甘菊ClHSP70与ClHSP90基因的克隆及表达分析

该研究以甘菊(Chrysanthemum lavandulifolium)为实验材料,通过RT-PCR方法从甘菊转录组数据中分离出热激蛋白合成相关基因,命名为ClHSP70和ClHSP90。序列分析表明,ClHSP70基因ORF全长为2 559bp,编码852个氨基酸,蛋白功能区预测表明含有典型的HSP70蛋白NBD和SBD保守结构域;ClHSP90基因ORF全长为2 094bp,编码697个氨基酸,含有HATPase结构域和HSP90保守结构域。生物信息学分析表明,甘菊ClHSP70与大豆(Glycine max)和烟草(Nicotiana tomentosiformis)HSP70蛋白有较高的一致性,ClHSP90基因编码的氨基酸序列与紫茎泽兰(Ageratina adenophora)HSP90高度相似;实时荧光定量表达分析表明,在42℃处理不同时间,甘菊叶片中ClHSP70和ClHSP90基因表达均在0.5h时显著增加,1h达到最大值,2h后缓慢下降;不同组织表达分析表明,甘菊在42℃处理1h后,ClHSP70在成熟叶中的表达量显著高于嫩叶和根等其他组织;ClHSP90在成熟茎中的表达量最高。研究说明,ClHSP70和ClHSP90基因具有热激蛋白特征,参与了甘菊热胁迫应答过程,该研究结果为以后深入研究其基因功能奠定了基础。     

香鳞毛蕨DfGNOM基因的克隆及其表达分析

GNOM是一种ADP核糖基化因子(ARF)的鸟嘌呤核苷酸交换因子(GEF),为探索GNOM在香鳞毛蕨(Dryopteris fragrans)中的抗逆功能,该研究克隆了DfGNOM并进行生物信息学分析,采用实时荧光定量PCR(qRT-PCR)方法分析了DfGNOM基因在不同植物激素及逆境胁迫处理下的表达模式,为进一步探索该基因的功能以及香鳞毛蕨的抗逆机制奠定基础。结果表明:(1)成功获得DfGNOM全长4 338 bp,蛋白质多序列比对以及进化树分析表明,DfGNOM与江南卷柏(Selaginella moellendorffii) SmGNOM亲缘较近,motif分析表明该蛋白含有sec7保守结构域。(2) qRT-PCR分析显示,DfGNOM在香鳞毛蕨的根、叶柄和叶中均有表达,但在叶中表达量最高;DfGNOM的相对表达量在生长素(IAA)处理后总体上调,在脱落酸(ABA)处理后总体下调;在NaCl处理下呈"降-升-降"的变化趋势,高温和低温处理下呈"升-降-升"变化趋势;在茉莉酸甲酯(MeJA)、乙烯利(ETH)以及PEG处理下,DfGNOM的相对表达也表现出不同的模式。研究认为,DfGNOM在香鳞毛蕨非生物胁迫响应过程中发挥调控作用。     

Influence of long-term drought stress on osmolyte accumulation in sugar beet (Beta vulgaris L.) plants

Accumulation of various osmolytes was examined in plants of sugar beet cv. Janus grown under two soil water treatments: control (60% of the field water capacity; FWC) and drought (30–35% FWC). The water shortage started on the 61st day after emergence (DAE), at the stage of the beginning of tap-roots development and was imposed for 35 days. Osmotic potential of sugar beet plant organs, particularly tap-roots, was decreased significantly as a consequence of a long-term drought. Water shortage reduced univalent (K⁺, Na⁺) cations concentrations in the petioles and divalent (Ca²⁺, Mg²⁺) ions level in the mature and old leaves. Cation concentrations in the tap-roots were not affected by water shortage. The ratio of univalent to divalent cations was significantly increased in young leaves and petioles as a consequence of drought. Long-term water deficit caused a significant reduction of inorganic phosphorus (P_i) concentration in young and old leaves. Under the water stress condition, the concentration of proline was increased in all individual plant organs, except proline concentration in the youngest leaves. Drought treatment caused a significant increase of glycine betaine content in shoot without any change in tap-roots. Glucose concentrations were significantly increased only in tap-roots as the effect of drought. In response to water shortage the accumulation of sucrose was observed in all the examined leaves and tap-roots. Overall, a long-term drought activated an effective mechanism for osmotic adjustment both in the shoot and in the root tissues which may be critical to survival rather than to maintain plant growth but sugar beet organs accumulate different solutes as a response to water cessation.     

Heat-shock proteins induce heavy-metal tolerance in higher plants

Cell cultures of Lycopersicon peruvianum L. stressed with CdSO₄ (10^–3M) show typical changes in the ultrastructure, starting with the plasmalemma and later on extending to the endoplasmic reticulum and the mitochondrial envelope. Part of the membrane material is extruded, with the formation of osmiophilic droplets which increase in size and number during the stress period. After 4 h, about 20 of the cells are dead. A short heat stress preceeding the heavy-metal stress induces a tolerance effect by preventing the membrane damage. The cells show a normal ultrastructure with one exception: cytoplasmic heat-shock granules are formed. This protective effect can be abolished by cycloheximide. Cadmium uptake is not markedly influenced by the heat stress. Cadmium is found together with sulfur in small deposits in the vacuoles of stressed cells. The precipitates contain an excess of sulfur, evidently due to the stress-induced formation of phytochelatins. The role in heavy-metal tolerance of heat-shock proteins in the plasmalemma (HSP70) and in cytoplasmic heat-stress granules (HSP17, HSP70) is discussed.Abbreviations EDX energy dispersive analysis of X-rays - ESI electron-spectroscopic imaging - HM heavy metal - HSG heat-stress granules - HSP heat-shock protein - MNDO modified neglect of diatomic overlap This work was supported by the Ministerium für Wissenschaft und Forschung des Landes Sachsen-Anhalt and the Deutsche Forschungsgemeinschaft.     

Gas exchange and photosynthesis of Eucalyptus camaldulensis seedlings inoculated with different ectomycorrhizal symbionts

Eucalyptus camaldulensis Dehnh. seedlings inoculated with Pisolithus tinctorius (Pers.) Coker & Couch and Thelephora terrestris Ehrl. per Fr. were grown in well watered soil (_s –0.03 MPa) or subjected to a long-term soil water stress of up to –1.0 MPa over 13-week period in a glasshouse. After 13 weeks, all seedling containers were watered to field capacity and then water was withheld from the E. camaldulensis seedlings to induce a short-term drought. Diurnal measurements of seedling photosynthesis rate (A), leaf stomatal conductance (g) and leaf water potential (_p) were completed before, during, and after the short term drought. Although they were growing in an equal soil volume, photosynthesis rate (A), leaf stomatal conductance and leaf water potential (_p) of larger seedlings with P. tinctorius ectomycorrhizae were similar to those of smaller seedlings colonized with T. terrestris during the short-term drought period. Seedlings inoculated with Pisolithus tinctorius maintained higher photosynthesis rates over the course of the short-term drought. Thus, P. tinctorius ectomycorrhizae appear to be more efficient than those of T. terrestris in assisting seedlings to maintain gas exchange and photosynthesis under limited soil moisture conditions.     

ERECTA is required for protection against heat-stress in the AS1/ AS2 pathway to regulate adaxial-abaxial leaf polarity in Arabidopsis

In seed plants, formation of the adaxial–abaxial polarity is of primary importance in leaf patterning. Since Arabidopsis thaliana (L.) Heynh. genes ASYMMETRIC LEAVES1 (AS1) and ASYMMETRIC LEAVES2 (AS2) are key regulators in specifying adaxial leaf identity, and ERECTA is involved in the AS1/AS2 pathway for regulating adaxial–abaxial polarity [L. Xu et al. (2003) Development 130:4097–4107], we studied the physiological functions of the ERECTA protein in plant development. We analyzed the effects of different environmental conditions on a special leaf structure in the as1 and as2 mutants. This structure, called the lotus-leaf, reflects a severe loss of adaxial–abaxial polarity in leaves. Higher concentrations of salt or other osmotic substance and lower temperature severely affected plant growth both in the wild type and the mutants, but did not affect lotus-leaf frequency in the as1 and as2 mutants. as1 and as2 mutants exhibited a very low lotus-leaf frequency at 22°C, a temperature that favors Arabidopsis growth. The lotus-leaf frequency rose significantly with an increase in growth temperature, and only in plants that are in the erecta mutation background. These results suggest that ERECTA function is required for reducing plant sensitivity to heat stress during adaxial–abaxial polarity formation in leaves.Abbreviations AS1, AS2 ASYMMETRIC LEAVES1, 2 - ER ERECTA     

木薯UGT41基因对细菌性枯萎病的抗性研究北大核心CSCD

糖基转移酶广泛存在于植物中,其中UDP依赖型糖基转移酶(UDP-glycosyltransferases,UGTs)基因家族是糖基转移酶中的一大类。该研究以华南124木薯品种(Manihot esculenta cv.SC124)为材料,利用RT-PCR技术克隆木薯MeUGT41基因,以病毒诱导干扰木薯MeUGT41基因的表达量,并对基因干扰植株进行细菌性枯萎病抗性评价,为研究MeUGT41基因在木薯抵抗细菌性枯萎病的抗病机理奠定基础。结果表明:(1)地毯草黄单胞菌(Xamthomonas axonopodis pv.Manihotis,Xam)可显著诱导木薯MeUGT41基因表达。(2)成功构建MeUGT41的病毒诱导基因沉默(VIGS)载体,将干扰载体转化至木薯叶片进行MeUGT41基因沉默,荧光定量PCR检测结果显示,木薯叶片中MeUGT41基因的表达量显著下降。(3)Xam侵染实验表明,干扰抑制MeUGT41基因表达可显著降低木薯植株叶片对Xam病菌侵染的抵抗能力。研究认为,木薯叶片中MeUGT41基因具有抵抗Xam病菌侵染的能力。     

Diversification of the barley and wheat <Emphasis Type="Italic">blt101</Emphasis>/<Emphasis Type="Italic">wpi6</Emphasis> promoters by the <Emphasis Type="Italic">Xumet</Emphasis> element without affecting stress responsiveness

BLT101-family plasma membrane proteins are found in a wide range of organisms from bacteria to nematodes and are involved in the regulation of cellular cation concentration under stress conditions. A comparison of the promoter regions of barley blt101 and its wheat ortholog, wpi6, revealed highly conserved nucleotide sequences between both genes and a unique insertion of a Xumet element in the blt101 promoter. The Xumet insertion occurred between a putative abscisic acid-responsive element (ABRE) and the dehydration-responsive element/c-repeat (DRE/CRT) within the blt101 promoter. However, blt101 and wpi6 were induced similarly in response to ABA, drought and low temperature, suggesting that the insertion does not affect promoter functions. The Xumet insertion in the blt101/wpi6 promoter region was detected in five barley cultivars, but absent in two wheat cultivars tested, suggesting that the insertion is barley-specific. Genomic Southern blot analysis revealed a large number of Xumet sequences interspersed in the barley genome, whereas only one or very few copies are present in the wheat genome. The data suggested that an expansion in copy number of Xumet elements occurred in the barley genome through evolution.     

Effect of Combined Salt and Heat Treatments on Germination and Heat-Shock Protein Synthesis in Lentil Seeds

The germination of lentil seeds was gradually reduced when seeds were exposed to temperature of 30 or 40 °C, either alone or combined with 0.1, 0.2 or 0.3 M NaCl or 34.1 % (m/v) PEG 8000, during 6 –12 h imbibition. [³⁵S]-methionine incorporation in 12 h imbibed lentil axes also decreased with increasing NaCl concentration at 20 and 40 °C, whereas at 30 °C only 0.3 M NaCl treatment partially inhibited protein synthesis. An analysis of newly synthesized proteins by 1-D SDS PAGE, showed that the expression of most polypeptides decreased following increasing stress. Among these, low molecular mass heat-shock proteins declining, higher in 40 °C treated axes than those treated at 30 °C, supports the hypothesis that at this temperature maximal level of expression of these proteins was achieved.     

萎缩芽胞杆菌CKL1促盐胁迫下燕麦生长活性及其功能基因分析

【背景】青海省特殊生境孕育了特殊微生物资源。【目的】探究适合生活于高原生境的芽胞杆菌菌源。【方法】采用平板对峙法、显色法对萎缩芽胞杆菌（Bacillus atrophaeus） CKL1的拮抗、产吲哚乙酸活性进行测定,并检测耐低温、耐盐性及菌株对盐胁迫下燕麦品种（Avena sativa）“青燕1号”种子萌发、幼苗生长效应及叶绿素、脯氨酸、丙二醛的含量变化,利用二代测序技术对菌株进行基因组测序并分析相关功能基因。【结果】菌株CKL1对禾谷镰孢菌（Fusarium graminearum）、锐顶镰孢菌（Fusarium acuminatum）表现出显著的拮抗活性（抑菌圈直径>15 mm）;与Salkowski比色液反应变红,能在NaCl浓度为13%的LB培养基及4℃低温下生长,表现出一定的产吲哚乙酸、耐盐及耐低温活性;盐胁迫下,菌株CKL1对“青燕1号”种子萌发及幼苗生长具有显著促进作用,叶绿素及脯氨酸含量显著增加,丙二醛含量下降,增强了燕麦的抗盐性。菌株CKL1基因组全长为14 281 280 bp,与GO功能数据库比对注释到3 303个功能基因;基因组编码与脂肽类化合物itur...     

Heat shock protein response to thermal stress in the Asiatic clam,Corbicula fluminea

A recent approach to evaluate environmenta induced damages has been damages has been suggested, based on the stress response. The approach involves the detection of stress protein induction in organisms to infer about environmental conditions in their surroundings. However, to be an indicator of adverse biological effects in the environment, the elevation of stress proteins should be compared to a response pattern for the experimental species. JuvenileCorbicula fluminea, collection from a control site, were submited to heat-shock stress in the laboratory to obtain the stress response pattern under normal and extreme conditions. Acclimated to 26°C, the specimens were submited to 29, 32, 35 and 38°C, for 96 h. After 1, 2, 4, 8, 24, 48, 72 and 96 h of exposure, clams were removed from each vial and prepared for stress protein analysis. Animals from the control site were frozen in liquid nitrogen at the time of collection, and prepared for stress protein analysis. Hsp60 and 70 were detected by immunoreactivity after separation on 12.5% polyacrylamide gels and transference to nitrocellulose by western blotting, to determine the stress protein concentrations. The result showed that hsp70 increased at 4h from the beginning of the experiment and progressed over the 96 h experimental period in animals exposed to 35°C. However hsp70 levels decreased between 4 h and 24 h for the clams stressed at their lethal temperature of 38°C. Immunoblotting with hsp60 showed similar reactivity. At 38°C there was an increase in the amount of hsp60 at 4h, reaching a maximum eight-fold level at 8h. By 96h, the amount decreased to levels lower than those observed at 4h. At 38°C the level of hsp60 began to decrease at 8 h and continue to decline to 24 h when the clams died. The data support the hypothesis of increasing concentrations of stress protein until the heat shock approaches the thermal limits for the species. The results of this research suggest the usefulness of using the stress response as a diagnostic in environmental toxicology. They confirm that the sps response may serve as a valid biomonitoring tool under chronic, sublethal exposures when it is still possible to prevent effects at organismal or higher organizational levels.     

Osmotic adjustment and ion balance traits of an alkali resistant halophyte Kochia sieversiana during adaptation to salt and alkali conditions

Kochia sieversiana (Pall.) C. A. M., a naturally alkali-resistant halophyte, was chosen as the test organism for our research. The seedlings of K. sieversiana were treated with varying (0–400 mM) salt stress (1:1 molar ratio of NaCl to Na₂SO₄) and alkali stress (1:1 molar ratio of NaHCO₃ to Na₂CO₃). The concentrations of various solutes in fresh shoots, including Na⁺, K⁺, Ca²⁺, Mg²⁺, Cl⁻, SO₄²⁻, NO₃⁻, H₂PO₃⁻, betaine, proline, soluble sugar (SS), and organic acid (OA), were determined. The water content (WC) of the shoots was calculated and the OA components were analyzed. Finally, the osmotic adjustment and ion balance traits in the shoots of K. sieversiana were explored. The results showed that the WC of K. sieversiana remained higher than 6 [g g⁻¹ Dry weight (DW)] even under the highest salt or alkali stress. At salinity levels >240 mM, proline concentrations increased dramatically, with rising salinity. We proposed that this was not a simple response to osmotic stress. The concentrations of Na⁺ and K⁺ all increased with increasing salinity, which implies that there was no competitive inhibition for absorption of either in K. sieversiana. Based on our results, the osmotic adjustment feature of salt stress was similar to that of alkali stress in the shoots of K. sieversiana. The shared essential features were that the shoots maintained a state of high WC, OA, Na⁺, K⁺ and other inorganic ions, accumulated largely in the vacuoles, and betaine, accumulated in cytoplasm. On the other hand, the ionic balance mechanisms under both stresses were different. Under salt stress, K. sieversiana accumulated OA and inorganic ions to maintain the intracellular ionic equilibrium, with close to equal contributions of OA and inorganic ions to anion. However, under alkali stress, OA was the dominant factor in maintaining ionic equilibrium. The contribution of OA to anion was as high as 84.2%, and the contribution of inorganic anions to anion was only 15.8%. We found that the physiological responses of K. sieversiana to salt and alkali stresses were unique, and that mechanisms existed in it that were different from other naturally alkali-resistant gramineous plants, such as Aneurolepidium chinense, Puccinellia tenuiflora. Responsible Editor: John McPherson Cheeseman.     

镉胁迫对瘤突苍耳、苍耳及其杂合体种子萌发与幼苗生长的影响

入侵种与本地种杂交可能会改变其某些性状,影响其生理生化过程,增强其对一些重金属的耐受性。镉是目前造成土壤污染的主要重金属元素之一,为探讨杂交是否能够增强植物对重金属镉的耐受性,采用培养皿滤纸法比较了不同浓度镉(0,10,40,80和120 mg/L)处理下瘤突苍耳(Xanthium strumarium)、苍耳(Xanthium sibiricum)及二者杂合体(X.strumarium♀×X.sibiricum♂,X.sibiricum♀×X.strumarium♂)种子萌发与幼苗生长情况。结果表明:1)入侵种瘤突苍耳与本地种苍耳之间存在杂交现象;2)镉促进了杂交瘤突苍耳(X.strumarium♀×X.sibiricum♂)种子的萌发,当镉浓度为80 mg/L时,其萌发率、发芽势、发芽指数最高;3)杂交瘤突苍耳在80、120 mg/L镉处理下根长和叶绿素含量低于瘤突苍耳,但子叶受到的氧化胁迫并未高于瘤突苍耳。研究结果显示,杂交有可能提高了瘤突苍耳在高浓度镉胁迫时对重金属镉的转运能力,幼苗根系吸收大量的镉并向上运输给子叶,导致根系生长受到抑制、子叶叶绿素含量下降,抗氧化酶系统可能在降...     

盐胁迫对拟南芥AtPUB18基因的诱导表达及其启动子分析

用300mmol/L NaCl处理拟南芥幼苗,分别于处理后0、1、2、4、8、16、24、48h通过Northern Blot检测其AtPUB18基因的表达量。结果显示:拟南芥AtPUB18基因的表达量受高盐胁迫的诱导而升高,于处理后4h表达量达到最高,处理后16h表达量最低。采用PCR技术克隆AtPUB18的启动子,序列为1 974bp;序列分析发现启动子内含有大量与非生物胁迫相关的顺式作用元件,如HSE、LTR、MBS及ABRE;将启动子克隆到表达载体pCambia1300-221-GUS中,驱动报告基因GUS表达。组织化学染色结果表明,未经过高盐处理的幼苗中GUS基因表达水平很低;300mmol/L NaCl处理后GUS基因表达量显著升高。研究表明,AtPUB18的表达受高盐胁迫诱导,且AtPUB18基因的启动子是一个盐胁迫诱导型启动子。     

不同温度下杉叶蕨藻对风信子鹿角珊瑚附生微生物群落的影响

全球变暖引发珊瑚礁区向大型海藻场生态演替现象与日俱增,大型海藻对珊瑚的影响主要包括抑制生长、发育与繁殖,但不同的海藻对不同的珊瑚具有不同的影响,二者之间的关系仍未有定论。为探究热压力所引起二者竞争关系的变化,以枝状风信子鹿角珊瑚(Acroproa hyacinthus)和大型底栖海藻杉叶蕨藻(Caulerpa taxifolia)为研究对象,设置了环境温度(27℃)与热压力温度(30℃),比较藻类间接接触和直接接触珊瑚对珊瑚附生微生物群落结构的影响,并从培养水环境及海藻表面微生物中寻找影响珊瑚表面微生物的原因。结果表明,去除嵌合体后共获得3369713条优化序列,并且大部分细菌得到注释。环境温度下,间接接触与直接接触组微生物表达模式接近,海藻的处理使得珊瑚表面附生微生物种类、丰度、PcoA区分度最高。门水平上,微生物群落主要由变形菌门、拟杆菌门、蓝细菌门、厚壁菌门、放线菌门组成。目水平上,微生物群落主要由红细菌目、黄杆菌目、肠杆菌目、蓝细菌目、假单胞菌目、噬几丁质菌目组成。这些细菌表型主要包括革兰氏阴性、好氧细菌、移动元件含量和胁迫耐受四大类,生态功能主要包括化能异养和需氧化能异养。对12个处理组的36个样本进行核心ASV分析(amplicon sequence variants),共获得139个核心ASVs。以假单胞菌目、黄杆菌目、噬几丁质菌目、红细菌目为主,还包括立克次氏体菌目、伯克霍尔德氏菌目、肠杆菌目、疣微菌目等。通过线性判别分析(linear discriminant analysis)可比较各组中相对丰度具有显著差异的细菌类群。环境温度下,群落中弧菌(Vibrio)、邻单胞菌(Plesiomonas)、奈瑟氏菌(Neisseria)以及螺旋体菌(Brevinema)相对丰度显著升高;温度升高后,珊瑚白化且胞内寄生病原微生物丰度显著升高,如米卡弧菌(Micavibrionales)与立克次氏体菌(Rickettsiales);热压力下,海藻的加入缓解了珊瑚白化、减少了胞内寄生性微生物丰度、显著提高了益生菌海命菌(Marivita)以及Halioxenophilus丰度。因此,在不同温度下杉叶蕨藻既作为压力源转移病原菌,又协助珊瑚抵抗胞内寄生菌,结果有助于理解大型海藻-珊瑚的竞争关系,解释海藻对珊瑚的潜在生态影响。     

Overexpression of aThellungiella halophila CBl9 homolog,ThCBL9, confers salt and osmotic tolerances in transgenicarabidopsis thaliana

The calcineurin B-like (CBL) proteins, comprising a large subfamily of calcium sensors in plant cells, play an important role in many stress responses. We cloned a gene from the halophyteThellungiella halophila that is homologous toAtCBL9 inArabidopsis thaliana. The 1008-bpThCBL9 contains an ORF of 639 bp and encodes 213 amino acids, with a 5“-untranslated region of 193 bp and a 3”-untranslated region of 176 bp. Its amino acid sequence shares high homology with AtCBLs.ThCBL9 is up-regulated by ABA, NaCI, and PEG inThellungiella leaves. Using molecular biological methods, we over-expressedThCBL9 inA. thaliana and found that this enhanced tolerances to both high salt and osmotic stress in transgenicArabidopsis. These authors contributed equally to this work.     

Anaerobic glycerol production by <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> strains under hyperosmotic stress

Glycerol formation is vital for reoxidation of nicotinamide adenine dinucleotide (reduced form; NADH) under anaerobic conditions and for the hyperosmotic stress response in the yeast Saccharomyces cerevisiae. However, relatively few studies have been made on hyperosmotic stress under anaerobic conditions. To study the combined effect of salt stress and anaerobic conditions, industrial and laboratory strains of S. cerevisiae were grown anaerobically on glucose in batch-cultures containing 40 g/l NaCl. The time needed for complete glucose conversion increased considerably, and the specific growth rates decreased by 80–90% when the cells were subjected to the hyperosmotic conditions. This was accompanied by an increased yield of glycerol and other by-products and reduced biomass yield in all strains. The slowest fermenting strain doubled its glycerol yield (from 0.072 to 0.148 g/g glucose) and a nearly fivefold increase in acetate formation was seen. In more tolerant strains, a lower increase was seen in the glycerol and in the acetate, succinate and pyruvate yields. Additionally, the NADH-producing pathway from acetaldehyde to acetate was analysed by overexpressing the stress-induced gene ALD3. However, this had no or very marginal effect on the acetate and glycerol yields. In the control experiments, the production of NADH from known sources well matched the glycerol formation. This was not the case for the salt stress experiments in which the production of NADH from known sources was insufficient to explain the formed glycerol.     

青花菜BoSCL3基因的克隆和渍水胁迫下的表达特征分析

为了解SCL3 (scarecrow-like 3)基因的功能,从青花菜(Brassica olreacea var. italica)中克隆得到1个SCL3基因,命名为BoSCL3,其cDNA全长1 355 bp,编码446个氨基酸。BoSCL3分子量为49.96 kD,为疏水性蛋白,与油菜(B. napus)、芜菁(B. rapa)中SCL3蛋白的亲缘关系最近,同科植物的SCL3具有较高的同源性。荧光定量PCR分析结果表明,青花菜BoSCL3基因表达量随渍水胁迫时间延长先下降后上升,推测其可能参与渍水胁迫响应。这为探讨青花菜BoSCL3基因响应渍水胁迫的分子机制提供理论依据。