RBM14 Blocking Peptide

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216.14 €

Known as:: RBM14 Blocking Peptide
Catalog number:: 33r-4312
Product Quantity:: USD
Category:: -
Supplier:: Fitzgerald industries international
Gene target:: RBM14 Blocking Peptide

Related genes to: RBM14 Blocking Peptide

Gene:: RBM14 ^{NIH gene}
Name:: RNA binding motif protein 14
Previous symbol:: -
Synonyms:: SIP, SYTIP1, COAA, DKFZp779J0927
Chromosome:: 11q13.2
Locus Type:: gene with protein product
Date approved:: 2001-02-06
Date modifiied:: 2014-11-19

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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: RBM14 Blocking Peptide

RBM14 drives prostate cancer metastasis via stabilizing HK2 mRNA to activate glycolysis and H3K18 lactylation.
Metastasis is a leading cause of poor prognosis in prostate cancer (PCa), yet its underlying regulatory mechanisms remain incompletely understood. Following the establishment of highly invasive PC-3M cell lines, RBM14 expression was found to be significantly elevated in highly invasive cells. Furthermore, RBM14 was upregulated in PCa tissues and positively correlated with adverse clinicopathological features. Functional assays demonstrated that RBM14 significantly promoted PCa cell metastasis in vitro and in vivo. Mechanistically, RBM14 bound HK2 mRNA via its RRM1/2 domains to enhance HK2 stability, thereby upregulating HK2 expression. This increased HK2 level boosted PCa cells' glycolytic capacity, which in turn led to increased global lactylation, especially in histone H3 lysine 18 lactylation (H3K18la). The elevated H3K18la preferentially enriched at the promoters of metastasis-related genes, further upregulating their expression. Importantly, combining RBM14 knockdown with 2-DG exerted a synergistic inhibitory effect on PCa metastasis. Collectively, this study identifies RBM14 as a key regulator of PCa metastasis via the HK2-glycolysis-H3K18la axis, providing a potential therapeutic target for combating PCa metastasis. - Source: PubMed
Publication date: 2026/04/30
Liu ZhenhongGuo HaixinYou ZhijiaoLin HaichaoLiu WeihuiChen JiabiHe QingliuZhuang Wei
Physiological α-synuclein S129 phosphorylation mediates postsynaptic and nuclear interactions in the human brain.
Phosphorylation of alpha-synuclein (αsyn) at serine 129 (PS129) marks aggregates in synucleinopathies but also occurs physiologically, potentially signaling protein interactions during neuronal activity. Technical barriers, including postmortem dephosphorylation, have hindered the study of physiological PS129 in the human brain. Using biotinylation by antibody recognition (BAR) on surgically resected temporal lobectomy tissues (without post-mortem interval), we mapped physiological PS129 and total αsyn interactomes. BAR identified 1,095 interactions with 513 αsyn-specific, 524 shared, and 58 PS129-specific, mostly associated with vesicles at presynaptic nerve terminals. PS129-specific interactions were uniquely associated with postsynaptic density proteins SHANK1/3, DLGAP1-4, DLGAP1-3, and DLG2-4, as well as nuclear-associated proteins HUWE1, HNRNPM, RBM14, ITCH, OGT, PHF24, and PPP2R5E. Fluorescent staining confirmed physiological PS129 proximal to dendrites and within the nucleus. Confirmation in healthy cynomolgus macaques (62% αsyn and 41% PS129 overlap) demonstrated that the interactomes were physiological rather than disease- or aggregate-associated. We conclude that physiological PS129 plays a unique and underappreciated role in postsynaptic neurons extending from the postsynaptic active zone to the nucleus. These interactomes benchmark normal αsyn biology, illuminating the transition to synucleinopathy pathology. - Source: PubMed
Publication date: 2025/11/27
Choi Solji GDuvernay Jayda BBahrami AtousaTittle TylerSani SepehrKordower Jeffrey HMuller ScottKillinger Bryan A
Protective effects of mouse bone marrow mesenchymal stem cell-derived extracellular vesicles on radiation-induced epididymal cells damage via USP44/RBM14 axis.
Radiation-induced damage to reproductive tissues presents a major clinical concern with potentially lasting functional consequences. - Source: PubMed
Publication date: 2025/11/26
Zhu LingfengZhang JianpingLiang YaoyaoCheng YuanhangLin NaDeng WenyiLin LinglingChen Jin
RBM14 enhances transcriptional activity of p23 regulating CXCL1 expression to induce lung cancer metastasis.
Metastasis serves as an indicator of malignancy and is a biological characteristic of carcinomas. Epithelial-mesenchymal transition (EMT) plays a key role in the promotion of tumor invasion and metastasis and in the enhancement of tumor cell aggressiveness. Prostaglandin E synthase 3 (p23) is a cochaperone for heat shock protein 90 (HSP90). Our previous study showed that p23 is an HSP90-independent transcription factor in cancer-associated inflammation. The effect and mechanism of action of p23 on lung cancer metastasis are tested in this study. By utilizing cell models and mouse tail vein metastasis models , the results provide solid evidence that p23 is critical for promoting lung cancer metastases by regulating downstream CXCL1 expression. Rather than acting independently, p23 forms a complex with RNA-binding motif protein 14 (RBM14) to facilitate EMT progression in lung cancer. Therefore, our study provides evidence for the potential role of the RBM14-p23-CXCL1-EMT axis in the metastasis of lung cancer. - Source: PubMed
Publication date: 2025/04/04
Zhang WenPeng YulinZhou MeirongQian LeiChe YilinChen JunlinZhang WenhaoHe ChengjianQi MinghangShu XiaohongTian ManmanTian XianggeTian YanDeng SaWang YanHuo XiaokuiYu ZhenlongMa Xiaochi
Identification of the Role of Necroptosis-Related Genes in the Oxidative Damage of Lens Epithelial Cells and Validation in Ultraviolet B-induced Cataract in Rats.
The specific role of necroptosis in the pathogenesis of cataracts remains unclear. This study aimed to identify and validate the genes related to necroptosis in the development of cataracts through bioinformatics analysis. - Source: PubMed
Liang YongshunGan QingqiaoZhong XinLan TianYang YingqinLiang Hao

RBM14 Blocking Peptide

Related genes to: RBM14 Blocking Peptide

Related products to: RBM14 Blocking Peptide

Related articles to: RBM14 Blocking Peptide

RBM14 drives prostate cancer metastasis via stabilizing HK2 mRNA to activate glycolysis and H3K18 lactylation.

Physiological α-synuclein S129 phosphorylation mediates postsynaptic and nuclear interactions in the human brain.

Protective effects of mouse bone marrow mesenchymal stem cell-derived extracellular vesicles on radiation-induced epididymal cells damage via USP44/RBM14 axis.

RBM14 enhances transcriptional activity of p23 regulating CXCL1 expression to induce lung cancer metastasis.

Identification of the Role of Necroptosis-Related Genes in the Oxidative Damage of Lens Epithelial Cells and Validation in Ultraviolet B-induced Cataract in Rats.