rabbit polyclonal h22 cdk4  (Cell Signaling Technology Inc)

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: Screening of anti-phosphoT172 CDK4 mAbs using immobilized cyclin D3/CDK4 proteic fusions.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques:

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: Sera evaluation by CDK4 peptide ELISA.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques: Peptide ELISA

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: Evaluation of CDK4 T172-phosphospecificity of immune sera.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques:

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: CDK4 T172-phosphospecificity of cloned mAbs.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques: Clone Assay

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: T172-phosphospecific CDK4 sandwich ELISA.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques: Sandwich ELISA

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: S130-phosphorylated p21 is enriched in phospho-CDK4 immunoprecipitation.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques: Immunoprecipitation

Journal: Cell Cycle

Article Title: Monoclonal antibodies to activated CDK4: use to investigate normal and cancerous cell cycle regulation and involvement of phosphorylations of p21 and p27

doi: 10.1080/15384101.2021.1984663

Figure Lengend Snippet: S10-phosphorylated p27 is enriched in phospho-CDK4 immunoprecipitation.

Article Snippet: Equal amounts of whole cell extract protein were separated according to molecular mass and immunodetected using the following antibodies: monoclonal mouse antibodies against cyclin D3 (DCS-22) (Neomarkers/ThermoFisher); cyclin D1 (DCS-6), p16 (DCS-50), CDK4 (DCS-31) (Santa Cruz Biotechnology); p21, p27, CDK4 antibodies (respectively 12D1, D69C12, D9G3E, Cell Signaling Technology); or rabbit polyclonal (H22) CDK4 and anti-phospho-p27 (S10) antibodies (Santa Cruz Biotechnology).

Techniques: Immunoprecipitation