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21.
Phenylalanine Ammonia-Lyase Genes from Pisum sativum: Structure, Organ-Specific Expression and Regulation by Fungal Elicitor and Suppressor 总被引:3,自引:0,他引:3
22.
Hydrocortisone-induced enhancement of expression and changes in methylation of pepsinogen genes in stomach mucosa of the developing rat 总被引:1,自引:0,他引:1
23.
Structural studies of rat cathepsin E: amino-terminal structure and carbohydrate units of mature enzyme 总被引:3,自引:0,他引:3
S Yonezawa T Takahashi M Ichinose K Miki J Tanaka S Gasa 《Biochemical and biophysical research communications》1990,166(2):1032-1038
The amino-terminal structure of rat gastric cathepsin E was identified and compared with the corresponding regions of human procathepsin E and other aspartic proteinases. The alignment revealed that cathepsin E has the most extended amino-terminal structure in aspartic proteinases, thus suggesting that the activation peptide (propeptide) of the human enzyme is 39-residues long. Analysis of oligosaccharide units suggested that rat cathepsin E possesses one N-linked carbohydrate unit, probably of the high mannose type. No evidence was obtained for the presence of O-linked sugars in rat cathepsin E. 相似文献
24.
K Yagawa M Nakanishi S Hayashi M Kaku Y Ichinose T Itoh A Tomoda Y Yoneyama N Shigematsu 《FEBS letters》1986,200(2):287-290
DNA-dependent RNA polymerase B (II) from wheat germ was modified by incubation with 4-[N-(β-hydroxyethyl)-N-methyl]benzaldehyde esters of AMP, ADP or ATP, followed by reduction with NaBH4. Reaction of the modified enzyme with [-32P]UTP in the presence of various DNA templates led to a highly selective affinity labelling of the subunit with Mr 140000 by covalently linked ApU. Labelling was inhibited by 1μg/ml -amanitin. 相似文献
25.
Ichinose H Nakamizo M Wariishi H Tanaka H 《Applied microbiology and biotechnology》2002,58(4):517-526
The fungal conversions of sulfur-containing heterocyclic compounds were investigated using the lignin-degrading basidiomycete Coriolus versicolor. The fungus metabolized a series of sulfur compounds--25 structurally related thiophene derivatives--via several different pathways. Under primary metabolic conditions, C. versicolor utilized thiophenes, such as 2-hydroxymethyl-, 2-formyl-, and 2-carboxyl-thiophenes, as a nutrient sulfur source for growth; thus, the fungus degraded these compounds more effectively in a non-sulfur-containing medium than in conventional medium. The product analysis revealed that several redox reactions, decarboxylation reactions, and C-S cleavage reactions were involved in the fungal conversion of non-aromatic thiophenes. On the other hand, benzothiophene (BT) and dibenzothiophene (DBT) skeletons were converted to water-soluble products. All the products and metabolic intermediates were more hydrophilic than the starting substrates. These metabolic actions seemed to be a chemical stress response against exogenously added xenobiotics. These metabolic reactions were optimized under ligninolytic conditions, also suggesting the occurrence of a fungal xenobiotic response. Furthermore, the fungus converted a series of BTs and DBTs via several different pathways, which seemed to be controlled by the chemical structure of the substrates. DBT, 4-methylDBT, 4, 6-dimethylDBT, 2-methylBT, and 7-methylBT were immediately oxidized to their S-oxides. BTs and DBTs with the hydroxymethyl substituent were converted to their xylosides without S-oxidation. Those with carboxyl and formyl substituents were reduced to form a hydroxymethyl group, then xylosidated. These observations strongly suggested the involvement of a fungal substrate-recognition and metabolic response mechanism in the metabolism of sulfur-containing heterocyclic compounds by C. versicolor. 相似文献
26.
Sachi Kashihara Takafumi Nishimura Yoshiteru Noutoshi Mikihiro Yamamoto Kazuhiro Toyoda Yuki Ichinose Hidenori Matsui 《Molecular Plant Pathology》2022,23(6):885-894
Pseudomonas amygdali pv. tabaci (formerly Pseudomonas syringae pv. tabaci; Pta) is a gram-negative bacterium that causes bacterial wildfire disease in Nicotiana tabacum. The pathogen establishes infections by using a type III secretion system to inject type III effector proteins (T3Es) into cells, thereby interfering with the host__s immune system. To counteract the effectors, plants have evolved disease-resistance genes and mechanisms to induce strong resistance on effector recognition. By screening a series of Pta T3E-deficient mutants, we have identified HopAZ1 as the T3E that induces disease resistance in N. tabacum ‘N509’. Inoculation with the Pta ∆hopAZ1 mutant did not induce resistance to Pta in N509. We also found that the Pta ∆hopAZ1 mutant did not induce a hypersensitive response and promoted severe disease symptoms in N509. Furthermore, a C-terminal truncated HopAZ1 abolished HopAZ1-dependent cell death in N509. These results indicate that HopAZ1 is the avirulence factor that induces resistance to Pta by N509. 相似文献
27.
T Suzuki M Murakami N Onai E Fukuda Y Hashimoto M H Sonobe T Kameda M Ichinose K Miki H Iba 《Journal of virology》1994,68(6):3527-3535
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Virulence factor regulator (Vfr) is a member of the cyclic 3′,5′‐adenosine monophosphate (cAMP) receptor proteins that regulate the expression of many important virulence genes in Pseudomonas aeruginosa. The role of Vfr in pathogenicity has not been elucidated fully in phytopathogenic bacteria. To investigate the function of Vfr in Pseudomonas syringae pv. tabaci 6605, the vfr gene was disrupted. The virulence of the vfr mutant towards host tobacco plants was attenuated significantly, and the intracellular cAMP level was decreased. The vfr mutant reduced the expression of flagella‐, pili‐ and type III secretion system‐related genes and the defence response in nonhost Arabidopsis leaves. Furthermore, the expression levels of achromobactin‐related genes and the iron uptake ability were decreased, suggesting that Vfr regulates positively these virulence‐related genes. In contrast, the vfr mutant showed higher tolerance to antimicrobial compounds as a result of the enhanced expression of the resistance–nodulation–division family members, the mexA, mexB and oprM genes. We further demonstrated that the mutant strains of vfr and cyaA, an adenylate cyclase gene responsible for cAMP synthesis, showed a similar phenotype, suggesting that Vfr regulates virulence factors in a cAMP‐dependent manner. Because there was no significant difference in the production of acylhomoserine lactone (AHL) quorum sensing molecules in the wild‐type, vfr and cyaA mutant strains, Vfr might control important virulence factors by an AHL‐independent mechanism in an early stage of infection by this bacterium. 相似文献