Hajime Yasui
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Explore the profile of Hajime Yasui including associated specialties, affiliations and a list of published articles.
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14
Citations
168
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Recent Articles
1.
Kumagai Y, Toji K, Katsukura S, Morikawa R, Uji T, Yasui H, et al.
Mar Drugs
. 2021 Apr;
19(4).
PMID: 33916201
More than 7000 red algae species have been classified. Although most of them are underused, they are a protein-rich marine resource. The hydrolysates of red algal proteins are good candidates...
2.
Kumagai Y, Tsubouchi R, Miyabe Y, Takeda T, Adachi K, Yasui H, et al.
Mitochondrial DNA B Resour
. 2020 Dec;
4(2):3177-3178.
PMID: 33365907
Red algae contain high amount of proteins compared to the other algae. Red algae dulse is one of the protein rich species and a good candidate for protein sources. In...
3.
Watanabe K, Kishimoto T, Kumagai Y, Shimizu T, Uji T, Yasui H, et al.
Mitochondrial DNA B Resour
. 2020 Dec;
4(2):2543-2544.
PMID: 33365618
Although most red algae produce agar and carrageenan, produces funoran as polysaccharide component. In this study, the complete mitochondrial genome was determined. It had a circular mapping molecular with the...
4.
Nishida Y, Kumagai Y, Michiba S, Yasui H, Kishimura H
Mar Drugs
. 2020 Oct;
18(10).
PMID: 33008002
Mycosporine-like amino acids (MAAs) are the ultraviolet (UV)-absorbable compounds, which are naturally produced by cyanobacteria and algae. Not only these algae but also marine organisms utilize MAAs to protect their...
5.
Kobayashi M, Kumagai Y, Yamamoto Y, Yasui H, Kishimura H
Mar Drugs
. 2020 Apr;
18(3).
PMID: 32245121
Red alga dulse possesses a unique xylan, which is composed of a linear β-(1→3)/β-(1→4)-xylosyl linkage. We previously prepared characteristic xylooligosaccharide (DX3, (β-(1→3)-xylosyl-xylobiose)) from dulse. In this study, we evaluated the...
6.
Sumikawa K, Takei K, Kumagai Y, Shimizu T, Yasui H, Kishimura H
Mar Biotechnol (NY)
. 2020 Mar;
22(3):391-402.
PMID: 32206928
Inhibition of angiotensin I-converting enzyme (ACE) is one of the key factors to repress high blood pressure. Although many studies have been reported that seaweed protein hydrolysates showed the ACE...
7.
Sato N, Furuta T, Takeda T, Miyabe Y, Ura K, Takagi Y, et al.
J Food Biochem
. 2019 Jul;
43(2):e12709.
PMID: 31353655
In this study, we investigated antioxidant activity of proteins from the red alga dulse (Palmaria sp.) harvested in Hokkaido, Japan. The dulse proteins that contain phycoerythrin (PE) as the main...
8.
Kumagai Y, Miyabe Y, Takeda T, Adachi K, Yasui H, Kishimura H
Mar Drugs
. 2019 Apr;
17(3).
PMID: 30934583
Plastid proteins are one of the main components in red algae. In order to clarify the angiotensin I converting enzyme (ACE) inhibitory peptides from red alga sp. (Japan), we determined...
9.
Terasaki M, Hirose A, Narayan B, Baba Y, Kawagoe C, Yasui H, et al.
J Phycol
. 2016 Apr;
45(4):974-80.
PMID: 27034228
Fucoxanthin (Fx) and fucosterol (Fs) are characteristic lipid components of brown seaweeds that afford several health benefits to humans. This article describes the quantitative evaluation of lipids of 15 species...
10.
Furuta T, Miyabe Y, Yasui H, Kinoshita Y, Kishimura H
Mar Drugs
. 2016 Feb;
14(2).
PMID: 26861357
We examined the inhibitory activity of angiotensin I converting enzyme (ACE) in protein hydrolysates from dulse, Palmaria palmata. The proteins extracted from dulse were mainly composed of phycoerythrin (PE) followed...