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Anti sumo1

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Anti-SUMO1 is a laboratory reagent used in research applications. It is an antibody that specifically binds to the SUMO1 protein, which is involved in post-translational modification processes within cells. This product can be used to detect and study the localization, expression, and interactions of SUMO1 in various experimental systems.

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Lab products found in correlation

Anti flag, by Merck Group (3 mentions) Anti ha, by Santa Cruz Biotechnology (2 mentions) Anti sumo2 3, by Abcam (2 mentions) Anti ha, by Merck Group (2 mentions) Clean blot ip detection reagent, by Thermo Fisher Scientific (1 mentions) Mouse monoclonal anti actin, by Santa Cruz Biotechnology (1 mentions) Rabbit polyclonal anti flag, by Santa Cruz Biotechnology (1 mentions) Anti gfp, by Santa Cruz Biotechnology (1 mentions) Cycloheximide (chx), by Merck Group (1 mentions) Anti crm1, by Santa Cruz Biotechnology (1 mentions) Anti pml, by Santa Cruz Biotechnology (1 mentions) Anti sqstm1 p62, by Santa Cruz Biotechnology (1 mentions) Anti coilin, by Santa Cruz Biotechnology (1 mentions) Anti histone h3, by Abcam (1 mentions) Anti ubiquitin, by Agilent Technologies (1 mentions) Methanol, by Merck Group (1 mentions) Anti cleaved caspase 3, by Santa Cruz Biotechnology (1 mentions) Anti serca2a, by Santa Cruz Biotechnology (1 mentions) Anti akt, by Cell Signaling Technology (1 mentions) Anti bcl 2, by Santa Cruz Biotechnology (1 mentions)

9 protocols using anti sumo1

1

Antibody Validation and Protein Detection

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Rabbit polyclonal anti-Flag, anti-GFP, anti-HA, and anti-GPS2, and mouse monoclonal anti-actin and anti-SUMO1 antibodies were obtained from Santa Cruz Biotechnology (Santa Cruz, CA). Rabbit polyclonal anti-Myc and mouse monoclonal anti-Flag (M2) antibodies were purchased from Sigma-Aldrich (St. Louis, MO). Cycloheximide was obtained from Sigma-Aldrich, and MG132 was obtained from Calbiochem (San Diego, CA). Clean Blot IP Detection Reagent was purchased from Thermo Scientific (Rockford, IL).
Bi H., Li S., Wang M., Jia Z., Chang A.K., Pang P, & Wu H. (2014). SUMOylation of GPS2 protein regulates its transcription-suppressing function. Molecular Biology of the Cell, 25(16), 2499-2508.
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2

Immunofluorescence Analysis of SUMO-2/3

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HeLa cells were grown in DMEM supplemented with 10% fetal calf serum (FCS) at 37°C with 5% CO2. LMB was added at a 10 nM final concentration from a 10 µm stock solution in 70% methanol (Sigma-Aldrich). An equivalent amount of methanol was added to control cells. The following rabbit polyclonal antibodies were used in this study: anti-SUMO-2/3 (Abcam 3742), anti-SUMO1 (Santa Cruz sc FL-101), anti-CRM1 (Santa Cruz sc-5595), anti-Histone H3 (Abcam1791), anti-p62/SQSTM1 (Santa Cruz sc-25575), anti-Ubiquitin (DAKO Z 0458), anti-Coilin (Santa Cruz sc-32860), rabbit anti-PML.64 (link) Monoclonal mouse anti-CRM1 (BD 611 832), anti-PML (Santa Cruz sc PG-M3) and anti-p62/SQSTM1 (BD transduction Laboratories 610832) were used single or in conjunction with rabbit antibodies for double-labeling experiments.
Souquere S., Weil D, & Pierron G. (2015). Comparative ultrastructure of CRM1-Nucleolar bodies (CNoBs), Intranucleolar bodies (INBs) and hybrid PML/p62 bodies uncovers new facets of nuclear body dynamic and diversity. Nucleus, 6(4), 326-338.
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3

Western Blot Analysis of Protein Expression

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The protein expression was examined by western blot analysis as previously described16 (link)19 (link). Total protein was harvested from cultured cells or myocardium tissue. Briefly, samples were separated on 8–12% sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS–PAGE), and then transferred to a nitrocellulose membrane by electroblotting. The membranes were blocked in 5% bovine serum albumin for 3 h, and then incubated with first antibody anti-SERCA2a, anti-NCX1, anti-SUMO1, anti-p-PLB, anti-PLB (Santa Cruz Biotechnology, Santa Cruz, CA, USA), anti-Akt and anti-phospho-Akt (Cell Signaling technology, CST, USA). After overnight incubated at 4 °C, the membranes were then washed and incubated with second antibodies for another 1 h at room temperature. Bands were visualized by the use of a super-western sensitivity chemiluminescence detection system (Tanon Imaging System, Tanon, China). Autoradiographs were quantitated by densitometry (Tanon Imaging System, Tanon, China). GAPDH or β-actin was the internal control for protein normalization.
The expressions of apoptosis protein including Bcl-2, Bax, caspase-3 and cleaved-caspase-3 were also detected by western blot analysis. Anti-Bcl-2, anti-Bax, anti-caspase-3 and anti-cleaved-caspase-3 were brought from Santa Cruz Biotechnology (Santa Cruz, CA, USA).
Hu W., Xu T., Wu P., Pan D., Chen J., Chen J., Zhang B., Zhu H, & Li D. (2017). Luteolin improves cardiac dysfunction in heart failure rats by regulating sarcoplasmic reticulum Ca2+-ATPase 2a. Scientific Reports, 7, 41017.
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4

Cloning and Characterization of Aim2 and Ube2i

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Plasmids of mouse Aim2 and Ube2i were cloned from cDNA of bone marrow derived macrophages (BMDMs), ligated to pcDNA4.0. Sumo1, sumo2 and sumo3 plasmids were kindly provided by Dr. Jinke Cheng (Shanghai Jiao Tong University). Blots were stained with anti-FLAG (Sigma), anti-V5 (InvivoGen), anti-HA (Santa Cruz), anti-sumo1, -sumo2/3, -Ube2i, -Aim2, -Stat1, -P-Stat1, and -GAPDH antibodies (Cell Signaling Technology).
Lu A., Wu S., Niu J., Cui M., Chen M., Clapp W.L., Barnes B.J, & Meng G. (2021). Aim2 Couples with Ube2i for Sumoylation-mediated Repression of Interferon Signatures in Systemic Lupus Erythematosus. Arthritis & rheumatology (Hoboken, N.J.), 73(8), 1467-1477.
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5

Immunohistochemical Analysis of SUMO Pathway

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IHC was performed as previously described [26 (link)]. For IHC co-stain, FFPE samples were deparaffinized, antigens retrieved at 99°C for 40 minutes, incubated with the first stain antibody (UBC9) O/N at 4°C, and visualized using the 3,3’-diaminobenzidine (DAB) chromogen. Then, samples were treated with Denaturing Solution (Biocare) to avoid cross-reaction, stained with the second antibody (SUMO1), and visualized with LSAB-AP and Vulcan Fast Red. Finally, slides were counterstained with haematoxylin and coverslipped. The following primary antibodies were used: anti-UBC9 (H-81, Santa Cruz Biotechnology), anti-SUMO1 (Santa Cruz Biotechnology), anti-SUMO2/3 (Abcam), anti-p62 (2C11, Abnova), anti-Ki-67(MIB-1, Dako). Images were generated with a BX51 Upright Microscopes from Olympus America Inc at 20x magnification. For morphological pathologist assessment, the Low Grade or High Grade dysplasia were obtained using morphological grading system and the percentage of positive staining in the tumor cells was quantified by blinded reading of the slide. Computational analysis was carried out as previously described [26 (link)].
Mattoscio D., Casadio C., Miccolo C., Maffini F., Raimondi A., Tacchetti C., Gheit T., Tagliabue M., Galimberti V.E., De Lorenzi F., Pawlita M., Chiesa F., Ansarin M., Tommasino M, & Chiocca S. (2017). Autophagy regulates UBC9 levels during viral-mediated tumorigenesis. PLoS Pathogens, 13(3), e1006262.
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6

Parkin-Mediated Ubiquitylation Assay

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Wild-type ParkinPhospho-Ser65 or indicated mutant of Parkin (2 μg or 0.2 μg) was incubated with ubiquitylation assay components in a final volume of 50 μl (50 mM Tris–HCl (pH 7.5), 5 mM MgCl2, 0.12 μM UbE1, 1 μM UbcH7 and 2 μg 6xHis-Sumo-Miro, 2 mM ATP). About 5 μg of ubiquitin or ubiquitinPhospho-Ser65 was added as indicated. Ubiquitylation reactions were incubated at 30°C for 60 min and terminated by the addition of LDS sample buffer. For all assays, reaction mixtures were resolved by SDS–PAGE. Ubiquitylation reactions were subjected to immunoblotting with anti-FLAG antibody (Sigma, 1:10,000), anti-Parkin (Santa Cruz 1:5,000) or anti-SUMO1 (1:2,000).
Kazlauskaite A., Martínez-Torres R.J., Wilkie S., Kumar A., Peltier J., Gonzalez A., Johnson C., Zhang J., Hope A.G., Peggie M., Trost M., van Aalten D.M., Alessi D.R., Prescott A.R., Knebel A., Walden H, & Muqit M.M. (2015). Binding to serine 65-phosphorylated ubiquitin primes Parkin for optimal PINK1-dependent phosphorylation and activation. EMBO Reports, 16(8), 939-954.
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7

Antibody-based Transcription Factor Analysis

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Antibodies used in these studies were anti-SUMO1 (1:500; #FL-101, Santa Cruz), anti–ROR-γt (1:800; BD Bioscience), anti-Ubc9 (1:1000, CST), anti-HIF-1α (1:200; BD Biosciences), mouse IgG (Santa Cruz Biotechnology), PE-CD45Rb (Biolegend), APC-CD4 (Biolegend), FITC-CD25 (Tonbo biosciences) and Clean-Blot™ IP detection reagent (HRP) (1:50; Pierce Biotechnology). Dulbecco’s modified Eagle’s medium (Gibco), fetal bovine serum (Gibco), QIAmp DNA mini kit (Qiagen, USA), EpiTect bisulfite kit (Qiagen, USA), EpiTaq HS polymerase (TaKaRa), ChIP assay kit (Millipore).
Kumar R., Singh A.K., Starokadomskyy P., Luo W., Theiss A.L., Burstein E, & Venuprasad K. (2021). Hypoxia Induced Ubc9 promoter hyper-methylation regulates IL-17 expression in ulcerative colitis. Journal of immunology (Baltimore, Md. : 1950), 206(5), 936-940.
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8

Generation and characterization of Bmi1 variants

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Flag-Bmi1 (WT or K88R) and Flag-GFP-Bmi1 (WT or K88R) were generated using standard cloning procedures. K88R mutation was introduced into Bmi1 by site directed mutagenesis using QuikChange Site-Directed Mutagenesis Kit (Agilent California, USA). HA-SUMO1, HA-UBC9, RGS-SENP1 and RGS-SENP1m were previously described45 (link)48 (link). Anti-FLAG (mouse; #F1804) and anti-HA(mouse; #H3663) antibodies were from Sigma; anti-RGS-his (mouse; #34610) antibody from QIAGEN; anti-H-Ras (mouse; #sc-53959) and p16Ink4a (mouse; #sc-1661) antibodies from Santa Cruz; anti-SUMO1 (rabbit; #ab5316), H3K27me3 (mouse; #ab6002) and p19Arf (rabbit; #ab80) antibodies from Abcam; anti-Bmi1 (mouse; #05–637), γH2AX (mouse; #05–636) and uH2AK119 (mouse; #05–678) antibodies from Millipore.
Xia N., Cai J., Wang F., Dong B., Liu S., Chen F., Cheng J, & Zuo Y. (2016). SENP1 Is a Crucial Regulator for Cell Senescence through DeSUMOylation of Bmi1. Scientific Reports, 6, 34099.
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9

Immunoblotting of Hepatitis C Virus Proteins

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IP was performed as previously described [29 (link)]. Proteins were separated by 12% polyacrylamide gel electrophoresis (SDS-PAGE) and transferred to a nitrocellulose membrane (Merck Millipore, Darmstadt, Germany). The membrane was blocked in Tris-buffered saline with Tween 20 (TBST) containing 5% skim milk and incubated with specific primary antibodies, including anti-core (catalog no. ab2740; Abcam, Cambridge, UK), anti-NS3 (catalog no. ab65407; Abcam Cambridge, UK), anti-NS4B (catalog no. ab24283; Abcam, Cambridge, UK), anti-NS5B (catalog no. 3E5; BioFront, Tallahassee, FL, USA), anti-GFP (catalog no. M20004; Abcam, Cambridge, UK), anti-FLAG (catalog no. F1084; Sigma-Aldrich, St Louis, Mo, USA), anti-HA (catalog no. H9658; Sigma-Aldrich, St Louis, Mo, USA), anti-V5 (catalog no. R960-CUS; Invitrogen, Grand Island, NY, USA), anti-SUMO1 (catalog no. sc-5308; Santa Cruz, California, USA), anti-ubiquitin (catalog no. ab7780; Abcam, Cambridge, UK) and anti-β-actin (catalog no. sc-47778; Santa Cruz, California, USA). The secondary antibodies were horseradish peroxidase (HRP)-conjugated goat anti-mouse/rabbit IgG antibodies (Invitrogen, Grand Island, NY, USA). The membrane-bound antibodies were detected with the Super Signal-Femto chemiluminescent substrate (Pierce, Waltham, MA, USA).
Guo J., Chen D., Gao X., Hu X., Zhou Y., Wu C., Wang Y., Chen J., Pei R, & Chen X. (2017). Protein Inhibitor of Activated STAT2 Restricts HCV Replication by Modulating Viral Proteins Degradation. Viruses, 9(10), 285.
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