Your search keyword '"Shiro, Daisuke"' showing total 5 results

1. Cellular responses to the expression of unstable secretory proteins in the filamentous fungus Aspergillus oryzae.

Author

Yokota, Jun-Ichi, Shiro, Daisuke, Tanaka, Mizuki, Onozaki, Yasumichi, Mizutani, Osamu, Kakizono, Dararat, Ichinose, Sakurako, Shintani, Tomoko, Gomi, Katsuya, and Shintani, Takahiro

Subjects

KOJI, FILAMENTOUS fungi, ENDOPLASMIC reticulum, GLYCOSYLATION, PROTEINS, FUNGI

Abstract

Filamentous fungi are often used as cell factories for recombinant protein production because of their ability to secrete large quantities of hydrolytic enzymes. However, even using strong transcriptional promoters, yields of nonfungal proteins are generally much lower than those of fungal proteins. Recent analyses revealed that expression of certain nonfungal secretory proteins induced the unfolded protein response (UPR), suggesting that they are recognized as proteins with folding defects in filamentous fungi. More recently, however, even highly expressed endogenous secretory proteins were found to evoke the UPR. These findings raise the question of whether the unfolded or misfolded state of proteins is selectively recognized by quality control mechanisms in filamentous fungi. In this study, a fungal secretory protein (1,2-α-D-mannosidase; MsdS) with a mutation that decreases its thermostability was expressed at different levels in Aspergillus oryzae. We found that, at moderate expression levels, wild-type MsdS was secreted to the medium, while the mutant was not. In the strain with a deletion for the hrdA gene, which is involved in the endoplasmic reticulum-associated degradation pathway, mutant MsdS had specifically increased levels in the intracellular fraction but was not secreted. When overexpressed, the mutant protein was secreted to the medium to a similar extent as the wild-type protein; however, the mutant underwent hyperglycosylation and induced the UPR. Deletion of α-amylase (the most abundant secretory protein in A. oryzae) alleviated the UPR induction by mutant MsdS overexpression. These findings suggest that misfolded MsdS and unfolded species of α-amylase might act synergistically for UPR induction. [ABSTRACT FROM AUTHOR]

Published

2017

2. Palladium-Catalyzed Decarbonylative Rearrangement of N-Allenyl Seleno- and Tellurocarbamates.

Author

Shiro, Daisuke, Nagai, Hiroyuki, Fujiwara, Shin ‐ ichi, Tsuda, Susumu, Iwasaki, Takanori, Kuniyasu, Hitoshi, and Kambe, Nobuaki

Subjects

PALLADIUM, DECARBONYLATION, CHEMICAL reactions, CHALCOGENS, NITROGEN

Abstract

ABSTRACT Decarbonylative rearrangement of seleno- and tellurocarbamates carrying an allenyl group on the nitrogen was found to proceed in the presence of a palladium catalyst to afford 3-chalcogeno-1-azadienes. This transformation may involve oxidative addition of Pd to a carbon-chalcogen bond, decarbonylation from a carbamoylpalladium unit (R2N-C(O)-PdChPh: Ch = Se or Te), Pd shift, and reductive elimination. [ABSTRACT FROM AUTHOR]

Published

2014

3. ChemInform Abstract: Palladium-Catalyzed Insertion Reactions of Isocyanides into Thiocarbamates and Selenocarbamates.

Author

Shiro, Daisuke, Fujiwara, Shin‐ichi, Tsuda, Susumu, Iwasaki, Takanori, Kuniyasu, Hitoshi, and Kambe, Nobuaki

Published

2015

4. ChemInform Abstract: AlCl3-Catalyzed Insertion of Isocyanides into Nitrogen-Sulfur Bonds of Sulfenamides.

Author

Shiro, Daisuke, Fujiwara, Shin‐ichi, Tsuda, Susumu, Iwasaki, Takanori, Kuniyasu, Hitoshi, and Kambe, Nobuaki

Published

2015

5. ChemInform Abstract: Palladium-Catalyzed Decarbonylative Rearrangement of N-Allenyl Seleno- and Tellurocarbamates.

Author

Shiro, Daisuke, Nagai, Hiroyuki, Fujiwara, Shin‐ichi, Tsuda, Susumu, Iwasaki, Takanori, Kuniyasu, Hitoshi, and Kambe, Nobuaki

Published

2015