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11.
In order to get some basic information for the development of a long-term preservation method by freezing at moderately low temperatures, the viability of 259 strains belonging to 32 genera and 135 species was measured. Cells were suspended in 10% glycerol and stored at ?53 °C for 16 months. About 93%, 88%, and 74% of aerobic bacteria gave viable cell counts higher than 105/ml, 106/ml, and 107/ml, respectively. About 10% of gram-positives and 3% of gram-negatives gave viable cell counts lower than 105/ml. There seemed to be some species—and genus—specificity with respect to viability after frozen storage and liquid paraffin-seal storage. Strains of coryneform bacteria, genera of the family Enterobacteriaceae, and the genus Pseudomonas were generally resistant. Pseudomonas putrefaciens proved to be specifically sensitive. Lactic acid bacteria were subject to sublethal injury, requiring special recovery media. Psychrophilic bacteria were very susceptible to frozen storage. All the tested strains of acetic acid bacteria survived frozen storage well both in 10% glycerol and in 10% honey at ?28 °C for 4.5 years. Honey proved to be a better adjuvant for frozen storage than glycerol. It was suggested from the results that for many kinds of bacteria, long-term preservation by freezing at moderately low temperatures might be possible when appropriate procedures are applied. 相似文献
12.
Isolation,functional characterization and stress responses of raffinose synthase genes in sugar beet 总被引:1,自引:0,他引:1
Kunihide Kito Koji Yamane Takahiro Yamamori Hiroaki Matsuhira Yoshito Tanaka Teruhiro Takabe 《Journal of plant biochemistry and biotechnology.》2018,27(1):36-45
Raffinose (sucrosylgalactoside oligosaccharide) is a water soluble carbohydrate and accumulates in response to abiotic stresses in plants. Plant raffinose synthases are poorly characterized, and the genes involved in raffinose biosynthesis are unknown in sugar beet. Here, we report the isolation of two genes encoding raffinose synthase (BvRS1 and BvRS2) as well as a gene encoding galactinol synthase (BvGolS1) from sugar beet. BvRS1 and BvRS2 show high homologies to Arabidopsis raffinose synthase AtRS5. BvRS1 and BvGolS1 were expressed in Escherichia coli. Crude extracts showed the activities of raffinose synthase and galactinol synthase. The K m values of BvRS1 for galactinol and sucrose and the K m values of BvGolS1 for UDP-galactose and myo-inositol were determined. The expression levels of BvRS1 were significantly higher than that of BvRS2. The mRNA for BvRS1 was rapidly induced by cold stress whereas the mRNA for BvRS2 was slowly induced by cold and salt stresses. These data suggest that BvRS1 and BvRS2 encode raffinose synthase genes responsible to cold and salt stress, respectively. 相似文献
13.
Yasuhito Sakuraba Akihiro Yamasato Ryouichi Tanaka Ayumi Tanaka 《Plant Physiology and Biochemistry》2007,45(10-11):740-749
Higher plants acclimate to various light environments by changing the antenna size of a light-harvesting photosystem. The antenna size of a photosystem is partly determined by the amount of chlorophyll b in the light-harvesting complexes. Chlorophyllide a oxygenase (CAO) converts chlorophyll a to chlorophyll b in a two-step oxygenation reaction. In our previous study, we demonstrated that the cellular level of the CAO protein controls accumulation of chlorophyll b. We found that the amino acids sequences of CAO in higher plants consist of three domains (A, B, and C domains). The C domain exhibits a catalytic function, and we demonstrated that the combination of the A and B domains regulates the cellular level of CAO. However, the individual function of each of A and B domain has not been determined yet. Therefore, in the present study we constructed a series of deleted CAO sequences that were fused with green fluorescent protein and overexpressed in a chlorophyll b-less mutant of Arabidopsis thaliana, ch1-1, to further dissect functions of A and B domains. Subsequent comparative analyses of the transgenic plants overexpressing B domain containing proteins and those lacking the B domain determined that there was no significant difference in CAO protein levels. These results indicate that the B domain is not involved in the regulation of the CAO protein levels. Taken together, we concluded that the A domain alone is involved in the regulatory mechanism of the CAO protein levels. 相似文献
14.
Most fine structural studies of seed germination have been begun at 24 hr after imbibition of water and lasted for several
days. However, studies on the initial period beginning with water uptake are few. In the present study, fine structural changes
in radish seed cotyledonal tissues which occur within the first 24 hr of germination were investigated.
Remarkable morphological and developmental changes of the cell organelles were profound in procambial cells in a matter of
hours, while no cytological changes were noticed yet in mesophyll (storage tissue) cells. The endoplasmic reticulum and Golgi
bodies were somewhat proliferated, a rapid development even, of proplastids occurred, and the increment of mitochondria in
numbers and profiles were particularly noteworthy.
From these observations, it was interpreted that, although the procambium accounts for only a small portion of the cotyledons,
the initiatory activation of procambial cells, being sensitive to the starting of water uptake, might provide certain facility
for leading the activation of the more lethargic storage tissue in the beginning of germination process. 相似文献
15.
16.
Oikawa K Yamasato A Kong SG Kasahara M Nakai M Takahashi F Ogura Y Kagawa T Wada M 《Plant physiology》2008,148(2):829-842
Chloroplasts change their intracellular distribution in response to light intensity. Previously, we isolated the chloroplast unusual positioning1 (chup1) mutant of Arabidopsis (Arabidopsis thaliana). This mutant is defective in normal chloroplast relocation movement and shows aggregation of chloroplasts at the bottom of palisade mesophyll cells. The isolated gene encodes a protein with an actin-binding motif. Here, we used biochemical analyses to determine the subcellular localization of full-length CHUP1 on the chloroplast outer envelope. A CHUP1-green fluorescent protein (GFP) fusion, which was detected at the outermost part of mesophyll cell chloroplasts, complemented the chup1 phenotype, but GFP-CHUP1, which was localized mainly in the cytosol, did not. Overexpression of the N-terminal hydrophobic region (NtHR) of CHUP1 fused with GFP (NtHR-GFP) induced a chup1-like phenotype, indicating a dominant-negative effect on chloroplast relocation movement. A similar pattern was found in chloroplast OUTER ENVELOPE PROTEIN7 (OEP7)-GFP transformants, and a protein containing OEP7 in place of NtHR complemented the mutant phenotype. Physiological analyses of transgenic Arabidopsis plants expressing truncated CHUP1 in a chup1 mutant background and cytoskeletal inhibitor experiments showed that the coiled-coil region of CHUP1 anchors chloroplasts firmly on the plasma membrane, consistent with the localization of coiled-coil GFP on the plasma membrane. Thus, CHUP1 localization on chloroplasts, with the N terminus inserted into the chloroplast outer envelope and the C terminus facing the cytosol, is essential for CHUP1 function, and the coiled-coil region of CHUP1 prevents chloroplast aggregation and participates in chloroplast relocation movement. 相似文献
17.
Radchenko MV Tanaka K Waditee R Oshimi S Matsuzaki Y Fukuhara M Kobayashi H Takabe T Nakamura T 《The Journal of biological chemistry》2006,281(29):19822-19829
The intracellular level of potassium (K(+)) in Escherichia coli is regulated through multiple K(+) transport systems. Recent data indicate that not all K(+) extrusion system(s) have been identified (15). Here we report that the E. coli Na(+) (Ca(2+))/H(+) antiporter ChaA functions as a K(+) extrusion system. Cells expressing ChaA mediated K(+) efflux against a K(+) concentration gradient. E. coli strains lacking the chaA gene were unable to extrude K(+) under conditions in which wild-type cells extruded K(+). The K(+)/H(+) antiporter activity of ChaA was detected by using inverted membrane vesicles produced using a French press. Physiological growth studies indicated that E. coli uses ChaA to discard excessive K(+), which is toxic for these cells. These results suggest that ChaA K(+)/H(+) antiporter activity enables E. coli to adapt to K(+) salinity stress and to maintain K(+) homeostasis. 相似文献
18.
Haruka Imada Masahito Hoki Yuji Suehiro Teruhiro Okuyama Daisuke Kurabayashi Atsuko Shimada Kiyoshi Naruse Hiroyuki Takeda Takeo Kubo Hideaki Takeuchi 《PloS one》2010,5(6)
Background
In animal groups such as herds, schools, and flocks, a certain distance is maintained between adjacent individuals, allowing them to move as a cohesive unit. Proximate causations of the cohesive and coordinated movement under dynamic conditions, however, have been poorly understood.Methodology/Principal Findings
We established a novel and simple behavioral assay using pairs of small fish (medaka and dwarf pufferfish) by eliciting a simultaneous optomotor response (OMR). We demonstrated that two homospecific fish began to move cohesively and maintained a distance of 2 to 4 cm between them when an OMR was elicited simultaneously in the fish. The coordinated and cohesive movement was not exhibited under a static condition. During the cohesive movement, the relative position of the two fish was not stable. Furthermore, adult medaka exhibited the cohesive movement but larvae did not, despite the fact that an OMR could be elicited in larvae, indicating that this ability to coordinate movement develops during maturation. The cohesive movement was detected in homospecific pairs irrespective of body-color, sex, or albino mutation, but was not detected between heterospecific pairs, suggesting that coordinated movement is based on a conspecific interaction.Conclusions/Significance
Our findings demonstrate that coordinated behavior between a pair of animals was elicited by a simultaneous OMR in two small fish. This is the first report to demonstrate induction of a schooling-like movement in a pair of fish by an OMR and to investigate the effect of age, sex, body color, and species on coordination between animals under a dynamic condition. 相似文献19.
Satomi Tsuboko Tetsuaki Kimura Minori Shinya Yuji Suehiro Teruhiro Okuyama Atsuko Shimada Hiroyuki Takeda Kiyoshi Naruse Takeo Kubo Hideaki Takeuchi 《PloS one》2014,9(11)
Genetic polymorphisms are thought to generate intraspecific behavioral diversities, both within and among populations. The mechanisms underlying genetic control of behavioral properties, however, remain unclear in wild-type vertebrates, including humans. To explore this issue, we used diverse inbred strains of medaka fish (Oryzias latipes) established from the same and different local populations. Medaka exhibit a startle response to a visual stimulus (extinction of illumination) by rapidly bending their bodies (C-start) 20-ms after the stimulus presentation. We measured the rates of the response to repeated stimuli (1-s interval, 40 times) among four inbred strains, HNI-I, HNI-II, HO5, and Hd-rR-II1, and quantified two properties of the startle response: sensitivity (response rate to the first stimulus) and attenuation of the response probability with repeated stimulus presentation. Among the four strains, the greatest differences in these properties were detected between HNI-II and Hd-rR-II1. HNI-II exhibited high sensitivity (approximately 80%) and no attenuation, while Hd-rR-II1 exhibited low sensitivity (approximately 50%) and almost complete attenuation after only five stimulus presentations. Our findings suggested behavioral diversity of the startle response within a local population as well as among different populations. Linkage analysis with F2 progeny between HNI-II and Hd-rR-II1 detected quantitative trait loci (QTL) highly related to attenuation, but not to sensitivity, with a maximum logarithm of odds score of 11.82 on linkage group 16. The three genotypes (homozygous for HNI-II and Hd-rR-II1 alleles, and heterozygous) at the marker nearest the QTL correlated with attenuation. Our findings are the first to suggest that a single genomic region might be sufficient to generate individual differences in startle behavior between wild-type strains. Further identification of genetic polymorphisms that define the behavioral trait will contribute to our understanding of the neural mechanisms underlying behavioral diversity, allowing us to investigate the adaptive significance of intraspecific behavioral polymorphisms of the startle response. 相似文献
20.
Yuji Suehiro Teruhiro Okuyama Kiyoshi Naruse Takeo Kubo Hideaki Takeuchi 《FEBS letters》2010,584(16):3545-201
In this study, we demonstrated that human type-5 adenovirus infected the brain of the teleost fish, medaka (Oryzias latipes), in vivo. Injection of adenoviral vector into the mesencephalic ventricle of medaka larvae induced the expression of reporter genes in some parts of the telencephalon, the periventricular area of the mesencephalon and diencephalon, and the cerebellum. Additionally, the Cre-loxP system works in medaka brains using transgenic medaka carrying a vector containing DsRed2, flanked by loxP sites under control of the β-actin promoter and downstream promoterless enhanced green fluorescent protein (EGFP). We demonstrated that the presence of green fluorescence depended on injection of adenoviral vector expressing the Cre gene and confirmed that EGFP mRNA was transcribed in the virus-injected larvae. 相似文献