盟发绿豆子叶衰老期间的呼吸作用与线粒体功能的改变

暗中培养的绿豆幼苗子叶在萌发后3—4天时,外观出现衰老征状,6天后子叶凋落。随子叶日龄的增加,子叶的呼吸强度一直下降,呼吸商始终小于1。当外加L-苹果酸、α-酮戊二酸、琥珀酸和NADH为底物测定离体线粒体氧化活性时,衰老子叶的线粒体对上述四种底物的氧化活性有不同程度的增加;抗氰呼吸也有所升高。子叶衰老时,线粒体的ADP/O和呼吸控制(RC值均降低);线粒体ATPase水解ATP的活性升高。衰老绿豆子叶线粒体氧化磷酸化偶联效率的降低和ATPase水解活性的增强是与线粒体结构改变相联系的一种功能变化,它导致能量亏缺,并进一步加速了衰老的恶化进程。     

运动性疲劳状态下大鼠骨骼肌线粒体氧化磷酸化功能的研究

目的和方法 :以SD大鼠递增负荷力竭性跑台运动为运动性疲劳模型 ,分别测定运动后即刻骨路肌线粒体 :①呼吸链复合体Ⅱ Ⅲ电子传递与质子泵出比值 (H /2e) ;②以琥珀酸 (S)为底物的呼吸控制 :态 3呼吸速率(R3 )、态 4呼及速率 (R4 )、呼吸控制比 (RCR)和磷 /氧比 (P/O) ;②H ATPase合成活力 ,探讨疲劳性运动中线粒体氧化磷酸化功能改变的机理。结果 :力竭性运动后以S为底物的线粒体R4升高 2 1.10 % (P <0 .0 5 ) ;呼吸链复合体Ⅱ Ⅲ的总、净H 2e分别降低 8.5 3和 19.5 1% (均P <0 .0 5 )。底物的RCR和P/O呈显著降低 (均P <0 .0 5 ) ,而底物的R3则有所增加 (P >0 .0 5 ) ,H ATPase合成活力降低 16.68% (P <0 .0 5 )。结论 :线粒体质子漏增加 ,呼吸链电子传递与质子泵出偶联程度下降 ,氧化磷酸化脱偶联导致无效氧耗增多 ,可能是运动性疲劳状态下线粒体氧利用率下降的重要机制。     

绿豆子叶衰老期间核酸代谢的变化

萌发绿豆的子叶自然衰老期间,核酸含量降低,RNA降低的幅度比DNA大。电泳分析结果表明,子叶衰老期间细胞核主带DNA明显降低;而迁移慢的卫星带DNA变化不大。在RNA各组分中,18S rRNA从衰老前期就开始降低;25S rRNA和4～5S小分子RNA到衰老后期才缓慢下降。DNase和RNase活性在子叶整个衰老期间都明显升高,是导致核酸含量下降的主要原因。~3H-核苷掺入试验表明,核酸的合成速率在子叶衰老前期有所上升,到衰老后期又降低。poly(A)~ -mRNA含量在子叶开始衰老时明显上升。     

萌发绿豆子叶衰老期间蛋白质代谢的变化

萌发绿豆子叶自然衰老过程中可溶性蛋白质含量一直下降;从衰老开始到衰老前期,总游离氨基酸含量明显上升;但游离氨基酸各组分在子叶衰老期间的变化趋势并不相同。~3H-亮氨酸掺入蛋白质试验和多聚核糖体的相对量及其与总核糖体的比值(P/T)测定都证明在子叶衰老前期有蛋白质的新合成。子叶衰老期间。氨肽酶活性明显降低;而以酪蛋白为底物的蛋白水解酶活性却急剧上升,承担着催化蛋白质降解的主要功能。     

食物水限制对子午沙鼠肾和肝组织线粒体呼吸链复合物活性及相关自由基代谢的影响

目的观察食物水限制条件下对肾和肝组织线粒体呼吸链复合物活性的影响,研究组织线粒体能量代谢相关的响应特征。方法以健康成年子午沙鼠Meriones meridianus为材料,运用分光光度法测定了食物水限制3 d、6 d、9 d后子午沙鼠肾脏与肝脏组织线粒体呼吸链复合物Ⅰ~Ⅳ活性及超氧化物歧化酶(SOD)活性、丙二醛(MDA)含量变化。结果水限制胁迫可引起肾和肝组织中线粒体呼吸链4种复合物的活性明显升高(P<0.05,P<0.01),体质量逐渐降低。其中水限制3 d是其适应性反应的重要阶段,3 d时呼吸链复合物活性升高幅度较大,9 d时活性均降低,但仍高于对照组。肾组织线粒体SOD活性呈不同程度升高,肾与肝组织线粒体MDA含量在水限制下显著升高。结论食物水限制引起肾和肝组织线粒体呼吸链复合物活性的升高与肾对水的重吸收和肝代谢增加有关,长时间水限制诱导自由基水平升高,对代谢酶活性的维持可能产生不利的影响。     

植物线粒体呼吸状态的研究方法及其在植物生物学中的应用

线粒体呼吸状态是指当线粒体中呼吸底物及ADP以不同浓度存在时线粒体的呼吸速率,它是用来研究线粒体功能的重要指标。本文结合我们的研究经验,详细阐述了线粒体呼吸状态的研究方法,介绍了该方法在分析线粒体电子传递链功能和氧化磷酸化活性中的应用,此外概述了线粒体呼吸状态的测定和分析方法在植物生理生态研究中的具体应用。     

绿豆子叶线粒体发育过程中腺苷酸的变化及其对细胞能量代谢的影响

本文研究了绿豆子叶线粒体发育过程中腺苷酸能荷(AEC)的变化及其和细胞能量状态的关系。观察到吸胀2小时的绿豆子叶线粒体发育不完全,吸胀12小时线粒体内膜出现明显的内嵴。随着线粒体完整性的增加,H~ -ATPase 的活性明显增大,细胞的 ATP 水平也明显提高,AMP 水平下降,AEC 值剧增,但此时线粒体本身的腺苷酸水平及 AEC 值变化不大。经1×10~(-4)mol/1和5×10~(-4)mol/1 DNP 处理的子叶,细胞中 ATP 含量大大降低,AMP 增多,AEC 随之下降,而线粒体的腺苷酸及 AEC 仍然保持衡定,腺苷酸激酶(AK)的活性不但不受 DNP 的抑制,反比对照增加约50%。线粒体能量状态的维持可能受 AK 的调节。     

呼吸链电子传递与线粒体内膜流动性

本文报告用稳态荧光各向异性研究呼吸链底物氧化启动电子传递时线粒体内膜的流动性变化。结果表明呼吸链底物使内膜流动性增大,磷脂分子脂酰链的活动度增加(从2位碳到12位碳)。FCCP(p-trifluoromethoxycarbonylcyanide phenylhydrazone)取消H⁺梯度时底物仍可使内膜流动性增加,提示流动性的增加与底物氧化启动的电子沿呼吸链的传递过程密切相关。     

低温对不同耐冷力的黄瓜幼苗呼吸代谢的影响

两个品种的黄瓜幼苗,经2℃低温处理之后,子叶的呼吸代谢活性均有不同程度的增强,无论是呼吸强度的变化,或是底物氧化途径和电子传递途径的活性变化,均显示出低温有促进作用。耐冷力较强的粵早3号增加的幅度略大于耐冷力较差的全青。 黄瓜幼苗子叶呼吸代谢途径在总呼吸中的分配比例的变化是:在28℃的条件下,随苗龄的增长,子叶的底物氧化途径逐步转变为以EMP途径为主,电子传递途径则以交替途径为主。2℃的低温处理使底物氧化途径加速或增大,转向以EMP途径为主,而电子传递途径则从原来的交替途径为主变为以细胞色素途径为主。耐冷力不同的品种之间的反应,主要表现在呼吸代谢途径变化的趋势上有一定的差异。在1星期低温的范围内,随着低温处理时间的延长耐冷力较强的粵早3号,其各途径在分配比例上保持在平稳状态。     

NAD~+对小麦叶片线粒体甘氨酸氧化和三羧酸代谢的调节

外源NAD~+对小麦叶片线粒体内甘氨酸、苹果酸及α—酮戊二酸氧化都有促进作用。当几种呼吸底物同时存在时,其中甘氨酸的氧化抑制了其他底物的同时氧化,因为催化这两类废物氧化的酶对NAD~+的亲和力和对NADH/NAD~+比值的敏感程度有差异,催化甘氨酸氧化的甘氨酸脱羧酶对线粒体基质内可利用的NAD~+的亲和力分别比苹果酸脱氢酶和α—酮戊二酸脱氢酶的亲和力大约1或2倍。另外,甘氨酸亦可通过保持线粒体基质内高NADH/NAD~+比值来影响三羧酸环的正常代谢。     

Studies on energy status and mitochondrial respiration during growth and senescence of mung bean cotyledons

Several characteristics of mitochondrial respiration and energy status have been studied during growth and senescence of mung bean ( Phaseolus radiatus L.) cotyledons. The results showed that mitochondrial oxygen consumption, respiratory control, ADP:O ratios, and energy charge changed in the cotyledons during germination and growth of the seedlings. The respiration rate of intact cotyledons approximately reflected the trend of the oxidative activities of the isolated mitochondria. An increase was observed in both whole cotyledon respiration and mitochondrial oxygen uptake at the onset of senescence of mung bean cotyledons (day 3 after germination), which thereafter declined gradually. The capacity and activity of the alternative pathway increased markedly in mitochondria isolated from senescent cotyledons. After the onset of senescence, the mung bean cotyledon mitochondria exhibited a decrease both in the respiratory control ratios and ADP:O ratios, and the cotyledons exhibited a gradual decline in energy charge. All these results showed an irreversible deterioration of energy conservation in mung bean cotyledons. The role(s) of the alternative pathway in senescent mung bean cotyledons is discussed.     

The capacity of antioxidant protection during modulated ageing of bean (Phaseolus vulgaris L.) cotyledons. 2. The low-molecular weight antioxidants

The aim of the present work was to evaluate non-enzymic antioxidants during natural and artificially modulated senescence. Senescence of bean (Phaseolus vulgaris L. cv. Jantar) cotyledons was modulated by UV C irradiation or by the decapitation of plants apices. The content of beta-carotene and zeaxanthin decreased in control and decapitated plants but in UV C irradiated plants these contents increased. The degree of de-epoxidation increased in all cultivations with age. The content of total glutathione (sum of reduced and oxidized) sharply decreased in bean cotyledons grown in all conditions. Interestingly, the content of total ascorbate increased at the end of cotyledon life span of control and decapitated plants but decreased in UV plants. Decrease of reduced/oxidized ratio of ascorbate and glutathione during cotyledon ageing confirmed increasing oxidative stress during senescence in all cultivations.     

切除上胚轴对绿豆子叶衰老逆转及其核酸和蛋白质代谢的效应

在绿豆子叶衰老达到不归点(萌发后5～6d)前切除上胚轴可使开始衰老的子叶中核酸和蛋白质含量回升,衰老短期逆转。衰老不归点后的子叶中核酸和蛋白质变化的主要特征是:丧失了较多的核主带DNA、25S、18S rRNA以及大部分可溶性蛋白质组分,一种小分子DNA 组分完全消失。不归点前切除上胚轴可使上述核酸和蛋白质组分明显增加,表明子叶衰老的逆转可能与这些重要功能物质的回升有关。在切除上胚轴的茎顶涂抹IAA,能阻止子叶核酸和蛋白质回升,也消除了切除上胚轴对子叶裹老的逆转作用。     

Enzymatic changes in gourd and bean cotyledons during ageing and the effect of detopping

Cotyledons of gourd (Cucurbita maxima Duchesne) and bean (Phaseolus vulgaris L.) were used to study the changes in the activities of catalase, peroxidase, acid inorganic pyrophosphatase and alkaline inorganic pyrophosphatase during ageing and the diversion in such changes that occur when cotyledon senescence was retarded by detopping the seedlings above the cotyledons. Catalase, acid inorganic pyrophosphatase and alkaline inorganic pyrophosphatase activities declined during the senescence of the cotyledons. When cotyledon senescence was retarded by detopping as marked by the increase in the levels of chlorophyll and protein, there was also an increase in the activities of these enzymes. Peroxidase activity, on the other hand, increased during the senescence of the cotyledons and detopping the seedlings resulted in a further increase in the peroxidase activity. It can be suggested that some root factor(s) probably cytokinin(s) is (are) mobilised into the cotyledons of the detopped seedlings which otherwise would have been mobilised into the shoot apices, and help retard or even reverse the senescence of the cotyledons.     

Changes of Adenine Nucleotide in the Course of Mitochondrial Development of Mung Bean Cotyledon and Their Effect on Cellular Energy Status

The changes of adenine nucleotide and adenylate energy charge (AEC) during the development of mitochondria in imbibed mung bean cotyledons and the relationship between these changes and cellular energy status are studied. After cotyledons were imbibed in water for two hours, mitochondrial cristae were not observed, but for 12 hours, they appeared obviously on the inner membrane. With the structural integrity of the mitochondria, the functional mitochondria were graduately shown. For instance, the activity of H+-ATPase of cotyledons imbibed for 24 hours was about twice higher than that of 2 hours. The ATP content and the AEC value in the cotyledons imbibed for 24 hours increased sharply and the AMP decreased, but these were not observed in the mitochondria of the cotyledons imbibed either for 24 hours or 2 hours. When the cotyledons were imbibed in 1 × 10-4 mol/l or 5 × 10-4 mol/l DNP solution for 24 hours, the ATP and the AEC in the Cells exhibited a rapid decrease, but in the mitochondria they remained canstant. In the same DNP solution with cotyledons for 24 hours, the activity of mitochondrial adenylate kinase (AK) not only was not decreased but also increased by about 50% over the control. This result shows that the energy equilibration in the mitochondria seems likely to be regulated by adenylate kinase locating between inner and out membranes of the mitochondria.     

Inhibitory effect of polyamines on the activity of endopeptidase in mung bean cotyledons

The activity of cysteine endopeptidase (EP) in the cotyledons of mung bean seeds increased with time after germination. When cotyledons were excised from the embryonic axis in the course of seedling growth, the activity of EP in the excised cotyledon markedly dropped during the following incubation of 1 d. However, the level of EP protein in excised cotyledons, as examined by immunoblotting, was similar to that in axis-attached cotyledons at the corresponding stage. Thus, it seems that the low activity of EP in excised cotyledons is not due to a decrease in the content of EP protein, but due to a loss of the activity of existing EP. Treatment of attached cotyledons with polyamines (PAs; putrescine and spermidine [Spd]) resulted in a decrease in EP activity, while the same PA-treatment brought about little alteration in the level of EP protein. This indicates that PAs somehow produce an inhibitory effect on the activity of EP. Axis-removal resulted in an accumulation of Spd in the cotyledon. The possibility is suggested that PA, especially Spd, is involved in the inhibition of EP activity in excised mung bean cotyledons.     

热应激心肌细胞损伤的线粒体机制探讨

目的：观察热应激对大鼠凡肌细胞线粒体氧化磷酸化和钙代谢功能的影响、研究线粒体膜渗透性转移（ＰＴ）的变化及其病理学意义、探索热应激心肌细胞损伤发生机制。方法：用Ｋｌａｒｋ氧电极极谱法测定线粒体呼吸功能,用生物发光法主肌ＡＴＰ含量及线粒体Ｃａ＾２＋。ＡＴＰ酶活性;用电感耦合等离子－原子发射光谱仪测定线粒体内Ｃａ＾２＋含量,用分光光度法测定线粒体膜ＰＴ。结果：热应激大鼠心肌细胞线粒体的呼吸控制率（ＲＣＰ     

ATP Synthesis in Cotyledons of Cucumber and Mung Bean Seeds during the First Hours of Imbibition

ATP concentration increased rapidly during the first 6h of imbibitionin cotyledons of cucumber and mung bean seeds. The increasewas strongly inhibited by 1-h treatment of tissues with cyanidein both species. Carbonylcyanide m-chlorophenylhydrazone, anuncoupler of oxidative phosphorylation, showed little effectduring the first hour of the treatment, but its inhibitory effecton ATP synthesis became significant after 3 h. Mitochondrialfractions prepared from 6-h-old cucumber cotyledons were capableof phosphorylating ADP to ATP. These results suggest that mitochondrialoxidative phosphorylation may be involved in ATP synthesis duringthe early hours of imbibition in both cucumber and mung beanseeds. (Received December 7, 1987; Accepted April 9, 1988)