BDNF Premium Research Pack

All You Need for BDNF Research
  • Lyophilized Powder
  • Antigen Incl.
Cat #: ESP-600
Last update: 24/01/2020

Alomone Labs is pleased to offer the BDNF Premium Research Pack (#ESP-600). The Research Pack contains all you need for BDNF research: Antibodies to BDNF and its receptors, recombinant proteins and a general Trk receptor antagonist all in one economical package!

For research purposes only, not for human use


Product NameCat #Size
Anti-BDNF Antibody
ANT-010 1 x 0.2 ml
Guinea pig Anti-BDNF Antibody
AGP-021 1 x 0.2 ml
Anti-p75 NGF Receptor (extracellular) Antibody
ANT-007 1 x 0.2 ml
Anti-TrkB (extracellular) Antibody
ANT-019 1 x 0.2 ml
A-215 1 x 10 mg
GNF 5837
G-145 1 x 25 mg
Recombinant human BDNF protein
B-250 1 x 10 µg
Human TrkB-Fc Chimera
RPC-001 1 x 50 µg
Note A guinea pig polyclonal antibody (#AGP-021) is included in this Research Pack. Please take into account when reacting with a secondary antibody.

Scientific Background

Scientific Background
    • Brain derived neurotrophic factor (BDNF) is a member of the neurotrophin family of growth factors which includes nerve growth factor (NGF), neurotrophin-3 (NT-3) and neurotrophin-4/5 (NT-4/5).

      All neurotrophins are synthesized as preproneurotrophin precursors that are subsequently processed within the intracellular transport pathway to yield proneurotrophins that are further processed to generate the mature form. The mature form of BDNF is a non-covalent stable homodimer that can be secreted in both constitutive and regulated pathways.

      BDNF conveys its activity by binding to two classes of receptors, a member of the Trk receptor tyrosine kinase family (TrkB) and the pan-neurotrophin receptor p75NTR. Binding of BDNF to the TrkB receptor triggers ligand-induced dimerization and autophosphorylation of tyrosine residues. This activates various signaling cascades such the MAPK, PI3K and PLCγ pathways that are involved in cell growth, survival and differentiation of neurons in the central and peripheral nervous system.  Interestingly, recent evidence suggests that BDNF may influence target cell function via ion channel modulation. Ion channel activity in the target cells can be modulated by a TrkB-mediated mechanism that has not yet been determined. BDNF is able to block both KV1.3 and AMPA-subtype glutamate ion channel currents in sensory neurons, while it can induce activation of the TRPC3 cation channel in neurons and of the NaV1.9 Na+ channel in hippocampal neurons. These newly recognized BDNF actions underlie its “rapid” neuronal functions that include changes in neuronal  excitability, plasticity and synaptic transmission.

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