|
生物種
|
リソース名
|
RRC ID
|
タイトル
|
ジャーナル
|
公開日
|
外部リンク
|
|
一般微生物
|
JCM1002
,
JCM1012
,
JCM1248
,
JCM1120
,
JCM1132
,
JCM1134
,
JCM1137
,
JCM1131
,
JCM2012
,
JCM1149
,
...
|
89008
|
Nicotinamide mononucleotide production by non-recombinant Limosilactobacillus reuteri and nicotinamide adenine dinucleotide synthesizing lactic acid bacteria.
|
Microbiol Spectr |
2025-12-2 |
Pubmed
Full text
|
|
一般微生物
|
JCM1132
,
JCM1002
,
JCM1120
,
JCM8130
,
JCM1149
,
JCM1059
,
JCM1173
,
JCM1112
,
JCM1649
|
88944
|
Extracellular vesicles derived from specific lactic acid bacteria have agonistic activity against formyl peptide receptor 2.
|
J Biosci Bioeng |
2025-7-1 |
Pubmed
Full text
|
|
一般微生物
|
JCM5818
|
88807
|
Phage PL-1 endolysin and osmotic stress as tools to enhance heterologous protein display in lactic acid bacteria platforms.
|
Int J Biol Macromol |
2025-8-1 |
Pubmed
Full text
|
|
一般微生物
|
JCM1198
|
88681
|
Ethanolphilic lactic acid bacterium Fructilactobacillus fructivorans as the key microorganism for fermentation of narazuke, a traditional Japanese preserved food.
|
Appl Environ Microbiol |
2025-12-23 |
Pubmed
Full text
|
|
ヒト・動物細胞
|
CACO-2(RCB0988)
|
87337
|
Enhancement of Okara Functionality via Fermentation With Single and Cocultures of Lactic Acid Bacteria.
|
J Food Sci |
2025-12-1 |
Pubmed
Full text
|
|
一般微生物
|
JCM1131
|
84846
|
Preparation and Structural Analysis of Lipoteichoic Acid on Cell Membranes Derived from Lactic Acid Bacteria.
|
Methods Mol Biol |
2024-1-1 |
Pubmed
Full text
|
|
一般微生物
|
JCM1132
,
JCM1022
,
JCM1131
|
84653
|
Novel Indirect Antioxidant Activity Independent of Nrf2 Exerted by Lactic Acid Bacteria.
|
Int J Mol Sci |
2024-10-3 |
Pubmed
Full text
|
|
ゼブラフィッシュ
|
nfe2l2a it321
|
84258
|
Novel Indirect Antioxidant Activity Independent of Nrf2 Exerted by Lactic Acid Bacteria.
|
Int J Mol Sci |
2024-10-3 |
Pubmed
Full text
|
|
一般微生物
|
|
80643
|
Host metabolic benefits of prebiotic exopolysaccharides produced by Leuconostoc mesenteroides.
|
Gut Microbes |
2023-1-1 |
Pubmed
Full text
|
|
一般微生物
|
JCM 35017
,
JCM 35015
|
75295
|
Bile Salt Hydrolases with Extended Substrate Specificity Confer a High Level of Resistance to Bile Toxicity on Atopobiaceae Bacteria.
|
Int J Mol Sci |
2022-9-19 |
Pubmed
Full text
|