H]thymidine incorporation to estimate growth rates of anaerobic bacterial strains

The incorporation of [H]thymidine by axenic cultures of anaerobic bacteria was investigated as a means to measure growth. The three fermentative strains and one of the methanogenic strains tested incorporated [H]thymidine, whereas the sulfate-reducing bacterium and two of the methanogenic bacteria were unable to incorporate [H]thymidine during growth. It is concluded that the [H]thymidine incorporation method underestimates bacterial growth in anaerobic environments.     

Depth Distribution of Bacterial Production in a Stratified Lake with an Anoxic Hypolimnion

The purpose of this study was to determine the depth distribution of bacterial biomass and production in a stratified lake and to test techniques to measure bacterial production in anaerobic waters. Bacterial abundance and incorporation of both [³H]thymidine and [³H]leucine into protein were highest in the metalimnion, at the depth at which oxygen first became unmeasurable. In contrast, [³H]thymidine incorporation into DNA was highest in the epilimnion. The ratios of incorporation into DNA/protein averaged 2.2, 0.49, and 0.95 for the epilimnion, metalimnion, and hypolimnion, respectively. Low incorporation into DNA was not due to artifacts associated with the DNA isolation procedure. Recovery of added [³H]DNA was about 90% in waters in which the portion of [³H]thymidine incorporation into DNA was about 40%. At least some obligate anaerobic bacteria were capable of assimilating thymidine since aeration of anaerobic hypolimnion waters substantially inhibited thymidine incorporation. The depth profile of bacterial production estimated from total thymidine and leucine incorporation and the frequency of dividing cells were all similar, with maximal rates in the metalimnion. However, estimates of bacterial production based on frequency of dividing cells and leucine incorporation were usually significantly higher than estimates based on thymidine incorporation (using conversion factors from the literature), especially in anaerobic hypolimnion waters. These data indicate that the thymidine approach must be examined carefully if it is to be applied to aquatic systems with low oxygen concentrations. Our results also indicate that the interface between the aerobic epilimnion and anaerobic hypolimnion is the site of intense bacterial mineralization and biomass production which deserves further study.     

Steroidal and growth factor regulation of [3H]thymidine incorporation by cultured endosalpingeal cells of the bovine oviduct

Summary Cultured cells from the bovine endosalpinx were used to evaluate effects of estradiol-17β, progesterone, epidermal growth factor, and insulinlike growth factors I and II on [³H]thymidine incorporation. Cells were treated with hormones and growth factors when approximately 50% confluent. After 24 h, DNA synthesis was quantified by pulsing cells with [³H]thymidine for 12 h and determining uptake into DNA. Cells prepared by mechanical dispersal incorporated more [³H]thymidine than cells dispersed with collagenase. However, hormonal responses were the same for both types of cells. As compared to plastic, cells on a Matrigel substratum exhibited lower incorporation of [³H]thymidine and were unresponsive to hormones. Estradiol-17β increased [³H]thymidine incorporation slightly at 10⁻¹⁰ mol/liter and higher. Epidermal growth factor, insulinlike growth factor-I, and insulinlike growth factor-II also stimulated [³H]thymidine incorporation. Effects of insulinlike growth factor-I were greater for cells treated with estradiol-17β. In the absence of estradiol, progesterone inhibited [³H]thymidine incorporation at 1, 10, and 100 ng/ml. When estradiol-17β was present, progesterone stimulated [³H]thymidine incorporation at 1 ng/ml and reduced incorporation at 100 ng/ml. In conclusion, [³H]thymidine incorporation by cultured oviductal endosalpingeal cells can be regulated by ovarian steroids and growth factors. These molecules may represent signals through which the ovary, embryo, and oviduct regulate oviductal growth. Work conducted while on a sabbatical leave supported by the Deutsche Forschungsgemeinschaft.     

Incorporation of tritiated thymidine by marine bacterial isolates when undergoing a starvation survival response

Bacterial DNA synthesis, as measured by the incorporation of [methyl-³H] thymidine, was examined during conditions of decreasing biomass and non-growth of three heterotrophic marine bacteria. High rates of [³H] thymidine incorporation were recorded during the initial phase of starvation and two strains exhibited a net increase in DNA during the first few hours of starvation. The decreased rate of [³H] thymidine incorporation with the time of starvation, was in agreement with the decrease in the percentage of the total population that showed uptake of labelled thymidine, as seen by a combined autoradiography-epifluorescence technique. It is suggested that new rounds of replications were initiated after cells had been starved for times that well exceeded the time for replication of genomes during growing The initial increase in cell numbers upon transfer of growing cells to a starvation regime was inhibited by nalidixic acid, suggesting that DNA synthesis, rather than an excess of nuclear bodies, allow for the fragmentation process in these strains.     

Experimental Evaluation of Conversion Factors for the [3H]Thymidine Incorporation Assay of Bacterial Secondary Productivity

The relationship between bacterial growth and incorporation of [methyl-³H]thymidine in oligotrophic lake water cultures was investigated. Prescreening, dilution, and addition of organic and inorganic nutrients were treatments used to prevent bacterivory and stimulate bacterial growth. Growth in unmanipulated samples was estimated through separate measurements of grazing losses. Both bacterial number and biovolume growth responses were measured, and incorporation of [³H]thymidine in both total macromolecules and nucleic acids was assayed. The treatments had significant effects on conversion factors used to relate thymidine incorporation to bacterial growth. Cell number-based factors ranged from 1.1 × 10¹⁸ to 38 × 10¹⁸ cells mol of total thymidine incorporation⁻¹ and varied with treatment up to 10-fold for the same initial bacterial assemblage. In contrast, cell biovolume-based conversion factors were similar for two treatment groups across a 16-fold range of [³H]thymidine incorporation rates: 5.54 × 10¹⁷ μm³ mol of total thymidine incorporation⁻¹ and 15.2 × 10¹⁷ μm³ mol of nucleic acid incorporation⁻¹. Much of the variation in cell number-based conversion factors was related to changes in apparent mean cell volume of produced bacteria. Phosphorus addition stimulated [³H]thymidine incorporation more than it increased bacterial growth, which resulted in low conversion factors.     

Bacterial [methyl-3H]thymidine incorporation in substrate-amended estuarine sediment slurries

Abstract Five different bacterial communities were enriched in substrate-amended slurries of sediment from the Tay Estuary, Scotland. During incubation of the slurries, concentrations of volatile fatty acids, sulphate, sulphide and methane were monitored to clearly define the activity of the stimulated populations. An aerobic population, a ‘microaerophilic’ population and three anaerobic populations (fermentative heterotrophs, sulphate-reducing bacteria and methanogens plus acetogens) were established to reflect community growth and metabolism both in surface oxic and deeper anoxic layers. Similar numbers of cells involved in division were observed in all five slurries, demonstrating the potential for bacterial production. Thymidine incorporation rates in glucose-stimulated slurries under both aerobic and fully anaerobic conditions were similar, confirming the ability of fermentative anaerobic heterotrophs to incorporate [ methyl -³H]thymidine into DNA during growth. Although anaerobic communities of sulphate-reducing, acetogenic plus methanogenic bacteria were stimulated and actively growing, they did not incorporate [ methyl -³H]thymidine into DNA. Since the thymidine technique does not measure the growth of these important groups, calculated productivity values based upon thymidine incorporation within anoxic sediment systems will be substantially underestimated, even if growth substrates are not limiting.     

Effects of beta-lactam antibotics on thymidine incorporation of bacteria

Five strains each ofEscherichia coli, Proteus mirabilis, andStaphylococcus aureus were grown in Trypticase soy broth (TSB) with or without penicillin, oxacillin, ampicillin, amoxicillin, or cefamandole. [³H]Thymidine incorporation and the optical density of the cultures were determined at an hourly interval for the duration of incubation. All strains ofP. mirabilis showed after 2 and 3 h of incubation of 5-to 16-fold increase in the specific activity of [³H]thymidine incorporated in the presence of MIC of the antibiotics as compared to controls grown without the drugs.E. coli andS. aureus showed smaller increases in thymidine incorporation than didP. mirabilis. After 4–5 h the antibiotics produced an inhibition of [³H]thymidine incorporation. At the MAC, the responses were of a smaller magnitude. Regardless of whether these changes are the result of specific interference or just lack of [³H]thymidine incorporation, they are directly related to the antibiotic activity of agents known not to affect DNA synthesis. The monitoring of [³H]thymidine incorporation detects early antibiotic activity probably earlier than other current systems which are used for this purpose.     

Inorganic Phosphorus Stimulation of Bacterioplankton Production in a Meso-Eutrophic Lake

Experiments were conducted to determine whether production of heterotrophic bacterioplankton in a small meso-eutrophic lake was influenced by the dissolved inorganic phosphorus (DIP) supply. DIP may indirectly limit bacterial production by limiting phytoplankton, which in turn may limit the carbon available to bacteria. Direct DIP limitation of bacteria occurs where the availability of DIP for bacteria is insufficient to maintain growth. This work examined direct DIP limitation of bacteria by removing phytoplankton and incubating flasks with or without added P in the dark. Bacterial production was measured via the rate of incorporation of [³H]thymidine ([³H]TdR) into DNA. Bacterial abundance was followed with epifluorescent direct counts. Rates of [³H]TdR incorporation were significantly greater in flasks with added DIP, and changes in cell abundances generally paralleled increases in [³H]TdR incorporation. Even very small additions of P (0.05 μM) were sufficient to stimulate production. DIP addition to whole lakewater also stimulated [³H]TdR incorporation relative to that in zero-addition controls, but there was not a concurrent increase in bacterial cell numbers. The stimulation of [³H]TdR incorporation after DIP addition to whole lakewater was significantly less than the stimulation due to DIP addition to 1-μm-pore-size-filtered lakewater. In this study, addition of DIP caused as much as an eightfold stimulation of [³H]TdR incorporation.     

LIMITATIONS IN THE USE OF [3H]THYMIDINE INCORPORATION INTO DNA AS AN INDICATOR OF EPIDERMAL KERATINOCYTE PROLIFERATION IN VITRO

The validity of using the incorporation of [³H]thymidine into DNA as an indicator of epidermal keratinocyte proliferation in vitro has been investigated. Other parameters of cell proliferation, direct count of cell number and measurement of DNA content, consistently fail to correlate with changes in [³H]thymidine incorporation into DNA in primary and first passage cultures of rabbit and human epidermal keratinocytes. Maximum incorporation of [³H]thymidine precedes the active growth period by three days. Incorporation declines markedly during the proliferative period. Thymidine kinase activity decreases during the proliferative growth phase. Incorporation of another pyrimidine nucleotide precursor, [¹⁴C]aspartic acid, suggests that in epidermal keratinocytes in vitro the extent of utilization of the salvage and the de novo pathways may be inversely related. In such cases [³H]thymidine incorporation into TCA precipitable material fails to reflect accurately cell proliferation.     

Effects of Toxic Substances on Natural Bacterial Assemblages Determined by Means of [3H]Thymidine Incorporation

The effects of 3,5-dichlorophenol, 2,4-dinitrophenol, and potassium dichromate on natural bacterial assemblages were examined by means of [³H]thymidine incorporation into trichloroacetic acid-insoluble material. Results from a large number of coastal marine and freshwater samples suggest the following. (i) The effects of the three toxicants included reductions in the bacterial cell number as well as changes in rates of [³H]thymidine incorporation and in [³H]thymidine incorporation per cell. The concentrations that inhibited [³H]thymidine incorporation by 50% ranged from 3 to 11 mg liter⁻¹ for 3,5-dichlorophenol, 6 to 10 mg liter⁻¹ for 2,4-dinitrophenol, and 21 to 123 mg liter⁻¹ for potassium dichromate, with a tendency to higher values in bacterial assemblages from more eutrophic environments. (ii) The effects of 3,5-dichlorophenol and potassium dichromate determined by [³H]leucine incorporation into bacterial protein were similar or larger than those obtained from [³H]thymidine incorporation. (iii) Two to four hours of exposure to the toxicants was necessary before stable maximum effects were found in [³H]thymidine incorporation. (iv) Storage of natural environmental samples should be avoided, since tests with water stored for 1 to 3 days sometimes produced results different from results obtained from in situ tests. (v) The effects of 3,5-dichlorophenol, 2,4-dinitrophenol, and potassium dichromate on natural bacterial assemblages were relatively constant during periods with different growth rates in the assemblages, during various periods of the year, and between samples from freshwater and marine localities. With some precautions, [³H]thymidine incorporation can be used as a quick and sensitive method for determining the effects of toxicants on aquatic bacterial assemblages from natural environmental samples.     

DNA REPLICATION: DIRECTION AND RATE OF CHAIN GROWTH IN MAMMALIAN CELLS

Using pulse labeling techniques with [³H]thymidine or [³H]cytidine, combined with DNA fiber autoradiography, we have investigated the direction and rate of DNA chain growth in mammalian cells. In general, chain elongation proceeds bidirectionally from the common origin of pairs of adjacent replication sections. This type of replication is noted whether the DNA is labeled first with [³H]thymidine of high specific activity, followed by [³H]thymidine of low specific activity or the sequence is reversed. Approximately one-fifth of the growing points have unique origins and in these replication units, chain growth proceeds in one direction only. Fluorodeoxyuridine and hydroxyurea both inhibit DNA chain propagation. Fluorodeoxyuridine exerts its effect on chain growth within 15–23 min, while the effect of hydroxyurea is evident within 15 min under conditions where the endogenous thymidine pool has been depleted by prior treatment with fluorodeoxyuridine. Puromycin has no effect on chain growth until 60 min after addition of the compound, even though thymidine incorporation is more than 50% reduced within 15 min. After 2 h of treatment with puromycin, the rate of chain growth is reduced by 50%, whereas thymidine incorporation is reduced by 75%. Cycloheximide reduces the rates of DNA chain growth and thymidine incorporation 50% within 15 min, and, on prolonged treatment, the decrease in rate of chain growth generally parallels the reduction in thymidine incorporation.     

Effect of 5-Fluoro-2′-Deoxyuridine on [3H]Thymidine Incorporation by Bacterioplankton in the Waters of Southwest Florida

The effect of 5-fluoro-2′-deoxyuridine (FdUrd) on [methyl-³H] thymidine incorporation by bacterioplankton populations in subtropical freshwater, estuarine, and oceanic environments was examined. In estuarine waters, intracellular isotope dilution was inhibited by FdUrd, which enabled us to estimate both intracellular and extracellular isotope dilution. In 2 of 10 cases, extracellular isotope dilution was significant. At low concentrations of [methyl-³H]thymidine or [6-³H]thymidine, FdUrd completely inhibited incorporation of radioactivity into protein and RNA. At high concentrations of [³H]thymidine, however, FdUrd had little effect on labeling patterns. The dihydrofolate reductase inhibitors amethopterin and trimethoprim had no effect on macromolecular labeling patterns. These results suggest that thymidylate synthase is not involved in nonspecific labeling and that FdUrd inhibits nonspecific labeling by blocking some other enzyme involved in thymidine catabolism. In oligotrophic oceanic and freshwater samples, FdUrd did not inhibit intracellular isotope dilution or [³H]thymidine labeling of protein and RNA, but caused some inhibition of [³H]thymidine incorporation into DNA. The ability of FdUrd to inhibit nonspecific macromolecular labeling during [³H]thymidine incorporation was significantly correlated (r = 0.84) with total thymidine incorporation (in picomoles per liter per hour). The results are discussed in terms of applications of FdUrd to routine bacterial production measurements and the general assumptions of [³H]thymidine incorporation.     

Underestimation of DNA Synthesis by [3H]Thymidine Incorporation in Marine Bacteria

A direct comparison of [³H]thymidine incorporation with DNA synthesis was made by using an exponentially growing estuarine bacterial isolate and the naturally occurring bacterial populations in a eutrophic subtropical estuary and in oligotrophic offshore waters. Simultaneous measurements of [³H]thymidine incorporation into DNA, fluorometrically determined DNA content, and direct counts were made over time. DNA synthesis estimated from thymidine incorporation values was compared with fluorometrically determined changes in DNA content. Even after isotope dilution, nonspecific macromolecular labeling, and efficiency of DNA recovery were accounted for, [³H]thymidine incorporation consistently underestimated DNA synthesized by six- to eightfold. These results indicate that although the relationship of [³H]thymidine incorporation to DNA synthesis appears consistent, there are significant sources of thymine bases incorporated into DNA which cannot be accounted for by standard [³H]thymidine incorporation and isotope dilution assays.     

Heterogeneity of nucleoside kinases in marine microorganism cells

The incorporation of [³H]-thymidine and [³H]-uridine into nucleic acids of six marine microorganism strains belonging to different genera was studied. It was shown that the radioactive label of each of those exogenous precursors could be included into both the DNA and the RNA of bacterial cells. The activity of the nucleoside phosphorylation enzymes—thymidine and uridin kinases—was defined in bacterial cell extracts. The activity of thymidine kinase in the extracts is noticeably higher than the activity of uridine kinase, this enzyme, unlike uridine kinase, being present in all marine bacteria strains studied. After the partial purification of phosphorylation enzymes by means of ion-exchange chromatography, a number of enzymatic properties of nucleoside kinases and their substrate specificity were investigated. It was shown that the set of precursor phosphorylation enzymes in the strains under study differed in representatives of different marine bacterial genera.     

Lack of effect of butyrate on S phase DNA synthesis despite presence of histone hyperacetylation

The effects of sodium butyrate on [³H]thymidine incorporation and cell growth characteristics in randomly growing and synchronized HeLa S₃ cells have been examined in an attempt to determine what effects, if any, butyrate has on S phase cells. Whereas 5 mM sodium butyrate rapidly inhibits [⁵H]thymidine incorporation in a randomly growing cell populations, it has no effect on incorporation during the S phase in cells synchronized by double thymidine block techniques. This lack of effect does not result from an impaired ability of the S phase cells to take up butyrate, since butyrate administration during this period leads to histone hyperacetylation that is identical with that seen with butyrate treatment of randomly growing cells. Furthermore, the ability to induce such hyperacetylation with butyrate during an apparently normal progression through S phase indicates that histone hyperacetylation probably has no effect on the overall process of DNA replication. Temporal patterns of [³H]thymidine incorporation and cell growth following release from a 24-h exposure to butyrate confirm blockage of cell growth in the G1 phase of the cell cycle. Thus, the inhibition by butyrate of [³H]thymidine incorporation in randomly growing HeLa S₃ cell populations can be accounted for solely on the basis of a G1 phase block, with no inhibitory effects on cells already engaged in DNA synthesis or cells beyond the G1 phase block at the time of butyrate administration.     

Differential patterns of mitochondrial,chloroplastic and nuclear DNA synthesis in the synchronous cell cycle of Chlamydomonas reinhardtii

Nuclear DNA (ncDNA) synthesis in Chlamydomonas reinhardtii was measured by both ³²P[or-thophosphoric acid] (³²P) and [¹⁴C]adenine incorporation and found to be highly synchronous. Ca. 85% of incorporation was confined to the first 6 h of the dark period of a synchronized regime consisting of an alternating light-dark period of 12 h each. In contrast, no such synchronous incorporation pattern was found for chloroplast (cp) and mitochondrial (mt) DNAs in the same cell population. These two organellar DNAs also exhibited different ³²P-incorporation patterns in the cell cycle. Considerable amounts of ³²P were incorporated into cpDNA throughout the light-dark synchronous cycle under both mixo- and phototrophic growth conditions, although the second 6-h light period under phototrophy showed an increase not apparent under mixotrophy. This change in growth conditions did not affect ³²P incorporation into mtDNA, which was found throughout the cell cycle, with a modest peak in the first 6-h of the dark period. The pattern of [³H]thymidine incorporation into cpDNA was also determined. Under synchronous phototrophic conditions, this pattern was quite different from that obtained with ³²P. Most [³H]thymidine incorporation occurred during the light period of the synchronous cycle; this period had been shown previously by density transfer experiments to be the time of cpDNA duplication. Such preferential [³H]thymidine incorporation into cpDNA in the light period was not observed under mixotrophic synchronous growth conditions; in these, [³H]thymidine incorporation was detected throughout the cell cycle. This lack of coincidence between the patterns of ³²P- and of [³H]thymidine incorporation into cpDNA during the synchronous cell cycle indicates that in addition to replication, the considerably reiterated organelle-DNA molecules may also regularly undergo an extensive repair process during each cell cycle.     

Insulin-like Growth Factor I Regulation of Swarm Rat Chondrosarcoma Chondrocytes in Culture

Insulin-like growth factor I (IGF-I) is anabolic for chondrocytes and is thought to be important in regulating such normal cartilaginous tissues as the epiphyseal growth plate. In the present studies, we have investigated the role of IGF-I in the regulation of neoplastic cartilage. Chondrocytes cultured from a transplantable rat chondrosarcoma were analyzed for responsiveness to IGF-I with respect to DNA and glycosaminoglycan synthesis as determined by labeling with radioactive thymidine and sulfate, respectively. Stimulation of [³H]thymidine and [³⁵S]sulfate incorporation by IGF-I was two to four times that in serum-free controls, with half-maximal stimulation at 1 × 10^-9M. The efficacy of IGF-I was approximately one-half of that of serum in stimulating [³H]thymidine incorporation and was comparable to that of serum for [³⁵S]sulfate incorporation. When Swarm rat chondrosarcoma chondrocytes were cultured in the presence of IGF-I and exposed to graded concentrations of anti-IGF-I antibody, [³H]thymidine incorporation and [³⁵S]sulfate incorporation were attenuated in a dose-dependent fashion to 29 and 25% of antibody-free controls, respectively. Nonspecific antibody not raised against IGF-I was not inhibitory. These observations suggest that the majority of IGF-I action on these cells is susceptible to immunoinhibition. To estimate the contribution of IGF-I to the regulation of these cells by serum, Swarm rat chondrosarcoma chondrocytes were cultured with graded concentrations of either calf serum or fetal calf serum in the presence of anti-IGF-I antibody, nonspecific antibody, or no other additives. Specific antibody attenuated the effect of calf serum on both [³H]thymidine and [³⁵S]sulfate incorporation with overall inhibition of 52% (P < 0.01) and 48% (P < 0.001), respectively. Nonspecific antibody superimposed small, variably stimulatory or inhibitory effects on those of calf serum. When chondrosarcoma chondrocytes were incubated with fetal calf serum, anti-IGF-I antibody exerted a minimal inhibitory effect, reducing both [³H]thymidine and [³⁵S]sulfate incorporation by less than 25%. The immunoinhibition of both pre- and postnatal serum could be overcome in a dose-dependent fashion by increasing serum concentrations. These results suggest that the factors influencing Swarm rat chondrosarcoma chondrocytes may be developmentally regulated and that the contribution of IGF-I to the action of serum increases between fetal and postnatal life. These data support the hypothesis that chondrosarcoma is a somatomedin-responsive neoplasm and suggest that this tumor may be susceptible to interventions directed toward mechanisms that block insulin-like growth factor action.     

Activity of an Attached and Free-Living Vibrio sp. as Measured by Thymidine Incorporation, p-Iodonitrotetrazolium Reduction, and ATP/DNA Ratios

Three independent techniques, [³H]thymidine incorporation, the reduction rate of p-iodonitrotetrazolium violet (INT) to INT formazan normalized to DNA, and the ratio of ATP to DNA, were adapted to measure the activity of attached and unattached estuarine bacteria. In experiments employing the estuarine isolate Vibrio proteolytica, nutrient concentrations were manipulated by varying the concentration of peptone-yeast extract. In the presence of exogenous nutrients, the activity of free-living cells was greater than that of attached cells as measured by [³H]thymidine incorporation and ATP/DNA ratios. In the absence of peptone-yeast extract, however, the activity of attached cells surpassed that of free-living cells as determined by [³H]thymidine incorporation and INT formazan normalized to DNA. Of the three techniques, [³H]thymidine incorporation was deemed most sensitive for detecting changes in activity resulting from slight differences in nutrient concentration. By this technique, attached cells were much less sensitive to changing nutrient concentrations than were free-living cells. Below a threshold concentration, attached cell activity remained constant, while the activity of unattached cells decreased as a function of decreasing nutrient concentration. The results suggest that loss of cell surface area available for substrate uptake due to attachment may be an important factor in determining the relative activities of attached and free-living cells.     

Adherence of Pseudomonas aeruginosa to inanimate polymers including biomaterials

Cells of Pseudomonas aeruginosa were adhered to polymethyl methacrylate, polyvinyl acetate, polyvinyl chloride, polyhydroxyethyl methacrylate, mixed-acrylic, silicone, and natural latex materials. Planktonic bacteria and bacteria that adhered to the test materials were compared for their uptake of either L-[3,4,5-³H] leucine or [methyl-³H] thymidine during growth in a minimal medium. Leucine incorporation was reduced and thymidine uptake was negligible in adherent bacteria for up to 8 h following primary attachment by which time cells in the planktonic state showed active uptake of both substrates. These reduced uptake periods correlated with lag phases of growth of adherent cells as determined with a sonication-release plate count procedure and analyses of adenosine triphosphate (ATP). The extent of the lag phase of the adherent populations was dependent on initial densities of adhered cells and the nature of the substratum. Received 02 December 1998/ Accepted in revised form 25 April 1999     

Measuring bacterial production via rate of incorporation of [3H]thymidine into DNA

Thymidine (TdR) incorporation into DNA as a measure of bacterial production in environmental samples relies on assumptions about what organisms incorporate exogenous thymidine, extent of dilution of labelled thymidine by internal and external pools, and analytical methods for recovery and purification of bacterial DNA. We have examined these assumptions with regard to the feasibility of using [³H]TdR incorporation in the water column and sediments of a blackwater river. The extent of dilution of added [³H]TdR may be determined with isotope dilution plots (Moriarty and Pollard, 1981 and 1982) and these indicate a wide range of degree of participation of added [³H]TdR. Previously described methods for extracting DNA from sediment bacteria may lead to underestimates and we described a more efficient recovery scheme.