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Acetyl-Histone H2A-K5 Rabbit Polyclonal Antibody (CAB15620)

SKU:
CAB15620
Product Type:
Antibody
Reactivity:
Human
Mouse
Rat
Host Species:
Rabbit
Isotype:
IgG
Antibody Type:
Polyclonal Antibody
Research Area:
Epigenetics and Nuclear Signaling
  • Epigenetics and Nuclear Signaling Antibodies 2 Anti-Acetyl-Histone H2A-K5 Antibody CAB15620
  • Epigenetics and Nuclear Signaling Antibodies 2 Anti-Acetyl-Histone H2A-K5 Antibody CAB15620
  • Epigenetics and Nuclear Signaling Antibodies 2 Anti-Acetyl-Histone H2A-K5 Antibody CAB15620
  • Epigenetics and Nuclear Signaling Antibodies 2 Anti-Acetyl-Histone H2A-K5 Antibody CAB15620
  • Epigenetics and Nuclear Signaling Antibodies 2 Anti-Acetyl-Histone H2A-K5 Antibody CAB15620
$167 - $503
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Description

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Acetyl-Histone H2A-K5 Rabbit Polyclonal Antibody (CAB15620)

The Acetyl-Histone H2A (K5) Polyclonal Antibody (CAB15620) is a valuable tool for researchers studying histone modifications and their impact on gene regulation. This antibody, raised in rabbits, is highly specific and sensitive for detecting acetylation of histone H2A at lysine 5 in human samples. It has been validated for use in Western blot applications and is suitable for investigating the role of this specific histone modification in various cellular processes.Histone acetylation is a key epigenetic modification that plays a crucial role in regulating gene expression and chromatin structure. Acetylation of specific histone residues, such as lysine 5 on histone H2A, is known to be involved in transcriptional activation and other important cellular functions.

By using the Acetyl-Histone H2A (K5) Polyclonal Antibody, researchers can study the impact of this modification on gene regulation in different cell types and under various experimental conditions.This antibody is an essential tool for researchers interested in epigenetics, chromatin biology, and gene expression regulation. By targeting the acetylation of histone H2A at lysine 5, this antibody provides valuable insights into the mechanisms underlying gene transcription and may have important implications for understanding diseases such as cancer, neurodegenerative disorders, and developmental abnormalities. Researchers can use this antibody to investigate the role of histone acetylation in specific biological processes and