SULT1B1 antibody

Price:

485.78 €

Known as:: SULT1B1 (anti-)
Catalog number:: 70r-2335
Product Quantity:: USD
Category:: -
Supplier:: Fitzgerald industries international
Gene target:: SULT1B1 antibody

Related genes to: SULT1B1 antibody

Gene:: SULT1B1 ^{NIH gene}
Name:: sulfotransferase family 1B member 1
Previous symbol:: -
Synonyms:: ST1B2
Chromosome:: 4q13.3
Locus Type:: gene with protein product
Date approved:: 2002-01-10
Date modifiied:: 2015-11-06

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Related articles to: SULT1B1 antibody

Super-enhancer-driven recruitment of C/EBPβ by SULT1B1 is implicated in metabolic dysfunction-associated steatotic liver disease progression.
Metabolic dysfunction-associated steatotic liver disease (MASLD) disrupts core hepatic physiological functions, with super-enhancers (SEs) playing a pivotal role in orchestrating the expression of genes associated with disease pathogenesis. This study aimed to elucidate the regulatory mechanisms of SEs in MASLD pathogenesis. - Source: PubMed
Publication date: 2026/04/10
Lu XuejinYan YuxuanLv JingPei XingyueZhao MingtaoZhuang XinruiZheng FeiTang YunshuZhu Yaling
Neuroprotective response against the onset of ischemic stroke by upregulation of histone H3Y99 sulfation.
Protective cerebral responses against stresses are fundamental quests of medical science. Here, we report that upregulation of histone sulfation is a protective cerebral response against ischemic injury. Ischemia upregulates the SLC26A1-PAPSS1-SULT1B1 axis, which mediates the transportation of sulfate into cells, conversion of sulfate into PAPS, and catalysis of histone sulfation (H3Y99sulf) using PAPS, respectively. Upregulated H3Y99sulf promotes metabolic genes transcription and glycolysis, sustaining cell survival in ischemic stress. In the mouse model of transient middle cerebral artery occlusion, both PAPSS1 overexpression and sulfate supplementation can boost the neuroprotective H3Y99sulf mechanism, reduce brain injury, and improve neurological functions; disruption of H3Y99sulf exacerbates ischemia-induced brain injury and counteracts the neuroprotective effect of sulfate. Ischemia patients with higher serum sulfate levels are prone to have smaller infarcts, alleviated severity assessments, and better clinical outcomes. This study unearths an undocumented protective cerebral response against ischemia that might be targeted for ischemic stroke treatment. - Source: PubMed
Jiang LiXie JunchangWang JianfengYi YiliZhou RunxinGuo DingyuanWang YuZeng XiaoShi MingxuanDing JianingWu JiadiZhao JunFeng SiyuWang NanShen QianYin YupingLi MingchangWang Yugang
Comprehensive Analysis to Reveal Nitrogen Metabolism-Associated Genes as a Prognostic Index in Head and Neck Squamous Cell Cancer.
Head and neck squamous cell carcinoma (HNSCC) has a poor prognosis and a high fatality rate. To predict the prognosis of HNSCC, this study developed a prognostic model based on nitrogen metabolism (NM)-related genes. - Source: PubMed
Publication date: 2026/01/09
Shen YimingSun WenfangDai Chunfu
Discovery and engineering of chicken sulfotransferase SULT1B1 from Bambusicola thoracicus.
Sulfotransferases (SULTs) can transfer sulfonate group from a donor molecule, typically 3'-phosphoadenosine-5'-phosphosulfate (PAPS), to a variety of acceptor molecules including hormones, drugs, and xenobiotics, thus play key roles in animal xenobiotic metabolisms and hormone regulations. Here, the first protein crystal structure of a chicken SULT1B1 BtSULT1B1 was obtained and its catalytic mechanism and substrate binding mode was elucidated by analyzing its structures in complex with substrates and donors like PAP, PAPS, pNP, pNPS and 2-Bromophenol. Notably, the gating loop of the substrate-binding pocket of BtSULT1B1 exhibits an enlarged cavity compared to homologous SULT structures from Human and Mouse, facilitating the acceptance of bulky substrates/products. Through conservative amino acid analysis and site-directed mutagenesis, a variant with 3.6-fold enhanced activity, A44S was obtained, and its mechanism was further illustrated by molecular dynamics simulations. The findings of the chicken SULT1B1 in this study expand the knowledge of substrate binding of sulfotransferases, and offer a rational approach for engineering enzymes with improved activities for specific applications, provide molecular basis for the design of in vitro sulfation platform and drug development. - Source: PubMed
Publication date: 2026/01/15
Yan MingzhuZhang QianliYang ShuyaoYin LiangWang JiayingLiu WeidongGao JianLi Jinshan
Characterization of EpiIntestinal Duodenum Microtissue as an In Vitro Model for Studying Intestinal Drug Permeability, Transport, and Metabolism.
The intestinal absorption of compounds administered orally can be impacted by permeability, metabolism and uptake/efflux transport. This study aimed to characterize the EpiIntestinal duodenum microtissue developed from duodenum enterocytes and assess whether permeability, metabolism and transport could be simultaneously investigated in this model. - Source: PubMed
Publication date: 2026/01/08
Cheong JonathanJorski JamieChhin ChristopherAyehunie SeyoumStevens ZacharyOldach JonSalphati Laurent

SULT1B1 antibody

Related genes to: SULT1B1 antibody

Related products to: SULT1B1 antibody

Related articles to: SULT1B1 antibody

Super-enhancer-driven recruitment of C/EBPβ by SULT1B1 is implicated in metabolic dysfunction-associated steatotic liver disease progression.

Neuroprotective response against the onset of ischemic stroke by upregulation of histone H3Y99 sulfation.

Comprehensive Analysis to Reveal Nitrogen Metabolism-Associated Genes as a Prognostic Index in Head and Neck Squamous Cell Cancer.

Discovery and engineering of chicken sulfotransferase SULT1B1 from Bambusicola thoracicus.

Characterization of EpiIntestinal Duodenum Microtissue as an In Vitro Model for Studying Intestinal Drug Permeability, Transport, and Metabolism.