DOCSLIB.ORG

BF0055-MAP2K7 Ab

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
BF0055-MAP2K7 Ab Affinity Biosciences website:www.affbiotech.com order:[email protected] MAP2K7 Ab Cat.#: BF0055 Concn.: 1mg/ml Mol.Wt.: 48kDa Size: 50ul,100ul,200ul Source: Mouse Clonality: Monoclonal Application: ELISA 1/10000, WB 1/500 - 1/2000, IHC 1/200 - 1/1000, ICC 1/200 - 1/1000, FCM 1/200 - 1/400 Reactivity: Human,Mouse Purification: Affinity-chromatography. Specificity: MAP2K7 Ab detects endogenous levels of total MAP2K7. Immunogen: Purified recombinant fragment of human MAP2K7 expressed in E. Coli. Uniprot: O14733 Description: he protein encoded by this gene is a dual specificity protein kinase that belongs to the MAP kinase kinase family. This kinase specifically activates MAPK8/JNK1 and MAPK9/JNK2, and this kinase itself is phosphorylated and activated by MAP kinase kinase kinases including MAP3K1/MEKK1, MAP3K2/MEKK2,MAP3K3/MEKK5, and MAP4K2/GCK. Subcellular Location: Nucleus. Cytoplasm. Tissue Specificity: Ubiquitous; with highest level of expression in skeletal muscle. Isoform 3 is found at low levels in placenta, fetal liver, and skeletal muscle. Similarity: The DVD domain (residues 377-400) contains a conserved docking site and is found in the mammalian MAP kinase kinases (MAP2Ks). The DVD sites bind to their specific upstream MAP kinase kinase kinases (MAP3Ks) and are essential for activation.The D domain (residues 37-57) contains a conserved docking site and is required for the binding to MAPK substrates.Belongs to the protein kinase superfamily. STE Ser/Thr protein kinase family. MAP kinase kinase subfamily. Storage Condition and Mouse IgG1 in phosphate buffered saline (without Mg2+ and Buffer: Ca2+), pH 7.4, 150mM NaCl, 0.02% sodium azide and 50% glycerol.Store at -20 °C.Stable for 12 months from date of receipt. 1 / 2 Affinity Biosciences website:www.affbiotech.com order:[email protected] Figure 1: Western blot analysis using MAP2K7 mAb against human MAP2K7 (AA: 7-178) recombinant protein. (Expected MW is 45.1 kDa) Immunohistochemical analysis of paraffin-embedded lung cancer tissues using MAP2K7 mouse mAb with DAB staining. BF0055 staining NIH-3T3 by IF/ICC. The sample were fixed with PFA and permeabilized in 0.1% Triton X-100,then blocked in 10% serum for 45 minutes at 25°C. The primary Ab was diluted at 1/200 and incubated with the sample for 1 hour at 37°C. An Alexa Fluor 594 conjugated goat anti-mouse IgG (H+L) Ab, diluted at 1/600, was used as the secondary Ab. Immunofluorescence analysis of Hela cells using MAP2K7 mouse mAb (green). Red: Actin filaments have been labeled with Alexa Fluor-555 phalloidin. IMPORTANT: For western blot, incubate membrane with diluted primary Ab in 5% w/v milk , 1X TBS, 0.1% Tween®20 at 4°C with gentle shaking, overnight. For Research Use Only. Not for use in diagnostic and therapeutic procedures. Not for resale without express authorization. 2 / 2 Powered by TCPDF (www.tcpdf.org).
Load more

Recommended publications
  • Supplemental Information to Mammadova-Bach Et Al., “Laminin Α1 Orchestrates VEGFA Functions in the Ecosystem of Colorectal Carcinogenesis”
    Supplemental information to Mammadova-Bach et al., “Laminin α1 orchestrates VEGFA functions in the ecosystem of colorectal carcinogenesis” Supplemental material and methods Cloning of the villin-LMα1 vector The plasmid pBS-villin-promoter containing the 3.5 Kb of the murine villin promoter, the first non coding exon, 5.5 kb of the first intron and 15 nucleotides of the second villin exon, was generated by S. Robine (Institut Curie, Paris, France). The EcoRI site in the multi cloning site was destroyed by fill in ligation with T4 polymerase according to the manufacturer`s instructions (New England Biolabs, Ozyme, Saint Quentin en Yvelines, France). Site directed mutagenesis (GeneEditor in vitro Site-Directed Mutagenesis system, Promega, Charbonnières-les-Bains, France) was then used to introduce a BsiWI site before the start codon of the villin coding sequence using the 5’ phosphorylated primer: 5’CCTTCTCCTCTAGGCTCGCGTACGATGACGTCGGACTTGCGG3’. A double strand annealed oligonucleotide, 5’GGCCGGACGCGTGAATTCGTCGACGC3’ and 5’GGCCGCGTCGACGAATTCACGC GTCC3’ containing restriction site for MluI, EcoRI and SalI were inserted in the NotI site (present in the multi cloning site), generating the plasmid pBS-villin-promoter-MES. The SV40 polyA region of the pEGFP plasmid (Clontech, Ozyme, Saint Quentin Yvelines, France) was amplified by PCR using primers 5’GGCGCCTCTAGATCATAATCAGCCATA3’ and 5’GGCGCCCTTAAGATACATTGATGAGTT3’ before subcloning into the pGEMTeasy vector (Promega, Charbonnières-les-Bains, France). After EcoRI digestion, the SV40 polyA fragment was purified with the NucleoSpin Extract II kit (Machery-Nagel, Hoerdt, France) and then subcloned into the EcoRI site of the plasmid pBS-villin-promoter-MES. Site directed mutagenesis was used to introduce a BsiWI site (5’ phosphorylated AGCGCAGGGAGCGGCGGCCGTACGATGCGCGGCAGCGGCACG3’) before the initiation codon and a MluI site (5’ phosphorylated 1 CCCGGGCCTGAGCCCTAAACGCGTGCCAGCCTCTGCCCTTGG3’) after the stop codon in the full length cDNA coding for the mouse LMα1 in the pCIS vector (kindly provided by P.
    [Show full text]
  • 1 Tumor Suppressor PLK2 May Serve As a Biomarker in Triple-Negative Breast Cancer for Improved Response to PLK1 Therapeutics
    bioRxiv preprint doi: https://doi.org/10.1101/2021.06.16.448722; this version posted June 16, 2021. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. Tumor suppressor PLK2 may serve as a biomarker in triple-negative breast cancer for improved response to PLK1 therapeutics Yang Gao1, 2, 3, Elena B. Kabotyanski1, 2, Elizabeth Villegas7, Jonathan H. Shepherd8, Deanna Acosta1, 2, Clark Hamor1, 2, Tingting Sun2,4,5, Celina Montmeyor-Garcia9, Xiaping He8, Lacey E. Dobrolecki1, 2, 3, Thomas F. Westbrook2, 4, 5, Michael T. Lewis1, 2, 3, Susan G. Hilsenbeck2, 3, Xiang H.-F. Zhang1, 2, 3, 6, Charles M. Perou8 and Jeffrey M. Rosen1, 2 1Department of Molecular and Cellular Biology 2Dan L. Duncan Cancer Center 3Lester and Sue Smith Breast Center 4Department of Molecular and Human Genetics 5Verna & Marrs McLean Department of Biochemistry and Molecular Biology 6McNair Medical Institute Baylor College of Medicine, One Baylor Plaza, Houston, TX 77030, USA 7University of Houston-Downtown, Houston, TX 77002, USA 8The University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA 9 Canadian Blood Services, Toronto, ON M5G 2M1, Canada Correspondence to Jeffrey M. Rosen (Mail Stop: BCM130, Room: BCM-M638a, Baylor College of Medicine, 1 Baylor Plaza, Houston, TX 77030. Office: 713-798-6210. Fax: 713-898-8012. Email: [email protected]) 1 bioRxiv preprint doi: https://doi.org/10.1101/2021.06.16.448722; this version posted June 16, 2021.
    [Show full text]
  • Genome-Wide Association Study to Identify Genomic Regions And
    www.nature.com/scientificreports OPEN Genome‑wide association study to identify genomic regions and positional candidate genes associated with male fertility in beef cattle H. Sweett1, P. A. S. Fonseca1, A. Suárez‑Vega1, A. Livernois1,2, F. Miglior1 & A. Cánovas1* Fertility plays a key role in the success of calf production, but there is evidence that reproductive efciency in beef cattle has decreased during the past half‑century worldwide. Therefore, identifying animals with superior fertility could signifcantly impact cow‑calf production efciency. The objective of this research was to identify candidate regions afecting bull fertility in beef cattle and positional candidate genes annotated within these regions. A GWAS using a weighted single‑step genomic BLUP approach was performed on 265 crossbred beef bulls to identify markers associated with scrotal circumference (SC) and sperm motility (SM). Eight windows containing 32 positional candidate genes and fve windows containing 28 positional candidate genes explained more than 1% of the genetic variance for SC and SM, respectively. These windows were selected to perform gene annotation, QTL enrichment, and functional analyses. Functional candidate gene prioritization analysis revealed 14 prioritized candidate genes for SC of which MAP3K1 and VIP were previously found to play roles in male fertility. A diferent set of 14 prioritized genes were identifed for SM and fve were previously identifed as regulators of male fertility (SOD2, TCP1, PACRG, SPEF2, PRLR). Signifcant enrichment results were identifed for fertility and body conformation QTLs within the candidate windows. Gene ontology enrichment analysis including biological processes, molecular functions, and cellular components revealed signifcant GO terms associated with male fertility.
    [Show full text]
  • Kinase Profiling Book
    Custom and Pre-Selected Kinase Prof iling to f it your Budget and Needs! As of July 1, 2021 19.8653 mm 128 196 12 Tyrosine Serine/Threonine Lipid Kinases Kinases Kinases Carna Biosciences, Inc. 2007 Carna Biosciences, Inc. Profiling Assays available from Carna Biosciences, Inc. As of July 1, 2021 Page Kinase Name Assay Platform Page Kinase Name Assay Platform 4 ABL(ABL1) MSA 21 EGFR[T790M/C797S/L858R] MSA 4 ABL(ABL1)[E255K] MSA 21 EGFR[T790M/L858R] MSA 4 ABL(ABL1)[T315I] MSA 21 EPHA1 MSA 4 ACK(TNK2) MSA 21 EPHA2 MSA 4 AKT1 MSA 21 EPHA3 MSA 5 AKT2 MSA 22 EPHA4 MSA 5 AKT3 MSA 22 EPHA5 MSA 5 ALK MSA 22 EPHA6 MSA 5 ALK[C1156Y] MSA 22 EPHA7 MSA 5 ALK[F1174L] MSA 22 EPHA8 MSA 6 ALK[G1202R] MSA 23 EPHB1 MSA 6 ALK[G1269A] MSA 23 EPHB2 MSA 6 ALK[L1196M] MSA 23 EPHB3 MSA 6 ALK[R1275Q] MSA 23 EPHB4 MSA 6 ALK[T1151_L1152insT] MSA 23 Erk1(MAPK3) MSA 7 EML4-ALK MSA 24 Erk2(MAPK1) MSA 7 NPM1-ALK MSA 24 Erk5(MAPK7) MSA 7 AMPKα1/β1/γ1(PRKAA1/B1/G1) MSA 24 FAK(PTK2) MSA 7 AMPKα2/β1/γ1(PRKAA2/B1/G1) MSA 24 FER MSA 7 ARG(ABL2) MSA 24 FES MSA 8 AurA(AURKA) MSA 25 FGFR1 MSA 8 AurA(AURKA)/TPX2 MSA 25 FGFR1[V561M] MSA 8 AurB(AURKB)/INCENP MSA 25 FGFR2 MSA 8 AurC(AURKC) MSA 25 FGFR2[V564I] MSA 8 AXL MSA 25 FGFR3 MSA 9 BLK MSA 26 FGFR3[K650E] MSA 9 BMX MSA 26 FGFR3[K650M] MSA 9 BRK(PTK6) MSA 26 FGFR3[V555L] MSA 9 BRSK1 MSA 26 FGFR3[V555M] MSA 9 BRSK2 MSA 26 FGFR4 MSA 10 BTK MSA 27 FGFR4[N535K] MSA 10 BTK[C481S] MSA 27 FGFR4[V550E] MSA 10 BUB1/BUB3 MSA 27 FGFR4[V550L] MSA 10 CaMK1α(CAMK1) MSA 27 FGR MSA 10 CaMK1δ(CAMK1D) MSA 27 FLT1 MSA 11 CaMK2α(CAMK2A) MSA 28
    [Show full text]
  • Modulation of NF-Κb Signalling by Microbial Pathogens
    REVIEWS Modulation of NF‑κB signalling by microbial pathogens Masmudur M. Rahman and Grant McFadden Abstract | The nuclear factor-κB (NF‑κB) family of transcription factors plays a central part in the host response to infection by microbial pathogens, by orchestrating the innate and acquired host immune responses. The NF‑κB proteins are activated by diverse signalling pathways that originate from many different cellular receptors and sensors. Many successful pathogens have acquired sophisticated mechanisms to regulate the NF‑κB signalling pathways by deploying subversive proteins or hijacking the host signalling molecules. Here, we describe the mechanisms by which viruses and bacteria micromanage the host NF‑κB signalling circuitry to favour the continued survival of the pathogen. The nuclear factor-κB (NF-κB) family of transcription Signalling targets upstream of NF‑κB factors regulates the expression of hundreds of genes that NF-κB proteins are tightly regulated in both the cyto- are associated with diverse cellular processes, such as pro- plasm and the nucleus6. Under normal physiological liferation, differentiation and death, as well as innate and conditions, NF‑κB complexes remain inactive in the adaptive immune responses. The mammalian NF‑κB cytoplasm through a direct interaction with proteins proteins are members of the Rel domain-containing pro- of the inhibitor of NF-κB (IκB) family, including IκBα, tein family: RELA (also known as p65), RELB, c‑REL, IκBβ and IκBε (also known as NF-κBIα, NF-κBIβ and the NF-κB p105 subunit (also known as NF‑κB1; which NF-κBIε, respectively); IκB proteins mask the nuclear is cleaved into the p50 subunit) and the NF-κB p100 localization domains in the NF‑κB complex, thus subunit (also known as NF‑κB2; which is cleaved into retaining the transcription complex in the cytoplasm.
    [Show full text]
  • Comparing Signaling Networks Between Normal and Transformed Hepatocytes Using Discrete Logical Models
    Published OnlineFirst July 8, 2011; DOI: 10.1158/0008-5472.CAN-10-4453 Cancer Integrated Systems and Technologies: Mathematical Oncology Research Comparing Signaling Networks between Normal and Transformed Hepatocytes Using Discrete Logical Models Julio Saez-Rodriguez1,2, Leonidas G. Alexopoulos1,2, MingSheng Zhang1, Melody K. Morris2, Douglas A. Lauffenburger2, and Peter K. Sorger1,2 Abstract Substantial effort in recent years has been devoted to constructing and analyzing large-scale gene and protein networks on the basis of "omic" data and literature mining. These interaction graphs provide valuable insight into the topologies of complex biological networks but are rarely context specific and cannot be used to predict the responses of cell signaling proteins to specific ligands or drugs. Conversely, traditional approaches to analyzing cell signaling are narrow in scope and cannot easily make use of network-level data. Here, we combine network analysis and functional experimentation by using a hybrid approach in which graphs are converted into simple mathematical models that can be trained against biochemical data. Specifically, we created Boolean logic models of immediate-early signaling in liver cells by training a literature-based prior knowledge network against biochemical data obtained from primary human hepatocytes and 4 hepatocellular carcinoma cell lines exposed to combinations of cytokines and small-molecule kinase inhibitors. Distinct families of models were recovered for each cell type, and these families clustered topologically into normal and diseased sets. Cancer Res; 71(16); 5400–11. Ó2011 AACR. Introduction Major Findings The availability of high-throughput interaction data has led Clustering arises from systematic differences in signaling to the creation of methods for summarizing and exploring logic in three regions of the network.
    [Show full text]
  • HCC and Cancer Mutated Genes Summarized in the Literature Gene Symbol Gene Name References*
    HCC and cancer mutated genes summarized in the literature Gene symbol Gene name References* A2M Alpha-2-macroglobulin (4) ABL1 c-abl oncogene 1, receptor tyrosine kinase (4,5,22) ACBD7 Acyl-Coenzyme A binding domain containing 7 (23) ACTL6A Actin-like 6A (4,5) ACTL6B Actin-like 6B (4) ACVR1B Activin A receptor, type IB (21,22) ACVR2A Activin A receptor, type IIA (4,21) ADAM10 ADAM metallopeptidase domain 10 (5) ADAMTS9 ADAM metallopeptidase with thrombospondin type 1 motif, 9 (4) ADCY2 Adenylate cyclase 2 (brain) (26) AJUBA Ajuba LIM protein (21) AKAP9 A kinase (PRKA) anchor protein (yotiao) 9 (4) Akt AKT serine/threonine kinase (28) AKT1 v-akt murine thymoma viral oncogene homolog 1 (5,21,22) AKT2 v-akt murine thymoma viral oncogene homolog 2 (4) ALB Albumin (4) ALK Anaplastic lymphoma receptor tyrosine kinase (22) AMPH Amphiphysin (24) ANK3 Ankyrin 3, node of Ranvier (ankyrin G) (4) ANKRD12 Ankyrin repeat domain 12 (4) ANO1 Anoctamin 1, calcium activated chloride channel (4) APC Adenomatous polyposis coli (4,5,21,22,25,28) APOB Apolipoprotein B [including Ag(x) antigen] (4) AR Androgen receptor (5,21-23) ARAP1 ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 1 (4) ARHGAP35 Rho GTPase activating protein 35 (21) ARID1A AT rich interactive domain 1A (SWI-like) (4,5,21,22,24,25,27,28) ARID1B AT rich interactive domain 1B (SWI1-like) (4,5,22) ARID2 AT rich interactive domain 2 (ARID, RFX-like) (4,5,22,24,25,27,28) ARID4A AT rich interactive domain 4A (RBP1-like) (28) ARID5B AT rich interactive domain 5B (MRF1-like) (21) ASPM Asp (abnormal
    [Show full text]
  • Personalized Prediction of Acquired Resistance to EGFR-Targeted Inhibitors Using a Pathway-Based Machine Learning Approach
    Cancers 2019, 11, x S1 of S9 Supplementary Materials: Personalized Prediction of Acquired Resistance to EGFR-Targeted Inhibitors Using a Pathway-Based Machine Learning Approach Young Rae Kim, Yong Wan Kim, Suh Eun Lee, Hye Won Yang and Sung Young Kim Table S1. Characteristics of individual studies. Sample Size Origin of Cancer Drug Dataset Platform S AR (Cell Lines) Lung cancer Agilent-014850 Whole Human GSE34228 26 26 (PC9) Genome Microarray 4x44K Gefitinib Epidermoid carcinoma Affymetrix Human Genome U133 GSE10696 3 3 (A431) Plus 2.0 Head and neck cancer Illumina HumanHT-12 V4.0 GSE62061 12 12 (Cal-27, SSC-25, FaDu, expression beadchip SQ20B) Erlotinib Head and neck cancer Illumina HumanHT-12 V4.0 GSE49135 3 3 (HN5) expression beadchip Lung cancer (HCC827, Illumina HumanHT-12 V3.0 GSE38310 3 6 ER3, T15-2) expression beadchip Lung cancer Illumina HumanHT-12 V3.0 GSE62504 1 2 (HCC827) expression beadchip Afatinib Lung cancer * Illumina HumanHT-12 V4.0 GSE75468 1 3 (HCC827) expression beadchip Head and neck cancer Affymetrix Human Genome U133 Cetuximab GSE21483 3 3 (SCC1) Plus 2.0 Array GEO, gene expression omnibus; GSE, gene expression series; S, sensitive; AR, acquired EGFR-TKI resistant; * Lung Cancer Cells Derived from Tumor Xenograft Model. Table S2. The performances of four penalized regression models. Model ACC precision recall F1 MCC AUROC BRIER Ridge 0.889 0.852 0.958 0.902 0.782 0.964 0.129 Lasso 0.944 0.957 0.938 0.947 0.889 0.991 0.042 Elastic Net 0.978 0.979 0.979 0.979 0.955 0.999 0.023 EPSGO Elastic Net 0.989 1.000 0.979 0.989 0.978 1.000 0.018 AUROC, area under curve of receiver operating characteristic; ACC, accuracy; MCC, Matthews correlation coefficient; EPSGO, Efficient Parameter Selection via Global Optimization algorithm.
    [Show full text]
  • MAPK8 Antibody Cat
    MAPK8 Antibody Cat. No.: 62-956 MAPK8 Antibody Confocal immunofluorescent analysis of MAPK8 Antibody MAPK8 Antibody immunohistochemistry analysis in with HepG2 cell followed by Alexa Fluor 488-conjugated formalin fixed and paraffin embedded human breast goat anti-rabbit lgG (green).DAPI was used to stain the cell tissue followed by peroxidase conjugation of the nuclear (blue). secondary antibody and DAB staining. Specifications HOST SPECIES: Rabbit SPECIES REACTIVITY: Human HOMOLOGY: Predicted species reactivity based on immunogen sequence: Rat This MAPK8 antibody is generated from rabbits immunized with a KLH conjugated IMMUNOGEN: synthetic peptide between 358-389 amino acids from the C-terminal region of human MAPK8. TESTED APPLICATIONS: IF, IHC-P, WB September 24, 2021 1 https://www.prosci-inc.com/mapk8-antibody-62-956.html For WB starting dilution is: 1:1000 APPLICATIONS: For IF starting dilution is: 1:10~50 For IHC-P starting dilution is: 1:10~50 PREDICTED MOLECULAR 48 kDa WEIGHT: Properties This antibody is prepared by Saturated Ammonium Sulfate (SAS) precipitation followed by PURIFICATION: dialysis CLONALITY: Polyclonal ISOTYPE: Rabbit Ig CONJUGATE: Unconjugated PHYSICAL STATE: Liquid BUFFER: Supplied in PBS with 0.09% (W/V) sodium azide. CONCENTRATION: batch dependent Store at 4˚C for three months and -20˚C, stable for up to one year. As with all antibodies STORAGE CONDITIONS: care should be taken to avoid repeated freeze thaw cycles. Antibodies should not be exposed to prolonged high temperatures. Additional Info OFFICIAL SYMBOL: MAPK8 Mitogen-activated protein kinase 8, MAP kinase 8, MAPK 8, JNK-46, Stress-activated ALTERNATE NAMES: protein kinase 1c, SAPK1c, Stress-activated protein kinase JNK1, c-Jun N-terminal kinase 1, MAPK8, JNK1, PRKM8, SAPK1, SAPK1C ACCESSION NO.: P45983 PROTEIN GI NO.: 2507195 GENE ID: 5599 USER NOTE: Optimal dilutions for each application to be determined by the researcher.
    [Show full text]
  • PV3320 Certificate of Analysis for Lot 1322684A
    Certificate of Analysis MAPK8 (JNK1), Inactive , 100 µg Mitogen-activated Protein Kinase 8 (MAP), Inactive, Histidine-tagged Part Number: PV3320 5781 Van Allen Way Lot Number: 1322684A Carlsbad, CA 92008 Immediate Storage: -80°C Phone: 760.603.7200 Shipping Conditions: dry ice www.thermofisher.com Description: Storage and Handling: Recombinant human full-length protein, inactive, Histidine-tagged, Store at -80°C. At first use, aliquot and store at -80°C to avoid multiple expressed in insect cells. freeze-thaws. If properly stored at -80°C, this product is guaranteed for 6 Specific Activity: months from date of purchase. Approximately 2% activity as compared to the active form of the kinase. Storage Buffer: 50 mM Tris (pH 7.5), 150 mM NaCl, 0.5 mM EDTA, 0.05% Triton® X–100, Can be activated by the upstream kinase MAP2K7, mutant. 2 mM DTT and 50% Glycerol. Concentration: 0.87 mg/mL total protein as measured using the Bradford protein assay with BSA as a standard. Calculated 18,300 nM. Aliases: JNK, JNK1, SAPK1 QUALITY ASSURANCE Activation Test: Gel Information for MAPK8 (JNK1), Inactive The coupled MAPK8 activation assay uses active MAP2K7, mutant to Page Description: The SDS- phosphorylate ATF2 substrate. The assay was setup in two states: 1st PAGE and/or Native PAGE MAPK8 phosphorylation by MAP2K7, mutant without 32P-ATP; and 2nd were run on 4-20% Tris-Glycine ATF2 substrate phosphorylation by activated MAPK8 in the presence of Novex® gels (Catalog #: 32P-ATP. The basal activity of MAPK8 was also assayed in the absence of EC6025BOX). MAP2K7, mutant. Lane 1: Invitrogen™ BenchMark™ Protein Ladder (Catalog #: 10747-012).
    [Show full text]
  • LIM and Cysteine-Rich Domains 1 (LMCD1) Regulates Skeletal Muscle Hypertrophy, Calcium Handling, and Force Duarte M
    Ferreira et al. Skeletal Muscle (2019) 9:26 https://doi.org/10.1186/s13395-019-0214-1 RESEARCH Open Access LIM and cysteine-rich domains 1 (LMCD1) regulates skeletal muscle hypertrophy, calcium handling, and force Duarte M. S. Ferreira1, Arthur J. Cheng2,3, Leandro Z. Agudelo1,4, Igor Cervenka1, Thomas Chaillou2,5, Jorge C. Correia1, Margareta Porsmyr-Palmertz1, Manizheh Izadi1,6, Alicia Hansson1, Vicente Martínez-Redondo1, Paula Valente-Silva1, Amanda T. Pettersson-Klein1, Jennifer L. Estall7, Matthew M. Robinson8, K. Sreekumaran Nair8, Johanna T. Lanner2 and Jorge L. Ruas1* Abstract Background: Skeletal muscle mass and strength are crucial determinants of health. Muscle mass loss is associated with weakness, fatigue, and insulin resistance. In fact, it is predicted that controlling muscle atrophy can reduce morbidity and mortality associated with diseases such as cancer cachexia and sarcopenia. Methods: We analyzed gene expression data from muscle of mice or human patients with diverse muscle pathologies and identified LMCD1 as a gene strongly associated with skeletal muscle function. We transiently expressed or silenced LMCD1 in mouse gastrocnemius muscle or in mouse primary muscle cells and determined muscle/cell size, targeted gene expression, kinase activity with kinase arrays, protein immunoblotting, and protein synthesis levels. To evaluate force, calcium handling, and fatigue, we transduced the flexor digitorum brevis muscle with a LMCD1-expressing adenovirus and measured specific force and sarcoplasmic reticulum Ca2+ release in individual fibers. Finally, to explore the relationship between LMCD1 and calcineurin, we ectopically expressed Lmcd1 in the gastrocnemius muscle and treated those mice with cyclosporine A (calcineurin inhibitor). In addition, we used a luciferase reporter construct containing the myoregulin gene promoter to confirm the role of a LMCD1- calcineurin-myoregulin axis in skeletal muscle mass control and calcium handling.
    [Show full text]
  • MAP2K7 Monoclonal Antibody (M04), Clone 2G5
    MAP2K7 monoclonal antibody (M04), clone 2G5 Catalog # : H00005609-M04 規格 : [ 100 ug ] List All Specification Application Image Product Mouse monoclonal antibody raised against a partial recombinant Western Blot (Transfected lysate) Description: MAP2K7. Immunogen: MAP2K7 (NP_660186, 1 a.a. ~ 99 a.a) partial recombinant protein with GST tag. MW of the GST tag alone is 26 KDa. Sequence: MAASSLEQKLSRLEAKLKQENREARRRIDLNLDISPQRPRPTLQLPLAND GGSRSPSSESSPQHPTPPARPRHMLGLPSTLFTPRSMESIEIDQKLQEI enlarge Host: Mouse Western Blot (Recombinant protein) Reactivity: Human Immunohistochemistry Isotype: IgG1 Kappa (Formalin/PFA-fixed paraffin- embedded sections) Quality Control Antibody Reactive Against Recombinant Protein. Testing: enlarge Immunofluorescence Western Blot detection against Immunogen (36.63 KDa) . enlarge Storage Buffer: In 1x PBS, pH 7.4 ELISA In situ Storage Store at -20°C or lower. Aliquot to avoid repeated freezing and thawing. Proximity Ligation Assay (Cell) Instruction: MSDS: Download Datasheet: Download Applications enlarge Western Blot (Transfected lysate) Page 1 of 3 2016/5/21 Western Blot analysis of MAP2K7 expression in transfected 293T cell line by MAP2K7 monoclonal antibody (M04), clone 2G5. Lane 1: MAP2K7 transfected lysate(47.485 KDa). Lane 2: Non-transfected lysate. Protocol Download Western Blot (Recombinant protein) Protocol Download Immunohistochemistry (Formalin/PFA-fixed paraffin-embedded sections) enlarge this image Immunoperoxidase of monoclonal antibody to MAP2K7 on formalin-fixed paraffin-embedded human pancreas. [antibody concentration 1.2 ug/ml] Protocol Download Immunofluorescence enlarge this image Immunofluorescence of monoclonal antibody to MAP2K7 on HeLa cell . [antibody concentration 10 ug/ml] Protocol Download ELISA In situ Proximity Ligation Assay (Cell) Page 2 of 3 2016/5/21 Proximity Ligation Analysis of protein-protein interactions between MAPK8 and MAP2K7. HeLa cells were stained with anti-MAPK8 rabbit purified polyclonal 1:1200 and anti-MAP2K7 mouse monoclonal antibody 1:50.
    [Show full text]