NaCI胁迫对UV-B辐射诱导的绿豆环丁烷嘧啶二聚体和紫外吸收物质含量变化的影响

将2个对UV-B敏感性不同的绿豆品种‘秦豆-20’和‘中绿-1’幼苗放在培养室内,进行0.4W/m~2 UV-B辐射和0.4%NaCl胁迫的单独或复合处理,研究了NaCl胁迫对UV-B辐射诱导的DNA伤害和修复的影响。结果显示:在NaCl胁迫下,(1)在光下抗UV-B的品种‘中绿-1’的环丁烷嘧啶二聚体(CPD)累积量降低,而敏感品种‘秦豆-20’的CPD累积量未发生变化;(2)两品种CPD形成量均比无NaCl胁迫时低;(3)抗UV-B品种DNA的光、暗修复能力均比无NaCl胁迫时高:(4)而敏感品种DNA的光修复能力比无NaCl胁迫时低、暗修复能力未发生变化。另外,CPD形成量与紫外吸收物含量间具有明显的负相关性。说明NaCl胁迫不仅影响2个绿豆品种幼苗的CPD形成量,而且影响DNA的光、暗修复能力,进而导致了CPD累积量发生变化,由此影响了幼苗的UV-B敏感性。结果也暗示CPD形成量的变化是由于紫外吸收物质含量的不同所导致的。     

增强UV-B辐射和NaCl复合胁迫下绿豆光合作用的气孔和非气孔限制

研究了0.35 W/m2的UV-B辐射、0.4%NACl及其复合胁迫下绿豆(Phaseolus radiatus L.)幼苗光合作用的气孔和非气孔限制.发现各胁迫处理下,幼苗净光合速率、气孔导度、光合能力、羧化效率和Rubisco含量均明显降低;细胞间隙CO2浓度在各胁迫处理前期低于对照,后期高于对照;气孔限制值除复合处理第5天外,其余均高于对照;复合处理下上述指标的变化程度均大于两胁迫因子单独处理.表明各胁迫下光合速率的降低既有气孔因素也有非气孔因素,但前期以气孔限制为主,后期以非气孔限制为主;Rubisco含量的降低是各胁迫下光合速率降低的非气孔因素.     

UV-B辐射增强对NaCl胁迫下小麦幼苗生理生态的影响

研究了0.4w·m-2的紫外线-B(UV-B)辐射对0.8%NaCl胁迫下冬小麦"小偃926"(TriticumaestivumL.xiaoyan-926)幼苗的生长、光合作用、水分状况、黄酮含量和膜脂过氧化等几方面的影响。结果表明,UV-B辐射和NaCl胁迫单独或复合处理下小麦幼苗的株高、生物量、含水量、净光合速率、蒸腾速率、气孔导度和光合色素含量均显著降低,膜脂过氧化产物丙二醛含量和叶片相对电导率则升高,但NaCl胁迫条件下增加UV-B辐射(复合处理)与单独NaCl胁迫相比,上述指标多数均无显著差异(除复合处理下类胡萝卜素含量显著降低外)。两胁迫因子单独或复合处理均明显提高了小麦幼苗黄酮含量及三种抗氧化酶(SOD、POD和CAT)活性,且复合处理的促进效应最大。脯氨酸含量在单独UV-B辐射下明显降低,在单独NaCl胁迫和复合处理下显著升高,且复合处理下增幅最大。结果说明UV-B辐射不会明显加剧NaCl胁迫下小麦幼苗的伤害,这可能与NaCl胁迫提高了小麦幼苗黄酮含量、脯氨酸含量和抗氧化酶活性有关。     

不同时间的UV-B辐射对拟南芥幼苗生长的影响

以哥伦比亚野生型拟南芥(Arabidopsis thaliana)为实验材料, 用辐射功率为16.67 μW·cm^-2但不同时间(0.5、1、1.5、2、2.5和3小时)的UV-B辐射对拟南芥幼苗进行处理, 观察叶片形态, 并测定其根长、叶绿素含量、可溶性蛋白含量、丙二醛(MDA)浓度、超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性及叶绿素荧光参数。结果显示, 短时间UV-B辐射可促进拟南芥根的伸长, 叶绿素和可溶性蛋白含量升高; 长时间UV-B辐射则抑制拟南芥根的生长, 使叶绿素含量、可溶性蛋白含量、叶绿素荧光参数F_v/F_m及qP逐渐降低, MDA浓度、SOD活性、CAT活性和qN值升高, 并随着时间的延长逐渐降低或升高。当辐射功率为16.67 μW·cm^-2时, 其最佳辐射时间为1.5小时。UV-B辐射作为一种环境胁迫, 其胁迫程度都是在一定的范围内, 当胁迫达到极限时, 植株都会对UV-B辐射产生一定的适应效应而使损伤降低。     

UV-B辐射对拟南芥种子萌发和幼苗生长的影响

以哥伦比亚生态型(Columbia-0)拟南芥(Arabidopsis thaliana)为实验材料, 人工模拟UV-B辐照处理拟南芥种子, 统计其发芽势和发芽率, 测定根长、株高、叶绿素、可溶性糖、可溶性蛋白以及丙二醛(MDA)含量, 研究UV-B辐照处理对拟南芥种子萌发和幼苗生长的影响。研究结果表明, 低剂量的UV-B辐照可以促进拟南芥种子萌发和幼苗生长, 并且最佳辐照剂量为1.0 kJ·m^–2(P<0.05), 此时的发芽势、发芽率、根长、株高、叶绿素、可溶性糖及可溶性蛋白的含量均达到最大, 而丙二醛的含量变化则不明显(P>0.05)。当辐照剂量大于1.0 kJ·m^–2时, 促进作用逐渐变小, 并且随着辐照剂量的增加, 表现出了抑制作用。实验结果表明, 适当剂量的UV-B辐照在一定程度上可以促进拟南芥种子萌发和幼苗生长, 而过高剂量的辐照则对其产生抑制或损伤作用。     

NaCl胁迫对棉花种子萌发和幼苗生长的伤害

采用盐化土壤盆栽方法,选择耐盐性较强品种枝棉３号和耐盐性较弱品种泗棉２号,研究了盐分对棉花（Ｇｏｓｓｙｐｉｕｍ ｈｉｒｓｕｔｕｍ Ｌ．）种子萌发、出苗和幼苗生长的伤害。结果表明,在－０．５５和－１．１０ＭＰａ盐分胁迫下,对棉花伤害起决定性作用的因子是Ｎａ＾＋。２００ｍｍｏｌ／Ｌ ＮａＣｌ胁迫下,枝棉３号种子萌发时电导率上升幅度和子叶ＣＡＴ下降幅度均显著小于泗棉２号。１００和２００ｍｍｏｌ／Ｌ Ｎａ     

温度对UV-B诱导的烟草叶圆片DNA损伤的影响

环丁烷嘧啶二聚体(CPD)和6-4光产物(6-4PP)是两种主要的UV-B诱导的DNA光损伤产物。利用单克隆抗体酶联免疫吸附分析法(ELISA),研究了温度对UV-B诱导的烟草叶圆片DNA损伤的影响。室温(24℃)条件下,UV-B处理引起了烟草叶圆片DNA中CPD和6-4PP的积累。0℃条件下,UV-B处理的烟草叶圆片DNA中CPD和6-4PP的积累比室温下分别降低了9.8%和12%。UV-B诱导的DNA损伤曾被认为是纯粹的光化学过程而与不受温度影响,而本实验结果表明,UV-B诱导的烟草叶圆片DNA形成CPD和6-4PP的过程具有温度依赖性。这一特性有利于植物对全球变化的适应,因而具有重要的生态学意义。     

NaCl胁迫下SA浸种绿豆幼苗的生长及生理特征

以'中绿一号'绿豆品种为材料,对不同浓度水杨酸(SA)浸种绿豆种子在NaCl胁迫条件下的萌发、幼苗生长及相关生理指标变化进行分析.结果显示:(1)与未胁迫对照相比,未浸种对照绿豆在100～500 mmol·L-1 NaCl处理下的发芽率、芽长、根长和叶片叶绿素含量显著降低,而幼苗叶片丙二醛(MDA)与脯氨酸(Pro)含量水平显著上升(P＜0.05),且其升降幅度随NaCl胁迫浓度提高而增加;(2)与未浸种对照相比,未胁迫对照种子的萌发和幼苗的生长在20 mg·L-1 SA处理中受到抑制,而在40～80 mg·L-1 SA处理条件下得到促进,至100 mg·L-1 SA时又受到显著抑制.(3)适当浓度的SA浸种能够显著提高盐胁迫下绿豆幼苗的芽长、根长、叶绿素的含量,降低了MDA和Pro含量;在NaCl胁迫浓度为100～300 mmol·L-1时的SA适宜浓度浸种为60 mg·L-1,而500 mmol·L-1 NaCl时为80 mg·L-1.研究表明,适当浓度的SA浸种能有效缓解盐胁迫对绿豆幼苗的伤害,提高其耐盐性.     

UV-B辐射胁迫对杨桐幼苗生长及光合生理的影响

通过对UV-B辐射胁迫下亚热带典型木本杨桐幼苗的生长及光合生理的研究,探讨植物对于UV-B辐射胁迫的生理响应及适应性机理,进而揭示UV-B辐射变化对亚热带森林树种的影响.实验设置UV-B辐射滤光组、自然光对照组以及辐射增强组,选择亚热带典型树种杨桐(Cleyera japonica Thunb.)幼苗为实验材料.研究结果表明:(1)增强UV-B辐射会降低杨桐幼苗的叶绿素含量,而降低辐射则会显著促进叶绿素的增加,且这种胁迫在时间上具有积累性.(2)增强或降低辐射强度都会抑制杨桐地径的生长,增强辐射会产生更显著的抑制;降低辐射强度会对杨桐幼苗的株高生长产生促进作用,反之,则会抑制其生长.3个测定期数据综合分析显示随着处理时间的加长,这种胁迫作用有减小的趋势.(3)对光响应曲线的分析表明相对于自然光条件下的UV-B辐射,降低其强度对杨桐幼苗光合作用有显著的促进作用,反之则会抑制,不过抑制作用并不显著;对于光合特征参数的分析表明增强或降低UV-B辐射会显著降低杨桐幼苗的光饱和点(LSP)和光补偿点(LcP),而对最大净光合速率(Amax)、表观光合量子效率(AQY)、暗呼吸速率(Rd)影响均不显著,表明辐射胁迫对杨桐幼苗利用光能的效率影响不大,从而也并未对杨桐的光合作用产生显著性的伤害,但是由于森林树种的多年生特性,这种影响将是积累性的或延迟的,UV-B所造成的光合作用或光能利用率的微小变化都可能会积累成长期影响.因此,对森林树种进行长期研究是必要的.     

UV-B辐射引起的绿豆幼苗叶片Rubisco量降低与H2O2含量升高有关

为了探讨UV-B辐射引起的Rubisco含量降低的可能机制,研究了两个绿豆品种(秦豆-20和中绿-1)幼苗在UV-B辐射下叶片Rubisco含量、蛋白水解酶活性和H2O2含量的变化.结果表明:UV-B辐射显著加速了两个绿豆品种幼苗叶片H2O2含量和蛋白水解酶活性上升,使Rubiscco含量下降.秦豆-20品种在UV-B辐射下H2O2含量和蛋白水解酶活性的上升程度明显大于中绿-1,相应其Rubisco含量的下降程度也大于中绿-1.抗坏血酸处理能明显降低UV-B辐射下两品种幼苗叶片H2O2含量,同时明显抑制蛋白水解酶活性的上升及Rubisco含量的下降.结果说明UV-B辐射诱导Rubisco含量的降低可能通过提高H2O2水平从而加强蛋白水解酶系统的活化而加速了Rubisco的降解.     

DNA damage and photosynthesis in Antarctic and Arctic Sanionia uncinata (Hedw.) Loeske under ambient and enhanced levels of UV-B radiation

The response of the bipolar moss Sanionia uncinata (Hedw.) Loeske to ambient and enhanced UV‐B radiation was investigated at an Antarctic (Léonie Island, 67°35′ S, 68°20′ W) and an Arctic (Ny‐Alesund, 78°55′ N, 11°56′ E) site, which differed in ambient UV‐B radiation (UV‐BR: 280–320 nm) levels. The UV‐BR effects on DNA damage and photosynthesis were investigated in two types of outdoor experiments. First of all, sections of turf of S. uncinata were collected in an Arctic and Antarctic field site and exposed outdoors to ambient and enhanced UV‐BR for 2 d using UV‐B Mini‐lamps. During these experiments, chlorophyll a fluorescence, chlorophyll concentration and cyclobutyl pyrimidine dimer (CPD) formation were measured. Secondly, at the Antarctic site, a long‐term filter experiment was conducted to study the effect of ambient UV‐BR on growth and biomass production. Additionally, sections of moss turf collected at both the Antarctic and the Arctic site were exposed to UV‐BR in a growth chamber to study induction and repair of CPDs under controlled conditions. At the Antarctic site, a summer midday maximum of 2·1 W m^?2 of UV‐BR did not significantly affect effective quantum yield (ΔF/F_m′) and the ratio of variable to maximal fluorescence (F_v/F_m). The same was found for samples of S. uncinata exposed at the Arctic site, where summer midday maxima of UV‐BR were about 50% lower than at the Antarctic site. Exposure to natural UV‐BR in summer did not increase CPD values significantly at both sites. Although the photosynthetic activity remained largely unaffected by UV‐B enhancement, DNA damage clearly increased as a result of UV‐B enhancement at both sites. However, DNA damage induced during the day by UV‐B enhancement was repaired overnight at both sites. Results from the long‐term filter experiment at the Antarctic site indicated that branching of S. uncinata was reduced by reduction of ambient summer levels of UV‐BR, whereas biomass production was not affected. Exposure of specimens collected from both sites to UV‐BR in a growth chamber indicated that Antarctic and Arctic S. uncinata did not differ in UV‐BR‐induced DNA damage. It was concluded that S. uncinata from both the Antarctic and the Arctic site is well adapted to ambient levels of UV‐BR.     

DNA DAMAGE AND PHOTOSYNTHETIC PERFORMANCE IN THE ANTARCTIC TERRESTRIAL ALGA PRASIOLA CRISPA SSP. ANTARCTICA (CHLOROPHYTA) UNDER MANIPULATED UV-B RADIATION

The effect of reduced, natural ambient, and enhanced UV-B radiation (UVBR) on photosynthesis and DNA damage in the Antarctic terrestrial alga Prasiola crispa ssp. antarctica (Kützing) Knebel was investigated in two field experiments. Samples of P. crispa were collected underneath snow cover and exposed outside to reduced and natural UVBR in the austral spring. In a second experiment at the end of the austral summer, samples were exposed to ambient and enhanced UVBR. PSII efficiency, net photosynthetic rate (NP), dark respiration rate (DR), UV-absorbing pigments, and cyclobutyl pyrimidine dimer (CPD) formation were measured during the experiments. In October 1998, a spring midday maximum of 2.0 W·m ^{− 2} of UVBR did not significantly affect effective quantum yield (ΔF/F_m′), and a reduction in the ratio of variable to maximal fluorescence (F_v/F_m) in the late afternoon was transient. Exposure to natural ambient UVBR in October increased CPD values significantly. Midday maxima of UVBR during the experiments in October and January were comparable, but Setlow-DNA-weighted UVBR was more than 50% lower in January than in October. In January, 0.5 W·m ^{− 2} additional UVBR during 10 h did not have a negative effect on ΔF/F_m′. The reduction in F_v/F_m was not significant. NP and DR were not affected by supplementation of UVBR. Although photosynthetic activity remained largely unaffected by UVBR treatment, DNA damage was shown to be a sensitive parameter to monitor UVBR effects. Supplementation of additional UVBR did significantly enhance the amounts of CPD in exposed samples and repair took place overnight. It is concluded that PSII and whole-chain photosynthesis of P. crispa is well adapted to ambient and enhanced levels of UVBR but that CPD formation is more sensitive to UVBR than to photosynthesis.     

增强UV-B辐射对大豆胚轴DNA损伤、修复和蛋白质含量的影响

大气平流层臭氧层减薄引起到达地表的 UV- B辐射增强。为探讨在增强 UV- B辐射下植物细胞 DNA的损伤修复和蛋白质含量的关系 ,利用 3H- Td R掺入法 ,研究了在 8.2 2 k J/(m2 d)和 12 .4 2 k J/(m2 d) U V- B辐射 (相当于兰州地区大气平流层臭氧减薄约 12 %和 2 0 % )胁迫下 ,大豆胚轴细胞 DNA合成和非按期合成 (UDS)变化 ,并测定了胚轴蛋白质含量变化 ,结果显示 ,UV- B辐射导致 DNA损伤 ,并诱导了 DNA损伤的修复 ,胚轴细胞 UDS效应增强 ,U DS指数增大。低 UV- B辐射强度下 ,胚轴蛋白质含量增加 ,可能是 U V- B诱导了一些与抗性有关的基因表达 ,导致一些新的与抗性有关的蛋白质合成 ;在高强度 UV- B辐射下 ,U DS指数与低强度辐射下无显著差异 (P=0 .0 5 ) ,但蛋白含量较低强度辐射下显著下降 (P=0 .0 5 ) ,说明高强度 UV- B辐射加重了 DNA损伤 ,而修复并未加强 ,并且高强度辐射抑制基因的正常表达和蛋白质合成。这些蛋白质的合成可能与大豆对 UV- B辐射的抗性有关。     

Studies on the relationship between cyanide-resistant respiration and expression of alternative oxidase in mung bean using antibodies prepared by synthetic polypeptide

Twelve peptides, including eight conservative amino acid residues in the amino acid sequence of hydrophilic S helix of the alternative oxidase (AOX), were synthesized by solid-phase method. The polypeptide was coupled with α-chymotrypsinogen, and the antibodies were obtained through immunizing domestic rabbit by injecting this complex. By using these antibodies, which were raised to immunoreact with total proteins of purified mitochondria from different organs of mung bean seedlings, we find that there are two hybridizable AOX bands in mitochondria. Their molecular weights are about 35 and 38 ku, respectively. Moreover, the respiratory parameters of hypocotyl, true leaf and cotyledon of mung bean seedlings show that true leaf has the highest total respiration (Vt), alternative pathway (AP) capacity (Valt) and the activity of AP (ρValt) among the three organs. Vt and ρValt of cotyledon ranked the second. Hypocotyl has the lowest V, and ρValt, but its Valt is higher than that of cotyledon. These result     

UV-B辐射对蚕豆叶膜脂过氧化的影响及其机制

温室种植的吞豆在0（CK）,8．82kJ/m2(T1)和12．6kJ/m2(T2)3种剂量的紫外线B（UV－B）辐射引起膜脂变化及其机制的研究结果表明,UV0B处理后,蚕豆叶片中丙二醛（MDA）和H2O2含量升高,膜脂肪酸不饱和度指数（IUFA）降低,脂氧合酶（LOX）活性升高,超氧歧化酶（SOD）活性稍有波动,而3种多胺－腐胺（Put)精胺（Spd)和尸胺（Spn)在照射7天后均有积累,但在处理后期（21d)有所回落,推测由LOX主导的酶促膜过氧化作用和氧自由基引起的非酶促过作用在膜结构的破坏中起重要作用,SOD活性和多胺含量的变化蚕豆对UV－B胁迫的一种适应性生理反应。     

紫外线-B辐射对植物DNA及蛋白质的影响

大气平流层中的臭氧衰减,导致太阳辐射中的紫外辐射量有明显的增加,其中UV-B辐射对植物会产生不同程度的影响。分子生态学理论认为,UV-B辐射对植物造成的损伤,首先伤害植物的生物大分子,即进行光化学修饰。本文就臭氧衰减对生态环境和植物的影响途径进行了讨论,重点论述了UV-B辐射对植物蛋白质合成的抑制和DNA的损伤修复途径。并应用分子生物学技术研究植物对UV-B辐射的抗性机理和DNA修复技术的前景进行了展望。