Oxidative stress and aging in Caenorhabditis elegans

Much attention has been focused on the hypothesis that oxidative damage plays in cellular and organismal aging. A mev-1 (kn1) mutant of Caenorhabditis elegans, isolated on the basis of its methyl viologen (paraquat) hypersensitivity, is also hypersensitive to elevated oxygen levels. Unlike the wild type, its life span decreases dramatically as oxygen concentrations are increased from 1% to 60%. Strains, which bear this mutation, accumulate fluorescent materials and protein carbonyl groups, markers of aging, at faster rates than the wild type. We have cloned mev-1 gene by transformation rescue and found that it is, in fact, the previously sequenced gene (cyt-1) that encodes succinate dehydrogenase cytochrome b. A missense mutation abolishes complex II activity in the mitochondrial membrane but not succinate dehydrogenase enzyme activity per se. These data suggest that CYT-1 directly participates in electron transport from FADH₂ to coenzyme Q. Moreover, mutational inactivation of this process renders animals susceptible to oxidative stress and, as a result, leads to premature aging.     

Characterization of a mutant of Schizosaccharomyces pombe lacking cytochrome b-566

1. A chromosomal respiration-deficient mutant of the petite-negative yeast Schizosaccharomyces pombe was isolated. Its mitochondria show respiration rates of about 7% of the wild-type respiration with NADH and succinate as substrate, and 45% with ascorbate in the presence of tetramethyl-p-phenylenediamine. Oxidation of NADH and succinate is insensitive to antimycin and cyanide and that of ascorbate is much less sensitive to cyanide than the wild type.

2. The amounts of cytochromes c₁ and aa₃ are similar in the mutant and wild type. Cytochrome b-566 could not be detected in low-temperature spectra after reduction with various substrates or dithionite. A b-558 is, however, present.

3. The b-cytochromes in the mutant are not reduced by NADH or succinate during the steady state even after addition of ubiquinone-1. QH₂-3: cytochrome c reductase activity is very low and succinate oxidation is highly stimulated by phenazine methosulphate.

4. Antimycin does not bind to either oxidized or reduced mitochondrial particles of the mutant.

5. In contrast to the b-cytochromes of the wild type, b-558 in the mutant reacts with CO.

6. Cytochromes aa₃, c and c₁ are partly reduced in aerated submitochondrial particles isolated from the mutant and the EPR signal of Cu (II), measured at 35°K, is detectable only after the addition of ferricyanide. In the mutant, a signal with a trough at g = 2.01 is found, in addition to the signal at g = 1.98 found in the wild type.

7. The ATPase activity of particles isolated from the mutant is much lower than in the wild type but is still inhibited by oligomycin.     

水稻早衰突变体LS-es1的基因定位及候选基因分析

衰老是植物发育末期自主发生且不可逆的适应性反应, 叶片早衰相关分子机制研究对水稻(Oryza sativa)遗传改良以及抗衰老品种培育有重要意义。LS-es1是通过EMS诱变粳稻品种TP309获得的稳定遗传的早衰突变体。对LS-es1及其野生型的表型观察和生理生化分析表明, LS-es1叶片中积累了大量活性氧且细胞死亡更多, 同时LS-es1与产量相关的农艺性状均显著下降, 这也验证了LS-es1早衰的特征。对LS-es1及其野生型幼苗进行外源激素处理, 结果表明LS-es1对水杨酸(SA)、脱落酸(ABA)和茉莉酸甲酯(MeJA)更敏感。用图位克隆方法将LS-es1基因定位在水稻第7号染色体长臂46.2 kb区间内, 该区间共包括8个开放阅读框(ORF)。对该区间内的基因进行生物信息学分析, 结果发现Os07g0275300和Os07g0276000两个候选功能基因与早衰途径相关, 并且这2个基因的表达量在野生型和突变体中差异较大。研究结果为进一步克隆LS-es1基因并深入研究其生物学功能奠定了基础。     

水稻早衰突变体LS-es1的基因定位及候选基因分析

衰老是植物发育末期自主发生且不可逆的适应性反应, 叶片早衰相关分子机制研究对水稻(Oryza sativa)遗传改良以及抗衰老品种培育有重要意义。LS-es1是通过EMS诱变粳稻品种TP309获得的稳定遗传的早衰突变体。对LS-es1及其野生型的表型观察和生理生化分析表明, LS-es1叶片中积累了大量活性氧且细胞死亡更多, 同时LS-es1与产量相关的农艺性状均显著下降, 这也验证了LS-es1早衰的特征。对LS-es1及其野生型幼苗进行外源激素处理, 结果表明LS-es1对水杨酸(SA)、脱落酸(ABA)和茉莉酸甲酯(MeJA)更敏感。用图位克隆方法将LS-es1基因定位在水稻第7号染色体长臂46.2 kb区间内, 该区间共包括8个开放阅读框(ORF)。对该区间内的基因进行生物信息学分析, 结果发现Os07g0275300和Os07g0276000两个候选功能基因与早衰途径相关, 并且这2个基因的表达量在野生型和突变体中差异较大。研究结果为进一步克隆LS-es1基因并深入研究其生物学功能奠定了基础。     

Changes in the promoter of a defender against apoptotic cell death gene affect its expression in upland cotton

The DAD1 (defender against apoptotic cell death) gene is a negative regulator of programmed cell death. It plays important roles in plant growth, development, environmental adaptation, and aging. We examined whether and how the expression of DAD1 gene is affected by the promoter changes in the allotetraploid upland cotton (Gossypium hirsutum L.). We compared the expression status of the genes in the leaves of an elite cultivar and a wild variety of G. hirsutum, and cloned and analyzed a 1.3-kb promoter region of the genes in two cotton types. Results revealed that the expression of a subgenomic homoeolog of DAD1 (DAD1 _At ) was significantly upregulated in leaves of the cultivated cotton when compared with that in a wild cotton. In addition, we identified 18 variations, including 14 single nucleotide polymorphisms and four indels between the promoters of the two cotton types. We detected at least 10 of 18 variations in the promoters related to possible cis-regulatory elements. Further transient tobacco assays using heterogeneous DAD1 _At promoter::GUS fusion showed that the activity of the DAD1 _At promoter in the cultivated cotton was stronger than that in the wild cotton, which suggested a dynamic change in the DAD1 _At promoter during genetic divergence of the two cottons. This study provides an example of how gene expression could be affected by specific changes in the gene promoter.     

Involvement of recQ in the ultraviolet damage repair pathway in Deinococcus radiodurans

Deinococcus radiodurans is a bacterium which can survive extremely DNA damage. To investigate the relationship between recQ and the ultraviolet radiation (UV) damage repair pathway, we created a four mutant strain by constructing recQ knockout mutants in uvrA1, uvrA2, and uvsE backgrounds. Using the rpoB/Rif^r system, we measured the mutation frequencies and rates in wild type, recQ (MQ), uvsE uvrA1 uvrA2 (TNK006), and uvsE uvrA1 uvrA2 recQ (TQ). We then isolated Rif^r mutants of these strains and sequenced the rpoB gene. The mutation frequency of TQ was 6.4, 10.1, and 2.43 times that of wild type, MQ, and TNK006, respectively, and resulted in rates of 4.7, 6.71, and 2.15 folds higher than that of wild type, MQ, and TNK006, respectively. All the strains demonstrated specific mutational hotspots. Furthermore, the TQ strain showed a transversion bias that was different from the other three strains. The results indicate that recQ is involved in the ultraviolet damage repair pathway via the interaction between recQ and uvrA1, uvrA2, and uvsE in D. radiodurans.     

烟曲霉FADB基因参与菌株耐药的潜在机理

FAD结合的氧化还原酶编码基因FADB (GenBank ID:Afu4g14630)的编码产物在烟曲霉中为一种与FAD结合的氧化还原酶,可能参与真菌的呼吸。为了探究其具体功能,本研究通过克隆烟曲霉FADB基因,构建烟曲霉FADB基因的敲除株,了解该基因对烟曲霉药物敏感性、渗透压、氧化压力物质敏感性的作用机理。采用高通量基因替换方法构建出FADB基因的敲除盒,筛选出符合的烟曲霉FADB敲除株ΔFADB。观察该突变株与野生株AF293对药物敏感性、氧化压力、渗透压物质敏感性的变化。利用E-test法检测ΔFADB对3种唑类药物(泊沙康唑、伊曲康唑、伏立康唑)的敏感性,结果证实ΔFADB对泊沙康唑的敏感性明显提高。在渗透压和氧化压力的培养试验中,与野生株AF293相比较,ΔFADB对氧化剂D-山梨醇和甲萘醌更敏感。加入泊沙康唑后,ΔFADB比野生株AF293产生的活性氧更多。说明烟曲霉FADB基因参与泊沙康唑抗烟曲霉机制并起到一定作用,该基因诱导的氧化应激反应可能是抗真菌药物杀伤真菌的作用机制之一,本研究为烟曲霉唑类耐药机制的研究提供了新的理论基础。     

Mild Hyperbaric Oxygen Improves Decreased Oxidative Capacity of Spinal Motoneurons Innervating the Soleus Muscle of Rats with Type 2 Diabetes

Rats with type 2 diabetes exhibit decreased oxidative capacity, such as reduced oxidative enzyme activity, low-intensity staining for oxidative enzymes in fibers, and no high-oxidative type IIA fibers, in the skeletal muscle, especially in the soleus muscle. In contrast, there are no data available concerning the oxidative capacity of spinal motoneurons innervating skeletal muscle of rats with type 2 diabetes. This study examined the oxidative capacity of motoneurons innervating the soleus muscle of non-obese rats with type 2 diabetes. In addition, this study examined the effects of mild hyperbaric oxygen at 1.25 atmospheres absolute with 36 % oxygen for 10 weeks on the oxidative capacity of motoneurons innervating the soleus muscle because mild hyperbaric oxygen improves the decreased oxidative capacity of the soleus muscle in non-obese rats with type 2 diabetes. Spinal motoneurons innervating the soleus muscle were identified using nuclear yellow, a retrograde fluorescent neuronal tracer. Thereafter, the cell body sizes and succinate dehydrogenase activity of identified motoneurons were analyzed. Decreased succinate dehydrogenase activity of small-sized alpha motoneurons innervating the soleus muscle was observed in rats with type 2 diabetes. The decreased succinate dehydrogenase activity of these motoneurons was improved by mild hyperbaric oxygen. Therefore, we concluded that rats with type 2 diabetes have decreased oxidative capacity in motoneurons innervating the soleus muscle and this decreased oxidative capacity is improved by mild hyperbaric oxygen.     

Antimycin-insensitive mutants of Candida utilis. II. The effects of antimycin on cytochrome b

1. Cytochrome b-562 is more reduced in submitochondrial particles of mutant 28 during the aerobic steady-state respiration with succinate than in particles of the wild type. When anaerobiosis is reached, the reduction of cytochrome b is preceded by a rapid reoxidation in the mutant. A similar reoxidation is observed in the wild type in the presence of low concentrations of antimycin.

2. In contrast to the wild type, inhibition of electron transport in the mutant has a much higher antimycin titre than effects on cytochromes b (viz., aerobic steadystate reduction; reduction in the presence of substrate, cyanide and oxygen; the ‘red shift’ and lowering of E′₀ of cytochrome b-562). Moreover, the titration curve of electron transport is hyperbolic whereas the curves for the reduction are sigmoidal. The conclusion is, that in both mutant and wild type, the actions of antimycin on electron transport and cytochromes b are separable.

3. The red shift in the mutant is more extensive than in the wild type.

4. Cytochrome b-558 and cytochrome b-566 (that absorbs in mutant and wild type at 564.5 nm) do not respond simultaneously to addition of antimycin, indicating that they are two separate cytochromes.

5. The difference between the effect of antimycin on electron transport and cytochromes b reduction is also found in intact cells of the mutant.

6. A model is suggested for the wild-type respiratory chain in which (i) the cytochromes b lie, in an uncoupled system, out of the main electron-transfer chain, (ii) antimycin induces a conformation change in QH₂-cytochrome c reductase resulting in effects on cytochrome b and inhibition of electron transport, (iii) a second antimycinbinding site with low affinity to the antibiotic is present, capable of inhibiting electron transport.     

透明质酸生产菌溶血素S基因缺失突变菌株的构建及其特性北大核心CSCD

【目的】马链球菌兽疫亚种是工业上生产透明质酸的主要菌种,该菌能产生引起宿主细胞溶血的链球菌溶血素S(streptolysin S,SLS)毒素,因而其产品的安全性一直是人们所担心的问题。本实验的目的就是通过基因敲除的方法构建不产SLS的透明质酸生产工程菌,同时探讨溶血素sag A基因缺失对菌株透明质酸合成和其他毒力因子的影响。【方法】利用温度敏感/自杀性质粒p JR700载体系统,构建马链球菌兽疫亚种sag A基因缺失突变株;通过PCR扩增,溶血平板和SLS含量测定等方法确定sag A基因缺失;采用分光光度、SDS-PAGE和细胞毒性试验等分析方法,对野生菌株和sag A基因缺失突变菌株透明质酸含量、透明质酸分子量、溶血素Hylc、透明质酸分解酶、甘油醛-3-磷酸脱氢酶和菌体表面蛋白等相关毒力因子进行对比研究。【结果】获得了透明质酸产量提高30%而溶血活性极低的马链球菌兽疫亚种sag A基因缺失突变株。该突变株与野生菌株相比较,透明质酸分解酶活性增加而透明质酸相对分子量降低,此外,与毒力相关的表面蛋白含量、溶血素Hylc和甘油醛-3-磷酸脱氢酶活性也显著降低。细胞毒性实验结果表明,野生菌株与sag A基因缺失突变菌株的培养物上清液,对细胞活性的影响存在显著差异。【结论】在马链球菌兽疫亚种中sag A不仅是表达溶血素SLS的基因,同时sag A基因对菌株透明质酸合成、透明质酸分解酶、菌体表面蛋白、溶血素Hylc和甘油醛-3-磷酸脱氢酶等都具有调节作用。     

双孢蘑菇萎锈灵抗性基因定点突变的载体构建与遗传转化

为建立更为安全、有效的双孢蘑菇遗传转化体系,构建了双孢蘑菇琥珀酸脱氢酶的铁硫蛋白亚基Agsdi1突变（His突变为Leu）表达载体pAgsdi1,并通过农杆菌介导方法转化双孢蘑菇W192,经萎锈灵筛选以及PCR扩增和MnlⅠ酶切验证后获得了转化菌株。验证结果表明,点突变的铁硫蛋白亚基Agsdi1可以作为双孢蘑菇有效的抗性标记基因。因其并未引入新的外源基因,是一种比潮霉素抗性基因更为安全的筛选标记,将可用于双孢蘑菇等食用菌的遗传转化。     

Effect of oxygen transfer rate on levels of key enzymes of xylose metabolism in Debaryomyces hansenii

The titers of key enzymes of xylose metabolism were measured and correlated with the kinetics of xylitol production by Debaryomyces hansenii under different oxygen transfer rates (OTR) in a batch reactor. An OTR change from 2.72 to 4.22 mmol O₂ l⁻¹ min⁻¹ resulted in a decrease in NADPH-dependent xylose reductase (XR) and NAD ± -dependent xylitol dehydrogenase (XDH) activities. For higher values of OTR (12.93 mmol O₂ l⁻¹ min⁻¹, the XDH titer increased twofold whereas the XR titer did not show a significant change. At the lowest OTR (2.72 mmol O₂ l⁻¹ min⁻¹), xylitol (and ethanol) production rates showed the highest values. However, xylitol specific productivity was twice as high as ethanol specific productivity. The titer of the NADPH-forming enzyme, glucose-6-phosphate dehydrogenase (GPDH), increased from 333 to 412 mU mg⁻¹ when the OTR was increased. However, 6-phosphogluconate dehydrogenase (PGDH) activity remained unchanged and at a lower level, which indicates that this enzyme is responsible for the carbon flux control of the oxidative branch of the pentose phosphate pathway. The activity of the alcohol-forming enzyme was repressed at the higher amount of oxygen, decreasing its activity more than 50%. The changes in ADH suggested that two different metabolic regions under oxygen-limited conditions can be hypothesized for xylose metabolism by D. hansenii. For low OTR values (up to 4.22 mmol O₂ l⁻¹ min⁻¹), a fermentative-type activity is displayed. At higher OTR values (above 4.22 mmol O₂ l⁻¹ min⁻¹), no significant fermentative activity is reported.     

RING-box proteins regulate leaf senescence and stomatal closure via repression of ABA transporter gene ABCG40

Plant hormone abscisic acid (ABA) plays an indispensable role in the control of leaf senescence, during which ABA signaling depends on its biosynthesis. Nevertheless, the role of ABA transport in leaf senescence remains unknown. Here, we identified two novel RING-box protein-encoding genes UBIQUITIN LIGASE of SENESCENCE 1 and 2 (ULS1 and ULS2) involved in leaf senescence. Lack of ULS1 and ULS2 accelerates leaf senescence, which is specifically promoted by ABA treatment. Furthermore, the expression of senescence-related genes is significantly affected in mature leaves of uls1/uls2 double mutant (versus wild type (WT)) in an ABA-dependent manner, and the ABA content is substantially increased. ULS1 and ULS2 are mainly expressed in the guard cells and aging leaves, and the expression is induced by ABA. Further RNA-seq and quantitative proteomics of ubiquitination reveal that ABA transporter ABCG40 is highly expressed in uls1/uls2 mutant versus WT, though it is not the direct target of ULS1/2. Finally, we show that the acceleration of leaf senescence, the increase of leaf ABA content, and the promotion of stomatal closure in uls1/usl2 mutant are suppressed by abcg40 loss-of-function mutation. These results indicate that ULS1 and ULS2 function in feedback inhibition of ABCG40-dependent ABA transport during ABA-induced leaf senescence and stomatal closure.     

Protective effect of ursodeoxycholic acid on liver mitochondrial function in rats with alloxan-induced diabetes: link with oxidative stress

We investigated the effects of ursodeoxycholic acid (UDCA) on mitochondrial functions and oxidative stress and evaluated their relationships in the livers of rats with alloxan-induced diabetes. Diabetes was induced in male Wistar rats by a single alloxan injection (150 mg kg^− 1 b.w., i.p.). UDCA (40 mg kg^− 1 b.w., i.g., 30 days) was administered from the 5th day after the alloxan treatment. Mitochondrial functions were evaluated by oxygen consumption with Clark oxygen electrode using succinate, pyruvate + malate or palmitoyl carnitine as substrates and by determination of succinate dehydrogenase and NADH dehydrogenase activities. Liver mitochondria were used to measure chemiluminiscence enhanced by luminol and lucigenin, reduced liver glutathione and the end-products of lipid peroxidation. The activities of both NADH dehydrogenase and succinate dehydrogenase as well as the respiratory control (RC) value with all the substrates and the ADP/O ratio with pyruvate + malate and succinate as substrates were significantly decreased in diabetic rats. UDCA developed the beneficial effect on the mitochondrial respiration and oxidative phosphorylation parameters in alloxan-treated rats, whereas the activities of mitochondrial enzymes were increased insignificantly after the administration of UDCA. The contents of polar carbonyls and MDA as well as the chemiluminescence with luminol were elevated in liver mitochondria of diabetic rats. The treatment with UDCA normalized all the above parameters measured except the MDA content. UDCA administration prevents mitochondrial dysfunction in rats treated with alloxan and this process is closely connected with inhibition of oxidative stress by this compound.     

Thermostimulation of conidiation and succinic oxidative metabolism of Neurospora crassa

Summary The conidiogenic effect of temperature was investigated for its manifestation on the succinic oxidative system of Neurospora crassa. It was found that the initiation of conidiation was associated with a peak of succinate dehydrogenase activity. The succinate dehydrogenase activity decreased after the peak period of conidial differentiation. The strongest succinate dehydrogenase activity was measured in 37° C cultures.A second wave increase of succinate dehydrogenase was present in femalefertile (25° C) but was absent in the female-sterile (37° and 40° C) cultures.The cytochrome oxidase activity steadily decreased with the aging of the cultures.Malonate (10^-1 m) was found to stimulate conidiation. This stimulation was associated with higher succinate dehydrogenase activity.Riboflavine was found to accumulate with aging and was higher in 37° and 40° C cultures respectively as compared to 25° C cultures.The ultrathin sections of the conidia revealed that increase in conidial size at 37° C was accompanied with the swelling of the mitochondria and prominence of the endoplasmic reticulum. In conidia from 40° C cultures the mitochondria were shrunken and the endoplasmic reticulum broken.Dedicated with gratitude to Prof. Dr. A. Rippel-Baldes.     

条形柄锈菌小麦专化型葡萄糖-6-磷酸脱氢酶基因PsG6PDH1的表达特征及功能分析

葡萄糖-6-磷酸脱氢酶是磷酸戊糖途径中的关键限速酶。基于已测序的条形柄锈菌小麦专化型基因组序列,利用RT-PCR方法克隆了该病菌葡萄糖-6-磷酸脱氢酶PsG6PDH1的全长cDNA序列（1 497bp）,编码498个氨基酸的蛋白。编码蛋白含有葡萄糖-6-磷酸脱氢酶的保守功能域。系统进化分析发现,PsG6PDH1与禾柄锈菌小麦专化型的G6PDH聚为一簇。qRT-PCR分析表明,PsG6PDH1在病菌侵染早期的表达明显上调,其中侵染24h时表达量最高,为对照夏孢子的30倍。将PsG6PDH1导入酿酒酵母G6PDH缺失突变体中成功表达,并表现出较强的葡萄糖-6-磷酸脱氢酶活性,明显酵母增强了菌株对过氧化氢的耐受性。由此推测,PsG6PDH1可能参与了条形柄锈菌小麦专化型在侵染寄主时抵御寄主的氧化胁迫反应。研究结果为进一步研究该病菌基础代谢及侵染机理奠定一定的理论基础。     

尖孢镰刀菌亚麻专化型Folprp4基因参与调控菌丝生长和分生孢子发生

目的: 通过对尖孢镰刀菌中Folprp4基因的鉴定,揭示其在尖孢镰刀菌中的功能及致病相关性。方法: 基于同源重组原理,根据测定出的Folprp4基因序列,应用Split-Marker重组技术构建含有潮霉素抗性基因(hph)的基因缺失盒。将基因缺失盒经PEG介导转化到野生型原生质体中,在含有潮霉素B的TCC培养基上筛选转化子,通过PCR正负筛查获得Folprp4基因缺失突变株(ΔFolprp4)。构建含有Folprp4基因的载体pZDH1,并将其转化到敲除突变体中进行互补测验。结果: 与野生型(hm)和异位插入突变体(ecFolprp4)相比,敲除突变体菌丝生长受到严重阻碍,当野生型和异位插入突变体长满整个平板时,敲除突变体菌落呈小点状。敲除突变体的另一个显著变化是ΔFolprp4的分生孢子产量显著下降。侵染实验表明,ΔFolprp4对亚麻幼苗的毒力显著降低。互补实验表明,该互补载体的回复子(Folprp4-C)在菌落形态、生长速率、分生孢子产量和毒力方面均恢复到了野生型菌株。结论: Folprp4基因与尖孢镰刀菌的菌丝生长、分生孢子发生和致病性有关。     

Inhibition of Krebs cycle and activation of glyoxylate cycle in the course of chronological aging of Saccharomyces cerevisiae. Compensatory role of succinate oxidation

We investigated oxidative processes in mitochondria of Saccharomyces cerevisiae grown on ethanol in the course of chronological aging. We elaborated a model of chronological aging that avoids the influence of exhaustion of medium, as well as the accumulation of toxic metabolites during aging. A decrease in total respiration of cells and, even more, of the contribution of respiration coupled with ATP-synthesis was observed during aging. Aging is also related with the decrease of the contribution of malonate-insensitive respiration. Activities of citrate-synthase (CS), alpha-ketoglutarate dehydrogenase (KGDH) and malate dehydrogenase (MDH) were threefold decreased. The activity of NADP-dependent isocitrate dehydrogenase (NADP-ICDH) decreased more significantly, while the activity of NAD-dependent isocitrate dehydrogenase (NAD-ICDH) fell even greater, being completely inactivated on the third week of aging. In contrast, succinate dehydrogenase (SDH), enzymes of glyoxylate cycle (GCL) (isocitrate lyase (ICL) and malate synthase (MLS)), and enzymes of ethanol oxidation (alcohol dehydrogenase (ADH) and acetaldehyde dehydrogenase (ACDH)), were activated by 50% or more. The behavior of oxidative enzymes and metabolic pathways are apparently inherent to a more viable, long-lived cells in population, selected in the course of chronological aging. This selection allows cells to reveal the mechanism of their higher viability as caused by shunting of complete Krebs cycle by glyoxylate cycle, with a concomitant increased rate of the most efficient energy source, namely succinate formation and oxidation. Thiobarbituric-reactive species (TAR species) increased during aging. We supposed that to be the immediate cause of damage of a part of yeast population. These data show that a greater succinate contribution to respiration in more active cells is a general property of yeast and animal tissues.