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Human gut-associated Bifidobacterium species salvage exogenous indole, a uremic toxin precursor, to synthesize indole-3-lactic acid via tryptophan
Gut Microbes ( IF 12.2 ) Pub Date : 2024-05-05 , DOI: 10.1080/19490976.2024.2347728 Cheng Chung Yong 1 , Takuma Sakurai 1 , Hiroki Kaneko 1 , Ayako Horigome 1 , Eri Mitsuyama 1 , Aruto Nakajima 2 , Toshihiko Katoh 2 , Mikiyasu Sakanaka 2 , Takaaki Abe 3 , Jin-Zhong Xiao 1 , Miyuki Tanaka 1 , Toshitaka Odamaki 1, 2 , Takane Katayama 2
Gut Microbes ( IF 12.2 ) Pub Date : 2024-05-05 , DOI: 10.1080/19490976.2024.2347728 Cheng Chung Yong 1 , Takuma Sakurai 1 , Hiroki Kaneko 1 , Ayako Horigome 1 , Eri Mitsuyama 1 , Aruto Nakajima 2 , Toshihiko Katoh 2 , Mikiyasu Sakanaka 2 , Takaaki Abe 3 , Jin-Zhong Xiao 1 , Miyuki Tanaka 1 , Toshitaka Odamaki 1, 2 , Takane Katayama 2
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Indole in the gut is formed from dietary tryptophan by a bacterial tryptophan-indole lyase. Indole not only triggers biofilm formation and antibiotic resistance in gut microbes but also contributes...
中文翻译:
人类肠道相关双歧杆菌物种挽救外源吲哚(一种尿毒症毒素前体),通过色氨酸合成吲哚-3-乳酸
肠道中的吲哚是通过细菌色氨酸-吲哚裂解酶从膳食色氨酸形成的。吲哚不仅会引发肠道微生物的生物膜形成和抗生素耐药性,而且还有助于...
更新日期:2024-05-07
中文翻译:
人类肠道相关双歧杆菌物种挽救外源吲哚(一种尿毒症毒素前体),通过色氨酸合成吲哚-3-乳酸
肠道中的吲哚是通过细菌色氨酸-吲哚裂解酶从膳食色氨酸形成的。吲哚不仅会引发肠道微生物的生物膜形成和抗生素耐药性,而且还有助于...