DNA synthesis, cell division and specific cytodifferentiation in cultured pea root cortical explants

Pea root segments cut 10–11 mm behind the tip of germinating seedlings were prepared by removal of the central cylinders with a tissue punch. These cortical explants were cultured aseptically on nutrient medium containing auxin with and without added cytokinin. In the absence of kinetin, the cortical cells enlarged and separated but failed to show DNA synthesis, mitosis, cell division or subsequent cytodifferentiation. In the presence of 1 ppm kinetin, cortical nuclei showed ³H-thymidine incorporation beginning between 24 and 32 hr; mitoses began about 48 hr, reaching a maximum of 6% at 60 hr. From an initial number of 8000 cells per segment, the cell count increased to 37,000 by day 7 and 140,000 by day 21. At the outset all mitoses were tetraploid; with time the proportion of tetraploid mitotic cells decreased and an octaploid population increased. A frequency of less than 10% diploid mitoses was observed after day 5. Only 25% of the cortical cells showed initial labeling. Beginning on day 7 tracheary elements differentiated from cortical derivatives. By day 14 about 25% and by day 21 about 35% of the total cell population had formed tracheary elements. As a system for analysis in biochemical and cytological terms, pea cortical explants represent an excellent system for the study of cytodifferentiation.     

SCHWANN CELL PROLIFERATION IN DEVELOPING MOUSE SCIATIC NERVE : A Radioautographic Study

Proliferation of Schwann cells in neonatal mouse sciatic nerve was studied radioautographically in 1-µ glycol methacrylate sections. 28 mice were injected with thymidine-³H, 4 µc/g, 48 hr after birth, and were killed serially over the next 4 days. For the cell cycle following injection, the generation time was approximately 24 hr as determined by grain-count halving data; the duration of synthesis phase was 8 hr as determined from a curve constructed from the per cent of mitotic figures containing label; and the labeling index was 9% at 2 hr after injection. With these estimates, the per cent of Schwann cells proliferating was calculated to be 27%. In addition, roughly 25% of dividing cells appeared to cease division during the cell cycle under study. The relationship of these findings to other events during maturation of nerve is discussed.     

THYROID PROLIFERATIVE POTENTIAL AS A FUNCTION OF AGE

The effect of a goitrogenic stimulus on thyroid weight and thyroid cell ³HTdR labeling of Sprague-Dawley rats varying from 2 to 40 weeks of age was determined. Propylthiouracil ad libitum in drinking water produced a spurt in follicle cell labeling index and thyroid weight evident after 24 hr for all age groups. The increase in labeling index reached a peak at 5–7 days and then decreased to a level a few times greater than that of the normal unstimulated thyroid. The tritiated thymidine labeling index for thyroid follicle cells and the effect of PTU thereon was determined for August male rats of 3 days to 12 weeks of age. In the older rats, the follicle cell labeling index rose to 5–6% after 4–5 days of PTU treatment and then slowly fell to about 1%, For the unstimulated control rat of comparable age, the labeling index was about 0.1%. At all ages the thyroid showed a rapid response to PTU. Examination of the time sequence of mitotic labeling showed that the DNA synthesis period was 7.5 hr for normal 2-week-old rats and for 10–12-week-old rats that had received PTU for 4 days. There was no second wave of labeled mitoses in either group during the 48-hr interval studied. From the curve of thyroid weight vs time on PTU and from the labeled mitoses curve, inferences regarding the minimum fraction of proliferating follicle cells in the stimulated ‘adult’rat thyroid were made.     

DIURNAL VARIATION IN THE LABELING INDEX OF MOUSE EPIDERMIS: A DOUBLE ISOTOPE AUTORADIOGRAPHIC DEMONSTRATION OF CHANGING FLOW RATES

A diurnal rhythmicity in the labeling index was observed in the epidermis of hairless mice, injected with either ¹⁴C- or ³H-thymidine, at different times during a 24 hr period. A modified autoradiographic technique, using ¹⁴C- and ³H-thymidine and two overlying emulsion layers, makes it possible to clearly differentiate synthesizing cells which are singly labeled with either carbon-14 or tritium, and cells labeled with both isotopes. At various times during a 24 hr period, hairless mice were injected with thymidine-2-¹⁴C and colcemid, followed at 2 or 3 hr by a second injection of ³H-thymidine. The labeling indices were calculated for the ¹⁴C- and ³H-thymidine injection times. These labeling indices were consistent with the control, single isotope, labeling indices and exhibited the same diurnal rhythm. Cells singly labeled with ³H- or ¹⁴C-thymidine have either started or completed DNA synthesis during the interval between the two injections. Flow rates into and out of DNA synthesis, throughout the 24 hr period, can be calculated from these singly labeled cells. The flow rates varied rhythmically throughout the day and paralleled changes in the labeling indices. The influx and efflux flow rates, at all times measured, were not equal. The influx flow rate was reflected in the efflux rate at a time later equal to the duration of S. By means of these flow rates, the per cent of cells in DNA synthesis was calculated for each hour during a 24 hr period. The resulting labeling index curve matches the observed 24 hr diurnal rhythm in labeling indices. By extension of these flow rates through mitosis, the resulting mitotic index curve is comparable to the reported 24 hr diurnal rhythm in mitotic indices.     

The Fate of Exogenously Applied Indoleacetic Acid in Light Grown Stems

Elongating segments from light grown pea (Pisum sativum L. cv. Alaska) and bean (Pbaseolus vulgaris L. cv. Red kidney) stems were incubated in 10^-5M indoleacetic acid (IAA)-1-¹⁴C,and -5-³H in the light. Radoactive derivatives, extracted in water, ethanol or ether, and 1 N sodium hydroxide at three different times were chromatographed in three separate systems and the different metabolites identified by their labeling and chromatographic characteristics. Major metabolites included indoleacetyl aspartate, possibly indoleacetyl glucoside, hydroxymethyloxindole, and in bean a further major unidentified compund. Other compounds occurred in lesser amounts. Indole aldehyde was present only in very small quantities. IAA breakdown commenced between 1 and 6 h of incubation, following which IAA decreased and most metabolites increased, though IAA was still present after 24 h. Alkaline hydrolysates contained mainly IAA at a level which changed little between 6 and 24 h.     

Acute toxicity and bioaccumulation of endosulfan in rotifer (Brachionus calyciflorus)

• 1.1. The acute toxicity of endosulfan was determined for the freshwater rotifer Brachionus calyciflorus.
• 2.2. The mean 24 hr lc₅₀ value for endosulfan was 5.15 ppm with a coefficient of variation of 14.7%.
• 3.3. Rotifers were exposed at two sublethal concentrations (1.5–2.0 ppm) of endosulfan for bioaccumulation experiments, for an exposure time of 24, 48, 72 and 96 hr. The rotifers were fed with Nannochloris oculata (5 × 10⁵cell/ml).
• 4.4. The highest accumulation of endosulfan was found 24 hr after the start of the exposure to 1.5 ppm of the toxicant. A steady-state concentration in rotifer was reached between 24–48 hr, followed by a gradual decrease until 96 hr.

     

Biogenesis of mammalian mitochondria in the renoprival kidney. II. Aspects of mitochondrial DNA synthesis

Mitochondrial DNA (m-DNA) content and factors which might control its concentration were investigated in the renoprival kidney at various times after unilateral nephrectomy. On the basis of mitochondrial protein, m-DNA increased 30% in the renoprival kidney at 24 hr and returned to normal by 48 hr. The total tissue content of m-DNA was also increased at 24 hr. The specific activity of [³H]thymidine incorporated into m-DNA in vivo was decreased markedly at 24 hr after mononephrectomy; at the same time there was a threefold increase of [³H]thymidine incorporation into total cellular DNA. The incorporation into m-DNA was above normal at 48 hr. The mitochondrial specific DNase was decreased 60% at 24 and 36 hr post-mononephrectomy. There was no significant difference in the total radioactivity or total optical density at 260 nm of the acid soluble extract from mitochondria isolated at various times after mononephrectomy. The incorporation of [³H]thymidine into TMP and TDP in the renoprival kidney was not different from normal but there was a decrease in the incorporation into TTP. It is suggested that the increase in mitochondrial DNA could be due to a decrease in the rate of degradation rather than an increase in synthesis.     

Transforming growth factor-β, osteogenin,and bone morphogenetic protein-2 inhibit intercellular communication and alter cell proliferation in MC3T3-E1 cells

Intercellular communication by gap junctions has been implicated to function in the control of cell growth and differentiation in osseous tissues—processes which are regulated, in part, by peptide growth factors, including transforming growth factor-beta (TGF-β) and the bone morphogenetic proteins (BMPs). Using the osteoblastic cell line MC3T3-E1, we tested the hypothesis that the effects of TGF-β and BMPs on cell proliferation may be correlated to changes in intercellular communication. In a series of proliferation assays, MC3T3-E1 cells were cultured in the presence of bone morphogenetic protein-2 (BMP-2) or TGF-β for up to 48 hr. Proliferation of cells during the linear log phase (days 2 to 4) was assessed by ³H-thymidine (³H-TdR) incorporation. After times ranging from 6 to 48 hr, BMP-2 significantly inhibited uptake of ³H-TdR at doses of 50–800 ng/ml. Similarly, TGF-β inhibited uptake of ³H-TdR at doses of 2–32 ng/ml. In a separate group of experiments, intercellular communication through gap junctions was demonstrated by cell-cell transfer of the fluorescent tracer, lucifer yellow, after microinjection. One series of experiments showed that the gap junctional intercellular communication (GJIC) of cells, incubated for 48 hr in the presence of the higher dose of osteogenin (OG) (5.0 vs. 0.5 μg/ml) or higher dose of TGF-β (2.0 vs. 0.2 ng/ml), was significantly inhibited compared to control. In another series of experiments, time and dose dependent effects of BMP-2 and TGF-β on GJIC were investigated. In the time course experiments (3, 6, 12, 24, and 48 hr), TGF-β (2.0 ng/ml) demonstrated a statistically significant effect in inhibiting GJIC as early as 6 hr, while BMP-2 (50 ng/ml) inhibited GJIC after 24 and 48 hr of treatment. The dose-dependent effects of BMP-2 and TGF-β on cell couplings, determined at 48 hr, showed significant inhibitory effects with BMP-2 at 25 and 50 ng/ml and with TGF-β at 2 and 4 ng/ml. The cell count results and injection study performed at 12 hr, at a fixed cell density, confirmed that the inhibitory effect was not due to differences in cell density. The 50% effective inhibitory concentrations (EC₅₀) calculated for BMP-2 and TGF-β at 48 hr, showed no dose correlation between proliferation and GJIC, suggesting that these two events are independent occurrences. Additionally, marked morphological change was observed in the cells treated with TGF-β. The observation may suggest that TGF-β may have effects upon cytoskeletal elements in osseous tissues. © 1996 Wiley-Liss, Inc.     

The effects of cortisol on the primary response of mouse spleen cell cultures to heterologous erythrocytes

Cell viability and the production of direct PFC were studied in mouse spleen cell cultures after cortisol treatment in vivo or in vitro at various times relative to primary stimulation with SRBC in vitro.Cortisol treatment in vivo reduced spleen cell numbers by 88% after 48 hr, but cultures of the remaining cells produced as many PFC in vitro as did cultures of equal numbers of normal spleen cells.In normal spleen cell cultures incubated with cortisol for 4 hr prior to the addition of antigen, peak responses of PFC/culture and PFC/10⁶ cells occurred 24 hr later than in controls and averaged, respectively, 27% and 141% of control values. Minimum viable cell numbers were observed in cortisol-treated cultures after 3 days; thereafter cell numbers gradually increased. These results were not significantly altered when cultures were treated simultaneously with cortisol and antigen.The response was not suppressed if the addition of antigen preceded that of cortisol by more than 4 hr. Suppression was also considerably reduced if fetal calf serum was used when preparing cells for culture.     

Differentiation of lymphocytes in mouse bone marrow. II. Kinetics of maturation and renewal of antiglobulin-binding cells studied by double labeling

DNA labeling by ³H-thymidine in vitro and antiglobulin-¹³¹I binding in vitro were used to determine the development and turnover of immunoglobulin-bearing lymphocytes in mouse bone marrow.Bone marrow cells from CBA mice previously injected repeatedly with ³H-thymidine for 1–84 hr were exposed to ¹³¹I-labeled rabbit-antimouse globulin for 30 min at 0 °C, and examined radioautographically. The antiglobulin-binding cells in bone marrow were predominantly (97–98%) nondividing small lymphocytes. Some plasmacytoid and monocytoid cells, but not the proliferating large lymphoid cells, also bound antiglobulin. The ³H-thymidine labeling index of the small lymphocyte population showed a rapid exponential increase (50% in 32 hr). The first small lymphocytes to show ³H-thymidine labeling were those lacking antiglobulin-binding capacity, reaching approximately 90% ³H-thymidine labeling after 2 days. Small lymphocytes which bound antiglobulin-¹³¹I at a concentration of 1.0 μg/ml became labeled with ³H-thymidine only after a lag of approximately 1.5 days. More avid antiglobulinbinding cells were delayed a further 12 hr in ³H-thymidine labeling. During in vitro culture the proportion of antiglobulin-binding small lymphocytes increased progressively in bone marrow but decreased in spleen cell suspensions.The results demonstrate a continuous, rapid renewal of immunoglobulin-bearing small lymphocytes in adult mouse bone marrow. Surface immunoglobulin molecules are not detectable when marrow small lymphocytes are first formed, but they appear and increase progressively in density as the cells mature.     

In vivo adaptative regulation of muscarinic receptors and muscarinic stimulation-induced Ca2+ mobilization during short-term heat exposure in rat parotid glands

1. Adaptation of muscarinic receptors (MR)—muscarinic stimulation—induced intracellular Ca²⁺ mobilization during short-heat exposure (33°C).2. Heat-exposure for 48 hr decreased the carbachol (CCh)-stimulated cytosolic C²⁺ concentration increase.3. The number of MR on cell surface increased transiently at 24 hr with a subsequent decrease at 48 hr.4. CCh-stimulated inositol trisphosphate (IP₃) formation decreased at 48 hr.5. In saponin-permeabilized cells, 1,4,5-IP₃-induced ⁴⁵Ca²⁺ release decreased at 24 hr.6. The data suggest that the adaptation for increased muscarinic stimulation occurs at IP₃ generating sites as well as at intracellular IP₃ receptor sites during heat exposure.     

Mechanisms of antibody formation: I. Early in vivo proliferation of mouse spleen T cells as an initial step in antibody formation

Spleen cultures prepared from mice injected 24 hr earlier with 2 × 10⁶?2 × 10⁸ sRBC and challenged in vitro with sRBC produced 10 times more anti-sRBC IgM PFC than cultures prepared from uninjected mice. The effect was specific for the particular species of foreign RBC injected in vivo. In vitro responses to TNP were also increased in spleen cultures prepared from animals injected 24 or 12 hr earlier with carrier RBC alone, directly implicating carrier-specific T cells in this process. Similar enhancements of PFC formation occurred in cultures prepared from mice which had been injected with sRBC 24 and 48 hr earlier, but which were exposed to lethal irradiation at 1 hr after injection of antigen, if their spleens were shielded extracorporeally during irradiation. This finding indicated that in vivo recruitment of antigen-reactive extrasplenic X-ray-sensitive cells from the circulating lymphocyte pool by the spleen could not account for the observed enhancement.Proliferation in the spleen of antigen-reactive T cells, commencing 12–20 hr after the administration of antigen, was demonstrated by the tritiated thymidine pulse technique. An 8-hr hot-pulse given to spleen cell cultures from normal animals at 20 hr after in vitro challenge with antigen did not affect the rate of generation of IgM-producing cells; however, administration of a similar pulse to cultures which were initiated at 12 or at 20 hr after the in vivo injection of sRBC eliminated the enhanced generation of PFC and delayed the in vitro response to sRBC by 24 hr.Spleen cell cultures were prepared from mice which had been injected in vivo with sRBC at 12, 20, and 70 hr earlier, and 8- to 10-hr hot pulses were given immediately after initiation of the cultures. The cultures were then challenged with sRBC-TNP; antibody responses to TNP were greatly reduced in hot-pulsed cultures prepared from mice injected in vivo with carrier RBC at 12 or 20 hr prior to initiation of the cultures. In contrast, antibody responses to TNP observed in hot-pulsed cultures prepared from mice which had been injected with carrier RBC at 70 hr prior to initiation of the cultures were generally similar to those of nonpulsed 70 hr control cultures. This result suggests that the onset of T helper cell proliferation begins within 12–20 hr after injection of antigen, but subsides in vivo within 70 hr. By that time, the antigen-reactive T cells have already differentiated to perform their helper function.In spite of the triggering of T-cell proliferation during the first 24 hr after injection of antigen, spleen cell cultures prepared from mice which had been injected 24 hr earlier in vivo with 2 × 10⁸ sRBC produced only minimal numbers of anti-sRBC PFC if no antigen was added to the cultures. The presence of unprocessed antigen thus appears to be a requirement for B-cell proliferation in vitro, even after T-cell division has been triggered. This finding is consistent with earlier suggestions that the function of “helper” T cells may not be limited to passive transport of antigenic determinants to B cells. Evidence is also presented to support the contention that the antigen-reactive T cell involved in this process may have to undergo cell division in order to develop “helper” capacity.     

Medullary bone osteogenesis following estrogen administration to mature male Japanese quail

The osteogenesis of medullary bone on endosteal bone surfaces of mature male Japanese quail was induced by estradiol valerate (EV) and the sequential changes were characterized by histology, autoradiography, microradiography, and electron microscopy. In untreated controls, endosteal surfaces of the femoral diaphysis were generally inactive and lined by low-density populations of flat bone-lining cells. Within 24 hr of EV administration the surfaces were lined by plump cells with abundant polyribosomes and with large oval to round nuclei. There was an increase in the concentration of [³H]proline near some endosteal surfaces at this time. By 36 hr the developing osteoblasts had extensive rough endoplasmic reticulum (RER) and Golgi complexes. Extracellular matrix with isotropically arranged collagenous fibers was evident. By 48 hr small trabeculae had formed and some of the matrix was beginning to mineralize. Osteoblasts contained abundant dilated RER, many had numerous cell processes and some were becoming surrounded by bone matrix forming osteocytes. From 72 to 120 hr the developing bone grew rapidly from endosteal surfaces into the marrow space. Medullary bone development was accompanied by rapid and dramatic increases in total plasma calcium levels. This study demonstrates a well-defined rapid sequence of induced osteogenesis in vivo and suggests that the bone-lining cell in the postfetal organism may have osteogenic potential.     

Effects of lead on hepatocyte ultrastructure in Carassius carassius (L.) var. auratus

Subcellular modifications in hepatocytes of Carassius carassius var. auratus subjected to 24 hr and 48 hr sublethal acute lead (5mg·1⁻¹) exposure were studied by electron microscopy. Cytological alterations were observed after 24 hr of treatment and became more evident after 48 hr. Lead induced an increase in nuclear heterochromatin and alterations in mitochondria, endoplasmic reticulum and Golgi complex ultrastructure. Glycogen granula decreased, and secondary lysosomes and lipid droplets increased. Furthermore, intracytoplasmic lumina with microvilli-bearing surfaces and numerous autophagic vacuola were observed after 48 hr of exposure.     

Endogenous indole-3-acetic acid during adventitious root formation inPopulus £canadensis Moench.

Indole-3-butyric acid (IBA), phenylacetic acid (PAA) and naphthaleneacetic acid (NAA) were applied at a concentration of 10^-4 mol dm^-3 to stem cutting bases ofPopulus x canadensis Moench. During adventitious root formation, the content of indole-3-acetic acid (IAA) in cutting bases was estimated using the fluorimetric method. In the control variant, a rapid increase in endogenous IAA appeared after 24-h cultivation followed by gradual decrease during the following days. In contrast, the variants treated with IBA, PAA, and especially NAA exhibited firstly a decrease in endogenous IAA content and only afterwards an increase, reaching a maximum 48 h after excision. As root regeneration proceeded gradually, a decrease in the level of endogenous IAA occurred in all treatments. The first adventitious roots appeared in all treatments after 216-h cultivation.     

DNA synthesis in developing two-cell mouse embryos

Mated CF1 (Carworth) female mice were sacrificed at 2 hr intervals between 29 and 43 hr after human chorionic gonadotrophin (HCG) administration. One- and two-cell eggs were incubated in [³H]thymidine for 1 hr. Labeled two-cell embryos were first observed at 31 hr and reached a maximum number at 35 hr. The S period is approximately 6 hr in duration. Although both blastomeres were labeled in most cases, embryos with only one labeled blastomere were more numerous at later times. In vitro labeling was corroborated by injecting [³H]thymidine directly into the isthmic portion of the oviduct. Embryos usually complete the second cleavage division 18–20 hr after onset of DNA synthesis. The cell cycle at the two-cell stage is thus characterized by a G₁ of close to 1 hr, a 6 hr S, and a G₂ of about 12 hr.Embryos developing in vitro frequently fail to progress beyond the two-cell stage. The block is not due to absence of DNA synthesis since these embryos were found to incorporate [³H]thymidine.     

Incorporation of Radioactive Pyrimidine Nucleosides into DNA and RNA of Eimeria tenella (Coccidia) Cultured In Vitro*

Autoradiographic methods were used to study the incorporation of tritiated cytidine, thymidine, and uridine into asexual stages of Eimeria tenella cultured in embryonic chick kidney cells. Developing parasites did not incorporate ³H-thymidine either when host cells were labeled prior to infection or when the cultures were labeled for 30 min, 48–72 hr after infection. Continuous exposure of infected cultures to ³H-thymidine for up to 18 hr resulted in light labeling of cell cytoplasm and schizonts. ³H-cytidine and ³H-uridine were incorporated into parasites developing in cultures that were labeled before infection. When the cultures were labeled for 30 min, 48–72 hr postinfection and fixed immediately, schizonts were labeled lightly with ³H-cytidine but contained dense accumulations of ³H-uridine.     

Biogenesis of mammalian mitochondria in the renoprival kidney. I. Amino acid incorporation and respiratory activity

Changes in the yield of mitochondrial protein, in the incorporation of leucine into mitochondrial proteins, and in the respiratory activity of isolated mitochondria were determined in the remaining kidney (renoprival kidney) of the rat during the first 72 hr postmononephrectomy. At 24, 48, and 72 hr the yield of mitochondrial protein isolated from the renoprival kidney increased 13, 23, and 34%, respectively, whereas renal mass increased 9, 14, and 19%. Incorporation of [³H]-leucine in vivo into total mitochondrial protein was increased 96 and 130% over control at 12 and 24 hr, respectively. Incorporation of leucine in vitro by mitochondria was increased 27% over control at 24 hr; chloroamphenicol, but not cycloheximide, inhibited the in vitro incorporation.     

Mechanisms of lymphocyte "deletion" by high concentrations of ligand. I. Cyclic AMP levels and cell death in T-lymphocytes exposed to high concentrations of concanavalin A

DNA synthesis, cell survival, and cyclic AMP (cAMP) levels were compared in whole and purified lymph node cells (LNC) cultured with optimal (5 μg/ml) and excess (200 μg/ml) concentrations of native (N) or succinyl (S) concanavalin A (Con A) as possible models for antigen-induced lymphocyte activation and “high-dose” tolerance. Whole LNC cultured with optimal N-Con A or S-Con A showed continuing DNA synthesis and cell viability between 30 and 50% at 48 hr. In contrast, with excess N-Con A, they showed virtually no [³H]TdR uptake at this time and there was progressive loss of cell viability beginning at 8 hr; by 48 hr almost no viable cells remained. Excess S-Con A induced little cell death up to 24 hr, but by 48 hr only 20% of the cells initially placed in culture remained alive and sythesized DNA. Intracellular cAMP showed a transient rise in cultures stimulated with optimal N-Con A, peaking at 15 min, then returning to normal levels, to rise again between 24 and 48 hr. With excess N-Con A, cAMP rose within 15 min and continued to increase to a peak at 24 hr. cAMP levels in the presence of excess S-Con A remained at control levels for the first 24 hr and increased between 24 and 48 hr. LNC depleted of macrophages and B cells, when cultured in excess N-Con A, had an inhibition of DNA synthesis, elevated cAMP levels, and cell death comparable to whole LNC. It seems unlikely, however, that the increase in cAMP mediates cell killing since cAMP was not elevated yet cell death occurred in nylon wool-purified T cells exposed to excess N-Con A. Dibutyryl cAMP, and prostaglandin E₁, which markedly increase cAMP levels, failed to kill LNC at doses which totally inhibited DNA synthesis, and cells of the mouse T-lymphoma S49 and its cAMP-dependent protein kinase-deficient variant were killed equally by excess N-Con A. It is suggested that a sustained elevation of either cAMP or Ca²⁺ after early commitment may provide a significant mechanism of tolerogenesis.     

ENDOGENOUS LEVELS OF INDOLE-3-ACETIC ACID IN SYNCHRONOUS CULTURES OF CHLORELLA PYRENOIDOSA12

Endogenous levels of indole-3-acetic acid were mesaured in synchronous cultures of Chlorella pyrenoidosa (TX-7-11-05). The cultures were synchronized by alternating light:dark periods of 15:9 hr at a temperature of 40 ± 1 C. After 2 synchronous cycles the cultures were exposed to a low light treatment of 350 ± 100 ft-c. The time to incipient cell division under these conditions was 6 hr and 15 min. Samples were taken at 3 sampling periods during the low light treatment period:low light 0 hr (LL0); low light 3 hr (LL3); and low light 6:15 hr (LL6:15). The algal extracts were analyzed by a fluorometric procedure which measured the indole-α-pyrone product formed by the action of the trifluoracetic acid-acetic anhydride reagent with IAA. The IAA levels increased gradually from the autospore stage (5.19 μg × 10^?4/mg dry wt) to the adolescent stage (7.13 μg × 10^?4/mg dry wt) and more rapidly when approaching the ripened adult stage (14.55 μg × 10^?4/mg dry wt). The mean percentage increase from autospore to adolescent was 36.9%, and from adolescent to ripened adult 104.6%. The total percentage increase from autospore to adult was 180.3%. Levels of IAA were 2 times higher just prior to division than in the autospore stage.