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191.
KcsA is a proton-activated K+ channel that is regulated at two gates: an activation gate located in the inner entrance of the pore and an inactivation gate at the selectivity filter. Previously, we revealed that the cytoplasmic domain (CPD) of KcsA senses proton and that electrostatic changes of the CPD influences the opening and closing of the activation gate. However, our previous studies did not reveal the effect of CPD on the inactivation gate because we used a non-inactivating mutant (E71A). In the present study, we used mutants that did not harbor the E71A mutation, and showed that the electrostatic state of the CPD influences the inactivation gate. Three novel CPD mutants were generated in which some negatively charged amino acids were replaced with neutral amino acids. These CPD mutants conducted K+, but showed various inactivation properties. Mutants carrying the D149N mutation showed high open probability and slow inactivation, whereas those without the D149N mutation showed low open probability and fast inactivation, similar to wild-type KcsA. In addition, mutants with D149N showed poor K+ selectivity, and permitted Na+ to flow. These results indicated that electrostatic changes in the CPD by D149N mutation triggered the loss of fast inactivation and changes in the conformation of selectivity filter. Additionally, the loss of fast inactivation induced by D149N was reversed by R153A mutation, suggesting that not only the electrostatic state of D149, but also that of R153 affects inactivation. 相似文献
192.
Beech cupule litter is the second largest (next to leaf litter) component of total annual litterfall in mast years, and makes an important contribution to carbon budgets in beech forest soils. We investigated the decomposition processes of beech cupule litter over a 30-month period with reference to the role of fungal succession in the decomposition of acid-unhydrolyzable residue (AUR) and holocellulose. During the study period, weight loss of holocellulose occurred, while there was little weight loss of AUR, and 77?% of the original cupule weight remained at the end of the study period. Xylaria sp.1, Geniculosporium sp. and Nigrospora sp. that can attack holocellulose selectively caused mass loss of holocellulose and were responsible for the cupule weight loss. Although the beech cupule is a woody phyllome and its lignocellulose composition is similar to that of coarse woody debris (CWD) rather than leaf litter of beech, the selective decomposition of holocellulose by fungi was similar to the decay process of leaf litter rather than CWD. 相似文献
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Highlights? mVam2 mediates endocytic transport from late endosomes to lysosomes ? mVam2 is essential for assembly of large apical vacuoles in visceral endoderm ? Loss of mVam2 results in hyperactivation of BMP signaling ? The mVam2-dependent BMP attenuation contributes to patterning in gastrulation 相似文献
195.
Hu D Tateno H Kuno A Yabe R Hirabayashi J 《The Journal of biological chemistry》2012,287(24):20313-20320
6-sulfo-galactose (6S-Gal) is a prevalent motif observed in highly sulfated keratan sulfate, which is closely associated with the glioblastoma malignancy while acting as a critical determinant for endogenous lectins. However, facile detection of this unique glycoepitope is greatly hampered because of a lack of appropriate probes. We have previously reported tailoring an α2-6-linked sialic acid-binding lectin from a ricin-B chain-like galactose-binding protein, EW29Ch, by a reinforced ribosome display system following an error-prone PCR. In this study, we challenged the creation of novel lectins to recognize 6S-Gal-terminated glycans by incorporating a high-throughput screening system with a glycoconjugate microarray. After two rounds of selection procedures, 20 mutants were obtained and 12 were then successfully expressed in Escherichia coli, 8 of which showed a significant affinity for 6'-Sulfo-LN (6-O-sulfo-Galβ1-4GlcNAc), which the parental EW29Ch lacked. Analysis of two representative mutants by frontal affinity chromatography revealed a substantial affinity (K(d) ~3 μm) for a 6S-Gal-terminated glycan. On the basis of the observation that all eight mutants have a common mutation at Glu-20 to Lys, site-directed mutagenesis experiments were performed focusing on this aspect. The results clearly indicated that the E20K mutation is necessary and sufficient to acquire the specificity for 6S-Gal. We also confirmed a difference in binding between E20K and EW29Ch to CHO cells, in which enzymes to catalyze the synthesis of 6S-Gal were overexpressed. The results clearly demonstrate that these mutants have potential to distinguish between cells containing different amounts of 6S-Gal-terminated glycans. This new technology will be used to provide novel tools essential for sulfoglycomics. 相似文献
196.
Iwaki J Minamisawa T Tateno H Kominami J Suzuki K Nishi N Nakamura T Hirabayashi J 《Biochemical and biophysical research communications》2008,373(2):206-212
Galectins, a group of β-galactoside-binding lectins, are involved in multiple functions through specific binding to their oligosaccharide ligands. No previous work has focused on their interaction with glycosaminoglycans (GAGs). In the present work, affinities of established members of human galectins toward a series of GAGs were investigated, using frontal affinity chromatography. Structurally-defined keratan sulfate (KS) oligosaccharides showed significant affinity to a wide range of galectins if Gal residue(s) remained unsulfated, while GlcNAc sulfation had relatively little effect. Consistently, galectins showed much higher affinity to corneal type I than cartilageous type II KS. Unexpectedly, galectin-3, -7, and -9 also exerted significant affinity to desulfated, GalNAc-containing GAGs, i.e., chondroitin and dermatan, but not at all to hyaluronan and N-acetylheparosan. These observations revealed that the integrity of 6-OH of βGalNAc is important for galectin recognition of these galactosaminoglycans, which were shown, for the first time, to be implicated as potential ligands of galectins. 相似文献
197.
Influence of radiofrequency–electromagnetic waves from 3rd‐generation cellular phones on fertilization and embryo development in mice 下载免费PDF全文
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The DNA Data Bank of Japan (DDBJ, http://www.ddbj.nig.ac.jp) has collected and released more entries and bases than last year. This is mainly due to large-scale submissions from Japanese sequencing teams on mouse, rice, chimpanzee, nematoda and other organisms. The contributions of DDBJ over the past year are 17.3% (entries) and 10.3% (bases) of the combined outputs of the International Nucleotide Sequence Databases (INSD). Our complete genome sequence database, Genome Information Broker (GIB), has been improved by incorporating XML. It is now possible to perform a more sophisticated database search against the new GIB than the ordinary BLAST or FASTA search. 相似文献