Roles for the N- and C-terminal domains of phytochrome B in interactions between phytochrome B and cryptochrome signaling cascades

Plants fine-tune light responses through interactions betweenphotoreceptors. We have previously reported that the greeningof Arabidopsis thaliana roots is regulated synergistically byphytochromes and cryptochromes. In the present study, we investigatedthe functions of the N- and C-terminal domains of phytochromeB (phyB) in the interactions between phyB and cryptochrome signalingcascades. Transgenic Arabidopsis expressing the phyB N-terminaldomain fused to green fluorescent protein (GFP), ß-glucuronidase(GUS) and the nuclear localization signal (NLS) showed intenseroot greening under blue light, indicating that the C-terminaldomain was dispensable for the synergistic interaction in theinduction of root greening. However, root greening under redlight was substantially reduced in the absence of the C-terminaldomain. This effect was opposite to the previous observationthat removal of the C-terminal domain enhanced the signalingactivity of phyB in the inhibition of hypocotyl elongation.In addition, we found that overexpression of the isolated C-terminaldomain of phyB enhanced the blue light response not only forroot greening but also for the inhibition of hypocotyl elongation.Analysis of this activity on various photoreceptor mutant backgroundsdemonstrated that the isolated C-terminal domain enhanced cryptochromesignaling. In summary, these results demonstrate that differentdomains of phyB can play various roles which are dependent onlight conditions as well as on the specific physiological response.     

Continuous <Emphasis Type="SmallCaps">d</Emphasis>-lactic acid production by a novelthermotolerant <Emphasis Type="Italic">Lactobacillus delbrueckii</Emphasis> subsp. <Emphasis Type="Italic">lactis</Emphasis> QU 41

We isolated and characterized a d-lactic acid-producing lactic acid bacterium (d-LAB), identified as Lactobacillus delbrueckii subsp. lactis QU 41. When compared to Lactobacillus coryniformis subsp. torquens JCM 1166 ^T and L. delbrueckii subsp. lactis JCM 1248 ^T, which are also known as d-LAB, the QU 41 strain exhibited a high thermotolerance and produced d-lactic acid at temperatures of 50 °C and higher. In order to optimize the culture conditions of the QU 41 strain, we examined the effects of pH control, temperature, neutralizing reagent, and initial glucose concentration on d-lactic acid production in batch cultures. It was found that the optimal production of 20.1 g/l d-lactic acid was acquired with high optical purity (>99.9% of d-lactic acid) in a pH 6.0-controlled batch culture, by adding ammonium hydroxide as a neutralizing reagent, at 43 °C in MRS medium containing 20 g/l glucose. As a result of product inhibition and low cell density, continuous cultures were investigated using a microfiltration membrane module to recycle flow-through cells in order to improve d-lactic acid productivity. At a dilution rate of 0.87 h⁻¹, the high cell density continuous culture exhibited the highest d-lactic acid productivity of 18.0 g/l/h with a high yield (ca. 1.0 g/g consumed glucose) and a low residual glucose (<0.1 g/l) in comparison with systems published to date.     

Characterization of diabetes-related traits in MSM and JF1 mice on high-fat diet

We examined the effect of a high-fat diet on the diabetes-related traits of the Japanese Fancy mouse 1 (JF1), MSM, and C57BL/6J (B6J) mice. MSM and JF1 mice were derived from Mus musculus molossinus. B6J is a commonly used laboratory strain, with the vast majority of genome segments derived from Mus musculus domesticus and Mus musculus musculus, and is susceptible to high-fat diet-induced type 2 diabetes. None of the strains showed symptoms of diabetes or obesity when fed a laboratory chow diet. Under a high-fat diet, JF1 mice developed impaired glucose tolerance, hyperglycemia, hyperinsulinemia, and obesity. B6J mice fed a high-fat diet mildly developed these diabetes-related traits compared to JF1 mice fed a high-fat diet. JF1 mice fed a high-fat diet were classified as having type 2 diabetes and were susceptible to high-fat diet-induced diabetes and obesity. On the other hand, MSM mice were resistant to high-fat diet-induced diabetes. These results indicate that the JF1 strain, with its unique genetic origin, is a useful new animal model of high-fat diet-induced diabetes and obesity. Further investigations using JF1 mice will help to clarify the role of the high-fat diet on human diabetes and obesity.     

Serum melatonin levels and insomnia in patients with Machado-Joseph Disease

We previously reported a patient with Machado-Joseph Disease (MJD) who had severe insomnia and a low serum melatonin (MLT) level, and whose insomnia was alleviated by oral MLT replacement therapy. The aims of this study were to examine whether patients with MJD are likely to have insomnia, and whether there is a relationship between the degree of insomnia and the serum MLT level among patients with MJD. This study included 8 patients with MJD. A 58-year-old-patient with cervical spondylosis was also included in this study to check the condition of the test room for sleeping. All patients filled out the Japanese version of Pittsburgh Sleep Quality Index (PSQI-J) questionnaire. We obtained blood samples at 12:00 and 24:00 hours to measure the MLT level. We checked the sleep condition of the patient once an hour and recorded the grade in sleep-logs: the grades of sleep condition were asleep, sleepy, or awake. Statistical analyses were performed to search for correlations between the PSQI score and the serum MLT level or actual sleep time using Spearman’s rank correlation coefficient. Seven of the 8 MJD patients had a total PSQI score of above 5.5 (cut-off level). The daytime MLT level (at 12:00 hours) was below 2.8 pg/mL in all 8 patients, whereas the mean night-time MLT level (at 24:00 hours) of the MJD patients (23.6 ± 17.5 pg/mL) was lower than that of the control patient (43.0 pg/mL) and also lower than the reported cut-off level among healthy people aged 30–50 years (55.5 pg/mL). There was a negative correlation between the total PSQI score and the serum MLT level among the MJD patients (P < 0.05). Our results show that a low serum MLT level may contribute to insomnia in patients with MJD.

     

The reversible change in the redox state of type I Cu in Myrothecium verrucaria bilirubin oxidase depending on pH

The redox state of type I Cu in Myrothecium verrucaria bilirubin oxidase (BO), a multicopper oxidase utilized in the clinical investigation of liver, is an equilibrium state of the oxidized and reduced forms, reflected in the reversible absorption and electron paramagnetic resonance (EPR) spectral changes depending on pH.     

Involvement of aldolase A in X-ray resistance of human HeLa and UV(r)-1 cells

To find novel proteins involved in radio-resistance of human cells, we searched for nuclear proteins, whose expression levels alter after X-ray irradiation in HeLa cells, using agarose fluorescent two-dimensional differential gel electrophoresis following mass spectrometry. We identified 6 proteins, whose levels were increased in nuclei 24 h after irradiation at 5 Gy, including aldolase A. Nuclear aldolase A levels increased twofold after the irradiation, however, total aldolase A levels did not change. When the expression of aldolase A was suppressed by its specific siRNA, sensitization of the suppressed cells to X-ray-induced cell death was observed. In addition, UV^r-1 cells with higher aldolase A expression exhibited lower sensitivity to X-ray-induced cell death than the parental RSa cells with lower aldolase A expression. These results suggest that aldolase A may play a role in the radio-response of human cells, probably in nuclei, in addition to its glycolytic role in the cytosol.     

Active oxygen participation in chlorophyll destruction and lipid peroxidation in SO2-fumigated leaves of spinach

Chlorophyll a and carotenoids of spinach began to be destroyed2 to 3 hr after fumigation with 2 ppm SO₂ under light, whereaschlorophyll b was undamaged during 8 hr of exposure to SO₂.Pheophytin a was not affected by the fumigation. When disks excised from leaves fumigated with SO₂ at 2 ppm for2 hr were illuminated, chlorophyll a and carotenoids were brokendown, while they were not destroyed in darkness. The destructionof these pigments was suppressed under nitrogen. Chlorophylla destruction was inhibited by l,2-dihydroxybenzene-3,5-disulfonate(tiron), hydro-quinone and ascorbate, but not by l,4-diazabicyclo-[2,2,2]-octane(DABCO), methio-nine, histidine, benzoate and formate. Chlorophylla destruction was inhibited by phenazine methosulfate but stimulatedby methyl viologen. Addition of superoxide dismutase (SOD) tothe homogenate of SO₂-fumigated leaves inhibited the chlorophylla destruction. The activity of endogenous SOD was reduced to40% by 2-hr fumigation before the loss of chlorophyll was observed.These results suggest that chlorophyll a destruction by SO₂was due to superoxide radicals (O₂^–). Moreover, malondialdehyde (MDA), a product of lipid peroxidation,was formed in SO₂-fumigated leaves. MDA formation was inhibitedby tiron, hydroquinone and DABCO but not by benzoate and formate.MDA formation was increased by D₂O. These results suggest thatlipid peroxidation in SO₂-fumigated leaves was due to singletoxygen ¹O₂ produced from O_2^–. (Received May 15, 1980; )     

Genetic Background Influences P/Q-type Ca2+ Channel α1A Subunit mRNA Expression in Olfactory Bulb and Reproductive Ability of N-type Ca2+ Channel α1B Subunit-Deficient Mice

The Ca²⁺ channel α_1B subunit is a pore-forming component capable of generating N-type Ca²⁺ channel activity. Although the N-type Ca²⁺ channel plays a role in a variety of neuronal functions, α_1B-deficient mice did not show apparent behavioral abnormality. In a previous study, we observed a compensatory increase of mRNA expression of the P/Q-type Ca²⁺ channel α_1A subunit gene in olfactory bulb of α_1B-deficient mice with a CBA × C57BL/6 background; these mice showed a normal reproductive ability. In this study, we found that the mRNA expression level of the α_1A subunit was the same in olfactory bulb of wild, heterozygous, and homozygous α_1B-deficient mice with a CBA/JN background, and the homozygous male mice produced no offspring. These results suggest that the genetic background influences α_1A subunit mRNA expression and reproductive ability in α_1B-deficient mice.