Immunohistochemical detection of bromodeoxyuridine in formalin-fixed tissues

Summary Bromodeoxyuridine (BrdUrd) immunohisto-chemistry has recently been introduced for the visualization of DNA-synthesizing nuclei. In order to detect the BrdUrd incorporated into nuclear DNA in formalin-fixed, paraffin-embedded tissues, we tested several different pretreatment procedures including digestion with proteinase and hydrolysis with HCl, prior to immunoperoxidase staining. In order to determine the optimal conditions for detecting nuclear BrdUrd, mice were given BrdUrd and ³H-thymidine simultaneously, and the autoradiographic and immunohistochemical results obtained in BrdUrd-stained sections were compared. It was found that digestion with 0:05% proteinase at 37°C for 20 min and hydrolysis with 1 N HCl at 37°C for 20 min was sufficient to detect BrdUrd immunore-activity in ³H-thymidine-labelled nuclei, the results being virtually unaffected by the orders in which the two pretreatments were performed. Our method extends the range of application for BrdUrd, immunohistochemistry in cell-kinetic studies.     

The effect of hypothermic treatment on the repair or expression of X-ray damage measured in split dose experiments on L5178Y-S cells

Summary The nature of the post-irradiation lesions and processes leading to cellular reproductive death or survival were investigated in mouse lymphoblastic leukemia L5178Y-S (LY-S) cells. Post-(x-)irradiation incubation at 25° C protects LY-S cells against the fixation of biologically expressed damage which takes place at 37° C. An optimal condition for the repair of damage, assayed in split-dose experiments as split-dose recovery (SDR), is 1 h at 37° C followed by 4 h holding at 25° C prior to the second half of a split dose, or 5 h holding at 25° C without a 37° C incubation during the interval between doses. Longer incubations at 37° C resulted in progressively decreased survivals. Postirradiation inhibition of DNA synthesis at 37° C was observed only during the first 30 min; thereafter,³H-dThdR incorporation washigher than in unirradiated controls. Theexcess synthesis effect was removed by shifting irradiated cells to 25° C holding. The inhibition observed at 25° C was reversed by shifting to 37° C. Thus the degree of postirradiation DNA synthesis is inversely related to SDR. DNA filter elution shows complete strand break repair by 20 min at 37° C, and by 3 h at 25° C; DNA double-strand break (DSB) repair plateaus at 80% (37° C) and 60% (25° C) after 90 min. An inverse correlation was found between total strand break repair rate, as assayed by filter elution methods, and cell survival. This work was supported by a grant from The Mathers Charitable Foundation.A preliminary report of this work was presented at the 35th Annual Meeting of the Radiation Research Society, Atlanta, GA 1987, USA     

Colchicine and colcemid binding components of the fungusSaprolegnia ferax

Summary Extracts from vegetative hyphae ofSaprolegnia ferax prepared by ammonium sulphate precipitation and D.E.A.E. cellulose chromatography, bind³H-colchicine and³H-colcemid to proteins of a molecular weight greater than 70,000. The time course of this binding shows a curve suggestive of one component which decays after 1–2 hours at 37 °C and another which is stable after 20 hours at 37 °C or 7 days at –15 °C. Comparison of specific activities suggests that the unstable component has a slightly higher affinity for colchicine but the stable one binds more colcemid. Both drugs are bound as well at 25 °C as at 37 °C.In vivo binding assays suggested greater cellular permeability to colcemid but no binding of either drug as predicted from calculations based onin vitro binding characteristics.     

Mannan structural complexity is decreased when Candida albicans is cultivated in blood or serum at physiological temperature

The Candida albicans cell wall provides an architecture that allows for the organism to survive environmental stress as well as interaction with host tissues. Previous work has focused on growing C. albicans on media such as Sabouraud or YPD at 30 °C. Because C. albicans normally colonizes a host, we hypothesized that cultivation on blood or serum at 37 °C would result in structural changes in cell wall mannan. C. albicans SC5314 was inoculated onto YPD, 5% blood, or 5% serum agar media three successive times at 30 °C and 37 °C, then cultivated overnight at 30 °C in YPD. The mannan was extracted and characterized using 1D and 2D ¹H NMR techniques. At 30 °C cells grown in blood and serum contain less acid-stable terminal β-(1→2)-linked d-mannose and α-(1→2)-linked d-mannose-containing side chains, while the acid-labile side chains of mannan grown in blood and serum contain fewer β-Man-(1→2)-α-Man-(1→ side chains. The decrement in acid-stable mannan side chains is greater at 37 °C than at 30 °C. Cells grown on blood at 37 °C show fewer →6)-α-Man-(1→ structural motifs in the acid-stable polymer backbone. The data indicate that C. albicans, grown on media containing host-derived components, produces less complex mannan. This is accentuated when the cells are cultured at 37 °C. This study demonstrates that the C. albicans cell wall is a dynamic and adaptive organelle, which alters its structural phenotype in response to growth in host-derived media at physiological temperature.     

Reduced free radical generation during reperfusion of hypothermically arrested hearts

Several studies indicate the presence of hydroxyl radical (OH·) as well as its involvement in the myocardial reperfusion injury. A transition metal-like iron is necessary for the conversion of superoxide anion (O₂ ^–) to a highly reactive and cytotoxic hydroxyl radical (OH·). In the present study, we have examined the generation of OH· and free iron in reperfused hearts following either normothermic (37°C) or hypothermic ischemia (5°C). Employing the Langendorff technique, isolated rat hearts were subjected to global ischemia for 30 min at 37°C or 5°C and were then reperfused for 15 min at 37°C. The results of the study suggest that both the OH· generation in myocardium and free iron release into perfusate were significantly lower in hearts made ischemic at 5°C as compared to 37°C. Release of myoglobin and lactic acid dehydrogenase into perfusate also followed a similar pattern. Furthermore, in in vitro studies, chemically generated O₂ ^– at 5°C caused a significantly lower rate of oxidation of oxymyoglobin as well as generation of OH° and free iron as compared to 37°C. These results suggest that (1) reperfusion of hypothermic ischemic heart is associated with a reduction in the generation of OH· and cellular damage compared to that of normothermic ischemic heart, and (2) myoglobin, an intracellular protein, is a source of free iron and plays a role in the reperfusion injury mediated by free radicals.Abbreviations OH· hydroxyl radical - O₂ ^– superoxide anion - ODFR oxygen-derived free radicals - KHB Krebs-Henseleit buffer - LDH lactate hydrogenase - SOD superoxide dismutase     

Characterization of the interaction between fibronectin andTreponema pallidum

The interaction betweenTreponema pallidum and rabbit plasma fibronectin was characterized. Fibronectin was isolated from rabbit plasma and radioiodinated by the lactoperoxidase method. Fibronectin bound to the surface ofT. pallidum, reaching saturation at approximately 54 g/ml. The association affinity constant was 2.85×10⁷ M ^–1, much lower than that ofStaphylococcus aureus (5.6×10⁹ M ^–1) Fibronectin binding plateaued within 15 min at 20° and 37°C, with some reelution at 37°C by 30 min. Little fibronectin, bound toT. pallidum at 4°C. The greatest amount of fibronectin was bound at the lowest pH tested (pH 6.0); the poorest binding was at pH 7.5. Approximately 90% of the binding was reversible in the presence of excess unlabeled fibronectin. The data indicate a more dynamic and weaker interaction betweenT. pallidum and fibronectin than that seen withS. aureus.     

Altered heat resistance in spores and vegetative cells of a mutant fromBacillus subtilis

The relationship between sporulation temperature and spore killing temperature is described.Bacillus subtilis YB886, grown and sporulated at 25°, 30°, 37°, and 45°C, produced spores having D₉₀ values of 63.5, 76.3, 89.0, and 106 min respectively. In addition, the vegetative cells of this strain also demonstrated resistance to heat killing when grown at elevated temperatures (D₅₀ of 26.6, 32.5, 39.0, and >50 min for cells grown at 25°, 30°, 37°, and 45°C). A transposon-generated mutant of strain YB886, designated as BUL786, which is missing a heat shock-induced protein (97 kDa) (Qoronfleh MW and Streips UN, BBRC, 138:526–532, 1986 and FEMS 1987), was tested for thermotolerance under similar conditions. The cells failed to respond to growth at high temperature by producing heat-resistant spores or vegetative cells. For strain BUL786 the D₉₀ of spores generated at 20°, 25°, 30°, 37°, and 45°C was 9.4, 11.3, 12.8, 14.1, and 20 min, respectively. Similarly, the D₅₀ of vegetative cells was 15, 16.8, 17.8, 19.0, and 22.3 min when the cells were grown at 20°, 25°, 30°, 37°, and 45°C. Also, sporulation of YB886 cells in the presence of cadmium chloride increased the D₉₀ values for the resulting spores (5µM CdCl₂ resulted in a D₉₀ of 160 min). Strain BUL786 failed to produce spores with any elevated D₉₀ when grown in the presence of CdCl₂.     

Growth temperatures of isolates of Sporothrix schenckii from disseminated and fixed cutaneous lesions of sporotrichosis

In 1979 Kwon Chung described two varieties of Sporothrix schenckii based on the thermotolerance of isolates from fixed cutaneous (35°C) and that of disseminated cutaneous forms (37°C) of sporotrichosis. Since we had not noted such a difference previously in a study of 100 cases of this disease (55% localized and 45% disseminated) wherein all the isolates grew at 37°C, we decided to repeat this work.Our results differ from those reported by Kwon Chung, since the isolates of both the fixed and disseminated forms of sporotrichosis grew at 37 and 38°C, even when we used inocula of 30 conidia (20–50) which according to Kwon Chung were needed to observe this difference.     

Growth and hyoscyamine production of ‘hairy root’ cultures of Datura stramonium in a modified stirred tank reactor

Summary The growth and hyoscyamine production of transformed roots of Datura stramonium have been examined in a modified 14-1 stirred tank reactor in both batch and continuous fermentations on media containing half or full strength Gamborg's B5 salts and at three different temperatures. Under a range of conditions, roots grown on half strength B5 salts with 3% w/v sucrose had a higher dry matter content (up to 8.3% w/w) and a higher hyoscyamine content (up to 0.52 mg·g^–1 wet weight) than roots grown on full strength B5 salts with the same level of sucrose (up to 4.6% w/w dry matter and up to 0.33 mg hyoscyamine g^–1 wet weight). Growth at 30°C was initially faster than at either 25°C or 35°C and by day 12, the drained weight of roots in the fermentor at 30°C was about fourfold greater than at 25°C and twice that at 35°C. The ultimate hyoscyamine levels attained (approximately 0.5 mg·g^–1 wet weight) were similar at both 25°C and 30°C but some 40% lower at 35°C. Final packing densities of 70% w/v were achieved for roots after 37 days growth at 25°C and the highest production rate of 8.2 mg hyoscyamine l^–1 per day was obtained for roots grown at 30°C. In continuous fermentation at 25°C, the release of hyoscyamine into the culture medium was low (less than 0.5% w/w of the total) but was up to sevenfold higher in fermentors operated at 30°C or 35°C. Offprint requests to: M. G. Hilton     

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.     

Characterization of the heat shock response inEnterococcus faecalis

We have characterized the general properties of the heat shock response of the Gram-positive hardy bacteriumEnterococcus faecalis. The heat resistance (60°C or 62.5°C, 30 min) of log phase cells ofE. faecalis grown at 37°C was enhanced by exposing cells to a prior heat shock at 45°C or 50°C for 30 min. These conditioning temperatures also induced ethanol (22%, v/v) tolerance. The onset of thermotolerance was accompanied by the synthesis of a number of heat shock proteins. The most prominent bands had molecular weights in the range of 48 to 94kDa. By Western blot analysis two of them were found to be immunologically related to the well known DnaK (72 kDa) and GroEL (63 kDa) heat shock proteins ofEscherichia coli. Four other proteins showing little or no variations after exposure to heat are related to DnaJ, GrpE and Lon (La)E. coli proteins and to theBacillus subtilis ⁴³ factor. Ethanol (2% or 4%, v/v) treatments elicited a similar response although there was a weaker induction of heat shock proteins than with heat shock.     

Competition between ligands of glycosyltransferases and horseradish peroxidase for binding sites on intracellular and plasma membranes of HeLa cells

Summary A micro-method for the semi-quantitation of surface-bound horseradish peroxidase (HRP) was developed and was applied to study the competition between ligands of glycosyltransferases and HRP for binding sites on the surface of HeLa cells. Dried coverslip cultures of HeLa cells, fixed in methanol, were placed on 0.3 ml of the incubation medium on parafilm and were incubated for 45 min at 37° C. The incubation medium contained HRP, lysozyme and Ca²⁺ in HEPES buffer, pH 7.2. After washing, the cells were incubated for 60 min at 37° C in HEPES buffer containing 20 mM Ca²⁺. After this treatment, the plasma membranes showed a strong cytochemical reaction for HRP. Most of the HRP was released into buffer solution during a 5 h incubation at 37° C in the absence of Ca²⁺, and was measured by spectrophotometry. The addition of 20 mM Ca²⁺ to the buffer solution prevented the release of most of the HRP from the plasma membranes thus showing that the binding of HRP required Ca²⁺. Ligands of glycosyltransferases were added to the incubation medium with HRP. The amount of HRP released from the cells decreased in relation to the competing potency and concentration of these ligands. The method was applied to estimate the concentration of some ligands of galactosyltransferase and sialyltransferase that caused a 50% decrease in the release of previously-bound HRP. CMP-neuraminic acid and gangliosides showed a higher competing potency to the surface binding of HRP than UDP-galactose and chitotriose. The spectrophotometric analysis was correlated (on duplicate samples) with cytochemical observations. When dried HeLa cells, fixed in methanol, were incubated with HRP, lysozyme and Ca²⁺, without being subsequently incubated with Ca²⁺-containing buffer solution, HRP was also bound to membranes of intracellular granules. Cytochemical observations showed that UDP-galactose and chitotriose competed with the binding of HRP to most of these intracellular membranes whereas CMP-neuraminic acid and gangliosides did not. The possible binding of HRP to galactosyltransferase or sialyltransferase on cellular membranes is discussed.     

Concomitant Localization of Dopa Oxidase and Adenosine Triphosphatase in Cryostat Sections

Cryostat sections fixed 10 min in calcium formalin were incubated sequentially in 0.1% DOPA, 2 hr at 37 C, and ATPase substrate 1% hr at 37 C. The enzymatically produced calcium phosphate was visualized by 0.2% glyoxal-bis(2-hydroxyanil) (GBHA) in alkaline ethanol as a red precipitate. Nonspecific protein-bound calcium ions which obscured active sites in such formalin-fixed material were successfully removed by treatment with 0.5% ethylenediaminetetraacetic acid at pH 7.0 for 1 min before treatment with GBHA. Phosphatase sites were red; DOPA active sites, black. The method was also successfully applied to the demonstration of alkaline phosphatases. Acetone fixation inhibited both enzymes; fixation in 70% alcohol suppressed the DOPA reaction and partially inhibited ATPase.     

Characterization of the calcium paradox in the isolated perfused frog heart: enzymatic,ionic, contractile and electrophysiological studies

Summary The effect of perfusion temperature and duration of calcium deprivation on the occurrence of the calcium paradox was studied in the isolated frog heart. Loss of electrical and mechanical activity, ion fluxes, creatine kinase and protein release were used to define cell damage. Perfusion was performed at 22, 27, 32, and 37°C, and calcium deprivation lasted 10, 20, 30, or 40 min. At 22°C and 27°C even a prolonged calcium-free perfusion failed to induce a calcium paradox. After 30 min of calcium-free perfusion at 37°C ventricular activity ceased and a major contraction occurred followed by an increase in resting tension. During the 15-min re-perfusion period the release of creatine kinase was 158.24±2.49 IU·g dry wt^-1, and the total amount of protein lost was 70.37±0.73 mg·g dry wt^–1, while lower perfusion temperatures resulted in a decreased loss of protein and creatine kinase. Ion fluxes in the perfusion effluent indicate that during re-perfusion a massive calcium influx accompanied by a potassium and a magnesium efflux, and an apparent sodium efflux, occur at a perfusion temperature of 37°C after 30 min of calcium deprivation. The results suggest that the basic principles and damaging effects of calcium overloading are common to both mammalian and frog hearts.     

A mutant rho ATPase from Escherichia coli that is temperature-sensitive in the presence of RNA

Summary The Escherichia coli mutant rho-115 suppresses lac operon polarity conferred by the lacZ::IS1 insertion MS319. The ATPase activity of purified rho-115 protein was maximal at 40°C, in contrast to 45°C for rho ⁺. At higher temperatures (50°C, 55°C), the fractions of activities at maximal temperature were consistently lower for rho-115 compared to rho ⁺. The 30-minute time course of rho-115 ATP hydrolysis was linear at 37°C but at 45°C the linear kinetics of hydrolysis reached a plateau between 10 and 15 minutes. The 30-minute time courses for rho ⁺ were linear at both 37°C and 45°C. The rho-115 and rho ⁺ ATPase activities were equally heat-stable during preincubation at 45°C in buffer. Inclusion of ATP during preincubation protected these rho proteins from inactivation to the same extent. The presence of polyC during preincubation protected rho ^- activity but produced substantial inactivation of rho-115 ATPase. The presence of polyU during preincubation gave similar results. Concentrations of polyC between 625 ng/ml and 100 g/ml yielded the same extent of rho-115 ATPase inactivation during preincubation at 45°C. Thermal inactivation of rho-115 ATPase by polyC was halted by shifting preincubation temperature from 45°C to 35°C, indicating that polyC-induced destabilization of rho-115 was irreversible.     

Purification and characterization of a high molecular mass serine carboxypeptidase from <Emphasis Type="Italic">Monascus pilosus</Emphasis>

Two serine carboxypeptidases, MpiCP-1 and MpiCP-2, were purified to homogeneity from Monascus pilosus IFO 4480. MpiCP-1 is a homodimer with a native molecular mass of 125 kDa composed of two identical subunits of 61 kDa, while MpiCP-2 is a high mass homooligomer with a native molecular mass of 2,263 kDa composed of about 38 identical subunits of 59 kDa. This is unique among carboxypeptidases and distinguishes MpiCP-2 as the largest known carboxypeptidase. The two purified enzymes were both acidic glycoproteins. MpiCP-1 has an isoelectric point of 3.7 and a carbohydrate content of 11%, while for MpiCP-2 these values were 4.0 and 33%, respectively. The optimum pH and temperature were around 4.0 and 50°C for MpiCP-1, and 3.5 and 50°C for MpiCP-2. MpiCP-1 was stable over a broad range of pH between 2.0 and 8.0 at 37°C for 1 h, and up to 55°C for 15 min at pH 6.0, but MpiCP-2 was stable in a narrow range of pH between 5.5 and 6.5, and up to 50°C for 15 min at pH 6.0. Phenylmethylsulfonylfluoride strongly inhibited MpiCP-1 and completely inhibited MpiCP-2, suggesting that they are both serine carboxypeptidases. Of the substrates tested, benzyloxycarbonyl-l-tyrosyl-l-glutamic acid (Z-Tyr-Glu) was the best for both enzymes. The K_m, V_max, K_cat and K_cat/K_m values of MpiCP-1 for Z-Tyr-Glu at pH 4.0 and 37°C were 1.33 mM, 1.49 mM min^–1, 723 s^–1 and 545 mM^–1 s^–1, and those of MpiCP-2 at pH 3.5 and 37°C were 1.55 mM, 1.54 mM min^–1, 2,039 s^–1 and 1,318 mM^–1 s^–1, respectively.     

Temperature-dependent modification of divalent cation flux in the rat parotid gland basolateral membrane

Divalent cation (Mn²⁺, Ca²⁺) entry into rat parotid acinar cells is stimulated by the release of Ca²⁺ from the internal agonist-sensitive Ca²⁺ pool via a mechanism which is not yet defined. This study examines the effect of temperature on Mn²⁺ influx into internal Ca²⁺ pool-depleted acini (depl-acini, as a result of carbachol stimulation of acini in a Ca²⁺-free medium for 10 min) and passive ⁴⁵Ca²⁺ influx in basolateral membrane vesicles (BLMV). Mn²⁺ entry into deplacini was decreased when the incubation temperature was lowered from 37 to 4°C. At 4°C, Mn²⁺ entry appeared to be inactivated since it was not increased by raising extracellular [Mn²⁺] from 50 m up to 1 mm. The Arrhenius plot of depletion-activated Mn²⁺ entry between 37 and 8°C was nonlinear, with a change in the slope at about 21°C. The activation energy (Ea) increased from 10 kcal/mol (Q₁₀=1.7) at 21–37°C to 25 kcal/mol (Q₁₀=3.0) at 21-8°C. Under the same conditions, Mn²⁺ entry into basal (unstimulated) cells and ionomycin (5 m) permeabilized depl-acini exhibit a linear decrease, with E _a of 7.8 kcal/mol (Q₁₀=1.5) and 6.2 kcal/mol (Q₁₀ < 1.5), respectively. These data suggest that depletion-activated Mn²⁺ entry into parotid acini is regulated by a mechanism which is strongly temperature dependent and distinct from Mn²⁺ entry into unstimulated acini.As in intact acini, Ca²⁺ influx into BLMV was decreased (by 40%) when the temperature of the reaction medium was lowered from 37 to 4°C. Kinetic analysis of the initial rates of Ca²⁺ influx in BLMV at 37°C demonstrated the presence of two Ca²⁺ influx components: a saturable component, with K _Ca =279 ± 43 m, V_max = 3.38 ± 0.4 nmol Ca²⁺/mg protein/min, and an apparently unsaturable component. At 4°C, there was no significant change in the affinity of the saturable component, but V_max decreased by 61% to 1.3 ± 0.4 nmol Ca²⁺/mg protein/min. There was no detectable change in the unsaturable component. When BLMV were treated with DCCD (5 mm) or trypsin (1100, enzyme to membrane) for 30 min at 37°C there was a 40% decrease in Ca²⁺ influx. When BLMV were treated with DCCD or trypsin at 4°C and subsequently assayed for Ca²⁺ uptake at 37°C there was no significant loss of Ca²⁺ influx. These data suggest that the temperature sensitive high affinity Ca²⁺ flux component in BLMV is mediated by a protein which undergoes a modification at low temperatures, resulting in decreased Ca²⁺ transport.We thank Dr. Bruce Baum, Dr. Yukiharu Hiramatsu, Dr. Ofer Eidelman, and our other colleagues for their support during this work.     

The half-life of mRNA in Saccharomyces cerevisiae.

Summary The decay kinetics of mRNA was studied in a yeast temperature-sensitive mutant, ts136, which is defective in cytoplasmic RNA production at 37° C. The disappearance of the synthetic capacity of mRNA was determined by withdrawing equal volumes of ts136 cell culture and pulse-labelling with [³⁵S]methionine at various time intervals after the shift to 37° C from 23° C. The synthesized proteins were separated on a two-dimensional gel electrophoretic system and then quantitatively analyzed for their incorporated radioactivities by scintillation counting. Our results show that yeast mRNAs have divergent functional half-lives ranging from 4.5 to 41 min, with an average value of 22 min. Each mRNA exhibits a simple exponential decay with its own characteristic decay pattern. Of the approximately 500 major polypeptides made by yeast cells, which are detectable on autoradiograms of the gels, 80 were arbitrarily selected and the mRNAs coding for those polypeptides were examined for their decay kinetics.     

Effects of temperature and holding time on production of renewable fuels from pyrolysis of Chlorella protothecoides

To investigate the influence of temperature andholding time on the pyrolyzate yields of Chlorella protothecoides, the microalgal cells weresubjected to pyrolysis at 200, 300, 400, 500 and 600 ^°Cfor 5, 20, 60 and 120 min, separately. High oil yields above 40% dry weight cells wereobtained both at relatively low temperature (300 ^°C)with relatively long holding times (20–120min) and relatively high temperatures (400–500 ^°C)with relatively short holding times (5–20min). The maximum oil yield of 52.0% was achieved at500 ^°C for 5 min. The gas yield was generallyincreased with the increasing temperature and holdingtime. It could reach 63.3–76.0% at 600 ^°C.High pyrolytic rates of 72–87% were obtained at allexperiments except at 200 ^°C for 5–20 min or300 ^°C for 5 min. Thermogravimetric analysisindicated that the main thermal degradation of thismicroalga occurred at 200–520 ^°C. The resultsimply that C. protothecoides is a good candidatefor the production of renewable fuels by pyrolysis.