Impairment of NtAQP1 gene expression in tobacco plants does not affect root colonisation pattern by arbuscular mycorrhizal fungi but decreases their symbiotic efficiency under drought

We investigated in two tobacco (Nicotiana tabacum) plant lines (wildtype or antisense mutant) whether impairment in expression of the plasma membrane aquaporin gene (NtAQP1) affects the arbuscular mycorrhizal (AM) fungal colonisation pattern or the symbiotic efficiency of AM fungi. These two objectives were investigated under well-watered and drought stress conditions. Both plant lines had a similar pattern of root colonisation under well-watered and drought stress conditions. In contrast, under drought stress, AM wildtype plants grew faster than mycorrhizal antisense plants. Plant gas exchange also appeared to depend on the expression of NtAQP1 and parallelled the determined growth increments. The implications of enhanced symplastic water transport via NtAQP1 for the efficiency of the AM symbiosis under drought stress conditions are further discussed.     

Omega-3 fatty acid desaturase (FAD3, FAD7, FAD8) gene expression and linolenic acid content in cowpea leaves submitted to drought and after rehydration

Membrane polyunsaturated fatty acids (PUFA) and particularly linolenic acid (18:3, LA) are known to be implicated in plant tolerance to low temperature. Their role in resistance to drought is much less investigated. In this work, three full-length cDNAs corresponding to omega-3 fatty acid desaturases: fad3 (endoplasmic reticulum), fad7 and fad8 (chloroplastic) were isolated from Vigna unguiculata leaves. Two cowpea cultivars, one drought-tolerant, EPACE-1, and one drought-susceptible, 1183, were compared in terms of fad isoform gene expression and leaf LA contents in plants submitted to water stress followed by rehydration. In EPACE-1, LA content in the main leaf polar lipids increased in response to mild water deficit. Severe water deficits induced a decrease in MGDG LA content while those of PC and DGDG continued to increase. Variations in FAD gene expression, matched those in LA contents. In 1183, LA contents decreased in all lipid classes in response to water stress, as did FAD3 and FAD8 gene expression levels. Rehydration after a moderate water stress induced stimulation mostly in FAD3 gene expression in both cvs. LA contents were equivalent to control levels in EPACE-1. In 1183, they were back to control levels in PC shortly after rehydration but remained low in galactolipids. These results suggested that omega-3 FAD activities were involved in the increase in leaf membrane unsaturation, in the drought tolerant plants whereas the sensitive plants lost PUFAs in response to the treatment. The significance of this discrepancy between the two cvs. in terms of adaptation to drought is discussed.     

大豆fad基因反义表达载体构建及转化烟草研究

使用PCR方法从大豆基因组DNA中扩增出大豆油酸脱饱和酶基因fad2-1,连接到pMD18-T载体中,转化大肠杆菌JM109菌株.测序后,用DNAstar软件进行同源性比对.然后将正确的序列反向克隆到表达载体pBt,并转化农杆菌菌株LBA4404,经双酶切鉴定和PCR扩增检测,获得具有该基因反向序列的农杆菌工程菌,转化...     

白桦BpBEE2基因的遗传转化及抗逆性分析

Brassinolide Enhanced Expression2（BEE2）基因属于bHLH转录因子家族,是调控油菜素内酯信号转导的上游调控因子。本研究通过RT-PCR技术克隆BpBEE2基因的全长cDNA序列,构建植物过表达及抑制表达载体,并通过农杆菌介导法进行白桦的遗传转化,对获得的转基因株系进行生长量及盐、旱胁迫分析,结果表明：获得了长度为1 080 bp的全长cDNA序列,成功构建了该基因的过表达及抑制表达载体,并获得了过表达和抑制表达的白桦株系。BpBEE2基因过表达白桦株系的苗高高于对照株系,而抑制表达株系的苗高低于对照株系。同时发现BEE2基因对盐、旱胁迫后对植株的鲜重也产生了影响。说明BpBEE2可能参与了植物的生长发育过程,并且改善了植物的抗旱、耐盐性。     

A Mutation at the fad8 Locus of Arabidopsis Identifies a Second Chloroplast [omega]-3 Desaturase

Two independently isolated mutations at the fad7 locus in Arabidopsis produced plants with a temperature-conditional phenotype. Leaves of fad7 mutants grown at 28[deg]C contained less than 30% of wild-type levels of trienoic fatty acids (16:3 plus 18:3) compared with more than 70% of wild-type levels for plants grown at 15[deg]C. Screening of an M2 population derived from the fad7-1 line led to the identification of a line, SH1, in which the proportion of trienoic acids was much less than in fad7 plants. The segregation pattern of F2 progeny from a cross between SH1 and wild type indicated that the additional fatty acid mutation in SH1 is at a new locus, designated fad8. In a genetic background that was wild type at the FAD7 locus, the fad8 mutation had no detectable effect on overall leaf fatty acid composition irrespective of the temperature at which plants were grown. However, fatty acid analyses of individual leaf lipids revealed small decreases in the levels of 18:3 in two chloroplast lipids. In fad8 plants grown at 22[deg]C, phospha-tidylglycerol contained 22.5% 18:3 compared with 33.5% in wild-type Arabidopsis. For sulfoquinovosyldiacylglycerol, the values were 31.4 and 44.5%, respectively. Together with information from studies of the cloned FAD8 gene (S. Gibson, V. Arondel, K. Iba, C. Somerville [1994] Plant Physiol 106: 1615-1621), these results indicate that the FAD8 locus encodes a chloroplast-localized 16:2/18:2 desaturase that has a substrate specificity similar to the FAD7 gene product but that is induced by low temperature.     

不同结构的外源ACO基因导入香石竹对瓶插寿命的影响

以香石竹叶片为外植体 ,利用根癌农杆菌 (Agrobacteriumtumefaciens)介导法 ,将香石竹ACC氧化酶 (ACO)基因核DNA的正义 (sense)、反义 (antisense)、正义重复 (sensedirectrepeat)和反义重复 (antisensedirectrepeat)等 4种T DNA结构导入香石竹‘Master’品种。经Southern杂交检测证明目的基因已整合到香石竹基因组 ,共获得 14个转化株系。在 25℃条件下比较瓶插寿命 ,对照植株花朵瓶插寿命为 5.8d ,多数转化株系花朵瓶插寿命达 11d ,最长者可达 12.8d。大多数转基因株系切花衰老过程中乙烯释放量显著减少 ,部分转基因株系切花衰老过程中几乎检测不到乙烯 ,而对照有明显的峰值。通过对本研究转化ACO基因核DNA与前人转化ACO基因cDNA延长瓶插寿命比较以及对不同T DNA结构的转化抑制内源基因表达的程度进行比较后 ,初步判断用核DNA转化后对内源基因的抑制效果与cDNA相当甚至更明显 ,反义基因可以比正义基因更有效地抑制内源的同源基因的表达 ,转重复基因比转单个基因能更有效地抑制内源的同源基因的表达。     

Overexpression of TaLEA Gene from Tamarix androssowii Improves Salt and Drought Tolerance in Transgenic Poplar (Populus simonii × P. nigra)

Late embryogenesis abundant (LEA) genes were confirmed to confer resistance to drought and water deficiency. An LEA gene from Tamarix androssowii (named TaLEA) was transformed into Xiaohei poplar ( Populus simonii × P. nigra) via Agrobacterium . Twenty-five independent transgenic lines were obtained that were resistant to kanamycin, and 11 transgenic lines were randomly selected for further analysis. The polymerase chain reaction (PCR) and ribonucleic acid (RNA) gel blot indicated that the TaLEA gene had been integrated into the poplar genome. The height growth rate, malondialdehyde (MDA) content, relative electrolyte leakage and damages due to salt or drought to transgenic and non-transgenic plants were compared under salt and drought stress conditions. The results showed that the constitutive expression of the TaLEA gene in transgenic poplars could induce an increase in height growth rate and a decrease in number and severity of wilted leaves under the salt and drought stresses. The MDA content and relative electrolyte leakage in transgenic lines under salt and drought stresses were significantly lower compared to those in non-transgenic plants, indicating that the TaLEA gene may enhance salt and drought tolerance by protecting cell membranes from damage. Moreover, amongst the lines analyzed for stress tolerance, the transgenic line 11 (T11) showed the highest tolerance levels under both salinity and drought stress conditions. These results indicated that the TaLEA gene could be a salt and drought tolerance candidate gene and could confer a broad spectrum of tolerance under abiotic stresses in poplars.     

羽衣甘蓝胁迫应答基因BoRS1转化烟草的初步研究

将克隆于羽衣甘蓝的胁迫应答基因BoRS1连入中间载体p35S-2300：：gus：：noster相应位点,成功地构建了含BoRS1基因的植物双元表达载体p35S-2300：：BoRS1：：noster,并通过农杆菌介导法对烟草进行了遗传转化。PCR检测结果表明目的基因BoRS1已成功地导入并整合到烟草基因组中。RT-PCR分析显示,在不同的转基因烟草植株中BoRS1表达量存在差异。转BoRS1烟草的耐干性和甘露醇胁迫研究表明,BoRS1基因的表达对提高植物抗干旱胁迫能力有一定的作用。     

Overexpression of osmotin gene confers tolerance to salt and drought stresses in transgenic tomato (Solanum lycopersicum L.)

Abiotic stresses, especially salinity and drought, are major limiting factors for plant growth and crop productivity. In an attempt to develop salt and drought tolerant tomato, a DNA cassette containing tobacco osmotin gene driven by a cauliflower mosaic virus 35S promoter was transferred to tomato (Solanum lycopersicum) via Agrobacterium-mediated transformation. Putative T0 transgenic plants were screened by PCR analysis. The selected transformants were evaluated for salt and drought stress tolerance by physiological analysis at T1 and T2 generations. Integration of the osmotin gene in transgenic T1 plants was verified by Southern blot hybridization. Transgenic expression of the osmotin gene was verified by RT-PCR and northern blotting in T1 plants. T1 progenies from both transformed and untransformed plants were tested for salt and drought tolerance by subjecting them to different levels of NaCl stress and by withholding water supply, respectively. Results from different physiological tests demonstrated enhanced tolerance to salt and drought stresses in transgenic plants harboring the osmotin gene as compared to the wild-type plants. The transgenic lines showed significantly higher relative water content, chlorophyll content, proline content, and leaf expansion than the wild-type plants under stress conditions. The present investigation clearly shows that overexpression of osmotin gene enhances salt and drought stress tolerance in transgenic tomato plants.     

Development of high oleic and low linoleic acid transgenics in a zero erucic acid Brassica juncea L. (Indian mustard) line by antisense suppression of the fad2 gene

A zero erucic acid (C22:1) line of Brassica juncea (VH486), adapted to the agronomic conditions of Northern India, has been modified for its fatty acid composition in the seed oil with antisense constructs using the sequence of fad2 gene of B. rapa. The full-length B. rapa fad2 cDNA sequence was determined by 5 and 3 RACE of a partial sequence available in the EST database. Construct pASfad2.1 contained 315 to 1251 bp and construct pASfad2.2 contained 1 to 1251 bp fragment of the fad2 gene, both in antisense orientation, driven by a truncated napin promoter. Analysis of the levels of linoleic acid (C18:2) in the BC1 seeds of single-copy transgenics showed that the construct pASfad2.2 gave better suppression of the fad2 gene as compared to the construct pASfad2.1. The BC1 transgenic seeds containing the pASfad2.2 construct segregated into two distinct classes of C18:2>20% (putative null homozygotes) and C18:2<20% (putative heterozygotes) in a 1:1 ratio, while the T1 seeds segregated into three classes, C18:2>20%, C18:2 between 12% and 20%) and C18:2<12% (putative homozygotes) in a 1:2:1 ratio. Putative homozygous T1 seeds (C18:2<12% analyzed by the half-seed method) of four of the transgenic lines were grown to establish T2 homozygous lines. These had ca. 73% C18:1 and 8 to 9% each of C18:2 and C18:3 (-linolenic acid) fractions in comparison to ca. 53% C18:1, 24% C18:2 and 16% C18:3 in the parental line VH486.     

Overexpression of HVA1 gene from barley generates tolerance to salinity and water stress in transgenic mulberry (Morus indica)

Late embryogenesis abundant (LEA) proteins are members of a large group of hydrophilic proteins found primarily in plants. The barley hva1 gene encodes a group 3 LEA protein and is induced by ABA and water deficit conditions. We report here the over expression of hva1 in mulberry under a constitutive promoter via Agrobacterium-mediated transformation. Molecular analysis of the transgenic plants revealed the stable integration and expression of the transgene in the transformants. Transgenic plants were subjected to simulated salinity and drought stress conditions to study the role of hva1 in conferring tolerance. The transgenic plants showed better cellular membrane stability (CMS), photosynthetic yield, less photo-oxidative damage and better water use efficiency as compared to the non-transgenic plants under both salinity and drought stress. Under salinity stress, transgenic plants show many fold increase in proline concentration than the non-transgenic plants and under water deficit conditions proline is accumulated only in the non-transgenic plants. Results also indicate that the production of HVA1 proteins helps in better performance of transgenic mulberry by protecting membrane stability of plasma membrane as well as chloroplastic membranes from injury under abiotic stress. Interestingly, it was observed that hva1 conferred different degrees of tolerance to the transgenic plants towards various stress conditions. Amongst the lines analysed for stress tolerance transgenic line ST8 was relatively more salt tolerant, ST30, ST31 more drought tolerant, and lines ST11 and ST6 responded well under both salinity and drought stress conditions as compared to the non-transgenic plants. Thus hva1 appears to confer a broad spectrum of tolerance under abiotic stress in mulberry.     

The novel gene fad104, containing a fibronectin type III domain, has a significant role in adipogenesis

A novel gene named fad104 (factor for adipocyte differentiation-104), whose expression level quickly increased in the early stage of adipogenesis, was isolated and characterized. The deduced amino acid sequence of fad104 revealed the possible presence of a fibronectin type III domain and transmembrane domain. The expression of fad104 was detected in adipocyte differentiable 3T3-L1 cells but not observed in the non-adipogenic cell line NIH-3T3. Moreover, the ability of 3T3-L1 cells to differentiate declined with the knockdown of fad104 by RNA interference, strongly indicating that fad104 functions as a positive regulator of adipogenesis.     

Expression of antisense chalcone synthase RNA in transgenic hybrid walnut microcuttings. Effect on flavonoid content and rooting ability

Walnut somatic embryos (Juglans nigra × Juglans regia) were transformed with a vector containing a neomycin phosphotransferase II, a -glucuronidase and an antisense chalcone synthase (chs) gene. This antisense construct included a 400 bp cDNA fragment of a walnut chs gene under the control of the duplicated CaMV-35S promoter. Molecular, biochemical and biological characterizations were performed both on transformed embryos propagated by secondary somatic embryogenesis and on microshoots developed by in vitro culture of embryonic epicotyls from somatic embryos. Thirteen transformed lines with the vector containing the antisense chs gene, one line with only the gus and nptII genes and one untransformed line were maintained in tissue culture. Six of the antisense lines were shown to be flavonoid-deficient. They exhibited a strongly reduced expression of chs genes, very low chalcone synthase activity and no detectable amounts of quercitrin, myricitrin, flavane-3-ols and proanthocyanidins in stems. Rooting tests showed that decreased flavonoid content in stems of antisense chs transformed lines was associated with enhanced adventitious root formation. Free auxin and conjugated auxin contents were determined during the latter phase of the micropropagation, and no variations were detected between control and antisense chs transformed lines. The in vitro plants developed a large basal callus and apical necrosis upon auxinic induction and the transformed lines highly deficient in flavonoids were more sensitive to exogenous application of indolebutyric acid (IBA).     

Inheritance of marker and target genes in seed and vegetative progenies of transgenic tobacco plants carrying the buckwheat serine protease inhibitor gene

The buckwheat serine protease inhibitor (BWI-1) target gene (ISP) was expressed under the control of the constitutive 35S promoter of the cauliflower mosaic virus was expressed in transgenic tobacco plants and conferred antibacterial resistance. A stable and linked inheritance and expression of the marker nptII and target genes were observed in a random sample of independent transgenic tobacco plants after longterm propagation by nodal segments or multiple (for 1.5 years) regenerations under nonselective conditions; the transgene insert was preserved in the T1 seed progeny. Transgenic plants displayed numerous alterations in microsporogenesis. A loss of kanamycin (Km) resistance was accompanied by a loss of antibacterial activity in two lines. Segregation was observed for Km resistance in line C7 and for seedling size in line C22.     

Cloning of a temperature-regulated gene encoding a chloroplast omega-3 desaturase from Arabidopsis thaliana.

Previous genetic evidence suggested that the fad8 and fad7 genes of Arabidopsis thaliana encode chloroplast membrane-associated omega-3 desaturases. A putative fad8 cDNA was isolated by heterologous hybridization using a gene encoding an endoplasmic reticulum-localized omega-3 desaturase (fad3) as a probe. The cDNA encodes a protein of 435 amino acid residues with a molecular mass of 50,134 D. Constitutive expression of the cDNA in transgenic plants of a fad7 mutant resulted in genetic complementation of the mutation, indicating that the fad7 and fad8 gene products are functionally equivalent. Expression of the fad8 cDNA in transgenic plants often resulted in the co-suppression of both the endogenous fad7 and fad8 genes in spite of the fact that these two genes share only about 75% nucleotide identity. In contrast to all other known plant desaturases, including fad7, the steady-state level of fad8 mRNA is strongly increased in plants grown at low temperature. This suggests that the role of fad8 is to provide increased omega-3 desaturase activity in plants that are exposed to low growth temperature. The fad8-1 mutation created a premature stop codon 149 amino acids from the amino-terminal end of the fad8 open reading frame, suggesting that this mutation results in a complete loss of fad8 activity.     

Antisense-mediated suppression of transgene expression targeted specifically to pollen

A potential problem in the field release of transgenic plants is the spread of foreign gene products via pollen. Therefore, the use of the tomato pollen-specific lat52 gene promoter was investigated as a means of targeting antisense RNA to pollen without affecting transgene expression elsewhere in the plant. A transgenic tobacco line T115, which showed GUS expression in pollen, leaves and roots were retransformed with a construct containing the pollen-specific lat52 promoter driving the GUS encoding uid A gene in antisense orientation. From 24 independent transformants obtained, 19 showed a significant reduction in pollen GUS activity. Of these lines, four showed a reproducible antisense effect in pollen in the next generation, while it was shown in one line that GUS activity in leaves and roots was also unaffected. To ascertain the effectiveness of the antisense strategy to downregulate very high levels of pollen expression, a lat52-gus antisense construct was introduced into tobacco lines containing lat52-gus, which had pollen GUS activity of up to 250 times greater than in line T115. Results showed that 30 out of 34 independent lines exhibited a significant antisense effect in pollen, confirming the effectiveness of pollen-targeted antisense strategy to reduce undesirable expression in pollen independent of expression level in pollen.