Levels of IAA, Cytokinins, ABA and Ethylene in Rice Plants as Affected by a Gibberellin Biosynthesis Inhibitor, Uniconazole-P.

Effects of uniconazole-P, a triazole-type growth retardant,on endogenous levels of IAA, cytokinins, ABA and ethylene inrice seedlings were investigated. Endogenous levels of IAA andABA were similar between control and uniconazole-P-treated riceshoots. Evolution of ethylene was promoted slightly, being 1.8times greater under 0.3 ppm uniconazole-P treatment than thatof control. The most obvious effect was the increase of trans-Zand trans-RZ in shoots. Shoots treated with uniconazole-P (10mg/m² nursery box) contained 3.4 times and 3 times more trans-Zand trans-RZ than control, respectively. No significant differencesof cytokinin levels were recognized in roots except for cis-RZ.The increase of ethylene and active forms of cytokinins, andthe decrease of gibberellin in the shoots may be the basis forphysiological phenomena caused by uniconazole-P, namely thepromotion of flowering in woody plants and the enhancement offemaleness in cucumber. (Received September 9, 1987; Accepted October 20, 1987)     

Application of 39K NMR Spectroscopy to Potassium Transport in Mung Bean Root Tips

The intracellular K⁺ concentration and its change in mung bean[Vigna mungo (L.) Hepper] root tips were investigated non-invasivelywith ³⁹K nuclear magnetic resonance spectroscopy using a membraneimpermeable shift reagent, dysprosium (III) tripolyphosphate[Dy(PPP_i)^7–₂]. The K⁺ resonance was shifted to highermagnetic field in proportion to the concentration of the shiftreagent. In addition to a reference capillary peak for measuringthe K⁺ concentration, two well-resolved peaks (intra- and extracellularK⁺ resonances) were observed in the 39K NMR spectra of mungbean root tips. The intracellular K⁺ concentration was determinedto be 41 mM, which was similar to the value obtained by flamephotometry. When 20 mM KCl was added to the external medium,the intensity of the intracellular K⁺ resonance gradually increasedand the net K⁺ uptake rate was calculated to be 4.1 micromolesper gram fresh weight per hour. After removal of KCl from theperfusion medium, the intracellular K⁺ concentration considerablydecreased. With ³¹P NMR method, 2.5 mM Dy(PPP_j)^7–1₂ and20 mM KCl had little effect on the ATP level in the cells. Wehave indicated that the ³⁹K NMR method can be used to determinethe K⁺ levels and net fluxes of the K⁺ transport in perfusedroot tips successively. (Received April 6, 1988; Accepted September 29, 1988)     

DNA Methylation Occurred around Lowly Expressed Genes of Plastid DNA during Tomato Fruit Development

We have analyzed DNA methylation of plastid DNA from fully ripened red fruits, green mature fruits, and green leaves of tomato (Lycopersicon esculentum var. Firstmore). Essentially identical restriction profiles were obtained between chromoplast and chloroplast DNAs by EcoRI digestion. BstNI/EcoRII and HpaII/MspI are pairs of isoschizomers that can discriminate between methylated and unmethylated DNAs. These endonucleases produced different restriction patterns of plastid DNAs from tomato fruits compared to tomato leaves. Moreover, we have found from Southern blots that methylation was not detected in DNA fragments containing certain genes that are actively expressed in chromoplasts, whereas DNA fragments bearing genes that are barely transcribed in chromoplasts are methylated.     

Regulation of microtubule protein levels during cellular morphogenesis in nerve growth factor-treated PC12 cells

Nerve growth factor induces neurite process formation in pheochromacytoma (PC12) cells and causes the parallel increase in levels of the microtubule-associated proteins, tau and MAP1, as well as increases in tubulin levels. Mechanisms to insure balanced accumulation of microtubule proteins and make their levels highly responsive to nerve growth factor were investigated. The effects on tau, MAP1, and tubulin are due to changes in protein synthesis rates, which for tau and tubulin we could show are due in part to changes in the mRNA levels. Whereas tubulin shows feedback regulation to modulate synthesis up or down, tau protein synthesis is not affected in a straightforward way by microtubule polymerization and depolymerization. The degradation of tau, MAP1, and both tubulin polypeptides, however, are stimulated by microtubule depolymerization caused by colchicine, or nerve growth factor removal. Combined feedback on synthesis and stability make tubulin levels highly responsive to assembly states. In addition, the linkage of tau and MAP1 turnover with the state of microtubule polymerization amplifies any change in their rate of synthesis, since tau and MAP1 promote microtubule polymerization. This linkage lends itself to rapid changes in the state of the system in response to nerve growth factor.     

Amino acid sequence of the calcium-binding light chain of myosin from the lower eukaryote, Physarum polycephalum

We have established a new method for preparing Physarum myosin whose actin-activated ATPase activity is inhibited by micromolar levels of Ca2+. This Ca2+-inhibition is mediated by the Ca2+ binding to the myosin rather than by the Ca2+-dependent modification of the phosphorylated state of the myosin (Kohama, K., and Kendrick-Jones, J. (1986) J. Biochem. (Tokyo) 99, 1433-1446). Ca2+-binding light chain (CaLC) has been suggested to be primary importance in this Ca2+ inhibition (Kohama, K., Takano-Ohmuro, H., Tanaka, T., Yamaguchi, T., and Kohama, T. (1986) J. Biol. Chem. 261, 8022-8027). The amino acid sequence of CaLC was determined; it was composed of 147 amino acid residues and the N terminus was acetylated. The molecular weight was calculated to be 16,131. The homology of CaLC in the amino acid sequence with 5,5'-dithiobis-(2-nitrobenzoic acid) light chain and alkali light chain of skeletal muscle myosin were rather low, i.e., 25% and 30%, respectively. Interestingly, however, the CaLC sequence was 40% homologous with brain calmodulin. This amino acid sequence was confirmed by sequencing the cloned phage DNA accommodating cDNA coding CaLC. Northern and Southern blot analysis indicated that 0.8-kilobase pair mRNA was transcribed from a single CaLC gene. This is the first report on the amino acid sequence of myosin light chain of lower eukaryotes and nucleotide sequence of its mRNA.     

Phosphorylation of intracellular precursors of human IL-1

The human IL-1 molecules (IL-1 alpha and IL-1 beta) are post-translationally cleaved from 31-kDa precursor to 18-kDa biologically active molecules. During the course of studies of post-translational modifications of human IL-1, we have observed that although LPS induced the production of both intracellular IL-1 alpha and IL-1 beta in human monocytes, [32P]orthophosphate labeling of these cells revealed that intracellular precursor of IL-1 alpha (pre-IL-1 alpha) to be phosphorylated at least 10-fold more than intracellular pre-IL-1 beta. However, no 32P-incorporation could be detected in the 18-kDa processed IL-1 alpha and IL-1 beta. Analysis by TLC revealed that the major phosphorylation site occurred at serine residue(s). The 32P was incorporated into multiply cleaved precursors of IL-1 alpha, which appeared in the absence of protease inhibitors. Since the smallest Mr pre-IL-1 alpha that was labeled with 32P was 22 kDa, the phosphorylated serine residue is presumably located adjacent to a sequence of four basic amino acids located in the 4-kDa region at the amino terminus of the 22-kDa precursor of IL-1 alpha. This serine residue might also be a major phosphorylation site for a cAMP-dependent protein kinase. This hypothesis was substantiated by the demonstration that a synthetic peptide analogue of this region (residue 84 to 112) could be similarly phosphorylated in vitro by a cAMP-dependent protein kinase. Furthermore, a truncated pre-IL-1 alpha (residue 64 to 271) and a "fusion" protein containing staphylococcal protein A and an amino-terminal half-portion of pre-IL-1 alpha (residue 1 to 112), but not mature IL-1 alpha (residue 113 to 271), could also be phosphorylated by cAMP-dependent protein kinase. There is no comparable amino acid sequence in IL-1 beta which could be expected to be phosphorylated by a cAMP-dependent protein kinase. The physiologic relevance of phosphorylation of pre-IL-1 alpha was investigated. The data showed that phosphorylation of truncated pre-IL-1 alpha greatly enhanced its susceptibility to digestion by trypsin and promoted the conversion of pre-IL-1 alpha to the more biologically active IL-1. Although the precise role of the rather selective phosphorylation of pre-IL-1 alpha is not known, our findings do suggest that the phosphorylation of serine close to dibasic/tetrabasic amino acid sequence functions to facilitate the processing and/or release of IL-1 alpha.     

Approach to maceration mechanism in enzymatic pulping of bast fibers by alkalophilic pectinolytic enzymes produced by Erwinia species

Tissue maceration was generally elucidated by the action of endo-polygalacturonase and endo-pectate or -pectin lyase (endo-PAL or -PNL). In a process of screening of Erwinia and Pseudomonas strains for enzymatic pulping of pectocellulosic bast fibers, it was found that their PAL productivity was not completely related with defibration activity, i.e., the fact that an E.chrysanthemi strain showed high PAL productivity but possessed rather low defibration activity. Moreover, defibration activity was parallel to the amount of neutral sugars released during pulping. Based on these fact, the maceration or enzymatic pulping of basts was estimated to proceed not only by cleavage of interfiber bonding cause by PAL action but also another factors. Among three possibilities proposed on the maceration mechanism of basts, it was elucidated by a concerted action of PAL and PNL with an aid of xylanase. In addition, a quantitative determinative method of maceration activity toward basts was also presented.     

Molecular cloning of human growth inhibitory factor cDNA and its down-regulation in Alzheimer''s disease.

In previous studies, we discovered a growth inhibitory factor (GIF) that was abundant in normal human brain, but greatly reduced in Alzheimer's disease (AD) brain. Molecular cloning of a full-length cDNA for human GIF revealed that the GIF had striking homology to metallothioneins. Furthermore, it was determined that the GIF gene was on chromosome 16, as are the metallothionein genes. GIF, in contrast to metallothioneins, was found to be expressed exclusively in the nervous system. The GIF protein produced by Escherichia coli harboring the GIF cDNA in a prokaryotic expression vector inhibited the growth of neonatal rat cortical neurons. These results indicate that GIF is a new member of the metallothionein family with distinct tissue-specific expression and functions. Northern blot analysis revealed that expression of the GIF mRNA is drastically decreased in AD brains. The result raises the possibility that down-regulation of the GIF gene in AD brain plays an important role in the pathogenesis of AD.     

The promotive effect of interleukin 4 with interleukin 2 in the proliferation of tumor-infiltrating lymphocytes from patients with malignant tumor

In adoptive immunotherapy, the number of effector cells is one of the major factors relating to the therapeutic efficacy. We demonstrated that tumor-infiltrating lymphocytes (TILs) were stimulated to proliferate by incubation with interleukin 2 (IL-2) plus interleukin 4 (IL-4). TILs cultured with IL-2 plus IL-4 increased 3.1-fold more than TILs cultured with IL-2 alone. However, IL-4 did not alter the cytotoxic activity of TILs against autologous tumor cells and established tumor cell lines. It is suggested that IL-2 receptor is related to the mechanism of the proliferation of activated TILs cultured by combination with IL-2 and IL-4. Thus, the combination of IL-2 and IL-4 may increase the efficacy of adoptive immunotherapy using activated TILs.