Downregulation of cell-to-cell communication by the viralsrc gene is blocked by TMB-8 and recovery of communication is blocked by vanadate

Summary The viralsrc gene downregulates junctional communication, closing cell-to-cell membrane channels presumably by way of the phosphoinositide signal route. We show that TMB-8 [8-N, N-(diethylamino) octyl-3,4,5-trimethoxybenzoate] counteracts this downregulation in cells transformed by temperature-sensitive mutant Rous sarcoma virus: TMB-8 (36–72 m) raises junctional permeability when applied during activity ofsrc protein kinase, i.e., at steady permissive temperature; and TMB-8 inhibits the fall of junctional permeability, when the activity ofsrc protein kinase gets turned on. TMB-8 also (reversibly) inhibits the growth of the cells at permissive temperature and reverses the morphological changes associated with transformation. The morphological reversal lags several hours behind the junctional-permeability reversal. Communication recovers within a few minutes when the activity of thesrc protein kinase is turned off (in absence of TMB-8). Sodium orthovanadate (20 m) prevents this recovery, but it has no major effect on junctional permeability on its own. We discuss possible modes of action of these agents on critical stages of the signal route, related to intracellular Ca²⁺ and protein kinase C.     

Intercellular communication and the control of growth: XI. Alteration of junctional permeability by thesrc gene in a revertant cell with normal cytoskeleton

Summary To learn whether the reduction of cell-to-cell communication in transformation is a possible primary effect of pp60^src phosphorylation or secondary to a cytoskeletal alteration, we examined the junctional permeability in transformed cells with normal cytoskeleton. The permeability to fluorescentlabelled mono- and diglutamate was compared in clones of Faras' vole cells—clones transformed by Rous sarcoma virus and reverted from that transformation. One revertant clone (partial revertant), had the high levels of pp60^src kinase activity and tumorigenicity of the fully transformed parent clone, but had lost the cytoskeletal alterations of that clone. Another revertant clone (full revertant) had lost the tumorigenicity and most of the pp60^src kinase activity, in addition (J.F. Nawrocki et al., 1984,Mol. Cell Biol. 4:212). The junctional permeability of thepartial revertant with normal cytoskeleton was similar to that of the fully transformed parent clone with abnormal cytoskeleton. The permeabilities of both were lower than those of thefull revertant and the normal uninfected cell, demonstrating that the junctional change by thesrc gene is independent of the cytoskeletal one.     

Intercellular communication and the control of growth: XII. Alteration of junctional permeability by simian virus 40. roles of the large and smallT antigens

Summary We studied the action of temperature-sensitive mutant simian virus 40—a transformation-inducing DNA virus—on the junctional permeability to mono-, di- and triglutamate in rat embryo-, pancreas islet (epithelia)-, and 10T1/2 cell cultures. Junctional permeability was reduced (reversibly) in the transformed state. To dissect the genetics of this alteration, we used two kinds of mutant virus DNA. One kind had a temperature-sensitive mutation on theA gene, rendering the largeT antigen (the gene product) thermolabile (T ⁺ T ^–). The other had a deletion on theF gene, in addition, abolishing (permanently) the expression of the littlet antigen (t ^–). The junctional alteration occurred in the conditionT ⁺ t ⁺, but not in the conditionsT ^– t ⁺,T ⁺ t ^– orT ^– t ^–. Both antigens, thus, are necessary for this junctional alteration—a genetic requirement identical to that for decontrol of growth (but distinct from that of the cytoskeletal alteration).     

Hormonal regulation of cell junction permeability: Upregulation by catecholamine and prostaglandin E1

Summary By cellular activation with hormones, we test the proposition (Loewenstein, W.R.,Physiol. Rev. 61:829, 1981) that the permeability of cell junction is upregulated through elevation of the level of cyclic AMP. Cultured rat glioma C-6 cells, with -adrenergic receptors, and human lung WI-38 cells, with prostaglandin receptors, were exposed to catecholamine (isoproterenol) and prostaglandin E₁, respectively, while their junctions were probed with microinjected fluorescent-labelled mono-, di-, and triglutamate. Junctional permeability, as indexed by the proportion of cell interfaces transferring the probes, rose after the hormone treatments. The increase in permeability took several hours to develop and was associated with an increase in the number of gap-junctional membrane particles (freeze-fracture electron microscopy). Such interaction between hormonal and junctional intercellular communication may provide a mechanism for physiological regulation of junctional communication and (perhaps as part of that) for physiological coordination of responses of cells in organs and tissues to hormones.     

Cell junction and cyclic AMP: I. Upregulation of junctional membrane permeability and junctional membrane particles by administration of cyclic nucleotide or phosphodiesterase inhibitor

Summary Mammalian cells in culture were exposed to cyclic AMP, dibutyrul cyclic AMP, the phosphodiesterase inhibitor caffeine, or a combination of the last two, while junctional molecular transfer was probed with the series of microinjected, fluorescentlabelled linear molecules Glu, Glu-Glu, Glu-Glu-Glu, and Leu-Leu-Leu-Glu-Glu. The junctional permeability for these molecules increased with each of the agents, most markedly with the dibutyryl cyclic AMP-caffeine combination, as the intracellular cyclic nucleotide concentration rose. The junctional permeability effect developed over several hours. When probed with molecules close to the limit of cell-to-cell channel permeation (the most sensitive setting), the effect was detectable both, as an increase in the (relative) junctional transit rate and as an increase in the number of transferring cell interfaces in the test populations. The number of transferring cell interfaces reached a maximum by 4 hr, when the junctional transit rate, hence the junctional permeability, was still rising. Nonjunctional membrane permeability for the probe molecules, as determined by intracellular fluorescence loss, was not significantly changed (nor was there significant nonjunctional cell-to-cell transfer of molecules before or after the treatments). The rise in junctional permeability was associated with an increase in the number of gap junctional membrane particles, as determined by freeze-fracture electron microscopy: the average size of the particle clusters increased, and the frequency of the clusters increased, particularly that of the smaller (and presumably newer) clusters. This effect was blocked by treatments with the protein synthesis inhibitors cycloheximide or puromycin. These agents caused particle diminution (diminution of cluster frequency but not of average cluster size), with or without cyclic nucleotide. The junctional effects may represent a cyclic AMP-promoted proliferation of cell-to-cell channels. Some physiological implications, in particular, implications for hormone-regulated tissues, are discussed.     

Diacylglycerol downregulates junctional membrane permeability. TMB-8 blocks this effect

Summary We tested the question whether junctional cell-to-cell communication is regulated by the diacylglycerol branch of the phosphoinositide transmembrane signal pathway. Cultured epithelial rat liver cells were treated with the synthetic diacylglycerol 1-oleoyl-2-acetyl glycerol, while their junctional permeability was probed with the microinjected 443-dalton fluorescent tracer Lucifer Yellow. The treatment reduced junctional permeability (without affecting Lucifer permeability of nonjunctional cell membrane). The effect was dose dependent, with a threshold of about 25 g diacylglycerol/ml in sparse cultures and about 50 g/ml in confluent cultures. The reduction of junctional permeability began within 3 min of diacylglycerol application, peaked within 20 min, and reversed spontaneously within 90 min. The phorbol ester TPA mimicked the diacylglycerol effect, but the (spontaneous) reversal was slower. We propose that cell-to-cell communication is under dual physiological control: an upregulatory one, as exerted by the cyclic AMP signal route (Loewenstein, W.R., 1985,Biochem. Soc. Symp. London,50: 43–58), and a downregulatory one, by the diacylglycerol signal route.TMB-8 (54–70 m)—a blocker of intracellular Ca²⁺ mobilization-impeded the diacylglycerol action on junctional permeability. It prevented the effect of low diacylglycerol doses completely and it markedly reduced the effect of high doses. (It also counteracted the effect of TPA.) Ca²⁺ thus emerges as a possible candidate for a role in the junctional downregulation by the diacylglycerol signal route. We tentatively advance two models. In one, leaning closely on the Calcium Hypothesis of cell-to-cell channel regulation (Loewenstein, W.R., 1966,Ann. N.Y. Acad. Sci. 137:441–472), Ca²⁺ mediates the action of the route on the channel. In the other, Ca²⁺ acts farther removed from the channel, on protein kinase C.Calmidazolium (5–10 m)—an inhibitor of calmodulin-activated proteins—did not prevent the diacylglycerol-induced reduction of junctional permeability. Nor did sodium orthovanadate (25 or 50 m)—an inhibitor of tyrosyl phosphatase-prevent the reversal of diacylglycerol-induced (or TPA-induced) reduction of junctional permeability.     

Protamine alters structure and conductance ofNecturus gallbladder tight junctions without major electrical effects on the apical cell membrane

Summary Protamine is a naturally occurring basic protein (pI; 9.7 to 12.0). We have recently reported that protamine dissolved in the mucosal bath (2 to 20 m), induces about a twofold increase in transepithelial resistance inNecturus gallbladder within 10 min. Conductance decreased concomitantly with cation selectivity.In this leaky epithelium, where >90% of an applied current passes between cells, an increment in resistance of this magnitude suggests a paracellular actiona priori. To confirm this, ionic conductance across the apical cell membrane was studied with microelectrodes. Protamine increased transepithelial resistance without changing apical cell membrane voltage or fractional membrane resistance. Variation in extracellular K concentration (6 to 50mm) caused changes in apical membrane voltage not different from control.To determine if protamine-induced resistance changes were associated with structural alteration of tight junctions, gallbladders were fixedin situ at peak response and analyzed by freeze-fracture electron microscopy. According to a morphometrical analysis, the tight junctional intramembranous domain expands vertically due to incorporation of new strands (fibrils) into the main compact fibrillar meshwork.Since morphologic changes are complete within 10 min, strands are probably recycled into and out of the tight junctional membrane domain possibly by the cytoskeleton either from cytoplasmic vesicles or from intramembranous precursors. Regulation of tight junctional permeability by protamine and other perturbations may constitute a common mechanism by which leaky epithelia regulate transport, and protamine, in concentrations employed in this study, seems reasonably specific for the tight junction.     

Cell junction and cyclic AMP: III. Promotion of junctional membrane permeability and junctional membrane particles in a junction-deficient cell type

Summary The cyclic nucleotide effect on junction was studied in C1-1D cells, a mouse cancer cell type that fails to make permeable junctions in ordinary confluent culture. Upon administration of cyclic AMP, dibutyryl cyclic AMP, dibutyryl cyclic AMP plus caffeine (db-cAMP-caffeine), or cholera toxin (an adenylate cyclase activator), the cells acquired permeable junctions; they became electrically coupled and transferred fluorescent tracer molecules among each other—a transfer exhibiting the molecular size limit of permeation of normal cell-to-cell channels. The effect took several hours to develop. With the db-cAMP-caffeine treatment, junctional permeability emerged within two hours in one-fifth of the cell opopulation, and within the next few hours in the entire population. This development was not prevented by the cytokinesis inhibitor cytochalasin B. Permeable junctions formed also in two other conditions where the cell-endogenous cyclic AMP level may be expected to increase: serum starvation and low cell density. After three weeks of starving the cells of serum, a junctional permeability arose in confluent cultures, which on feeding with serum disappeared within two to three days. At low cell density, namely below confluency, the cells made permeable junctions, unstarved. In cultures of rather uniform density, the frequency of permeable junctions was inversely related to the average density, over the subconfluent range; at densities of about 1×10⁴ cells/cm², where the cells had few mutual contacts, 80% of the pairs presumed to be in contact were electrically coupled. In cultures with adjoining territories of high (confluent) and low cell density, there was coupling only in the last, and in this low-density state the cells were also capable of coupling with other mammalian cell types (mouse 3T3-BalbC and human Lesch-Nyhan cells).Correlated electron microscopy of freeze-fractured cell junctions showed no membrane differentiation in confluent C1-1D cultures. The junctions acquired differentiations, namely particle clusters of gap junction and strands of tight junction, upon cyclic nucleotide application or serum starvation and in the lowdensity condition. With db-cAMP-caffeine, these differentiations appeared within 4 hr of the treatment (confluent cultures), growing in size over the next hours. Treatment with cycloheximide, but not with cytochalasin B, prevented the development of recognizable gap junction and tight junction in cultures supplied with db-cAMP-caffeine.     

Purification and characterization of cyclic 3′5′-nucleotide phosphodiesterase D3 from Sinorhizobium fredii MAR-1

The cyclic 35-nucleotide phosphodiesterase D3 was purified from Sinorhizobium fredii MAR-1. The native enzyme had a molecular weight of approximately 44.5kDa and a subunit molecular weight of approximately 21kDa as judged by SDS-gel electrophoresis. The pH optimum of the enzyme for the hydrolysis of cyclic AMP was approximately 6.0 with both acetate and Tris-maleate buffers. The optimum temperature for hydrolysing cyclic AMP was approximately 50C. No metal ion was required for activity and EDTA up to 2.5mM did not markedly affect the enzyme. However, methylxanthines, adenine and adenosine as well as 5-AMP, ATP, ADP and metal ions like Zn²⁺, Fe²⁺, Pb²⁺, Al³⁺ and Fe³⁺, were strongly inhibitory at 2.5mM.The D3 enzyme could hydrolyse both cyclic AMP and cyclic GMP with the apparent K _m for cyclic AMP of approximately 0.23M.     

Biochemical transformation by temperature-sensitive mutants of herpes simplex virus type 1.

Biochemical transformation assays of herpes simplex virus type 1 temperature-sensitive (ts) mutants distinguished three groups of mutants with regard to their thymidine kinase (TK) transforming ability: those incapable of transferring the TK gene at either the permissive or restrictive temperatures (group I); those resembling the wild-type virus, and therefore able to transform at both the permissive and nonpermissive temperatures (group II); and those that failed to transform or exhibited very low transformation frequencies at the permissive temperature but were able to transform at the nonpermissive temperature (group III). Two mutants in group II exhibited greatly enhanced transformation efficiency at the permissive temperature. The ts lesions in the majority of the mutants tested map between 0.30 and 0.60 units on the viral genome. Mutants with TK-positive (TK+), but DNA-negative, phenotypes at the nonpermissive temperature produced no TK+ transformants at the permissive temperature and only unstable transformants at the nonpermissive temperature. This suggests that a function which is required for viral DNA synthesis is also required to obtain stable expression or to transfer the TK+ gene or both when transfer is mediated by the entire viral genome.     

Inhibitory mechanisms of low concentrations of oxidized low-density lipoprotein on platelet aggregation

Summary The intracellular mechanisms underlying oxidized low-density lipoprotein (oxLDL)-signaling pathways in platelets are not yet completely understood. Therefore, the aim of this study was to further examine the effects of oxLDL in prevention of platelet aggregation. In this study, oxLDL concentration-dependently (40–120 g/ml) inhibited platelet aggregation in human platelet-rich plasma stimulated by agonists. Moreover, oxLDL (40 and 80 g/ml) markedly decreased the fluorescence intensity of platelet membranes tagged with diphenylhexatriene. Rapid phosphorylation of a protein of Mr 47,000 (P47), a marker of protein kinase C activation, was triggered by PDBu (150 nM). This phosphorylation was markedly inhibited by oxLDL (40 and 80 g/ml) in phosphorus-32-labeled platelets. In addition, oxLDL (40 and 80 g/ml) markedly increased levels of cyclic AMP and cyclic AMP-induced vasodilator-stimulated phosphoprotein (VASP) Ser¹⁵⁷ phosphorylation. The thrombin-evoked increase in pHi was inhibited in the presence of oxLDL (40 and 80 g/ml). These results indicate that the antiplatelet activity of oxLDL may involve the following pathways. (1) oxLDL may initially induce conformational changes in platelet membranes, leading to inhibition of the activation of protein kinase C, followed by inhibition of P47 protein phosphorylation, and intracellular Ca²⁺ mobilization. (2) oxLDL also activated formation of cyclic AMP and cyclic AMP-induced VASP Ser¹⁵⁷ phosphorylation, resulting in inhibition of the Na⁺/H⁺exchanger; this leads to reduced intracellular Ca²⁺ mobilization, and ultimately to inhibition of platelet aggregation. This study further provides new insights concerning the effects of low concentrations of oxLDL on platelet aggregation.     

Cyclic AMP regulation of glucose transport in germinating Pilobolus longipes spores

Pilobolus longipes spores were activated by either glucose or 6-deoxyglucose. Glucose-induced spore activation was previously shown to follow an increase in intracellular cyclic AMP. Concurrent with glucose-induced spore activation, were shifts in 6-deoxyglucose transport kinetics towards higher V _max and K _m values. Cyclic AMP derivatives also caused spore activation and similar changes in the kinetic parameters of 6-deoxyglucose transport. The time course of activation was paralleled by changes in transport activity. Inhibition of phosphodiesterase alone did not cause activation or induce changes in transport activity, but in combination with sub-optimal levels of either 6-deoxyglucose or cAMP derivatives, it amplified the germination signals to produce large increases in both spore activation and 6-deoxyglucose transport activity. These results support the conclusion that glucose transport in germinating spores is regulated by cAMP.Abbreviations IBMX 3-isobutyl-1-methylxanthine; monobutyryl cyclic AMP - N⁶ monobutyryladenosine 3:5-cyclic monophosphate - 8-bromo cyclic AMP 8-bromoadenosine 3:5-cyclic monophosphate     

A new RNA synthesis mutant of E. coli

A temperature-sensitive mutant of E. coli is described. At the nonpermissive temperature, the capacity for RNA and protein synthesis decreases logarithmically in the mutant. The mutant is unable to support the growth of f2 or T7 virus, even at the permissive temperature. The temperature-sensitive mutation maps approximately 1 away from rif ^r in E. coli and therefore affects a gene previously undescribed. The temperature sensitivity is suppressed by sublethal concentrations of rifampicin. Moreover, in rif ^r T^s double mutants, the T ^s mutation suppresses rif ^r and vice versa. The partially purified RNA polymerases from mutant and wild-type cells have different temperature and salt optima.This research was supported by Public Health Service grant GM-14368 from the National Institute of General Medical Sciences and by grant IN-29 from the American Cancer Society. One of us (D.P.) is a predoctoral trainee, supported by a National Science Foundation Graduate Traineeship Program and by a National Institutes of Health Predoctoral Research Fellowship. S. Marshall is supported by LASBAU.     

Permeability properties of cell-to-cell channels: Kinetics of fluorescent tracer diffusion through a cell junction

Summary We have analyzed the intracellular and cell-to-cell diffusion kinetics of fluorescent tracers in theChironomus salivary gland. We use this analysis to investigate whether membrane potential-induced changes in junctional permeability are accompanied by changes in cell-to-cell channel selectivity. Tracers of different size and fluorescence wavelength were coinjected into a cell, and the fluorescence was monitored in this cell and an adjacent one. Rate constants,k _j , for cell-to-cell diffusion were derived by compartment model analysis, taking into account (i) cell-to-cell diffusion of the tracers; (ii) their loss from the cells; (iii) their binding (sequestration) to cytoplasmic components; and (iv) their relative mobility to cytoplasm, as determined separately on isolated cells. In cell pairs, we compared a tracer'sk _j with the electrical cell-to-cell conductance,g _j .At cell membrane resting potential, thek _j 's ranged 3.8–9.2×10^–3 sec^–1 for the small carboxyfluorescein (mol wt 376) to about 0.4×10^–3 sec^–1 for a large fluorescein-labeled sugar (mol wt 2327). Cell membrane depolarization reversibly reducedg _j andk _j for a large and a small tracer, all in the same proportion. This suggests that membrane potential controls the number of open channels, rather than their effective pore diameter or selectivity. From the inverse relation between tracer mean diameter and relativek _j we calculate an effective, permeation-limiting diameter of approximately 29 Å for the insect cell-to-cell channel. Intracellular diffusion was faster than cell-to-cell diffusion, and it was not solely dependent on tracer size. Rate constants for intracellular sequestration and loss through nonjunctional membrane were large enough to become rate-limiting for cell-to-cell tracer diffusion at low junctional permeabilities.     

Photoperiodic activation of Fos-like immunoreactive protein in neurones within the tuberal hypothalamus of Japanese quail

Photoperiodic stimulation of quail (Coturnix coturnix japonica) resulted in the appearance of a nuclear fos-like protein within neurones of the basal tuberal hypothalamus. On transfer to long days the number of neurones containing this fos-like immunoreactivity increased from about 150 to 700, the neurones being scattered throughout the length of the tubero-infundibular complex. This activation had occurred by early in the second long day and was maintained for at least three long days. Over this period circulating levels of LH increased seven-fold, indicating that photoperiodic induction had taken place in the birds. A similar time-course of fos-like induction occurred in castrated quail exposed to a single long day and then returned to short days. Activation mirrored the long-term changes in LH secretion found in this paradigm and fos-like immunoreactivity showed the same carry-over characteristics of photoperiodic induction, being maximal two days after the quail had been exposed to the single long day (and were again on short days) and when LH secretion was at its maximum. Activation of fos-like immunoreactive cells did not take place when long-day quail were transferred to short photoperiods. The evidence supports the view that the neurones being activated are involved in a specific fashion in the avian photoperiodic response.     

Selection procedure for deregulated iron transport mutants (fur) in Escherichia coli K 12: fur not only affects iron metabolism

Summary A selection procedure using Mn²⁺ is described. A high percentage of the Mn²⁺ resistant mutants had constitutive iron transport systems. By P1 transduction, and complementation with the cloned fur gene it could be shown that nearly all the mutants constitutive in the expression of the operon fusion fiu::placMu were only defective in fur. High concentrations of manganese inhibited the derepression of an iron-regulated lac operon fusion. In another iron-regulated lac operon fusion that was inducible by iron, manganese also induced the production of -galactosidase. Most of the fur mutants isolated (80%) were not able to grow on succinate, fumarate or acetate. After transformation with a fur ⁺ plasmid all 39 mutants tested were able to grow on succinate. In fur mutants the presence of succinate in the growth medium reduced succinate uptake rates by 50%–70%. Succinate dehydrogenase activity was reduced to 10% of that of the parent strain.     

Temperature-sensitive mutants of hsp82 of the budding yeast Saccharomyces cerevisiae

The budding yeast Saccharomyces cerevisiae has two HSP90-related genes per haploid genome, HSP82 and HSC82. Random mutations were induced in vitro in the HSP82 gene by treatment of the plasmid with hydroxylamine. Four temperature-sensitive (ts) mutants and one simultaneously is and cold-sensitivie (cs) mutant were then selected in a yeast strain in which HSC82 had previously been disrupted. The mutants were found to have single base changes in the coding region, which caused single amino acid substitutions in the HSP82 protein. All of these mutations occurred in amino acid residues that are well conserved among HSP90-related proteins of various species from Escherichia coli to human. Various properties including cell morphology, macromolecular syntheses and thermosensitivity were examined in each mutant at both the permissive and nonpermissive temperatures. The mutations in HSP82 caused pleiotropic effects on these properties although the phenotypes exhibited at the nonpermissive temperature varied among the mutants.     

Characterisation of a temperature-sensitive gametophore over-producing mutant of the moss, Physcomitrella patens

Summary A mutant of the moss, Physcomitrella patens, was isolated which was temperature-sensitive for the production of gametophores. At 17° C this mutant, designated ove 409, produced normal leafy shoots. At 24° C ove 409 produced many abnormal buds characteristic of bud-over-producing (ove) mutants. ove 409 produced an intermediate phenotype at 21° C. The cytokinin levels in the culture medium of this mutant, the wild-type and a cytokinin overproducing mutant, oveA78, were measured by combined gas chromatography mass spectrometry at the permissive and nonpermissive temperatures. Production of cytokinin was found to be affected by temperature in all strains; the change in phenotype of ove 409 correlated with the production of N⁶-(²-isopentenyl) adenine. Complementation analysis was performed using this mutant by protoplast fusion. ove 409 was found to be in the same complementation group as a previously isolated ove mutant, oveA78.     

Gap junction ultrastructure in three states of conductance

Summary Junctional conductance between the epidermal cells of the beetle Tenebrio molitor is raised after exposure to the hormone 20-hydroxyecdysone and lowered reversibly by exposure to chlorpromazine. Gap Junctional particle size, density and arrangement associated with these conductance changes were studied. We found no significant difference in particle density in gap junctions of control (2456±471 particles/m², mean ±S.D.) and hormone-treated epidermis (2490±315); however, a significant increase in packing density occurred in chlorpromazine-uncoupled epidermis (3133±665). The particles are randomly arranged in all three states of conductance. Particle size measurements show that the E-face gap junctional particles are heterogeneous with a mean diameter ±S.D. of 15.2±2.0 nm. No significant difference in particle size between controls and experimentals was detected. Although glutaraldehyde irreversibly uncoupled these cells, the absence of glutaraldehyde fixation but presence of glycerol induced marked alterations in the appearance of the gap junctions such that quantification was no longer possible. From this particle-packing data and our previous thin-section data, we estimate that there are 90000 gap junctional particles per cell (within junctional plaques). The conductance of a single gap junctional channel (assuming one population) changes from 94 pS to 213 pS after hormone treatment.     

The Endosperm and the Embryo of Arabidopsis thaliana are Independently Transformed through Infiltration by Agrobacterium tumefaciens

Several experiments had indicated that in planta transformation of Arabidopsis thaliana by Agrobacterium involves the female germ line. In order to identify the precise stage at which transformation occurs we have monitored expression of a gusA reporter gene in the two products of the double fertilization of infiltrated plants. The plantlets and the remaining endosperm of seeds were separately tested after germination. It appeared that in the majority of cases only the plantlet or the endosperm were transformed. Based on transformation with two vectors borne by two different Agrobacterium strains, the minority of co-transformed plantlets and endosperm can be explained by simultaneous but independent transformation events. These results indicate that mature female gametes could be the targets of T-DNA.