Results 201 to 210 of about 1,055,752 (313)

Gut Lactate Boosts Ruminococcus via Histone Lactylation to Mediate Time‐Restricted Feeding Protection in Crohn's Disease

Advanced Science, EarlyView.
TRF enriches Ruminococcus, a bacterial genus producing SCFAs, and activates the epithelial HIF‐1α signaling pathway. This mechanism protects the colonic mucosa from inflammatory insults in colitis models. Mechanistically, gut lactate production during starvation and refeeding mediates H4K12la, which increases SLC9A3 expression and creates an acidic gut
Linwen Huang, Huishi Tan, Senhui Weng, Yuntao Liu, Lingxu Song, Shaoyu Cheng, Zelong Lin, Jiawei Chen, Fei Tan, Jun Wang, Jinke Huang, Linkun Cai, Jiwei Chai, Cailing Zhong, Yanqiang Shi, Wendi Zhang, Haiyan Zhang, Chongyang Huang   +17 more
wiley   +1 more source

CMEO: a metadata-centric ontology for clinical studies exploration and harmonization assessment. [PDF]

BMC Med Inform Decis Mak
Gilani K, Wei W, Peters C, Verket M, Rocca HB, Nicolis E, Colombo M, Marx-Schütt K, Urovi V, Dumontier M.   +9 more
europepmc   +1 more source

The Transcription Factor FgSge1 Harnesses the SAGA Complex to Activate Mycotoxin Biosynthesis and Fungal Virulence

Advanced Science, EarlyView.
This study reveals the molecular mechanism by which the transcription factor FgSge1 regulates mycotoxin biosynthesis and virulence in Fusarium graminearum. FgSge1 binds to the TAARGTTT cis‐element, enabling self‐activation. It recruits the SAGA complex, promotes histone acetylation, and facilitates jet‐like chromatin remodeling, thereby activating ...
Yueqi Zhang, Jingrui Wang, Qiaowan Chen, Chen Jiao, Yun Chen, Zhongshou Wu, Zhonghua Ma   +6 more
wiley   +1 more source

Representing dental restoration materials in the oral health and disease ontology. [PDF]

J Biomed Semantics
Dutta N, DeBellis M, Chanda N, Diehl AD, Wilson F, Rocha M, Diller M, Chandrasekharan GM, Duncan WD.   +8 more
europepmc   +1 more source

Mechanism Design for Ontology Alignment [PDF]

, 2017
Krysta, P, Li, M, Payne, TR, Zhi, N
core  

Hijacking the Host Clock: A Nematode Effector Antagonizes Soybean Circadian Defense and Translation Control

Advanced Science, EarlyView.
Soybean employs its circadian clock, governed by GmCCA1, to rhythmically defend against soybean cyst nematodes. The pathogen retaliates by secreting the effector Hg4E02, which hijacks the clock to suppress defense and co‐opt the host's translation machinery for nutrient acquisition.
Xingwei Wang, Yufeng Xu, Yanfei Hu, Lijun Cao, Ru Jiang, Changtian Chen, Rick Masonbrink, Thomas Maier, Yuchen Tu, Yabo Shi, Enhui Liu, Lingan Kong, Chan Guo, Wei Zhao, Peng Shi, Wenzhen Du, Andrew Severin, Thomas Baum, Deliang Peng, Huan Peng, Mian Zhou, Wei Wang   +21 more
wiley   +1 more source

AI based decision-making system for tooling design of aircraft product assembly with developed knowledge retrieval algorithm. [PDF]

Sci Rep
Miah MH, Gupta SK, Yali L, Alsekait DM, Alzu'bi S, Nabil A, Chowdhury HR, Kanon M.   +7 more
europepmc   +1 more source

Activation of ERBB4 Pathway Inhibits Pathological Transdifferentiation of Lung Epithelial Progenitors into CD66c+ Basal Cells in Severe Lung Injury

Advanced Science, EarlyView.
In fibrotic distal lung regions, CD66c+ basal cells emerge as a pathological state. Using human distal lung organoids, this study identifies CD66c+ basal cells as a pro‐fibrotic state arising through transdifferentiation from secretory, AT2, and basal cells.
Kaijun Lin, Xinran Deng, Haonan Wang, Yamei Jiang, Jian Sun, Hailin Ding, Ming Ye, Xiaoting Wang, Yu Wang, Li Yuan, Zhenju Song, Xinhua Lin, Shenfei Sun, Ning Jiang   +13 more
wiley   +1 more source

Mondo: integrating disease terminology across communities. [PDF]

Genetics
Vasilevsky NA, Toro S, Matentzoglu N, Flack JE, Mullen KR, Hegde H, Gehrke S, Whetzel PL, Shwetar Y, Harris NL, Ngu MS, Alyea GL, Kane MS, Roncaglia P, Sid E, Thaxton CL, Wood V, Abraham RS, Achatz MI, Ajuyah P, Amberger JS, Babb L, Baker J, Balhoff JP, Berg JS, Bhalla A, Bofill-De Ros X, Braun IR, Broeren EC, Byer BK, Byrne AB, Callahan TJ, Carmody LC, Chan LE, Clause AR, Cohen JS, DeLuca M, Deuitch NT, Flowers M, Fraser J, Fujiwara T, Gitau V, Goldstein JL, Gration D, Groza T, Gyori BM, Hankey W, Hilton JA, Himmelstein DS, Hong SS, Hoyt CT, Huether R, Hurwitz E, Jacobsen JOB, Kikuchi A, Köhler S, Korn DR, Lagorce D, Laraway BJ, Li JY, Malheiro AJ, McLaughlin J, Meldal BHM, Mohan S, Moxon SAT, Munoz-Torres MC, Nelson TH, Nicholas FW, Ochoa D, Olson D, Oprea TI, Oskotsky TT, Osumi-Sutherland D, Paris K, Parkinson HE, Pendlington ZM, Peng XP, Pizzino A, Plon SE, Powell BC, Ratliff JC, Rehm HL, Remennik L, Riggs ER, Roberts S, Robinson PN, Ross JE, Schaper K, Schilder BM, Schmidt JL, Sharp EW, Similuk MN, Smedley D, Sneddon TP, Sparks R, Stefancsik R, Stupp GS, Sundar S, Takatsuki T, Tammen I, Tshering KC, Unni DR, Valasek E, Vanderver A, Wagner AH, Webb RF, Welter D, Yaya-Stupp D, Zankl A, Zhang XA, McMurry JA, Chute CG, Hamosh A, Mungall CJ, Haendel MA.   +114 more
europepmc   +1 more source

Proton FLASH Exposure Preserves Gut Commensal Microbiomes and Spares Intestinal Stem Cells

Advanced Science, EarlyView.
This study highlights the role of Proton FLASH abdominal irradiation in sparing of intestinal stem cells and preservation of key gut microbial population resulting minimization of radiation toxicity in intestinal epithelium in mice. Our findings support the potential of Proton FLASH to improve the therapeutic ratio for abdominal radiation exposure ...
Rishi Man Chugh, Payel Bhanja, Emily Schueddig, Jufri Setianegara, Yuting Lin, Kenny Guida, Shujah Rehman, Stacey Krepel, Devin Koestler, Ronald C. Chen, Katherine L. Cook, Subhrajit Saha   +11 more
wiley   +1 more source