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Rabbit Anti-TLR4  antibody (bs-20594R)  
~~~促銷代碼KT202411~~~
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產(chǎn)品編號 bs-20594R
英文名稱 Rabbit Anti-TLR4  antibody
中文名稱 Toll樣受體4(CD284)抗體
別    名 TLR-4; TLR 4; ARMD10; CD 284; CD284; CD284 antigen; Homolog of Drosophila toll; hTol; Toll (Drosophila) homolog; TOLL; Toll Endotoxin Hyporesponsiveness; Toll like receptor 4; Toll like receptor 4 precursor; TLR4_HUMAN.  
Specific References  (43)     |     bs-20594R has been referenced in 43 publications.
[IF=15.863] Li Chengnan. et al. Neutrophil-inspired photothermo-responsive drug delivery system for targeted treatment of bacterial infection and endotoxins neutralization. Biomaterials Research. 2023 Dec;27(1):1-16  WB ;  Human.  
[IF=6.706] Na Chen. et al. Casein Lactose-Glycation of the Maillard-Type Attenuates the Anti-Inflammatory Potential of Casein Hydrolysate to IEC-6 Cells with Lipopolysaccharide Stimulation. NUTRIENTS. 2022 Jan;14(23):5067  WB ;  Rat.  
[IF=6.656] Chaojie Chen. et al. Ganoderma lucidum polysaccharide inhibits HSC activation and liver fibrosis via targeting inflammation, apoptosis, cell cycle, and ECM-receptor interaction mediated by TGF-β/Smad signaling. PHYTOMEDICINE. 2022 Dec;:154626  WB ;  Mouse.  
[IF=6.419] Quan Rao. et al. Dendritic cell combination therapy reduces the toxicity of triptolide and ameliorates colitis in murine models. Drug Deliv. 2022;29(1):679-691  WB ;  Mouse.  
[IF=6.208] Ziwei Lin. et al. Anti-Inflammatory Activity of Mulberry Leaf Flavonoids In Vitro and In Vivo. INT J MOL SCI. 2022 Jan;23(14):7694  IHC ;  Mouse.  
[IF=6.117] Yuanyuan Xing. et al. Artemisia ordosica polysaccharide ameliorated LPS-induced growth inhibition and intestinal injury in broilers through enhancing immune-regulation and antioxidant capacity. J NUTR BIOCHEM. 2023 Feb;:109284  WB ;  Chicken.  
[IF=5.878] Chiara Corpetti. et al. Cannabidiol inhibits SARS-Cov-2 spike (S) protein-induced cytotoxicity and inflammation through a PPARγ-dependent TLR4/NLRP3/Caspase-1 signaling suppression in Caco-2 cell line. 2021 Oct 12  WB ;  Human.  
[IF=5.81] Xu X. et al. Alhagi pseudalhagi Extract Exerts Protective Effects Against Intestinal Inflammation in Ulcerative Colitis by Affecting TLR4-Dependent NF-κB Signaling Pathways.. Front Pharmacol. 2021 Nov;12:764602-764602  WB ;  Mouse.  
[IF=5.717] Na Chen. et al. Casein Oligochitosan-Glycation by Transglutaminase Enhances the Anti-Inflammatory Potential of Casein Hydrolysates to the Lipopolysaccharide-Stimulated IEC-6 Cells. Nutrients. 2022 Jan;14(3):686  WB ;  Rat.  
[IF=5.246] Zou Xiong. et al. Toll-Like Receptors Serve as Biomarkers for Early Diagnosis and Prognosis Assessment of Kidney Renal Clear Cell Carcinoma by Influencing the Immune Microenvironment: Comprehensive Bioinformatics Analysis Combined With Experimental Validation. Front Mol Biosci. 2022 Jan;0:24  FC ;  Human.  
[IF=5.195] Qian Zhang. et al. Shiwei Qingwen decoction regulates TLR4/NF-κB signaling pathway and NLRP3 inflammasome to reduce inflammatory response in lipopolysaccharide-induced acute lung injury. J ETHNOPHARMACOL. 2023 Sep;313:116615  WB ;  Rat,Human.  
[IF=4.996] Schary Yeshai. et al. CRISPR-Cas9 editing of TLR4 to improve the outcome of cardiac cell therapy. SCI REP-UK. 2023 Mar;13(1):1-16  WB ;  
[IF=4.932] Alessandro Del Re. et al. Ultramicronized Palmitoylethanolamide Inhibits NLRP3 Inflammasome Expression and Pro-Inflammatory Response Activated by SARS-CoV-2 Spike Protein in Cultured Murine Alveolar Macrophages. Metabolites. 2021 Sep;11(9):592  WB,IF ;  mouse.  
[IF=4.757] Wenfeng Hu. et al. Secretome of hESC-Derived MSC-like Immune and Matrix Regulatory Cells Mitigate Pulmonary Fibrosis through Antioxidant and Anti-Inflammatory Effects. BIOMEDICINES. 2023 Feb;11(2):463  WB ;  Mouse.  
[IF=4.451] Meilan Xue. et al. Neuroprotective effect of fucoidan by regulating gut-microbiota-brain axis in alcohol withdrawal mice. J Funct Foods. 2021 Nov;86:104726  WB ;  mouse.  
[IF=4.411] Shi-Qing Cai. et al. The In Vitro Anti-Inflammatory Activities of Galangin and Quercetin towards the LPS-Injured Rat Intestinal Epithelial (IEC-6) Cells as Affected by Heat Treatment. Molecules. 2021 Jan;26(24):7495  WB ;  Rat.  
[IF=4.235] Zhao Xueqin. et al. The Antimicrobial Peptide Mastoparan X Protects Against Enterohemorrhagic Escherichia coli O157:H7 Infection, Inhibits Inflammation, and Enhances the Intestinal Epithelial Barrier. Front Microbiol. 2021 Jun;12:1392  IF ;  Pig.  
[IF=4.23] Xiaoyin Zhang. et al. Proinflammatory S100A9 stimulates TLR4/NF-κB signaling pathways causing enhanced phagocytic capacity of microglial cells. IMMUNOL LETT. 2023 Mar;255:54  WB ;  Mouse.  
[IF=4.162] Jiali Yang. et al. Baicalin Rescues Cognitive Dysfunction, Mitigates Neurodegeneration, and Exerts Anti-Epileptic Effects Through Activating TLR4/MYD88/Caspase-3 Pathway in Rats. Drug Des Dev Ther. 2021 Jul;15:3163-3180  IHC ;  Rat.  
[IF=4.161] Yang Jun-Pu. et al. Glycyrrhizin ameliorates impaired glucose metabolism and ovarian dysfunction in a polycystic ovary syndrome mouse model. BIOL REPROD. 2023 Apr;:  WB ;  Human.  
[IF=4.147] Sijie Yuan. et al. Bacteroides vulgatus diminishes colonic microbiota dysbiosis ameliorating lumbar bone loss in ovariectomized mice. Bone. 2021 Jan;142:115710  WB ;  Mouse.  
[IF=3.889] Ming Dong Si. et al. Swertia mussotii prevents high-fat diet-induced non-alcoholic fatty liver disease in rats by inhibiting expression the TLR4/MyD88 and the phosphorylation of NF-κB. PHARM BIOL. 2022 Oct 07  WB ;  Rat.  
[IF=3.845] Peng LY et al. Protective Effect of Piceatannol Against Acute Lung Injury Through Protecting the Integrity of Air-Blood Barrier and Modulating the TLR4/NF-κB Signaling Pathway Activation. Front Pharmacol. 2020 Jan 22;10:1613.  WB ;  Mouse.  
[IF=3.776] Dongming Chen. et al. Study on the mechanism of Phellinus igniarius total flavonoids in reducing uric acid and protecting uric acid renal injury in vitro. HELIYON. 2023 Jan;9:e12979  WB ;  Human.  
[IF=3.69] Naihua Hu. et al. Forsythiae Fructuse water extract attenuates liver fibrosis via TLR4/MyD88/NF-κB and TGF-β/smads signaling pathways. J Ethnopharmacol. 2020 Nov;262:113275  WB ;  Rat.  
[IF=3.687] Yuan FH et al. microRNA‐30a inhibits the liver cell proliferation and promotes cell apoptosis through the JAK/STAT signaling pathway by targeting SOCS‐1 in rats with sepsis. J Cell Physiol. 2019 Apr 10.  WB ;  Rat.  
[IF=3.457] Ling L et al. MicroRNA-30e promotes hepatocyte proliferation and inhibits apoptosis in cecal ligation and puncture-induced sepsis through the JAK/STAT signaling pathway by binding to FOSL2.Biomed Pharmacother. 2018 Aug;104:411-419.  WB ;  Rat.  
[IF=3.432] Dong W et al. Polychlorinated biphenyl quinone induces caspase 1-mediated pyroptosis through the induction of pro-inflammatory HMGB1-TLR4-NLRP3-GSDMD signal axis. Chem Res Toxicol. 2019 Apr 23.  WB&ICF ;  Human.  
[IF=3.414] Hu N et al. Phillygenin inhibits LPS-induced activation and inflammation of LX2 cells by TLR4/MyD88/NF-κB signaling pathway. J Ethnopharmacol. 2019 Nov 1:112361.  WB ;  Human.  
[IF=3.37] Xuelian Ma. et al. Down-regulated long non-coding RNA RMST ameliorates dopaminergic neuron damage in Parkinson’s disease rats via regulation of TLR/NF-κB signaling pathway. Brain Res Bull. 2021 Apr;:  WB ;  Rat.  
研究領(lǐng)域 心血管  免疫學(xué)  信號轉(zhuǎn)導(dǎo)  細胞膜受體  
抗體來源 Rabbit
克隆類型 Polyclonal
交叉反應(yīng) Human,Mouse,Cow (predicted: Rat,Rabbit,Pig,Sheep,Horse)
產(chǎn)品應(yīng)用 WB=1:1000-2000,IHC-P=1:100-500,IHC-F=1:500-1000,IF=1:200-1000,ELISA=1:1000-5000
not yet tested in other applications.
optimal dilutions/concentrations should be determined by the end user.
理論分子量 90kDa
細胞定位 細胞膜 
性    狀 Liquid
濃    度 1mg/ml
免 疫 原 KLH conjugated synthetic peptide derived from human TLR4: 701-800/839 
亞    型 IgG
純化方法 affinity purified by Protein A
緩 沖 液 0.01M TBS (pH7.4) with 1% BSA, 0.02% Proclin300 and 50% Glycerol.
保存條件 Shipped at 4℃. Store at -20℃ for one year. Avoid repeated freeze/thaw cycles.
注意事項 This product as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications.
PubMed PubMed
產(chǎn)品介紹 The protein encoded by this gene is a member of the Toll-like receptor (TLR) family which plays a fundamental role in pathogen recognition and activation of innate immunity. TLRs are highly conserved from Drosophila to humans and share structural and functional similarities. They recognize pathogen-associated molecular patterns that are expressed on infectious agents, and mediate the production of cytokines necessary for the development of effective immunity. The various TLRs exhibit different patterns of expression. In silico studies have found a particularly strong binding of surface TLR4 with the spike protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative agent of Coronavirus disease-2019 (COVID-19). This receptor has also been implicated in signal transduction events induced by lipopolysaccharide (LPS) found in most gram-negative bacteria. Mutations in this gene have been associated with differences in LPS responsiveness, and with susceptibility to age-related macular degeneration. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Aug 2020]

Function:
Cooperates with LY96 and CD14 to mediate the innate immune response to bacterial lipopolysaccharide (LPS). Acts via MYD88, TIRAP and TRAF6, leading to NF-kappa-B activation, cytokine secretion and the inflammatory response. Also involved in LPS-independent inflammatory responses triggered by Ni(2+). These responses require non-conserved histidines and are, therefore, species-specific.

Subcellular Location:
Membrane; Single-pass type I membrane protein.

Tissue Specificity:
Highly expressed in placenta, spleen and peripheral blood leukocytes. Detected in monocytes, macrophages, dendritic cells and several types of T-cells.

Post-translational modifications:
N-glycosylated. Glycosylation of Asn-526 and Asn-575 seems to be necessary for the expression of TLR4 on the cell surface and the LPS-response. Likewise, mutants lacking two or more of the other N-glycosylation sites were deficient in interaction with LPS.

DISEASE:
Genetic variation in TLR4 is associated with age-related macular degeneration type 10 (ARMD10) [MIM:611488]. ARMD is a multifactorial eye disease and the most common cause of irreversible vision loss in the developed world. In most patients, the disease is manifest as ophthalmoscopically visible yellowish accumulations of protein and lipid that lie beneath the retinal pigment epithelium and within an elastin-containing structure known as Bruch membrane.

Similarity:
Belongs to the Toll-like receptor family.
Contains 18 LRR (leucine-rich) repeats.
Contains 1 LRRCT domain.
Contains 1 TIR domain

SWISS:
O00206

Gene ID:
7099

Database links:

Entrez Gene: 7099 Human

Entrez Gene: 21898 Mouse

Entrez Gene: 29260 Rat

SwissProt: O00206 Human

SwissProt: Q9QUK6 Mouse

SwissProt: Q9QX05 Rat

Unigene: 174312 Human

Unigene: 38049 Mouse



產(chǎn)品圖片
Sample: K562(Human) Cell Lysate at 40 ug HL-60(Human) Cell Lysate at 40 ug RAW264.7(Mouse) Cell Lysate at 40 ug Primary:Anti-TLR4 (bs-20594R) at 1/2000 dilution
This image was generously provided by Juanli Fu, at Southwest University in Chong Qing, China. 4% Paraformaldehyde fixed PC12 cells stained with Rabbit Anti- TLR4 Polyclonal Antibody (bs-20594R) at 1:300 for 3 hours at 4°C, followed by Alexa Fluor 488-conjugated secondary antibody for an additional hour.
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