PUF60 Blocking Peptide

Price:

216.14 €

Known as:: PUF60 Blocking Peptide
Catalog number:: 33r-7261
Product Quantity:: USD
Category:: -
Supplier:: Fitzgerald industries international
Gene target:: PUF60 Blocking Peptide

Related genes to: PUF60 Blocking Peptide

Gene:: PUF60 ^{NIH gene}
Name:: poly(U) binding splicing factor 60
Previous symbol:: -
Synonyms:: FIR, SIAHBP1, RoBPI
Chromosome:: 8q24.3
Locus Type:: gene with protein product
Date approved:: 2007-07-27
Date modifiied:: 2016-06-22

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Related articles to: PUF60 Blocking Peptide

Correction: SNRPB promotes gastric cancer progression by regulating aberrant splicing of PUF60.
- Source: PubMed
Publication date: 2026/05/13
Xiang DanYang JiaxinXiao MiaofangLong CongLin YangxuanMao ChenchenLiu XinMei DianfengXie WangkaiHan ZhengChen ChenbinLin XiaomingShen XianXue XiangyangChen Tanzhou
Evaluation of particle-based multi-analyte technology for autoantibody detection in systemic sclerosis: concordance with conventional methods and clinical associations.
To evaluate the clinical performance of particle-based multi-analyte technology (PMAT) for the detection of systemic sclerosis (SSc)-associated autoantibodies and to explore correlations between antibody profiles and disease manifestations. - Source: PubMed
Publication date: 2026/04/20
Pérez-Isidro AlbertLledó-Ibañez Gema-MariaPrieto-González SergioHernández-González FernandaAndalucia CarmenAure Mary AnnMelus CarlosDe Moner NoemiViñas OdetteEspinosa GerardRuiz-Ortiz Estíbaliz
Apigenin is a Potential Drug for Treating Ischemic Stroke. Association between Plasma Protein Genes and Ischemic Stroke: A Proteome-wide Mendelian Randomization Analysis and Experimental Study.
Earlier research observed the effects of plasma proteins on ischemic stroke (IS). This Mendelian randomization (MR), in vivo study additionally assesses the associations of localized populations of plasma proteins with IS to further confirm the causality and explore drug targets. - Source: PubMed
Publication date: 2026/03/17
Ren HaoxuDing YingyueWang RuonanLi JinjianYang ChenganWang XuZhao Dexi
Tetralogy of Fallot: Genetic, Epigenetic and Clinical Insights into a Multifactorial Congenital Heart Disease.
Tetralogy of Fallot (TOF) is the most common cyanotic congenital heart disease, classically characterized by right ventricular outflow tract obstruction, ventricular septal defect, overriding aorta, and right ventricular hypertrophy. Recent advances in molecular and genomic research indicate that TOF is part of a phenotypic continuum encompassing Trilogy, Tetralogy, and Pentalogy of Fallot, in which the variability of anatomical presentation reflects shared genetic and epigenetic mechanisms with highly variable penetrance and expressivity. Variants in , , , , and highlight key pathways in conotruncal development and endothelial-mesenchymal transition, yet these well-known genes explain only a fraction of the genetic landscape. Emerging studies have identified additional candidate genes and networks involved in cardiac morphogenesis, including transcriptional regulators, signaling mediators, chromatin-remodeling factors, and splicing-associated genes such as PUF60 and DVL3. Epigenetic mechanisms, including DNA methylation, histone modifications, and non-coding RNA expression, further modulate phenotypic expressivity and contribute to variability along the Trilogy-Tetralogy-Pentalogy spectrum. This review integrates current genomic and clinical evidence to provide a comprehensive overview of the molecular architecture of Fallot-type conotruncal malformations, emphasizing the interplay between genetic and epigenetic mechanisms, genotype-phenotype correlations, and implications for diagnosis, risk stratification, counseling, and personalized management in the era of precision cardiology. - Source: PubMed
Publication date: 2026/01/31
Gagliardi Maria FeliciaMicaglio EmanueleMicheletti AngeloBenedetti SaraNegura Diana GabrielaBevilacqua FrancescaGuglielmi GiuliaPasqualin GiuliaGiamberti AlessandroChessa Massimo
: Multifunctional Molecule Through RNA Splicing for Revealing the Novel Disease Mechanism and Effective Individualized Therapies.
Disease-specific diversity in RNA transcripts stems from RNA splicing, ribosomal abnormalities, and other factors. However, the mechanisms underlying the regulation of rRNA expression in the nucleolus and mRNA expression in the cytoplasm during cancer and neuronal differentiation remain largely unknown. In this article, we review current knowledge and discuss the regulatory mechanisms of rRNA and mRNA expression in human diseases using the splicing model of PUF60 (poly(U) binding splicing factor 60)-also known as (), , , and (Gene ID: 22827). Noncoding RNAs, much like coding RNAs, have been found to be translated into proteins with significant physiological functions. Splicing is also involved in dominant ORF RNAs implicated in the expression of both noncoding and coding RNAs. Here, we analyze recent findings regarding gene splicing, ribosome formation, and the determination of selected ORFs (dominant ORFs) in a system modeled on FIR splicing in two databases (RefSeq and ENSEMBL). rRNA transcription affects ribosomes, whereas mRNA expression and splicing affect the intracellular proteome. Our objective is to develop efficient methods for identifying biomarkers for disease diagnosis and therapeutic targets. In the field of cancer treatment, therapeutic drugs targeting intracellular signaling have proven effective. - Source: PubMed
Publication date: 2026/01/08
Matsushita KazuyukiKitamura KouichiTanaka NobukoKobayashi SoheiSuenaga YusukeHoshino Tyuji

PUF60 Blocking Peptide

Related genes to: PUF60 Blocking Peptide

Related products to: PUF60 Blocking Peptide

Related articles to: PUF60 Blocking Peptide

Correction: SNRPB promotes gastric cancer progression by regulating aberrant splicing of PUF60.

Evaluation of particle-based multi-analyte technology for autoantibody detection in systemic sclerosis: concordance with conventional methods and clinical associations.

Apigenin is a Potential Drug for Treating Ischemic Stroke. Association between Plasma Protein Genes and Ischemic Stroke: A Proteome-wide Mendelian Randomization Analysis and Experimental Study.

Tetralogy of Fallot: Genetic, Epigenetic and Clinical Insights into a Multifactorial Congenital Heart Disease.

: Multifunctional Molecule Through RNA Splicing for Revealing the Novel Disease Mechanism and Effective Individualized Therapies.