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AB182199

Human BDNF peptide

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(3 Publications)

Human BDNF peptide is a Synthetic blocking peptide.

View Alternative Names

Neurotrophic factor BDNF precursor form, proBDNF, Abrineurin, Brain-derived neurotrophic factor, BDNF

Key facts

Purity

Whole antiserum

Tags

Tag free

Applications

BL

applications

Biologically active

No

Accession

P23560

Animal free

No

Carrier free

No

Species

Human

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "BL": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" } } }
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Product details

This is the blocking peptide for ab108319

- First try to dissolve a small amount of peptide in either water or buffer. The more charged residues on a peptide, the more soluble it is in aqueous solutions.
- If the peptide doesn't dissolve try an organic solvent e.g. DMSO, then dilute using water or buffer.
- Consider that any solvent used must be compatible with your assay. If a peptide does not dissolve and you need to recover it, lyophilise to remove the solvent.
- Gentle warming and sonication can effectively aid peptide solubilisation. If the solution is cloudy or has gelled the peptide may be in suspension rather than solubilised.
- Peptides containing cysteine are easily oxidised, so should be prepared in solution just prior to use.

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Sequence info

[{"sequence":null,"proteinLength":null,"predictedMolecularWeight":null,"actualMolecularWeight":null,"aminoAcidEnd":0,"aminoAcidStart":0,"nature":"Synthetic","expressionSystem":null,"accessionNumber":"P23560","tags":[]}]
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Properties and storage information

Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
Ambient
Appropriate long-term storage conditions
-20°C
Aliquoting information
Upon delivery aliquot
False
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Specifications

Form

Lyophilized

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General info

Function

The protein expressed by the BDNF gene is a critical signaling molecule that activates pathways downstream of NTRK2, as well as the heterodimeric receptor formed by NGFR and SORCS2. During development, it aids the survival and differentiation of specific neuronal populations in both the peripheral and central nervous systems. It is involved in axonal growth, pathfinding, and modulation of dendritic growth and morphology. In adult synapses, BDNF is a key regulator of synaptic transmission and plasticity in various CNS regions, contributing to processes like long-term potentiation, long-term depression, some short-term synaptic plasticity forms, and the homeostatic regulation of intrinsic neuronal excitability. Signaling through NGFR and SORCS2 is linked to synaptic plasticity and long-term depression, while its binding to these receptors also promotes neuronal apoptosis. This supplementary information is collated from multiple sources and compiled automatically.

Sequence similarities

Belongs to the NGF-beta family.

Post-translational modifications

Neurotrophic factor BDNF precursor form. N-glycosylated and glycosulfated, contrary to mature BDNF.. Mature BDNF is produced by proteolytic removal of the propeptide, catalyzed by a FURIN family member. In addition, the precursor form is proteolytically cleaved within the propeptide, but this is not an obligatory intermediate for the production of mature BDNF (PubMed:11152678). Can be converted into mature BDNF by plasmin (PLG) (PubMed:19467646).

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Product protocols

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Target data

The protein expressed by the BDNF gene is a critical signaling molecule that activates pathways downstream of NTRK2, as well as the heterodimeric receptor formed by NGFR and SORCS2. During development, it aids the survival and differentiation of specific neuronal populations in both the peripheral and central nervous systems. It is involved in axonal growth, pathfinding, and modulation of dendritic growth and morphology. In adult synapses, BDNF is a key regulator of synaptic transmission and plasticity in various CNS regions, contributing to processes like long-term potentiation, long-term depression, some short-term synaptic plasticity forms, and the homeostatic regulation of intrinsic neuronal excitability. Signaling through NGFR and SORCS2 is linked to synaptic plasticity and long-term depression, while its binding to these receptors also promotes neuronal apoptosis. This supplementary information is collated from multiple sources and compiled automatically.
See full target information BDNF
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Publications (3)

Recent publications for all applications. Explore the full list and refine your search

BMC medicine 18:343 PubMed33208172

2020

The nSMase2/Smpd3 gene modulates the severity of muscular dystrophy and the emotional stress response in mdx mice.

Applications

Unspecified application

Species

Unspecified reactive species

Yasunari Matsuzaka,Jun Tanihata,Yoshiko Ooshima,Daisuke Yamada,Masayuki Sekiguchi,Shouta Miyatake,Yoshitsugu Aoki,Mika Terumitsu,Ryu Yashiro,Hirofumi Komaki,Akihiko Ishiyama,Yasushi Oya,Yukiko U Inoue,Takayoshi Inoue,Shin'ichi Takeda,Kazuo Hashido

Cell death & disease 11:834 PubMed33033239

2020

Alpha-synuclein is involved in manganese-induced spatial memory and synaptic plasticity impairments via TrkB/Akt/Fyn-mediated phosphorylation of NMDA receptors.

Applications

Unspecified application

Species

Unspecified reactive species

Zhuo Ma,Kuan Liu,Xin-Ru Li,Can Wang,Chang Liu,Dong-Ying Yan,Yu Deng,Wei Liu,Bin Xu

Neuropeptides 82:102058 PubMed32507324

2020

Effects of exercise on BDNF-TrkB signaling in the paraventricular nucleus and rostral ventrolateral medulla in rats post myocardial infarction.

Applications

Unspecified application

Species

Unspecified reactive species

Heow Won Lee,Monir Ahmad,Hong-Wei Wang,Frans H H Leenen
View all publications
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