Gibberellin mutants

Research on gibberellin (GA) mutants is reviewed, focusing on reports, published since 1993. The mutants have usually been identified via a shoot elongation screen. This screen exposes mutations influencing GA synthesis, deactivation and reception, and also those acting further down the elongation pathway. Mutations blocking synthesis lead to a dwarf. GA-responsive phenotype. Numerous such mutations are now known. For some steps homologous mutations are known across 4 to 6 model species. Examples include the early step, geranylgeranyl diphosphate to copalyl diphosphate, and the activation step, GA₂₆to GA₁. Several GA-synthesis mutations have now been characterised at the molecular level and all are in structural genes. It is now clear some steps are controlled by gene families with distinct tissue specificity. Further, some enzymes control more than one step in the biosynthetic pathway. The only mutation known to block deactivation. sin in pea, leads to an elongated phenotype. The GA response mutants are less well understood and are a more diverse group. They include elongated mutants with a constitutive GA response (spy in arabidopsis. la cry-s in pea and sln in barley) or an enhanced GA response (phyB in arabidopsis. lv in pea and Ih in cucumber). Short response mutants include at least three types. One group accumulates GAs and are mostly unresponsive to applied GA (gai in arabidopsis. D8 in maize. Rht3 in wheat). A recently identified group, exemplified by Igr in pea and gas in barley, have a short stature and reduced response but attain full responses with very high doses of exogenous GA. How close these mutations act to GA reception remains to be determined. Lastly, a number of mutants with short stature and reduced GA response differ in overall phenotype from GA-deficient plants and cannot be made to mimic wild type even at high GA application rates. These mutations act beyond GA reception and some have already proved useful in elucidating other pathways that affect shoot elongation. For example, the lk and lkb mutations in pea appear to block brassinolide synthesis and this in turn prevents normal GA-mediated elongation responses.     

Nuclear size and DNA content of the embryo and endosperm during their initial stages of development in Glycine max (Fabaceae)

A technique was developed for isolating embryo sacs from ovules of soybean and for separating embryo from endosperm. Image analysis and cytophotometry were used to determine the relative mass of DNA and size of nuclei of endosperm and embryo cells. Analyses were done at the globular through late heart-shaped embryo stages to correlate ploidy level or nuclear size, and differentiation in these tissues. Mean size of embryo nuclei was fairly constant through all stages studied. Ploidy condition of the embryo was stable, 95%–99% of the nuclei were distributed in a bipolar pattern by relative mass at 2C and 4C. Few embryo nuclei (3%) had ploidy levels above 4C at the late heart-shaped embryo stage. Variability in size of endosperm nuclei seemed correlated with the morphological state of these nuclei (free-nuclear vs. cellular). Most endosperm cells did not show significant polyploidy with 84%–92% of nuclei in the expected 3C–6C range, but some nuclei with elevated ploidy levels were noted during endosperm cellularization. Endosperm senescence was correlated with nuclear DNA loss over time. Polyploidy seems to have no direct role in the early differentiation of the soybean embryo and endosperm, but these stable conditions may be necessary for the early establishment of the embryo.     

Resistance to killing by tumor necrosis factor in an adipocyte cell line caused by a defect in arachidonic acid biosynthesis

We have found that TA1-R6, which are resistant to the cytotoxic effects of tumor necrosis factor (TNF) in the presence of cycloheximide (Reid, T. R., Torti, F., and Ringold, G. M. (1989) J. Biol. Chem. 264, 4583-4589), have reduced ability to release arachidonic acid (20:4) from membrane phospholipids in response to either TNF or the calcium ionophore A23187 treatment. However, no defect in the activity of phospholipase A2, the principal enzyme responsible for the release of 20:4 from phospholipids, was observed in these cells. Detailed biochemical characterization of these TNF-resistant cells has revealed that these cells are unable to synthesize 20:4 endogenously because of a defect in delta 6-desaturase, the rate-limiting enzyme of 20:4 biosynthesis. This deficiency leads to a marked decrease in the steady-state levels of 20:4 present in choline-containing phospholipid (PC) and ethanolamine-containing phospholipid (PE). The TA1-R6 cells, however, are capable of incorporating exogenous 20:4 into PC and PE, and when loaded in such manner they become significantly more sensitive to the cytotoxic effects of TNF in the presence of cycloheximide. Therefore, the release of arachidonic acid from phospholipids appears to be a critical element in the signaling pathway utilized by TNF and is essential to the rapid cytotoxic response elicited by TNF in the absence of protein synthesis in wild-type TA1 cells.     

Correlation between hydrophobicity and resistance to nonoxynol-9 and vancomycin for urogenital isolates of lactobacilli

Seven clinical isolates of lactobacilli were found to be relatively hydrophobic with a mean water-contact angle of 66 +/- 15 degrees, and to be susceptible to 1% nonoxynol-9 and vancomycin. However, seven other strains were relatively hydrophilic with a mean water-contact angle of 32 +/- 13 degrees, and found to be resistant to 25% nonoxynol-9 and vancomycin. Thus, the surface properties of lactobacilli that influence susceptibility to antimicrobial agents may involve surface hydrophobicity. Possibly the penetration barrier posed by the cell surface towards these two nonionic antimicrobials is lower for hydrophobic cells than for hydrophilic cells.     

Analysis of 2',5'-oligoadenylates in cells and tissues

Complex mixtures of 2',5'-oligoadenylates are formed in cells and tissues under several different circumstances, and methods for analyzing such mixtures are reviewed. Separation is achieved by high-performance liquid chromatography and quantitation by competition-binding assays, using three different types of antibodies or a specific binding protein, or by functional assay, using preparations of an endonuclease specifically activated by some of the 2',5'-oligoadenylates. Representative results from three different biological systems are presented. The function of 2',5'-oligoadenylates as activators of intracellular RNA degradation is discussed, along with the possibility that these compounds may serve as signals for other intracellular regulatory processes.     

Effect of a mass of lead in the incubator space of growing cells

Mouse fibroblasts (3T3 line) growing in vitro in an incubator were subjected to inclusion in the incubator space of different masses and different arrangements of metallic lead. It was found that the mass of lead was positively correlated with death of a percentage of the 3T3 cells. Aside from mass, a second property of the lead, that of shape, was also found to be related to the percentage cell death. Progeny of 3T3 cells whose parents had been previously exposed to lead during their growth were found to have developed a resistance to its cytocidal effect on subsequent exposure. Such progeny cells showed no increase in cell death over the period of time which proved lethal to cells which had not had prior exposure to lead in their environment.