonylurea and imidazolinone. We investigated the usefulness of a mutated ALS gene of rice, which had double point mutations and encoded an herbicide-resistant form of the enzyme, as a selectable marker for wheat transformation. After the genomic DNA fragment from rice containing the mutated ALS gene was introduced into immature embryos by means of particle bombardment, transgenic plants were efficiently selected with the herbicide bispyribac sodium (BS). Southern blot analysis confirmed that transgenic plants had one to more than ten copies of the transgene in their chromosomes. Adjustment of the BS concentration combined with repeated selection effectively prevented nontransgenic plants from escaping herbicide selection. Measurement of ALS activity indicated that transgenic plants produced an herbicide-resistant form of ALS and therefore had acquired the resistance to BS. This report is the first to describe a selection system for wheat transformation that uses a selectable marker gene of plant origin.     

花粉管介导的转bar基因水稻植株的获得及其遗传

采用花粉管通道法将bar基因导入籼稻品系E32,得到对除草剂Basta具有抗性的转基因水稻。遗传分析表明外源bar基因在受体植株后代中呈单基因显性遗传,在世代间可以稳定遗传。目前已分离出抗性稳定的株系。     

Inhibition of the expression of the gene for granule-bound starch synthase in potato by antisense constructs

Summary Granule-bound starch synthase [GBSS; EC 24.1.21] determines the presence of amylose in reserve starches. Potato plants were transformed to produce antisense RNA from a gene construct containing a full-length granule-bound starch synthase cDNA in reverse orientation, fused between the cauliflower mosaic virus 35S promoter and the nopaline synthase terminator. The construct was integrated into the potato genome by Agrobacterium rhizogenes-mediated transformation. Inhibition of GBSS activity in potato tuber starch was found to vary from 70% to 100%. In those cases where total suppression of GBSS activity was found both GBSS protein and amylose were absent, giving rise to tubers containing amylose-free starch. The variable response of the transformed plants indicates that position effects on the integrated sequences might be important. The results clearly demonstrate that in tubers of potato plants which constitutively synthesize antisense RNA the starch composition is altered.     

表达反义核酶RNA的转基因水稻对矮缩病毒复制和症状的抑制作用

用基因枪法将含有ＲＤＶ第五片段反义核酶序列基因的植物表达载体ｐＲＯＫＩＩ转化水稻幼胚,在Ｇ４１８存在的条件下,约２～３个月可筛选出抗性愈伤,转入分化培养基中培养可分化出幼苗。经Ｓｏｕｔｈｅｒｎ杂交法检测为阳性的水稻幼苗进行抗病性测定显示,转ＲＤＶ反义核酶基因的水稻植株对ＲＤＶ的复制和症状有显著抑制作用。转基因植株发病较轻,并能部分结实,而对照植株则明显矮化且大多不能抽穗。     

人参皂苷合成相关βAS基因的克隆及其反义植物表达载体的建立

以发根农杆菌A4菌株诱导的人参发根为材料,用改良的异硫氰酸胍法提取总RNA,得到了纯度好的完整的总RNA。利用RT-PCR扩增了β香树素合成酶基因,测序结果表明该目的片段与Gene Bank上的β香树素合成酶基因序列一致。这一基因重组入克隆载体pMD-119T, 并转化大肠杆菌。 在此基础上,利用pBI121质粒载体,构建了人参β香树素合成酶基因的反义植物表达载体,为这一基因的反义调控研究打下基础。     

Enhanced resistance to the rice blast fungus Magnaporthe grisea conferred by expression of a cecropin A gene in transgenic rice

Cecropins are a family of antimicrobial peptides, which constitute an important key component of the immune response in insects. Here, we demonstrate that transgenic rice (Oryza sativa L.) plants expressing the cecropin A gene from the giant silk moth Hyalophora cecropia show enhanced resistance to Magnaporthe grisea, the causal agent of the rice blast disease. Two plant codon-optimized synthetic cecropin A genes, which were designed either to retain the cecropin A peptide in the endoplasmic reticulum, the ER-CecA gene, or to secrete cecropin A to the extracellular space, the Ap-CecA gene, were prepared. Both cecropin A genes were efficiently expressed in transgenic rice. The inhibitory activity of protein extracts prepared from leaves of cecropin A-expressing plants on the in vitro growth of M. grisea indicated that the cecropin A protein produced by the transgenic rice plants was biologically active. Whereas no effect on plant phenotype was observed in ER-CecA plants, most of the rice lines expressing the Ap-CecA gene were non-fertile. Cecropin A rice plants exhibited resistance to rice blast at various levels. Transgene expression of cecropin A genes was not accompanied by an induction of pathogenesis-related (PR) gene expression supporting that the transgene product itself is directly active against the pathogen. Taken together, the results presented in this study suggest that the cecropin A gene, when designed for retention of cecropin A into the endoplasmic reticulum, could be a useful candidate for protection of rice plants against the rice blast fungus M. grisea.     

转反义PG基因番茄果实细胞结构变化的研究

经细胞学观察发现 ,转反义PG基因番茄果实在不同成熟期及存放前后 ,其果皮外面几层细胞的厚度都比未转基因的厚 1～ 5 μm ,细胞结构、细胞质和细胞核等的状态都有明显区别。尤以贮存后更为明显 ,未转基因果实的果皮细胞结构解体、细胞质凝聚、细胞核变的模糊程度都比转基因的严重。经外源乙烯处理后 ,转基因和未转基因果实的细胞结构也有相似的变化。结果表明 :反义PG基因的转入降低了PG活性 ,并且减弱了外源乙烯的作用 ,延缓了果实的衰老 ,提高了耐贮性能 ,从而起到果实保鲜作用