PIAS2 Blocking Peptide

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216.14 €

Known as:: PIAS2 Blocking Peptide
Catalog number:: 33r-7881
Product Quantity:: USD
Category:: -
Supplier:: Fitzgerald industries international
Gene target:: PIAS2 Blocking Peptide

Related genes to: PIAS2 Blocking Peptide

Gene:: PIAS2 ^{NIH gene}
Name:: protein inhibitor of activated STAT 2
Previous symbol:: -
Synonyms:: PIASX-BETA, miz, PIASX-ALPHA, ZMIZ4, ARIP3
Chromosome:: 18q21.1
Locus Type:: gene with protein product
Date approved:: 2004-06-02
Date modifiied:: 2017-09-04

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α - Calcitonin Gene Related Peptide, α - CGRP, rat&_945;2&_946;1 Integrin Ligand Peptide&_946;_catenin peptide(Ala92)-Peptide 6 98% C93H155N31O26 CAS:(Arg)9 Peptide (Arg8)-Vasopressin Biotin peptide This is (Arg8)-Vasopressin Biotin peptide. For research use only.(Asn5)-Delta-Sleep Inducing Peptide (Asn5)-Delta-Sleep Inducing Peptide (rabbit), (Asn5)-DSIP (rabbit) 98% C35H49N11O14 CAS: 80064-67-1(Asn5)_Delta_Sleep Inducing Peptide Salt _ Binding _ Synonym (Asn5)_Delta_Sleep Inducing Peptide (rabbit), (Asn5)_DSIP (rabbit) SumFormula C35H49N11O14(Asn5)_Delta_Sleep Inducing Peptide Salt _ Binding _ Synonym (Asn5)_Delta_Sleep Inducing Peptide (rabbit), (Asn5)_DSIP (rabbit) SumFormula C35H49N11O14(Biotin Conjugates) Dopamine D2 Receptor Immunogen: peptide Host: Rabbit(Biotin Conjugates) Glucose Transporter 1 Immunogen: peptide Host: Rabbit(Biotin Conjugates) PDE3A(goat) Immunogen: peptide Host: Rabbit(Biotin Conjugates) PDE7A(Goat) Immunogen: peptide (23mer) Host: Rabbit(Biotin Conjugates) Phospho-calcium channel 2A subunit Immunogen: peptide Host: Rabbit(Biotin Conjugates) Phospho-cyclic 5'-nucleotidase Immunogen: peptide Host: Rabbit

Related articles to: PIAS2 Blocking Peptide

Genome-Wide CRISPR Screening Identifies Genetic Modulators of Amyloid Precursor Protein Processing.
The proteolytic processing of the amyloid precursor protein (APP) is a core pathological event in Alzheimer's disease (AD) pathogenesis, yet the global genetic regulatory networks modulating this process have not been fully characterized. To systematically identify novel regulators of APP cleavage, we performed a genome-wide CRISPR/Cas9 knockout screen utilizing an optimized UAS-GAL4-based cellular reporter, and identified genetic modulators governing amyloidogenic and non-amyloidogenic processing. The screen uncovered distinct functional gene clusters regulating the APP, prominently involving cellular metabolism, protein modification, and vesicular trafficking. Specifically, , , , and emerged as novel functional modulators. Biochemical validation confirmed that ablating these genes significantly alters the metabolic balance between sAPPα and amyloid-β (Aβ) production. Finally, integration with human AD transcriptomic datasets demonstrated that these identified modulators undergo significant dysregulation in clinics. Together, these findings establish a reporter-based functional screening framework for APP processing and identify candidate regulatory nodes linked to metabolism, protein modification, and vesicular trafficking. These candidates provide a resource for future mechanistic investigation and validation in more disease-relevant AD models. - Source: PubMed
Publication date: 2026/04/28
Li YouYao YingjiaXu ZitaoXiong YufeiZhang ChengYu LiGao HuilingFei Teng
EIF2AK2 Globally Binds and Regulates the Expression and Alternative Splicing of T2D-Related Genes in INS1 Cell.
This study aimed to investigate the impact of the RNA-binding protein eukaryotic translation initiation factor 2-alpha kinase 2 (EIF2AK2) gene, also known as PKR, on the condition of islet beta cells. In this study, EIF2AK2 was overexpressed in INS1 cells, and transcriptome data following EIF2AK2 overexpression were obtained using RNA-seq technology. Additionally, potential target genes that bind to EIF2AK2 were identified through iRIP-seq technology. The proteins interacting with EIF2AK2 were characterized using co-immunoprecipitation (CO-IP) combined with mass spectrometry to elucidate the molecular regulatory mechanisms of EIF2AK2 in INS1 cells. RNA-seq results indicated that in INS1 cells overexpressing EIF2AK2, 1171 genes were differentially expressed, and 2161 alternative splicing events were significantly altered. iRIP-seq data demonstrated that reads from the immunoprecipitated samples were significantly enriched in the intronic and coding sequence (CDS) regions. EIF2AK2 preferentially binds to the GCGGCGG motif in RNA. Comprehensive analysis suggests that EIF2AK2 may directly bind to and regulate the expression of Dusp8, Btg1, and Prkce, thereby affecting pancreatic islet cell functions. Furthermore, EIF2AK2 may influence islet cell function by modulating the alternative splicing of Zfr and Pias2. Additionally, combined with Co-IP mass spectrometry data, it was discovered that EIF2AK2 can interact with 649 proteins, including various differentially expressed RNA-binding proteins, transcription factors, and histones, which may be associated with diabetes. Our results indicate that EIF2AK2 may regulate the expression or alternative splicing of mRNA related to type 2 diabetes through direct or indirect binding. Additionally, it may influence the progression of type 2 diabetes by interacting with other proteins. We propose that EIF2AK2 plays a significant role in diabetic islet beta cells, and its aberrant regulatory pattern is closely associated with the onset and progression of type 2 diabetes. - Source: PubMed
Ning LiliLiu TongLv YuanyuanCheng YanYang MaoguangCai Hanqing
Effects of Seed Extract on Diabetes-Related Gene Expression Profiling of Pancreatic β-Cells in a Rat Model: Relevance to Environmental and Health Safety.
The health of pancreatic β cells is known to be under the tight control of several genetic processes, including insulin signaling, regeneration (, , , ), and calcium signaling (, , ). These signaling cascades regulate β-cell proliferation, differentiation, and insulin production and secretion and thus have been known to be the key players in diabetes pathogenesis as well as drug targets. This study aimed to elucidate the protective effect of seed extract and β-cells dietary supplement. - Source: PubMed
Publication date: 2026/01/12
Sarfraz ZahidRehman RabiaSaleem MakkiaT Al-Thagafi ZahrahA Habib MohamedB M Ibrahim AhmedAkram Mehwish
Chicken PIAS2 enhances H6N2 avian influenza virus replication by promoting SUMOylation of viral NP.
Avian influenza virus (AIV) is a significant zoonotic pathogen that causes infectious disease in various species and poses a serious threat to both the poultry industry and public health. Mammalian protein inhibitors of activated STAT2 (PIAS2) have been shown to affect viral replication by interacting with viral proteins. However, the role of chicken PIAS2 (chPIAS2) in regulating H6N2 subtype AIV replication remains unclear. In this study, we cloned chPIAS2 from primary chicken embryo fibroblast cells and identified that it contains five conserved domains. Overexpression of chPIAS2 promoted the replication of H6N2 AIV, although chPIAS2 expression was also induced during viral infection. We further found that chPIAS2 interacted with the H6N2 AIV nucleoprotein (NP) (DK65-NP) in the nucleus. ChPIAS2 promoted the SUMOylation of DK65-NP through its SUMO E3 ligase activity. We also confirmed that the lysine residues at positions 7, 48, 77, and 113 are the small ubiquitin-like modifier (SUMO) conjugation (SUMOylation) sites of DK65-NP. Collectively, our results indicate that chPIAS2 promotes H6N2 AIV replication by enhancing the SUMOylation of viral NP. In conclusion, our study reveals the role of chPIAS2 in AIV replication and provides new insights into the molecular mechanisms underlying AIV pathogenicity in poultry, suggesting a potential therapeutic target for avian influenza. - Source: PubMed
Publication date: 2025/12/18
Zhang JunshengXue QianWang XiyiYang HuixingHuang MinfanZhang MengZhao LuxiangWang WenqingChen ZuxianJiao Peirong
Multi-omics analysis reveals PIAS family gene dysregulation as a driver of head and neck squamous cell carcinoma (HNSC) progression and therapeutic vulnerability.
Head and neck squamous cell carcinoma (HNSC) stand as one of the most fatal malignancies worldwide. The intricate nature of this disease has contributed to a limited understanding of its diagnostic and prognostic indicators. This study comprehensively investigated the dysregulation of PIAS family genes (PIAS1, PIAS2, PIAS3, and PIAS4) in Head and Neck Squamous Cell Carcinoma (HNSC). - Source: PubMed
Publication date: 2025/11/20
Hussain MumtazIshfaq MehreenHameed Syeda AmberAbbas Afshan SyedBhanbhro Mujeeb Ur RehmanAin Qurat UlAbdel-Maksoud Mostafa AAlamri AbdulazizAlmutairi SaeedahAlmanaa Taghreed NAyaz Muhammad MazharHameed Yasir

PIAS2 Blocking Peptide

Related genes to: PIAS2 Blocking Peptide

Related products to: PIAS2 Blocking Peptide

Related articles to: PIAS2 Blocking Peptide

Genome-Wide CRISPR Screening Identifies Genetic Modulators of Amyloid Precursor Protein Processing.

EIF2AK2 Globally Binds and Regulates the Expression and Alternative Splicing of T2D-Related Genes in INS1 Cell.

Effects of Seed Extract on Diabetes-Related Gene Expression Profiling of Pancreatic β-Cells in a Rat Model: Relevance to Environmental and Health Safety.

Chicken PIAS2 enhances H6N2 avian influenza virus replication by promoting SUMOylation of viral NP.

Multi-omics analysis reveals PIAS family gene dysregulation as a driver of head and neck squamous cell carcinoma (HNSC) progression and therapeutic vulnerability.