产品: 磷酸化 STAT1 (Tyr701) 抗体
货号: AF3300
描述: Rabbit polyclonal antibody to Phospho-STAT1 (Tyr701)
应用: WB IHC IF/ICC IP
反应: Human, Mouse, Rat
预测: Pig, Bovine, Horse, Rabbit, Dog, Chicken, Xenopus
分子量: 84kDa; 87kD(Calculated).
蛋白号: P42224
RRID: AB_2834719

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产品描述

来源:
Rabbit
应用:
WB 1:500-1:2000, IHC 1:50-1:200, IP, IF/ICC 1:100-1:500
*The optimal dilutions should be determined by the end user.
*Tips:

WB: 适用于变性蛋白样本的免疫印迹检测. IHC: 适用于组织样本的石蜡(IHC-p)或冰冻(IHC-f)切片样本的免疫组化/荧光检测. IF/ICC: 适用于细胞样本的荧光检测. ELISA(peptide): 适用于抗原肽的ELISA检测.

反应:
Human,Mouse,Rat
预测:
Pig(100%), Bovine(100%), Horse(100%), Rabbit(100%), Dog(100%), Chicken(80%), Xenopus(100%)
克隆:
Polyclonal
特异性:
Phospho-STAT1 (Tyr701) Antibody detects endogenous levels of STAT1 only when phosphorylated at Tyrosine 701.
RRID:
AB_2834719
引用格式: Affinity Biosciences Cat# AF3300, RRID:AB_2834719.
偶联:
Unconjugated.
纯化:
The antibody is from purified rabbit serum by affinity purification via sequential chromatography on phospho-peptide and non-phospho-peptide affinity columns.
保存:
Rabbit IgG in phosphate buffered saline , pH 7.4, 150mM NaCl, 0.02% sodium azide and 50% glycerol. Store at -20 °C. Stable for 12 months from date of receipt.
别名:

展开/折叠

CANDF7; DKFZp686B04100; ISGF 3; ISGF3; OTTHUMP00000163552; OTTHUMP00000165046; OTTHUMP00000165047; OTTHUMP00000205845; Signal transducer and activator of transcription 1; Signal transducer and activator of transcription 1, 91kDa; Signal transducer and activator of transcription 1-alpha/beta; Stat1; STAT1_HUMAN; STAT91; Transcription factor ISGF-3 components p91/p84;

抗原和靶标

免疫原:
Uniprot:
基因/基因ID:
描述:
The protein encoded by this gene is a member of the STAT protein family. In response to cytokines and growth factors, STAT family members are phosphorylated by the receptor associated kinases, and then form homo- or heterodimers that translocate to the cell nucleus where they act as transcription activators.
序列:
MSQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNQAQSGNIQSTVMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREHETNGVAKSDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQKNAGTRTNEGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQNGGEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSRPKEAPEPMELDGPKGTGYIKTELISVSEVHPSRLQTTDNLLPMSPEEFDEVSRIVGSVEFDSMMNTV

种属预测

种属预测:

score>80的预测可信度较高,可尝试用于WB检测。*预测模型主要基于免疫原序列比对,结果仅作参考,不作为质保凭据。

Species
Results
Score
Pig
100
Horse
100
Bovine
100
Dog
100
Xenopus
100
Rabbit
100
Chicken
80
Sheep
0
Zebrafish
0
Model Confidence:
High(score>80) Medium(80>score>50) Low(score<50) No confidence

翻译修饰 - P42224 作为底物

Site PTM Type Enzyme
S2 Acetylation
S2 Phosphorylation
R31 Methylation
K40 Ubiquitination
Y68 Phosphorylation
Y106 Phosphorylation
K114 Methylation
K114 Sumoylation
K114 Ubiquitination
K138 Ubiquitination
K140 Ubiquitination
K145 Ubiquitination
K152 Ubiquitination
K161 Ubiquitination
S162 Phosphorylation
Y170 Phosphorylation
K173 Acetylation
K173 Ubiquitination
K175 Methylation
K175 Ubiquitination
T184 Phosphorylation
K193 Sumoylation
K193 Ubiquitination
K200 Ubiquitination
K201 Acetylation
K201 Ubiquitination
K209 Ubiquitination
K240 Ubiquitination
K286 Ubiquitination
K296 Methylation
K296 Ubiquitination
K298 Ubiquitination
K350 Ubiquitination
K359 Ubiquitination
K361 Ubiquitination
K366 Methylation
K366 Ubiquitination
T373 Phosphorylation
K375 Ubiquitination
K379 Ubiquitination
K388 Ubiquitination
K410 Acetylation
K410 Ubiquitination
K413 Acetylation
T417 Phosphorylation
K511 Ubiquitination
K525 Methylation
K525 Ubiquitination
S532 Phosphorylation
K544 Ubiquitination
S583 Phosphorylation
K592 Ubiquitination
K636 Ubiquitination
K637 Methylation
K637 Ubiquitination
S640 Phosphorylation
K652 Sumoylation
K652 Ubiquitination
K665 Methylation
K665 Ubiquitination
Y668 Phosphorylation
K673 Ubiquitination
K679 Sumoylation
K679 Ubiquitination
K685 Ubiquitination
K697 Ubiquitination
T699 Phosphorylation
Y701 Phosphorylation P52333 (JAK3) , P22455 (FGFR4) , P23458 (JAK1) , P22607 (FGFR3) , P00533 (EGFR) , O60674 (JAK2) , P12931 (SRC)
K703 Sumoylation
K703 Ubiquitination
T704 Phosphorylation
S708 Phosphorylation
S710 Phosphorylation
S715 Phosphorylation
S727 Phosphorylation Q13554 (CAMK2B) , P49336 (CDK8) , Q05655 (PRKCD) , P68400 (CSNK2A1) , Q14164 (IKBKE) , Q15759 (MAPK11) , P19525 (EIF2AK2) , P27361 (MAPK3) , P28482 (MAPK1) , P45983 (MAPK8) , P45984 (MAPK9) , O75582 (RPS6KA5) , Q16539 (MAPK14)
S740 Phosphorylation
S745 Phosphorylation
T749 Phosphorylation

研究背景

功能:

Signal transducer and transcription activator that mediates cellular responses to interferons (IFNs), cytokine KITLG/SCF and other cytokines and other growth factors. Following type I IFN (IFN-alpha and IFN-beta) binding to cell surface receptors, signaling via protein kinases leads to activation of Jak kinases (TYK2 and JAK1) and to tyrosine phosphorylation of STAT1 and STAT2. The phosphorylated STATs dimerize and associate with ISGF3G/IRF-9 to form a complex termed ISGF3 transcription factor, that enters the nucleus. ISGF3 binds to the IFN stimulated response element (ISRE) to activate the transcription of IFN-stimulated genes (ISG), which drive the cell in an antiviral state. In response to type II IFN (IFN-gamma), STAT1 is tyrosine- and serine-phosphorylated. It then forms a homodimer termed IFN-gamma-activated factor (GAF), migrates into the nucleus and binds to the IFN gamma activated sequence (GAS) to drive the expression of the target genes, inducing a cellular antiviral state. Becomes activated in response to KITLG/SCF and KIT signaling. May mediate cellular responses to activated FGFR1, FGFR2, FGFR3 and FGFR4.

翻译修饰:

Phosphorylated on tyrosine and serine residues in response to a variety of cytokines/growth hormones including IFN-alpha, IFN-gamma, PDGF and EGF. Activated KIT promotes phosphorylation on tyrosine residues and subsequent translocation to the nucleus. Upon EGF stimulation, phosphorylation on Tyr-701 (lacking in beta form) by JAK1, JAK2 or TYK2 promotes dimerization and subsequent translocation to the nucleus. Growth hormone (GH) activates STAT1 signaling only via JAK2. Tyrosine phosphorylated in response to constitutively activated FGFR1, FGFR2, FGFR3 and FGFR4. Phosphorylation on Ser-727 by several kinases including MAPK14, ERK1/2 and CAMKII on IFN-gamma stimulation, regulates STAT1 transcriptional activity. Phosphorylation on Ser-727 promotes sumoylation though increasing interaction with PIAS. Phosphorylation on Ser-727 by PRKCD induces apoptosis in response to DNA-damaging agents. Phosphorylated on tyrosine residues when PTK2/FAK1 is activated; most likely this is catalyzed by a SRC family kinase. Dephosphorylation on tyrosine residues by PTPN2 negatively regulates interferon-mediated signaling. Upon viral infection or IFN induction, phosphorylation on Ser-708 occurs much later than phosphorylation on Tyr-701 and is required for the binding of ISGF3 on the ISREs of a subset of IFN-stimulated genes IKBKE-dependent. Phosphorylation at Tyr-701 and Ser-708 are mutually exclusive, phosphorylation at Ser-708 requires previous dephosphorylation of Tyr-701.

Sumoylated with SUMO1, SUMO2 and SUMO3. Sumoylation is enhanced by IFN-gamma-induced phosphorylation on Ser-727, and by interaction with PIAS proteins. Enhances the transactivation activity.

ISGylated.

Mono-ADP-ribosylated at Glu-657 and Glu-705 by PARP14; ADP-ribosylation prevents phosphorylation at Tyr-701. However, the role of ADP-ribosylation in the prevention of phosphorylation has been called into question and the lack of phosphorylation may be due to sumoylation of Lys-703.

Monomethylated at Lys-525 by SETD2; monomethylation is necessary for phosphorylation at Tyr-701, translocation into the nucleus and activation of the antiviral defense.

细胞定位:

Cytoplasm. Nucleus.
Note: Translocated into the nucleus upon tyrosine phosphorylation and dimerization, in response to IFN-gamma and signaling by activated FGFR1, FGFR2, FGFR3 or FGFR4 (PubMed:15322115). Monomethylation at Lys-525 is required for phosphorylation at Tyr-701 and translocation into the nucleus (PubMed:28753426). Translocates into the nucleus in response to interferon-beta stimulation (PubMed:26479788).

Extracellular region or secreted Cytosol Plasma membrane Cytoskeleton Lysosome Endosome Peroxisome ER Golgi apparatus Nucleus Mitochondrion Manual annotation Automatic computational assertionSubcellular location
亚基结构:

Isoform alpha homodimerizes upon IFN-gamma induced phosphorylation. Heterodimer with STAT2 upon IFN-alpha/beta induced phosphorylation. The heterodimer STAT1:STAT2 forms the interferon-stimulated gene factor 3 complex (ISGF3) with IRF9 (By similarity). Interacts (phosphorylated at Ser-727) with PIAS1; the interaction results in release of STAT1 from its target gene. Interacts with IFNAR1; the interaction requires the phosphorylation of IFNAR1 at 'Tyr-466'. Interacts with IFNAR2. Found in a complex with NMI and CREBBP/CBP. Interacts with NMI which is required for CREBBP/CBP recruitment to the complex. Interacts with PTK2/FAK1. Interacts with SRC (By similarity). Interacts with ERBB4 (phosphorylated). Interacts with PARP9 and DTX3L independently of IFN-beta or IFN-gamma-mediated STAT1 'Tyr-701' phosphorylation. Interacts with histone acetyltransferase EP300/p300 in response to INF-gamma stimulation. Interacts with OTOP1 (By similarity).

(Microbial infection) Interacts with Sendai virus C', C, Y1 and Y2 proteins, preventing activation of ISRE and GAS promoter.

(Microbial infection) Interacts with Nipah virus P, V and W proteins preventing activation of ISRE and GAS promoter.

(Microbial infection) Interacts with Rabies virus phosphoprotein preventing activation of ISRE and GAS promoter.

(Microbial infection) Interacts with HCV core protein; the interaction results in STAT1 degradation.

(Microbial infection) Interacts with ebolavirus protein VP24.

蛋白家族:

Belongs to the transcription factor STAT family.

研究领域

· Cellular Processes > Cell growth and death > Necroptosis.   (View pathway)

· Environmental Information Processing > Signal transduction > Jak-STAT signaling pathway.   (View pathway)

· Human Diseases > Infectious diseases: Parasitic > Leishmaniasis.

· Human Diseases > Infectious diseases: Parasitic > Toxoplasmosis.

· Human Diseases > Infectious diseases: Bacterial > Tuberculosis.

· Human Diseases > Infectious diseases: Viral > Hepatitis C.

· Human Diseases > Infectious diseases: Viral > Hepatitis B.

· Human Diseases > Infectious diseases: Viral > Measles.

· Human Diseases > Infectious diseases: Viral > Influenza A.

· Human Diseases > Infectious diseases: Viral > Human papillomavirus infection.

· Human Diseases > Infectious diseases: Viral > Herpes simplex infection.

· Human Diseases > Cancers: Overview > Pathways in cancer.   (View pathway)

· Human Diseases > Cancers: Specific types > Pancreatic cancer.   (View pathway)

· Human Diseases > Immune diseases > Inflammatory bowel disease (IBD).

· Organismal Systems > Immune system > Chemokine signaling pathway.   (View pathway)

· Organismal Systems > Development > Osteoclast differentiation.   (View pathway)

· Organismal Systems > Immune system > Toll-like receptor signaling pathway.   (View pathway)

· Organismal Systems > Immune system > NOD-like receptor signaling pathway.   (View pathway)

· Organismal Systems > Immune system > Th1 and Th2 cell differentiation.   (View pathway)

· Organismal Systems > Immune system > Th17 cell differentiation.   (View pathway)

· Organismal Systems > Endocrine system > Prolactin signaling pathway.   (View pathway)

· Organismal Systems > Endocrine system > Thyroid hormone signaling pathway.   (View pathway)

文献引用

1). Calcium silicate-human serum albumin composite hydrogel decreases random pattern skin flap necrosis by attenuating vascular endothelial cell apoptosis and inflammation. Chemical Engineering Journal, 2021 [IF=15.1]

2). Chemical structure and anti-inflammatory activity of a branched polysaccharide isolated from Phellinus baumii. Carbohydrate Polymers, 2021 (PubMed: 34127216) [IF=11.2]

Application: WB    Species: Mouse    Sample: RAW 264.7 cells

Fig. 5. |Effects of SHPS-1 on lipopolysaccharide (LPS)-stimulated RAW 264.7 cells. The internal panels represent the effect of SHPS-1 and LPS on (A) cell proliferation, (B) nitric oxide concentration in cell culture medium, (C) gene expression, (D) proteins levels analyzed by western blot.

Application: IF/ICC    Species: Mouse    Sample: RAW 264.7 cells

Fig. 5. |Effects of SHPS-1 on lipopolysaccharide (LPS)-stimulated RAW 264.7 cells. The internal panels represent the effect of SHPS-1 and LPS on (A) cell proliferation, (B) nitric oxide concentration in cell culture medium, (C) gene expression, (D) proteins levels analyzed by western blot.(E) NF-KB p65 nucleus translocation analyzed by immunofluorescence (IF), (F) phosphorylation level of STAT1 analyzed by IF

3). Aligned electrospun poly(l-lactide) nanofibers facilitate wound healing by inhibiting macrophage M1 polarization via the JAK-STAT and NF-κB pathways. JOURNAL OF NANOBIOTECHNOLOGY, 2022 (PubMed: 35883095) [IF=10.2]

Application: WB    Species: Mice    Sample:

Fig. 3 The underlying mechanism by which aligned fibers affected macrophage polarization. A Venn diagram showing differentially expressed genes. B KEGG pathway analysis between the A20 and R20 groups. C Heatmap of differentially expressed genes among the three groups. D Heatmap of macrophage polarization-related genes between the A20 and R20 groups. E Volcano diagram of differentially expressed genes. F Western blot analysis of the NF-κB signaling pathway. G Immunofluorescence staining showing the nuclear translocation of NF-κB p65. The nucleus is stained blue, and NF-κB p65 protein is stained red. H Western blot images and semiquantitative analysis of the JAK-STAT signaling pathway (*p < 0.05, **p < 0.01, n = 3)

4). Tofacitinib Promotes Functional Recovery after Spinal Cord Injury by Regulating Microglial Polarization via JAK/STAT Signaling Pathway. International Journal of Biological Sciences, 2023 (PubMed: 37781508) [IF=9.2]

Application: WB    Species: Rat    Sample: spinal cord

Figure 8 TOF normalizes the activated STAT signaling in injured spinal cord and ex vivo microglia under inflammatory conditions. (A) Western blot analysis performed for p-STAT1, STAT1, p-STAT3 and STAT3 expression in spinal cord obtained on day 7 post-injury. (B) Western blot analysis of p-STAT1, STAT1, p-STAT3 and STAT3 expression in primary microglia. (C) Quantification of the ratio of p-STAT1/ STAT1 and p-STAT3/ STAT3 (The values are presented as mean ± SD; *p

5). Phillygenin inhibited M1 macrophage polarization and reduced hepatic stellate cell activation by inhibiting macrophage exosomal miR-125b-5p. BIOMEDICINE & PHARMACOTHERAPY, 2023 (PubMed: 36652738) [IF=7.5]

Application: WB    Species: Mouse    Sample: RAW264.7 cells

Fig. 2. PHI inhibited the JAK/STAT and Notch1 signaling pathways in RAW264.7 cells. (a) The 3D and 2D models of molecular docking of PHI and JAK1. (b) The 3D and 2D models of molecular docking of PHI and JAK2. (c) The 3D and 2D models of molecular docking of PHI and Notch1. (d-g) The expression of JAK1, JAK2, STAT1 and Notch1 mRNA in RAW264.7 cells after treatment with LPS/IFNγ and PHI for 12 h was detected by RT-qPCR (n = 3). (h) The expression of JAK1, JAK2, p-JAK1, p-JAK2, STAT1, p-STAT1 and Notch1 proteins in RAW264.7 cells after treatment with LPS/IFNγ and PHI for 12 h was detected by western blotting. (i-l) The relative quantification of p-JAK1/JAK1, p-JAK2/JAK2, p-STAT1/STAT1, and Notch1 protein expression in western blotting results was analyzed by ImageJ software (n = 3). Results are presented as mean ± SD. ###P 

6). Novel Insight Into Nutritional Regulation in Enhancement of Immune Status and Mediation of Inflammation Dynamics Integrated Study In Vivo and In Vitro of Teleost Grass Carp (Ctenopharyngodon idella): Administration of Threonine. Frontiers in Immunology, 2022 (PubMed: 35359991) [IF=7.3]

7). Swine acute diarrhoea syndrome coronavirus (SADS-CoV) Nsp5 antagonizes type I interferon signaling by cleaving DCP1A. Frontiers in Immunology, 2023 (PubMed: 37283741) [IF=7.3]

Application: WB    Species: Human    Sample: HEK-293T cells

Figure 4 DCP1A activates the type I IFN signaling pathway. (A) ST, HEK-293T, and Vero-E6 cells were transfected with 2 µg/well empty vector or pXJ40-HA-sDCP1A, pXJ40-HA-hDCP1A, and pXJ40-HA-mDCP1A expression plasmids. After 24 h of transfection, the cells were infected with VSV-GFP for 12 h, and the expression of DCP1A was examined by Western blotting with an anti-HA antibody. Then, the replication of VSV-GFP was analysed via fluorescence microscopy. (B) HEK-293T cells were transfected with pXJ40-HA vector and various amounts of the pXJ40-HA-mDCP1A expression plasmid. (C) pXJ40-HA vector, pXJ40-HA-h-DCP1A expression plasmid, DCP1A siRNA and negative control siRNA were transfected into HEK-293T cells. After 30 h, cells were collected for Western blot analysis. Cells were analyzed by Western blotting with anti-STAT2, anti-phospho STAT2, anti-STAT1, anti-phospho STAT1, anti-IRF3, anti-phospho IRF3, anti-P65, anti-phospho P65, anti-HA, and β-actin antibodies. (D) pXJ40-HA vector, pXJ40-HA-h-DCP1A expression plasmid, DCP1A siRNA and negative control siRNA were transfected into HEK-293T cells. After 30 h, IFN-β mRNA levels were analysed by RT−qPCR. All data are reported as mean±SD. For all experiments, *p < 0.05 and ***p < 0.001 were considered to be statistically significant.

8). Poly(ADP-ribose) polymerase family member 14 promotes functional recovery after spinal cord injury through regulating microglia M1/M2 polarization via STAT1/6 pathway. Neural Regeneration Research, 2023 (PubMed: 36751810) [IF=6.1]

Application: WB    Species: Mouse    Sample:

Figure 5 PARP14 deficiency activates the STAT1 pathway but blocks the STAT6 pathway in mice 7 days post-SCI. (A) Representative images and quantitative analysis showing p-STAT1 (Try701)+/Iba1+ immunofluorescence staining. Lv-shPARP14 injection further promoted SCI-induced STAT1 pathway activation. White arrows indicate p-STAT1 (Try701)+ (green, FITC-labeled)/Iba1+ (red, Cy3-labeled, microglia marker) cells. (B) Representative images and quantitative analysis showing p-STAT6 (Tyr641)+/Iba1+ immunofluorescence staining. Lv-shPARP14 injection inhibited SCI-induced STAT6 pathway activation. White arrows indicated p-STAT6 (Tyr641)+ (green, FITC-labeled)/Iba1+ (red, Cy3-labeled) cells. Scale bars: 50 µm. (C) Relative protein levels of p-STAT1 (Try701), and p-STAT6 (Tyr641) in each group were detected by western blot analysis. p-STAT1 (Try701) expression was increased by Lv-shPARP14 injection, but p-STAT6 (Tyr641) expression was decreased by PARP14 silencing. Values are shown as mean ± SD (n = 6). **P < 0.01 (one-way analysis of variance followed by Tukey’s post hoc test). Images were taken from the gray matter ventral horn at the injury site. Spinal cord tissues from the injury site were used for western blot detection. DAPI: 4′,6-Diamidino-2-phenylindole; Iba1: ionized calcium-binding adaptor molecule 1; PARP14: poly(ADP-ribose)polymerase, member 14; SCI: spinal cord injury; STAT1: signal transducer and activator of transcription.

9). Carotid baroreceptor stimulation improves cardiac performance and reverses ventricular remodelling in canines with pacing-induced heart failure. LIFE SCIENCES, 2019 (PubMed: 30811965) [IF=6.1]

10). Diosmetin Ameliorates Nonalcoholic Steatohepatitis through Modulating Lipogenesis and Inflammatory Response in a STAT1/CXCL10-Dependent Manner. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 2021 (PubMed: 33404223) [IF=6.1]

Application: WB    Species: Mice    Sample: liver tissue

Figure 3. Effect of Dios on molecular phenotype of STAT1 and CXCL10 in mice liver by using RNA-Seq. (A−B) Identification of DEGs in different groups. (A) HFD vs SD group. (B) HFD + Dios vs HFD group. The red points represent upregulated genes. The green points represent downregulated genes. The blue points represent genes with no significant difference. DEGs were screened on P < 0.05 and | log2 (Fold change) | > 1. (C) Heat map analysis was employed to the discrimination of expression profile of DEGs across the samples. Red and blue areas separately represent highly and lowly expressed genes in mice livers among SD, HFD, and the HFD + Dios group. (D) Venn diagram of DEGs among different groups. 456 shared DEGs were obtained from this diagram. (E) The PPI network of 456 shared DEGs was analyzed through the STING database. There were 408 nodes and 3294 edged in the PPI network. (F) The ten hub genes including CXCL10 and STAT1 were confirmed by Cytohubba. (G) The expression of DEGs mRNA (FPR2, PSMB8, PTAFR, CCR7, CXCR4, and LCK) was measured under the method of quantitative RT-PCR. (H) The mRNA expression of STAT1 and CXCL10 in mice livers by qRT-PCR assay. (I) The expression of CXCL10, total STAT1, p-STAT1Y701, and p-STAT1S727 protein was examined through Western blot assay. β-Actin was used as an internal control. Data are expressed as mean ± SD (n = 3). *P < 0.05, vs the SD group; # P < 0.05, vs the HFD group.

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