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71.
Glucosidase II, a glycoprotein of the endoplasmic reticulum membrane. Proteolytic cleavage into enzymatically active fragments 总被引:9,自引:0,他引:9
Glucosidase II removes the inner two alpha-linked glucose residues from freshly transferred Asn-linked oligosaccharide chains in the endoplasmic reticulum. This enzyme, whose activity could be measured by the hydrolysis of an artificial substrate (p-nitrophenyl alpha-D-glucopyranoside), was purified 240-fold from a rat liver microsome fraction by DEAE-cellulose, concanavalin A-Sepharose 4B, and hydroxylapatite chromatography. The apparent molecular weight of the active polypeptide was 123 000 as estimated by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. Glucosidase II has at least one high-mannose oligosaccharide chain that can be cleaved by endoglycosidase H. Trypsin readily cleaved the 123-kilodalton (kDa) form of glucosidase II into a fully active 73-kDa core. The pattern of this cleavage suggests a domain structure for this enzyme. We demonstrate that trypsin first removes a glycosylated 25-kDa domain to yield an apparently unglycosylated 98-kDa product which is further cleaved to yield the active 73-kDa core. 相似文献
72.
Substrate Preference in a Strain of Megasphaera elsdenii, a Ruminal Bacterium, and Its Implications in Propionate Production and Growth Competition 下载免费PDF全文
The NIAH 1102 strain of Megasphaera elsdenii utilized lactate in preference to glucose when the two substrates were present. Even when lactate was supplied to cells fermenting glucose, the cells switched substrate utilization from glucose to lactate and did not utilize glucose until lactate decreased to a low concentration (1 to 2 mM). Since substrate utilization was shifted gradually without intermittence, typical diauxic growth was not seen. The cyclic AMP content did not rise markedly with the shift in substrate utilization, suggesting that this nucleotide is not involved in the regulation of the shift. It was unlikely that propionate was produced from glucose, which was explicable by the fact that lactate racemase activity dropped rapidly with the exhaustion of lactate and cells actively fermenting glucose did not possess this enzyme. A coculture experiment indicated that M. elsdenii NIAH 1102 is overcome by Streptococcus bovis JB1 in the competition for glucose, mainly because M. elsdenii NIAH 1102 is obliged to utilize lactate produced by S. bovis JB1; i.e., glucose utilization by M. elsdenii NIAH 1102 is suppressed by the coexistence of S. bovis JB1. 相似文献
73.
Maeda M Kamamoto M Hino K Yamamoto S Kimura M Okano M Kimura Y 《Bioscience, biotechnology, and biochemistry》2005,69(9):1700-1705
In our previous study (Y. Kimura et al., Biosci. Biotechnol. Biochem., 69, 137-144 (2005)), we found that plant complex type N-glycans harboring Lewis a epitope are linked to the mountain cedar pollen allergen Jun a 1. Jun a 1 is a glycoprotein highly homologous with Japanese cedar pollen glycoallergen, Cry j 1. Although it has been found that some plant complex type N-glycans are linked to Cry j 1, the occurrence of Lewis a epitope in the N-glycan moiety has not been proved yet. Hence, we reinvestigated the glycoform of the pollen allergen to find whether the Lewis a epitope(s) occur in the N-glycan moiety of Cry j 1. From the cedar pollen glycoallergen, the N-glycans were liberated by hydrazinolysis and the resulting sugar chains were N-acetylated and then coupled with 2-aminopyridine. Three pyridylaminated sugar chains were purified by reversed-phase HPLC and size-fractionation HPLC. The structures were analyzed by a combination of exo- and endo-glycosidase digestions, sugar chain mapping, and electrospray ionization mass spectrometry (ESI-MS). Structural analysis clearly indicated that Lewis a epitope (Galbeta1-3(Fucalpha1-4)GlcNAcbeta1-), instead of the Galbeta1-4(Fucalpha1-6)GlcNAc, occurs in the N-glycans of Cry j 1. 相似文献
74.
H Ishikawa H Suzuki T Hino E Kubota K Saito 《Journal of immunology (Baltimore, Md. : 1950)》1985,135(6):3681-3685
In a previous study, we discovered a new mouse minor histocompatibility antigen encoded by a locus at 8.5 cM apart from the H-2 complex, and we have since named the locus H-42. One allele of H-42, which is named H-42a, had been elucidated, but the other alleles, which we tentatively named H-42b, have not been elucidated. In the present study, we explored MHC control on the anti-H-42a cytotoxic T lymphocyte (CTL) responsiveness in H-42b mice. In vivo immunization (i.v. injection) of H-42b mice with 5 to 30 X 10(6) spleen cells (SC) bearing allogeneic H-42a antigen but carrying H-2 complex (mouse MHC) matched with the H-42b mice failed to prime anti-H-42a CTL but induced stable and specific anti-H-42a CTL unresponsiveness, i.e., tolerance, in the H-42b recipient mice. In contrast, H-2 heterozygous H-42b F1 mice injected with SC bearing H-42a alloantigen on either of the parental H-2 haplotypes were effectively primed to generate anti-H-42a CTL. Exploration of the region or subregion in the H-2 complex of H-42a donor SC that should be compatible with H-42b recipient mice for the induction of their anti-H-42a CTL tolerance demonstrated that the compatibility at I region, most probably I-A subregion, but not at K, S, or D region, determined the induction of the tolerance. MHC class II compatible H-42a skin graft (SG) to H-42b mice, however, consistently primed the anti-H-42a CTL in the H-42b recipients. These results were discussed in several aspects, including uniqueness of MHC class II control on the CTL response to minor H-42a antigen, possibility of inactivation of responding anti-H-42a precursor CTL or helper T cells in H-42b mice by encountering the veto cells present in MHC class II-matched H-42a SC population, and significance of the present observations as a mechanism of CTL tolerance to self-components. 相似文献
75.
Seiya Oura Toshiaki Hino Takashi Satoh Taichi Noda Takayuki Koyano Ayako Isotani Makoto Matsuyama Shizuo Akira Kei-ichiro Ishiguro Masahito Ikawa 《PLoS genetics》2022,18(6)
Meiosis is a hallmark event in germ cell development that accompanies sequential events executed by numerous molecules. Therefore, characterization of these factors is one of the best strategies to clarify the mechanism of meiosis. Here, we report tripartite motif-containing 41 (TRIM41), a ubiquitin ligase E3, as an essential factor for proper meiotic progression and fertility in male mice. Trim41 knockout (KO) spermatocytes exhibited synaptonemal complex protein 3 (SYCP3) overloading, especially on the X chromosome. Furthermore, mutant mice lacking the RING domain of TRIM41, required for the ubiquitin ligase E3 activity, phenocopied Trim41 KO mice. We then examined the behavior of mutant TRIM41 (ΔRING-TRIM41) and found that ΔRING-TRIM41 accumulated on the chromosome axes with overloaded SYCP3. This result suggested that TRIM41 exerts its function on the chromosome axes. Our study revealed that Trim41 is essential for preventing SYCP3 overloading, suggesting a TRIM41-mediated mechanism for regulating chromosome axis protein dynamics during male meiotic progression. 相似文献
76.
77.
Okimoto K Kouchi M Matsumoto I Sakurai J Kobayashi T Hino O 《Current molecular medicine》2004,4(8):887-893
Hereditary cancer was first described in the rat by Eker and Mossige in 1954 in Oslo. The Eker rat model of hereditary renal carcinoma (RC) was the first example of a Mendelian dominantly inherited predisposition to a specific cancer in an experimental animal, and has been contributing to the elucidation of renal carcinogenesis. Recently, we found a second hereditary RC model in the Sprague-Dawley (SD) rat, in Japan in 2000, which was named the Nihon rat. The Nihon rat is also an example of a Mendelian dominantly inherited predisposition for development of RCs like the Eker rat, which are predominantly of the clear cell type (this type represents approximately 75 % of human RCC), and develop from earlier preneoplastic lesions than the Eker rat. We performed a genetic linkage analysis of the Nihon rat using 113 backcross animals, and found that the Nihon mutation was tightly linked to genes, which are located on the distal part of rat chromosome 10. Finally, we identified a germline mutation in the Birt-Hogg-Dubé gene (Bhd) (rat chromosome 10, human chromosome 17p11.2) caused by the insertion of a single nucleotide in the Nihon rat gene sequence, resulting in a frame shift and producing a stop codon 26 amino acids downstream. Thus, the Nihon rat will contribute to understanding the BHD gene function and renal carcinogenesis. 相似文献
78.
79.
M Hara-Yokoyama M Kukimoto-Niino K Terasawa S Harumiya KA Podyma-Inoue N Hino K Sakamoto S Itoh N Hashii Y Hiruta N Kawasaki C Mishima-Tsumagari Y Kaitsu T Matsumoto M Wakiyama M Shirouzu T Kasama H Takayanagi N Utsunomiya-Tate K Takatsu T Katada Y Hirabayashi S Yokoyama M Yanagishita 《Structure (London, England : 1993)》2012,20(9):1585-1595
The leukocyte cell-surface antigen CD38 is the major nicotinamide adenide dinucleotide glycohydrolase in mammals, and its ectoenzyme activity is involved in calcium mobilization. CD38 is also a raft-dependent signaling molecule. CD38 forms a tetramer on the cell surface, but the structural basis and the functional significance of tetramerization have remained unexplored. We identified the interfaces contributing to the homophilic interaction of mouse CD38 by site-specific crosslinking on the cell surface with an expanded genetic code, based on a crystallographic analysis. A combination of the three interfaces enables CD38 to tetramerize: one interface involving the juxtamembrane α-helix is responsible for the formation of the core dimer, which is further dimerized via the other two interfaces. This dimerization of dimers is required for the catalytic activity and the localization of CD38 in membrane rafts. The glycosylation prevents further self-association of the tetramer. Accordingly, the tetrameric interaction underlies the multifaceted actions of CD38. 相似文献
80.
Suzuki T Das SK Inoue H Kazami M Hino O Kobayashi T Yeung RS Kobayashi K Tadokoro T Yamamoto Y 《Biochemical and biophysical research communications》2008,368(1):132-137
The products of the TSC1 (hamartin) and TCS2 (tuberin) tumor suppressor genes negatively regulate cell growth by inhibiting mTOR signaling. Recent research has led to the postulation that tuberin and/or hamartin are involved in tumor migration, presumably through Rho activation. Here we show that LEF-8 cells, which contain a Y1571 missense mutation in tuberin, express higher Rac1 activity than tuberin negative and positive cells. We also provide evidence of obvious lamellipodia formation in LEF-8 cells. Since the production of TSC2Y1571H cannot form a hetero-complex with hamartin, we further analyzed another mutant, TSC2R611Q, which also lacks the ability to form a complex with hamartin. Introducing both forms of mutated TSC2 into COS-1 cells increased Rac1 activity as well as cell motility. We also found these two mutants interacted with Rac1. We further demonstrated that the introduction of mutated TSC2 into COS-1 cells can generate higher reactive oxygen species (ROS). These results indicate that loss-of-function mutated tuberin can activate Rac1 and thereby increase ROS production. 相似文献