Selective responses of mouse T lymphocytes to different T mitogens and in mixed lymphocyte culture induced cytolysis reaction.

CBA spleen T lymphocytes were stimulated by the T mitogens concanavalin-A (Con-A), phytohemagglutinin (PHA), and leukoagglutinin (LA). On the 2nd to 3rd culture day the activated cells (blasts) were separated from the nonactivated cells (lymphocytes) by 1g velocity sedimentation. The lymphocytes which were not activated during the primary culture (lymphocyte fraction from the velocity sedimentation) were then stimulated by the same mitogens or in one-way MLC to DBA/2 m, and tested for relevant target lysis after MLC stimulation. Primary stimulation with Con-A abolished the responses to Con-A, to PHA, and to LA, whereas primary stimulation with PHA or with LA abolished the responses to these mitogens but left behind a considerable Con-A response. Stimulation with any one of the listed T mitogens did not significantly affect the MLC responses. While primary stimulation with Con-A abolished the relevant target cell lysis after MLC stimulation, primary stimulation with PHA or with LA reduced it only slightly. Assuming that the various mitogens stimulate separate subpopulations of T cells, the results seem to indicate that the Con-A-responsive population includes the PHA- and LA-responsive populations but not the MLC-responsive population. It also appears that the T cells generated to killer cells during MLC are mainly confined to the concanavalin-responsive population.     

A separation chamber to sort cells,nuclei, and chromosomes at moderate g forces. II. Studies on velocity sedimentation and equilibrium density centrifugation of mammalian cells

A separation chamber having a surface of 50 cm² and a height of 2 cm is described for the rapid separation of cells and cell organelles at acceleration forces from 10 to 90g. To eliminate wall sedimentation artifacts, the chamber was positioned 20 cm from the rotor axis in a speed-controlled centrifuge. The chamber has flow deflectors for the undisturbed introduction of the sample layer and the gradient; an antivortex cross prevents swirling upon acceleration and deceleration. To illustrate the use of the separation chamber, examples of velocity sedimentation and of equilibrium density centrifugation are given: (i) human monocytes (70% were 90% pure) are separated from lymphocytes in 10 min at 20g; (ii) nonparenchymal rat liver cells are separated in 10 min at 16g in 97% pure endothelial cells and 99% pure Kupffer cells; (iii) equilibrium density centrifugation of human peripheral blood cells at about 90g permits the separation of erythrocytes, monocytes, lymphocytes, neutrophils, eosinophils, and basophils in one run. B cells are separated from T cells. The movement of swinging buckets is analyzed in mathematical terms and a simple method is offered to determine the position of cells in density gradients with the use of a small programmable calculator.     

Folded chromosomes in non-cycling yeast cells

Folded chromosomes from stationary phase or ammonia-starved yeast (Saccharomyces cerevisiae) cells can be isolated as compact structures, distinct and separable by sedimentation from the folded chromosomes of pre-replicative (G₁) and post-replicative (G₂) nuclei. Such cells are in a dormant or non-cycling (G₀) stage. The folded genome from such cells is referred to as theg ₀ form and has a sedimentation velocity of about 1700S. Sedimentation analysis of mixed G₀ and G₁ and G₂ lysates indicates that theg ₀ structure is not an artifactual breakdown product of theg ₁ org ₂ structures. A comparison of the proteins fromg ₀ versusg ₁ andg ₂ structures by gel electrophoresis has revealed differences in about 10–11 non-histone and perhaps 2 histone proteins. Entry into the G₀ stage, and emergence into G₁ after G₀ arrest, are accompanied by an ordered transition fromg ₂ tog ₁ tog ₀, and fromg ₀ tog ₁ tog ₂ forms, respectively. Hence, entry into G₀ and re-emergence from G₀ can be considered as differentiative processes, not normally part of the cell cycle, and accompanied by specific changes in the tertiary organization of the genome.     

Limiting the sedimentation coefficient for sedimentation velocity data analysis: partial boundary modeling and g(s) approaches revisited

Brown and coworkers (Eur. Biophys. J. 38 (2009) 1079–1099) introduced partial boundary modeling (PBM) to simplify sedimentation velocity data analysis by excluding species outside the range of interest (e.g., aggregates, impurities) via restricting the sedimentation coefficient range being fitted. They strongly criticized the alternate approach of fitting g(s^∗) distributions using similar range limits, arguing that (i) it produces “nonoptimal fits in the original data space” and (ii) the g(s^∗) data transformations lead to gross underestimates of the parameter confidence intervals. It is shown here that neither of those criticisms is valid. These two approaches are not truly fitting the same data or in equivalent ways; thus, they should not actually give the same best-fit parameters. The confidence limits for g(s^∗) fits derived using F statistics, bootstrap, or a new Monte Carlo algorithm are in good agreement and show no evidence for significant statistical distortion. Here 15 g(s^∗) measurements on monoclonal antibody samples gave monomer mass estimates with experimental standard deviations of less than 1%, close to the confidence limit estimates. Tests on both real and simulated data help to clarify the strengths and drawbacks of both approaches. New algorithms for computing g(s^∗) and a scan-differencing approach for PBM are introduced.     

Functional significance of the Fc receptor on mixed lymphocyte culture-activated T blasts.

Fc receptor (FcR)-carrying blast cells were separated from nonFcR blast cells after priming in primary mixed lymphocyte culture (MLC) by erythrocyte-antibody rosetting and by 1-g velocity sedimentation. Both types of blast cells were cytotoxic to relevant allogeneic target cells in vitro. The FcR-positive and FcR-negative blasts were then plated on a feeder layer syngeneic to the primary MLC responder cells. After feeder layer culture both types of cells reverted into secondary small lymphocytes. When restimulated with the original stimulator cells, both types of secondary lymphocytes produced the relevant secondary cell-mediated lysis responses. Thus no functionally dissimilar subclasses of secondary T lymphocytes can be distinguished in the MLC-stimulated T-cell population on the basis of the FcR.     

Neutral gravitaxis of gliding Loxodes exposed to normal and raised gravity

Summary In the statocystoid-bearing, flat ciliate Loxodes, the peculiar steady locomotion on submersed substrates (called gliding) was investigated between 1 g and 5.4 g under controlled environmental conditions in a centrifuge microscope. Videorecordings of the movements of large cell populations were processed with an automated analysis procedure. At 1 g, possible sedimentation was fully compensated, and vertical shifts of the population were neutralized because upward and downward orientations of the cells occurred at equal proportions (neutral gravitaxis). With rising gravity the resultant velocity of upward-gliding cells remained unchanged, whereas the velocity of downward-gliding cells increased continuously. Long-term exposure to hypergravity did not generate detectable signs of adaptation. The bipolar orientation of Loxodes persisted even under fivefold normal gravity, but the axis of orientation rotated from the gravity axis in the counterclockwise direction. The data suggest that both gravikinesis and graviorientation of gliding Loxodes are instrumental in perfect neutralization of sedimentation at terrestrial conditions.     

Antigen modulation of the immune response. VI. Rate of large memory cell appearance in lymph nodes and thoracic duct lymph

We have studied the rate of appearance of memory B-cell subpopulations in the antigen draining lymph nodes and thoracic duct lymph of rats using 1g velocity sedimentation and adoptive transfer. Five days after immunization 100% of the memory response was attributable to large cells. By Days 7, 14, 28, and 77 after priming the large cells contribution to the memory population dropped to 86, 35, 15, and 10% respectively. At the same time the small cell contribution rose from 20% on Day 14 to 46% on Days 28 and 77. The same results were obtained with thoracic duct lymphocytes with the large cells contributing 53% of the response on Day 7 and 20% on Day 150. Appropriate controls were included to show that differential suppression was not responsible for these results. Furthermore, when purified large memory cells were passaged through intermediate hosts for 7 to 11 days, between 76 and 81% of the large cells matured into medium or small lymphocytes. These data show that the earliest memory cells formed after antigen encounter are the blast-like large lymphocytes and that these evolve, through a series of antigen-independent events, first into medium and then small lymphocytes. A model of memory cell development incorporating these results and the results of others is presented.     

Acid Hydrolase Activity During Growth and Encystment in Acanthamoeba castellanii*

SYNOPSIS. The activity and sedimentation of acid phosphatase (APase), acid deoxyribonuclease (DNase), and acid ribonuclease (RNase) were investigated throughout growth and encystment in Acanthamoeba castellanii. The activities/mg protein of all 3 hydrolases are high in young cultures and decrease to constant levels in postlog cells. The RNase activity/ ameba decreases 50% during growth, whereas the activity/cell of both APase and DNase remains constant. The percent sedimentation at 20,000 g of all 3 enzymes gradually increases from about 40% in midlog to a plateau of 80% in postlog cells. During encystment, the sedimentation behavior of RNase differs from that of APase and DNase. Encystment is characterized by a differential decrease in the activity/cell of the 3 hydrolases, with RNase decreasing most rapidly and APase least rapidly. APase is unique in that a transient increase of its specific activity is noted during encystment, even though its activity/cell is decreasing.     

Amyloplast sedimentation kinetics in gravistimulated maize roots

Amyloplast sedimentation in gravistimulated maize (Zea mays L.) roots was measured using the change in angle from the center of the cell to each amyloplast as an index of sedimentation. Using tissue fixed after gravistimulation, the relationship between mean amyloplast angle and the duration of gravistimulation was found to be linear when plotted on a logarithmic time scale. Extrapolated values for the onset of angular change are 5.9 s after the start of gravistimulation for the entire population of amyloplasts and 11.8 s for lead amyloplasts. By multiplying the instantaneous angular velocity (in radians) by the cell center to amyloplast radius, it is possible to calculate the initial sedimentation velocity to be 19.1 m min^-1 at 5.9 s. During sedimentation, the mean amyloplast angles surpass the calculated cell corner angle of 123° at 2.2 min for all amyloplasts and at 19 s for lead amyloplasts near the new lower wall. Thus, substantial sedimentation occurs within the presentation time, calculated to be 4.1 min. These kinetics are consistent with several hypotheses of graviperception.Symbol t_p presentation time     

Multicomponent synthesis of some new (1S,4S)-2,5-diazabicyclo[2.2.1]heptane-dithiocarbamates and their in vitro anti-proliferative activity against CaSki,MDA-MB-231 and SK-Lu-1 tumour cells as apoptosis inducing agents without necrosis

Identification of a new class of antitumor agent capable to induce apoptosis without triggering necrotic cell death event is challenging. The present communication describes the multicomponent synthesis of seven new (1S,4S)-2,5-diazabicyclo[2.2.1]heptane-dithiocarbamates and their in vitro antiproliferative activity on cervical cancer cell line (CaSki), breast cancer cell line (MDA-MB231), lung cancer cell line (SK-Lu-1) and human lymphocytes. Among the synthesized dithiocarbamates, compound 9e displayed significant antiproliferative activity without inducing any necrotic cell death (both on tumour cells and lymphocytes) and induced apoptosis in tumor cells by the caspase dependent apoptotic pathway. The compound 9e also exhibited greater tumor selectivity than human lymphocytes. In silico ADME predictions revealed that compound 9e has the potential to be developed as a drug candidate. Rapid chemical modifications of this lead are thus highly necessary for further investigation as a drug like safer antitumor candidate and also to achieve compounds with better activity profile.     

Effects of nonylphenol on hematological parameters and immune responses in immature rainbow trout (Oncorhynchus mykiss)

ABSTRACT

This study investigated the effects of nonylphenol (NP) on hematological and immunological parameters in both male and female rainbow trout (Oncorhynchus mykiss). Fish were randomly distributed into six groups and administered with NP (10, 50 and 100 μg g^-1 week^-1 BW) and a single dose of 17-β estradiol (E2; 2 μg g^-1 week^-1 BW, positive control). The solvent controls received ethanol and coconut oil as a vehicle, while the controls were not injected. Red blood cells (RBCs) count, hematocrit (Hct), hemoglobin (Hb), white blood cells (WBCs), and lymphocytes demonstrated a NP dose-dependent decrease, whereas mean corpuscular volume (MCV), mean corpuscular hemoglobin (MCH), monocytes, and neutrophils showed an increasing trend in both male and female fish 21 days post-treatment. Also, RBCs, Hb, MCHC, WBCs, and lymphocytes were significantly reduced (p<0.05) in E2 treated fish. Lysozyme, complement components (C3 and C4) and immunoglobulin M (IgM) were increased in fish sera subjected to 10 and 50 μg g^-1 NP, while these decreased in groups administered with 100 μg g^-1 NP and 2 μg g^-1 E2. Except for C4 level at 10 μg g^-1 NP, no significant differences were observed in hematological and immunological parameters of male and female in each treatment. Overall, a frequent exposure to NP could lead to adverse effects on fish immune-physiological functions which may cause serious ecological threats of fish natural population sustainability.     

Effect of simulated and real weightlessness on early regeneration stages of Brassica napus protoplasts

Summary Results from experiments using protoplasts in space, performed on the Biokosmos 9 satellite in 1989 and on the Space Shuttle on the IML-1-mission in 1992 and S/MM-03 in 1996, are presented. This paper focuses on the observation that the regeneration capacity of protoplasts is lower under micro-g conditions than under 1 g conditions. These aspects have been difficult to interpret and raise new questions about the mechanisms behind the observed effects. In an effort to try to find a key element to the poor regeneration capacity, ground-based studies were initiated focusing on the effect of the variable organization and quantity of corticular microtubules (CMTs) as a consequence of short periods of real and simulated weightlessness. The new results demonstrated the capacity of protoplasts to enter division, confirming the findings in space that this was affected by gravity. The percentage of dividing cells significantly decreased as a result of exposure to simulated weightlessness on a 2-D clinostat. Similar observations were made when comparing the wall components, which confirmed that the reconstitution of the cell wall was retarded under both space conditions and simulated weightlessness. The peroxidase activity in protoplasts exposed to microgravity was slightly decreased in both 0 g and 1 g flight samples compared with the ground controls, whereas activity in the protoplasts exposed to simulated weightlessness was similar to activity in the 1 g control. The observation that protoplasts had randomized and more sparse corticular microtubules when exposed to various forms of simulated and real weightlessness on a free-fall machine on the ground could indicate that the low division capacity in 0 g protoplasts was correlated with an abnormal CMT array in these protoplasts. This study has increased our knowledge of the more basic biochemical and cell biological aspects of g effects. This is an important link in preparation for the new space era, when it will be possible to follow the growth of single cells and tissue cultures for generations under microgravity conditions on the new International Space Station, which will be functional on a permanent basis from the year 2003.     

Fractionation of lymphocyte subpopulations which regulate mixed lymphocyte reactions.

Four days after injection of allogeneic lymphocytes BALB/c splenic T cells suppress proliferation of syngeneic cells in mixed lymphocyte reactions (MLR). Conversely, lymph node cells from the same mice amplify MLR responses. To further characterize these functional subpopulations, alloantigen-primed lymphocyte suspensions from both organs were fractionated by velocity sedimentation at unit-gravity. After fractionation MLR suppressor cells from spleens localized exclusively in rapidlly sedimenting fractions of large cells. MLR suppressor activity of cells from these fractions, as well as that of unfractionated spleen cell suspensions, was abolished by treatment with anti-Thy-1.2 serum and complement. Spleen cell fractions of similar sedimentation velocity also secreted a soluble MLR suppressor into culture supernatants. Although inhibitory of MLR, spleen cells of rapid sedimentation velocity did not suppress responses to T cell mitogens. In marked contrast with the effects of spleen cells, large 4-day-alloantigen-primed lymph node cells had no suppressive activity in MLR. MLR amplifier cells of uncertain derivation were found in fractions of medium sedimentation velocity from both spleens and lymph nodes. Fractionation of alloantigen-primed lymph node cell suspensions did reveal, however, a subpopulation of small cells with MLR suppressor acitivty which was unaffected by treatment with anti-Thy-1 serum and complement. The data thus indicate that large alloantigen-activated lymphocytes are not intrinsically suppressive nor are cells which suppress MLR necessarily large. We consequently conclude that regulation of MLR responses by alloantigen-primed lymphocytes involves a complex interaction between distinct functional subpopulations of cells which are separable both by physical and biologic properties.     

OPA1-associated disorders: Phenotypes and pathophysiology

The OPA1 gene, encoding a dynamin-like mitochondrial GTPase, is involved in autosomal dominant optic atrophy (ADOA, OMIM #165500). ADOA, also known as Kjer's optic atrophy, affects retinal ganglion cells and the axons forming the optic nerve, leading to progressive visual loss. OPA1 gene sequencing in patients with hereditary optic neuropathies indicates that the clinical spectrum of ADOA is larger than previously thought. Specific OPA1 mutations are responsible for several distinct clinical presentations, such as ADOA with deafness (ADOAD), and severe multi-systemic syndromes, the so-called “ADOA plus” disorders, which involve neurological and neuromuscular symptoms similar to those due to mitochondrial oxidative phosphorylation defects or mitochondrial DNA instability. The study of the various clinical presentations of ADOA in conjunction with the investigation of OPA1 mutations in fibroblasts from patients with optic atrophy provides new insights into the pathophysiological mechanisms of the disease while underscoring the multiple physiological roles played by OPA1 in energetic metabolism, mitochondrial structure and maintenance, and cell death. Finally, OPA1 represents an important new paradigm for emerging neurodegenerative diseases affecting mitochondrial structure, plasticity and functions.     

Effector mechanisms in allograft rejection. II. Density, electrophoresis, and size fractionation of allograft-infiltrating cells demonstrating several classes of killer cells.

An analysis of killer cells infiltrating “sponge-matrix” allografts during rejection has been performed by preparative fractionation by density centrifugation, velocity sedimentation, and free flow cell electrophoresis and by the use of heterologous anti-T-cell sera. At the peak of rejection, 7 to 8 days after transplantation, the allograft is infiltrated by several classes of killer cells, most notably by non-T lymphocytes, monocytes/macrophages, and T lymphocytes. The predominant cell types capable of performing in vitro lysis of relevant target cells appeared to be monocytes and non-T lymphocytes. T lymphocytes formed only a minority of the killer cells at this stage of the response. In contrast, as also documented earlier, the predominant killer cells in the regional lymph nodes and the spleen of the graft recipient mice were T lymphocytes (blasts).     

Antigen modulation of the immune response. V. Generation of large memory cells in antigen draining lymph nodes.

We have studied the distribution of memory B cell subpopulations by using 1g velocity sedimentation and adoptive transfer. When the non-antigen-draining mesenteric lymph nodes were examined 4 weeks after intraperitoneal immunization with DNPBGG, large memory cells were present in only very low numbers. However, when the draining parathymic nodes were removed, a significant enrichment of large memory cell activity was seen. When these results were corrected for the cell yields in each 1g separated fraction we found that 59% of the total memory cells were small, 36% medium and 5% large in the mesenteric lymph node preparations and 40% were small, 46% medium and 14% large in the parathymic lymph node suspensions. When popliteal lymph nodes were removed after footpad immunization, 32% of the total memory cell activity was in the small cell fraction while 49% was in the medium fraction and 18% in the large cell fraction. Control experiments were also run to show that the shift in the velocity sedimentation profile of the various memory cell populations was not an artifact of the adoptive transfer system nor a result of selective antigen triggering.From these results it would appear that the size distribution of memory cells depends upon the source of cells studied, large memory cells being found predominantly only in lymph nodes draining the site of antigen injection. Since the large memory cells can also be found in the thoracic duct lymph after footpad immunization but not after intraperitoneal immunization, it is suggested that the larger cells can circulate to other lymphoid tissues but cannot recirculate.     

Influence of electron acceptor,carbon, nitrogen,and phosphorus on polyhydroxyalkanoate (PHA) production by <Emphasis Type="Italic">Brachymonas</Emphasis> sp. P12

Polyhydroxyalkanoates (PHAs), intracellular carbon and energy reserve compounds in many bacteria, have been used extensively in biodegradable plastics. PHA formation is influenced by nutrient limitations and growth conditions. To characterize the PHA accumulation in a new denitrifying phosphorus-removing bacterium Brachymonas sp. P12, batch experiments were conducted in which the electron acceptor (oxygen or nitrate) was varied and different concentrations of carbon (acetate), nitrogen (NH₄Cl), and phosphorus (KH₂PO₄) were used. Polyhydroxybutyrate (PHB) was the dominant product during PHA formation when acetate was the sole carbon source. The PHB content of aerobically growing cells increased from 431 to 636 mg PHB g⁻¹ biomass, but the PHB concentration of an anoxic culture decreased (−218 mg PHB g⁻¹ biomass), when PHB was utilized simultaneously with acetate as an electron donor for anoxic denitrification. The specific PHB production rate of the carbon-limited batch, 158.2 mg PHB g⁻¹ biomass h⁻¹, was much greater than that of batches with normal or excess carbon. The effects of phosphorus and nitrogen concentrations on PHB accumulation were clearly less than the effect of carbon concentration. According to the correlation between the specific PHB production rate and the specific cell growth rate, PHB accumulation by Brachymonas sp. P12 is enhanced by nutrient limitation, is growth-associated, and provides additional energy for the biosynthesis of non-PHB cell constituents to increase the cell growth rate beyond the usual level.     

Nickel tolerance and accumulation by bacteria from rhizosphere of nickel hyperaccumulators in serpentine soil ecosystem of Andaman, India

Rhizosphere microorganisms harboring nickel hyperaccumulators, Rinorea bengalensis (Wall.) O. K. and Dichapetalum gelonioides ssp. andamanicum (King) Leenh. endemic to serpentine outcrops of Andaman Islands, India, were screened for their tolerance and accumulation of Ni. The rhizosphere soils from both the plants were rich in total and available Ni along with Co, Cr, Fe and Mg but poor in microbial density and were dominated by bacteria. Out of total 123 rhizosphere microorganisms (99 bacteria and 24 fungi), bacteria were more tolerant to Ni than fungi. Viable cells of selected Ni-tolerant bacterial isolates (MIC = 13.6–28.9 mM Ni) belonging to Pseudomonas, Bacillus and Cupriavidus were capable of accumulating nickel (209.5–224.0 μM Ni g⁻¹ protein) from aqueous solution. Cupriavidus pauculus KPS 201 (MTCC 6280), showing highest degree of nickel tolerance (MIC 28.9 mM Ni) and uptake (224.0 μM Ni g⁻¹ protein, 60 min) was used for detailed study. Kinetics of nickel uptake in C. pauculus KPS 201 followed a linearized Lineweaver-Burk plot. The K _m and V _max for nickel uptake by minimal medium grown-cells approximated 1.5 mM Ni and 636.9 μM Ni g⁻¹ protein, respectively. The uptake process was inhibited by Co, Cu, Cd, Mg, Mn and Zn, however, complete inhibition was not achieved even in presence of 500 mM Mg. Metabolic inhibitors, sodium azide (1.0 mM) and carbonyl cyanide m-chlorophenylhydrazone (0.4 mM) strongly inhibited nickel uptake suggesting the process as an energy dependent one. The present study clearly shows that bacteria in the rhizosphere of Ni-hyperaccumulators are capable of tolerating high concentration of Ni and also possesses nickel uptake potential. The Ni-hyperaccumulators in combination with these Ni-resistant bacteria could be an ideal tool for nickel bioremediation.     

Is the salt marsh vegetation a determining factor in the sedimentation processes?

Many authors have referred to the important role of vegetation in the consolidation of salt marsh sediments, but experiments previously carried out by us have shown results that do not always agree with these statements. In other words, the type of salt marsh surface coverage is not the main factor that contributes to the consolidation of sediments. To test this hypothesis different Portuguese salt marsh stations (species/unvegetated areas) from two sites, Tagus estuary (Corroios and Pancas) and Ria de Aveiro (Barra and Verdemilho), were compared to evaluate their influence on suspended matter deposition on the salt marsh surface. A short-term sedimentation study was performed within stands of Spartina maritima, Halimione portulacoides, Sarcocornia perennis subsp. perennis and unvegetated areas, by analysing the deposition of sediment material on nylon filters anchored to the marsh surface. Numerical results obtained from hydrodynamic models coupled to a Lagrangean module implemented for the Ria de Aveiro and the Tagus Estuary, namely the root-mean square velocity (V _rms) and residual velocity of tides, were also used. Average sedimentation rates (mean value between the different surface cover in a salt marsh) showed a seasonal trend more or less defined but with significantly different values between sites and salt marshes. Sedimentation rates varied between marshes: there are significant differences between Pancas and the other three marshes, but only significant differences in sedimentation rates between Spartina and Sarcocornia. Despite the important role of vegetation in the consolidation of salt marsh sediments, our results suggest that, the position of stations and related abiotic conditions in the salt marshes are determining factors of variation to take into account in the studies related with the stabilization and survival of salt marshes facing sea level rise. Handling editor: P. Viaroli     

Dose response curves after irradiation of Arabidopsis seeds: a possible explanation for the “saturation” in mutant frequency at high radiation doses

Mutant frequency “saturation” in Arabidopsis' “main” inflorescence after fast neutron or X-ray treatment of seeds was observed using cell populations with heterogeneous radiation-sensitivities. Mutant frequencies were determined in (1) morphologically normal and conspicuous plants, (2) main and lateral inflorescences, and (3) different M₁-fertility classes. At moderate radiation doses (47 Gy fast neutrons and 233 Gy X-rays) significant differences in mutant frequencies between different M₁-fertility classes were observed. This suggests that cell populations with heterogeneous sensitivities were studied. No significant differences were observed either between the mutant frequencies in main and lateral inflorescences or between the ones in inflorescences of morphologically normal and conspicuous plants. This suggests that these inflorescences were formed by cell populations with similar but heterogeneous sensitivities.