Antibody data
- Antibody Data
- Antigen structure
- References [10]
- Comments [0]
- Validations [0]
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- Product number
- 16511-1-AP - Provider product page

- Provider
- Proteintech Group
- Product name
- SUPT5H antibody
- Antibody type
- Polyclonal
- Description
- SUPT5H antibody (Cat. #16511-1-AP) is a rabbit polyclonal antibody that shows reactivity with human, mouse, rat and has been validated for the following applications: IF, IP, WB,ELISA.
- Reactivity
- Human, Mouse, Rat
- Host
- Rabbit
- Conjugate
- Unconjugated
- Isotype
- IgG
- Vial size
- 20ul, 150ul
Submitted references Multiple structures of RNA polymerase II isolated from human nuclei by ChIP-CryoEM analysis.
FUBP3 enhances HIV-1 transcriptional activity and regulates immune response pathways in T cells.
DSS1 is required for proper Integrator-PP2A function.
Three-step mechanism of promoter escape by RNA polymerase II.
CDK7 kinase activity promotes RNA polymerase II promoter escape by facilitating initiation factor release.
The PNUTS phosphatase complex controls transcription pause release.
The phosphatase PP1 sustains global transcription by promoting RNA polymerase II pause release.
Redundant pathways for removal of defective RNA polymerase II complexes at a promoter-proximal pause checkpoint.
INTAC endonuclease and phosphatase modules differentially regulate transcription by RNA polymerase II.
SPT5 stabilizes RNA polymerase II, orchestrates transcription cycles, and maintains the enhancer landscape.
Kujirai T, Kato J, Yamamoto K, Hirai S, Fujii T, Maehara K, Harada A, Negishi L, Ogasawara M, Yamaguchi Y, Ohkawa Y, Takizawa Y, Kurumizaka H
Nature communications 2025 May 28;16(1):4724
Nature communications 2025 May 28;16(1):4724
FUBP3 enhances HIV-1 transcriptional activity and regulates immune response pathways in T cells.
Gibaut QMR, Li C, Cheng A, Moranguinho I, Mori LP, Valente ST
Molecular therapy. Nucleic acids 2025 Jun 10;36(2):102525
Molecular therapy. Nucleic acids 2025 Jun 10;36(2):102525
DSS1 is required for proper Integrator-PP2A function.
Xu C, Zhou QX, Zheng H, Song A, Zhao WY, Xu TT, Xiong Y, Zhang YJ, Huang Z, Xu Y, Cheng J, Chen FX
Nature communications 2025 Jul 5;16(1):6206
Nature communications 2025 Jul 5;16(1):6206
Three-step mechanism of promoter escape by RNA polymerase II.
Zhan Y, Grabbe F, Oberbeckmann E, Dienemann C, Cramer P
Molecular cell 2024 May 2;84(9):1699-1710.e6
Molecular cell 2024 May 2;84(9):1699-1710.e6
CDK7 kinase activity promotes RNA polymerase II promoter escape by facilitating initiation factor release.
Velychko T, Mohammad E, Ferrer-Vicens I, Parfentev I, Werner M, Studniarek C, Schwalb B, Urlaub H, Murphy S, Cramer P, Lidschreiber M
Molecular cell 2024 Jun 20;84(12):2287-2303.e10
Molecular cell 2024 Jun 20;84(12):2287-2303.e10
The PNUTS phosphatase complex controls transcription pause release.
Kelley JR, Dimitrova E, Maciuszek M, Nguyen HT, Szczurek AT, Hughes AL, Blackledge NP, Kettenbach AN, Klose RJ
Molecular cell 2024 Dec 19;84(24):4843-4861.e8
Molecular cell 2024 Dec 19;84(24):4843-4861.e8
The phosphatase PP1 sustains global transcription by promoting RNA polymerase II pause release.
Wang Z, Song A, Tao B, Miao M, Luo YQ, Wang J, Yin Z, Xiao R, Zhou X, Shang XY, Hu S, Liang K, Danko CG, Chen FX
Molecular cell 2024 Dec 19;84(24):4824-4842.e7
Molecular cell 2024 Dec 19;84(24):4824-4842.e7
Redundant pathways for removal of defective RNA polymerase II complexes at a promoter-proximal pause checkpoint.
Blears D, Lou J, Fong N, Mitter R, Sheridan RM, He D, Dirac-Svejstrup AB, Bentley D, Svejstrup JQ
Molecular cell 2024 Dec 19;84(24):4790-4807.e11
Molecular cell 2024 Dec 19;84(24):4790-4807.e11
INTAC endonuclease and phosphatase modules differentially regulate transcription by RNA polymerase II.
Hu S, Peng L, Song A, Ji YX, Cheng J, Wang M, Chen FX
Molecular cell 2023 May 18;83(10):1588-1604.e5
Molecular cell 2023 May 18;83(10):1588-1604.e5
SPT5 stabilizes RNA polymerase II, orchestrates transcription cycles, and maintains the enhancer landscape.
Hu S, Peng L, Xu C, Wang Z, Song A, Chen FX
Molecular cell 2021 Nov 4;81(21):4425-4439.e6
Molecular cell 2021 Nov 4;81(21):4425-4439.e6
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