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PHYHIPL anticorps (AA 1-337)

Cet anticorps anti-PHYHIPL Polyclonal Lapin (ABIN7869214) détecte spécifiquement PHYHIPL dans IHC (p). L’anticorps est réactif avec des échantillons de Poisson zèbre (Danio rerio).
N° du produit ABIN7869214
768,63 €
Plus frais de livraison 40,00 € et TVA
100 μg
Destination: France
Envoi sous 6 à 9 jours ouvrables

Aperçu rapide pour PHYHIPL anticorps (AA 1-337) (ABIN7869214)

Antigène

Voir toutes PHYHIPL Anticorps
PHYHIPL (Phytanoyl-CoA 2-Hydroxylase Interacting Protein-Like (PHYHIPL))

Reactivité

  • 8
  • 6
  • 6
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
Poisson zèbre (Danio rerio)

Hôte

  • 8
Lapin

Clonalité

  • 8
Polyclonal

Conjugué

  • 8
Cet anticorp PHYHIPL est non-conjugé

Application

  • 8
  • 4
Immunohistochemistry (Paraffin-embedded Sections) (IHC (p))
  • Épitope

    • 3
    • 2
    • 1
    AA 1-337

    Fonction

    Zebrafish Phyhipl Antibody / Phyhiplb / Phytanoyl-CoA hydroxylase-interacting protein-like

    Purification

    Antigen affinity chromatography

    Immunogène

    E. coli-derived zebrafish Phyhipl recombinant protein (amino acids M1-D337) was used as the immunogen for the Zebrafish Phyhipl antibody. This antibody will detect Phyhipl protein as well as the Phyhiplb isoform.

    Isotype

    Ig Fraction
  • Indications d'application

    Optimal dilution of the Zebrafish Phyhipl antibody should be determined by the researcher.

    Restrictions

    For Research Use only
  • Format

    Lyophilized

    Buffer

    0.5 mg/mL if reconstituted with 0.2 mL sterile DI water

    Stock

    4 °C,-20 °C

    Stockage commentaire

    After reconstitution, the Zebrafish Phyhipl antibody can be stored for up to one month at 4oC. For long-term, aliquot and store at -20oC. Avoid repeated freezing and thawing.
  • Antigène

    PHYHIPL (Phytanoyl-CoA 2-Hydroxylase Interacting Protein-Like (PHYHIPL))

    Autre désignation

    Phyhipl

    Sujet

    Phyhipl (PH domain and IF2-like domain containing protein) is a protein involved in cellular processes such as signal transduction, cellular stress response, and regulation of transcription. It is characterized by the presence of the PH domain, which is involved in binding to phosphoinositides and other lipid signals, and the IF2-like domain, which may play a role in protein-protein interactions and cellular signaling pathways. Phyhipl is involved in regulating key processes such as cell cycle progression, cell growth, and cell differentiation.

    In zebrafish, Phyhipl is an ortholog of the human PHYHIPL gene. Both zebrafish and human Phyhipl share high sequence similarity, particularly in the PH domain and IF2-like domain, suggesting conservation of function across species. This conservation makes zebrafish an excellent model for studying the molecular functions of Phyhipl and its involvement in cellular signaling and developmental processes.

    Phyhipl is thought to play a role in the regulation of cellular stress responses, especially under conditions of oxidative stress or hypoxia, by modulating cellular signaling networks. It may also interact with cellular scaffolding proteins and signal transduction pathways, helping to coordinate responses to environmental and internal cellular stresses. This protein is likely involved in neural development, embryonic development, and organogenesis, particularly in the brain, heart, and muscle, where regulation of cell growth and differentiation is crucial.

    Zebrafish Phyhipl has isoforms, which may vary in their domain structure, tissue-specific expression, and functional capacity. The isoforms could be differentially expressed in various tissues, reflecting the need for fine-tuned regulation in response to changing environmental and metabolic conditions. Isoform variation is likely important for tissue-specific functions during development and tissue regeneration.

    Given its essential role in signal transduction, cell stress responses, and developmental regulation, zebrafish Phyhipl is an important model for investigating the molecular mechanisms underlying cellular stress responses, neurodevelopmental diseases, and cancer. Its functional conservation with the human protein makes it a valuable tool for studying human diseases that involve cellular signaling and developmental defects.

    UniProt

    A4QNW7
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