Native mouse NGF 2.5S protein (>95%) | Alomone Labs N-100 product information

product summary

company name :

Alomone Labs

product type :

chemical

product name :

Native mouse NGF 2.5S protein (>95%)

catalog :

N-100

more info or order :

Alomone Labs product webpage

citations: 74

Reference
Benitez A, Riquelme R, del Campo M, Araya C, Lara H. Nerve Growth Factor: A Dual Activator of Noradrenergic and Cholinergic Systems of the Rat Ovary. Front Endocrinol (Lausanne). 2021;12:636600 pubmed publisher
Rozbeský D, Verhagen M, Karia D, Nagy G, Alvarez L, Robinson R, et al. Structural basis of semaphorin-plexin cis interaction. EMBO J. 2020;39:e102926 pubmed publisher
Gebhardt L, Kichko T, Fischer M, Reeh P. TRPA1-dependent calcium transients and CGRP release in DRG neurons require extracellular calcium. J Cell Biol. 2020;219: pubmed publisher
Montero M, Liu J, Orozco J, Casiano C, De Leon M. Docosahexaenoic acid protection against palmitic acid-induced lipotoxicity in NGF-differentiated PC12 cells involves enhancement of autophagy and inhibition of apoptosis and necroptosis. J Neurochem. 2020;155:559-576 pubmed publisher
Kühn H, Kappes L, Wolf K, Gebhardt L, Neurath M, Reeh P, et al. Complementary roles of murine NaV1.7, NaV1.8 and NaV1.9 in acute itch signalling. Sci Rep. 2020;10:2326 pubmed publisher
Lee B, Hur E. A Role of Microtubules in Oligodendrocyte Differentiation. Int J Mol Sci. 2020;21: pubmed publisher
Nocchi L, Portulano C, Franciosa F, Doleschall B, Panea M, Roy N, et al. Nerve growth factor-mediated photoablation of nociceptors reduces pain behavior in mice. Pain. 2019;160:2305-2315 pubmed publisher
Liu K, Jones S, Minis A, Rodriguez J, Molina H, Steller H. PI31 Is an Adaptor Protein for Proteasome Transport in Axons and Required for Synaptic Development. Dev Cell. 2019;50:509-524.e10 pubmed publisher
Usuki S, Tamura N, Tamura T, Tanji K, Mikami D, Mukai K, et al. Neurite Outgrowth and Morphological Changes Induced by 8-trans Unsaturation of Sphingadienine in kCer Molecular Species. Int J Mol Sci. 2019;20: pubmed publisher
Usuki S, Tamura N, Tamura T, Higashiyama S, Tanji K, Mitsutake S, et al. Konjac ceramide (kCer) regulates keratinocyte migration by Sema3A-like repulsion mechanism. Biochem Biophys Rep. 2019;17:132-138 pubmed publisher
Elazar N, Vainshtein A, Golan N, Vijayaragavan B, Schaeren Wiemers N, Eshed Eisenbach Y, et al. Axoglial Adhesion by Cadm4 Regulates CNS Myelination. Neuron. 2019;101:224-231.e5 pubmed publisher
Shacham Silverberg V, Sar Shalom H, Goldner R, Golan Vaishenker Y, Gurwicz N, Gokhman I, et al. Phosphatidylserine is a marker for axonal debris engulfment but its exposure can be decoupled from degeneration. Cell Death Dis. 2018;9:1116 pubmed publisher
Hofmann L, Hose D, Grießhammer A, Blum R, Döring F, Dib Hajj S, et al. Characterization of small fiber pathology in a mouse model of Fabry disease. elife. 2018;7: pubmed publisher
Martin S, Souder D, Miller K, Clark J, Sagar A, Eliceiri K, et al. GSK3? Regulates Brain Energy Metabolism. Cell Rep. 2018;23:1922-1931.e4 pubmed publisher
Mohamed A, Viveiros A, Williams K, Posse de Chaves E. Aβ inhibits SREBP-2 activation through Akt inhibition. J Lipid Res. 2018;59:1-13 pubmed publisher
Shinsuke K, Junya K, Tomonobu U, Yoshiko K, Izumo N, Takahiko S. Chronic irradiation with low-dose-rate 137Cs-? rays inhibits NGF-induced neurite extension of PC12 cells via Ca2+/calmodulin-dependent kinase II activation. J Radiat Res. 2017;:1-7 pubmed publisher
Giannaccini M, Usai A, Chiellini F, Guadagni V, Andreazzoli M, Ori M, et al. Neurotrophin-conjugated nanoparticles prevent retina damage induced by oxidative stress. Cell Mol Life Sci. 2018;75:1255-1267 pubmed publisher
Takahashi N, Onozuka W, Watanabe S, Wakasugi K. Chimeric ZHHH neuroglobin acts as a cell membrane-penetrating inducer of neurite outgrowth. FEBS Open Bio. 2017;7:1338-1349 pubmed publisher
Röhr D, Halfter H, Schulz J, Young P, Gess B. Sodium-dependent Vitamin C transporter 2 deficiency impairs myelination and remyelination after injury: Roles of collagen and demethylation. Glia. 2017;65:1186-1200 pubmed publisher
Oddone F, Roberti G, Micera A, Busanello A, Bonini S, Quaranta L, et al. Exploring Serum Levels of Brain Derived Neurotrophic Factor and Nerve Growth Factor Across Glaucoma Stages. PLoS ONE. 2017;12:e0168565 pubmed publisher
Villarin J, McCurdy E, Martinez J, Hengst U. Local synthesis of dynein cofactors matches retrograde transport to acutely changing demands. Nat Commun. 2016;7:13865 pubmed publisher
Wang L, Kennedy T, Almazan G. A novel function of TBK1 as a target of Cdon in oligodendrocyte differentiation and myelination. J Neurochem. 2017;140:451-462 pubmed publisher
Nakajima K, Marunaka Y. Intracellular chloride ion concentration in differentiating neuronal cell and its role in growing neurite. Biochem Biophys Res Commun. 2016;479:338-342 pubmed publisher
Kistner K, Siklosi N, Babes A, Khalil M, Selescu T, Zimmermann K, et al. Systemic desensitization through TRPA1 channels by capsazepine and mustard oil - a novel strategy against inflammation and pain. Sci Rep. 2016;6:28621 pubmed publisher
Wang L, Almazan G. Cdon, a cell surface protein, mediates oligodendrocyte differentiation and myelination. Glia. 2016;64:1021-33 pubmed publisher
Calvo L, Anta B, LÃ³pez Benito S, MartÃn Rodriguez C, Lee F, PÃ©rez P, et al. Bex3 Dimerization Regulates NGF-Dependent Neuronal Survival and Differentiation by Enhancing trkA Gene Transcription. J Neurosci. 2015;35:7190-202 pubmed publisher
Fischer M, Soller K, Sauer S, Kalucka J, Veglia G, Reeh P. Formalin evokes calcium transients from the endoplasmatic reticulum. PLoS ONE. 2015;10:e0123762 pubmed publisher
Yu L, Reynaud F, Falk J, Spencer A, Ding Y, BaumlÃ© V, et al. Highly efficient method for gene delivery into mouse dorsal root ganglia neurons. Front Mol Neurosci. 2015;8:2 pubmed publisher
Cabrera J, Viejo Borbolla A, Martinez Martin N, Blanco S, Wandosell F, Alcami A. Secreted herpes simplex virus-2 glycoprotein G modifies NGF-TrkA signaling to attract free nerve endings to the site of infection. PLoS Pathog. 2015;11:e1004571 pubmed publisher
An J, Moon S, Hong S, Kang J, Seo J. Neuroprotective effect of 3-morpholinosydnonimine against ZnÂ²âº-induced PC12 cell death. Eur J Pharmacol. 2015;748:37-44 pubmed publisher
Quarta S, Baeumer B, Scherbakov N, Andratsch M, Rose John S, Dechant G, et al. Peripheral nerve regeneration and NGF-dependent neurite outgrowth of adult sensory neurons converge on STAT3 phosphorylation downstream of neuropoietic cytokine receptor gp130. J Neurosci. 2014;34:13222-33 pubmed publisher
Ronzitti G, Bucci G, Emanuele M, Leo D, Sotnikova T, Mus L, et al. Exogenous ?-synuclein decreases raft partitioning of Cav2.2 channels inducing dopamine release. J Neurosci. 2014;34:10603-15 pubmed publisher
Matsui T, Motoki Y, Yoshida Y. Hypothermia reduces toll-like receptor 3-activated microglial interferon-β and nitric oxide production. Mediators Inflamm. 2013;2013:436263 pubmed publisher
Furukawa Y, Watanabe S, Okuyama S, Nakajima M. Neurotrophic effect of citrus auraptene: neuritogenic activity in PC12 cells. Int J Mol Sci. 2012;13:5338-47 pubmed publisher
Mohamed A, Saavedra L, Di Pardo A, Sipione S, Posse de Chaves E. ?-amyloid inhibits protein prenylation and induces cholesterol sequestration by impairing SREBP-2 cleavage. J Neurosci. 2012;32:6490-500 pubmed publisher
Kobayashi H, Fukuda M. Rab35 regulates Arf6 activity through centaurin-?2 (ACAP2) during neurite outgrowth. J Cell Sci. 2012;125:2235-43 pubmed publisher
Cardinale A, Racaniello M, Saladini S, De Chiara G, Mollinari C, De Stefano M, et al. Sublethal doses of ?-amyloid peptide abrogate DNA-dependent protein kinase activity. J Biol Chem. 2012;287:2618-31 pubmed publisher
Velanac V, Unterbarnscheidt T, Hinrichs W, Gummert M, Fischer T, Rossner M, et al. Bace1 processing of NRG1 type III produces a myelin-inducing signal but is not essential for the stimulation of myelination. Glia. 2012;60:203-17 pubmed publisher
Nakajima K, Niisato N, Marunaka Y. Quercetin stimulates NGF-induced neurite outgrowth in PC12 cells via activation of Na(+)/K(+)/2Cl(-) cotransporter. Cell Physiol Biochem. 2011;28:147-56 pubmed publisher
Taylor A, Gifondorwa D, Robinson M, Strupe J, Prevette D, Johnson J, et al. Motoneuron programmed cell death in response to proBDNF. Dev Neurobiol. 2012;72:699-712 pubmed publisher
Bucci G, Mochida S, Stephens G. Inhibition of synaptic transmission and G protein modulation by synthetic CaV2.2 Ca²+ channel peptides. J Physiol. 2011;589:3085-101 pubmed publisher
Fischer M, Leffler A, Niedermirtl F, Kistner K, Eberhardt M, Reeh P, et al. The general anesthetic propofol excites nociceptors by activating TRPV1 and TRPA1 rather than GABAA receptors. J Biol Chem. 2010;285:34781-92 pubmed publisher
Suh B, Leal K, Hille B. Modulation of high-voltage activated Ca(2+) channels by membrane phosphatidylinositol 4,5-bisphosphate. Neuron. 2010;67:224-38 pubmed publisher
Schoenmann Z, Assa Kunik E, Tiomny S, Minis A, Haklai Topper L, Arama E, et al. Axonal degeneration is regulated by the apoptotic machinery or a NAD+-sensitive pathway in insects and mammals. J Neurosci. 2010;30:6375-86 pubmed publisher
Chamberlain J, Pittock S, Oprescu A, Dege C, Apiwattanakul M, Kryzer T, et al. Peripherin-IgG association with neurologic and endocrine autoimmunity. J Autoimmun. 2010;34:469-77 pubmed publisher
Yamamoto Y, Mochida S, Kurooka T, Sakisaka T. Reciprocal intramolecular interactions of tomosyn control its inhibitory activity on SNARE complex formation. J Biol Chem. 2009;284:12480-90 pubmed publisher
Marler K, Becker Barroso E, MARTINEZ A, Llovera M, Wentzel C, Poopalasundaram S, et al. A TrkB/EphrinA interaction controls retinal axon branching and synaptogenesis. J Neurosci. 2008;28:12700-12 pubmed publisher
Sakisaka T, Yamamoto Y, Mochida S, Nakamura M, Nishikawa K, Ishizaki H, et al. Dual inhibition of SNARE complex formation by tomosyn ensures controlled neurotransmitter release. J Cell Biol. 2008;183:323-37 pubmed publisher
Madziar B, Shah S, Brock M, Burke R, Lopez Coviella I, Nickel A, et al. Nerve growth factor regulates the expression of the cholinergic locus and the high-affinity choline transporter via the Akt/PKB signaling pathway. J Neurochem. 2008;107:1284-93 pubmed publisher
Yung L, Tso P, Wu E, Yu J, Ip N, Wong Y. Nerve growth factor-induced stimulation of p38 mitogen-activated protein kinase in PC12 cells is partially mediated via G(i/o) proteins. Cell Signal. 2008;20:1538-44 pubmed publisher
Szegezdi E, Herbert K, Kavanagh E, Samali A, Gorman A. Nerve growth factor blocks thapsigargin-induced apoptosis at the level of the mitochondrion via regulation of Bim. J Cell Mol Med. 2008;12:2482-96 pubmed publisher
Leffler A, Fischer M, Rehner D, Kienel S, Kistner K, Sauer S, et al. The vanilloid receptor TRPV1 is activated and sensitized by local anesthetics in rodent sensory neurons. J Clin Invest. 2008;118:763-76 pubmed publisher
Carter J, Demizieux L, Campenot R, Vance D, Vance J. Phosphatidylcholine biosynthesis via CTP:phosphocholine cytidylyltransferase 2 facilitates neurite outgrowth and branching. J Biol Chem. 2008;283:202-12 pubmed
Fuenzalida K, Quintanilla R, Ramos P, Piderit D, Fuentealba R, Martinez G, et al. Peroxisome proliferator-activated receptor gamma up-regulates the Bcl-2 anti-apoptotic protein in neurons and induces mitochondrial stabilization and protection against oxidative stress and apoptosis. J Biol Chem. 2007;282:37006-15 pubmed
Saavedra L, Mohamed A, Ma V, Kar S, de Chaves E. Internalization of beta-amyloid peptide by primary neurons in the absence of apolipoprotein E. J Biol Chem. 2007;282:35722-32 pubmed
Zhang Z, Winborn C, Marquez de Prado B, Russo A. Sensitization of calcitonin gene-related peptide receptors by receptor activity-modifying protein-1 in the trigeminal ganglion. J Neurosci. 2007;27:2693-703 pubmed
Ma H, Mochida S. A cholinergic model synapse to elucidate protein function at presynaptic terminals. Neurosci Res. 2007;57:491-8 pubmed
Arthur D, Taupenot L, Insel P. Nerve growth factor-stimulated neuronal differentiation induces changes in P2 receptor expression and nucleotide-stimulated catecholamine release. J Neurochem. 2007;100:1257-64 pubmed
Baba T, Sakisaka T, Mochida S, Takai Y. PKA-catalyzed phosphorylation of tomosyn and its implication in Ca2+-dependent exocytosis of neurotransmitter. J Cell Biol. 2005;170:1113-25 pubmed
Song M, Saavedra L, de Chaves E. Apoptosis is secondary to non-apoptotic axonal degeneration in neurons exposed to Abeta in distal axons. Neurobiol Aging. 2006;27:1224-38 pubmed
Zarain Herzberg A, Lee Rivera I, Rodriguez G, López Colomé A. Cloning and characterization of the chick NMDA receptor subunit-1 gene. Brain Res Mol Brain Res. 2005;137:235-51 pubmed
O Driscoll C, Gorman A. Hypoxia induces neurite outgrowth in PC12 cells that is mediated through adenosine A2A receptors. Neuroscience. 2005;131:321-9 pubmed
Nishio M, Fukumoto S, Furukawa K, Ichimura A, Miyazaki H, Kusunoki S, et al. Overexpressed GM1 suppresses nerve growth factor (NGF) signals by modulating the intracellular localization of NGF receptors and membrane fluidity in PC12 cells. J Biol Chem. 2004;279:33368-78 pubmed
Sato S, Ito M, Ito T, Yoshioka K. Scaffold protein JSAP1 is transported to growth cones of neurites independent of JNK signaling pathways in PC12h cells. Gene. 2004;329:51-60 pubmed
Hewett J, Ziefer P, Bergeron D, Naismith T, Boston H, Slater D, et al. TorsinA in PC12 cells: localization in the endoplasmic reticulum and response to stress. J Neurosci Res. 2003;72:158-68 pubmed
Brann A, Tcherpakov M, Williams I, Futerman A, Fainzilber M. Nerve growth factor-induced p75-mediated death of cultured hippocampal neurons is age-dependent and transduced through ceramide generated by neutral sphingomyelinase. J Biol Chem. 2002;277:9812-8 pubmed
Lambeng N, Michel P, Agid Y, Ruberg M. The relationship between differentiation and survival in PC12 cells treated with cyclic adenosine monophosphate in the presence of epidermal growth factor or nerve growth factor. Neurosci Lett. 2001;297:133-6 pubmed
Cordeiro M, Umbach J, Gundersen C. Lithium ions Up-regulate mRNAs encoding dense-core vesicle proteins in nerve growth factor-differentiated PC12 cells. J Neurochem. 2000;75:2622-5 pubmed
Vanhoutte P, Nissen J, Brugg B, Gaspera B, Besson M, Hipskind R, et al. Opposing roles of Elk-1 and its brain-specific isoform, short Elk-1, in nerve growth factor-induced PC12 differentiation. J Biol Chem. 2001;276:5189-96 pubmed
Gil C, Chaib Oukadour I, Pelliccioni P, Aguilera J. Activation of signal transduction pathways involving trkA, PLCgamma-1, PKC isoforms and ERK-1/2 by tetanus toxin. FEBS Lett. 2000;481:177-82 pubmed
Posse De Chaves E, Vance D, Campenot R, Kiss R, Vance J. Uptake of lipoproteins for axonal growth of sympathetic neurons. J Biol Chem. 2000;275:19883-90 pubmed
Moore K, Taylor G, Weinreich D. Serotonin unmasks functional NK-2 receptors in vagal sensory neurones of the guinea-pig. J Physiol. 1999;514 ( Pt 1):111-24 pubmed
Bennett G, Al Rashed S, Hoult S, Brain D. Nerve growth factor induced hyperalgesia in the rat hind paw is dependent on circulating neutrophils. Pain. 1998;77:315-322 pubmed publisher
Thippeswamy T, Morris R. Nerve growth factor inhibits the expression of nitric oxide synthase in neurones in dissociated cultures of rat dorsal root ganglia. Neurosci Lett. 1997;230:9-12 pubmed

image

image 1 :

Peptide (C)RGSQAQDRKLSTKE corresponding to amino acid residues 673-686 of human multidrug resistance protein 1 (AccessionP08183). 3rdintracellular loop.

product information

cat :

N-100

SKU :

N-100_0.1 mg

Product Name :

Native mouse NGF 2.5S protein (>95%)

Group Type :

Non Antibodies

Product Type :

Proteins

Applications :

Neurite outgrowth assay, Cell survival assay

Formulation :

Lyophilized in 0.2% Acetic acid. May contain acetate as a residual counter ion.

Storage After Reconstitution :

The reconstituted solution can be stored at 4°C for up to 1 week. For longer periods (up to 6 months), small aliquots should be stored at -20°C. We do not recommend storing the product in working solutions for longer than a few days. Avoid multiple freeze-thaw cycles.

Reconstitution and Solubility :

Centrifuge the vial (10,000 × g for 5 minutes) before adding solvent to spin down all the powder to the bottom of the vial. The lyophilized product may be difficult to visualize. Add solvent directly to the centrifuged vial. Gently tap, tilt, and roll the vial to aid dissolution. Avoid vigorous vortexing; light vortexing for up to 3 seconds is acceptable if needed. For long-term storage in solution, we recommend preparing a stock solution by dissolving the product in sterile water at a concentration of at least 0.1 mg/mL. Divide the stock solution into small aliquots and store at -20°C. Before use, thaw the relevant vial(s) and dilute to the desired working concentration in your working buffer. It is recommended to prepare fresh solutions in working buffers just before use. Repeated freeze-thaw cycles may result in loss of activity.

Solubility :

Centrifuge the vial before adding solvent (10,000 x g for 5 minutes) to spin down all the powder to the bottom of the vial. The lyophilized product may be difficult to visualize. Add solvent directly to the centrifuged vial. Tap the vial to aid in dissolving the lyophilized product. Tilt and gently roll the liquid over the walls of the vial. Avoid vigorous vortexing. Light vortexing for up to 3 seconds is acceptable if needed. For long-term storage in solution, we recommend preparing a stock solution by dissolving the product in sterile water at a concentration of at least 0.1 mg/mL. Divide the stock solution into small aliquots and store at -20°C. Before use, thaw the relevant vial(s) and dilute to the desired working concentration in your working buffer. It is recommended to prepare fresh solutions in working buffers just before use. Repeat freeze-thawing may result in loss of activity.

Storage Before Reconstitution :

The product is shipped as a lyophilized powder at room temperature. Upon receipt, store the product at -20°C. Protect from moisture.

Origin :

Native protein isolated from mouse submaxillary glands.

Source :

Natural protein

Gene ID :

NGFR, NTRK1

Product Page - Scientific background :

The neurotrophins ("neuro" means nerve and "trophe" means nutrient) are a family of soluble, basic growth factors which regulate neuronal development, maintenance, survival and death in the CNS and PNS.1NGF, the first member of the family to be discovered, was originally purified as a factor able to support survival of sympathetic and sensory spinal neurons in culture.2 It is synthesized and secreted by sympathetic and sensory target organs and provides trophic support to neurons as they reach their final target.3Neurotrophin secretion increases in the nervous system following injury. Schwann cells, fibroblasts, and activated mast cells normally synthesize NGF constitutively, however direct trauma and induction of cytokines combine to increase neurotrophin production in these cells after injury.4NGF is purified in three forms: the 7S, 2.5S and β. The 7S (130 kDa) form occurs naturally in mouse submaxillary glands, and is a multimeric protein composed of two α, one β and two γ subunits. The name is derived from its sedimentation co-efficient, 7S.The biologically active subunit is the β, which is a 26 kDa dimer composed of two identical 120 amino acid chains held together by hydrophobic interactions.5 The 2.5S form is 9 amino acids shorter than the β form because of proteolysis that occurs during the purification process.6 The structural hallmark of all the neurotrophins is the characteristic arrangement of the disulfide bridges known as the cysteine knot, which has been found in other growth factors such as Platelet-derived growth factor.7 There is a 95.8% homology between the rat and mouse forms, and a 85% homology between the human and mouse.NGF has been shown to regulate neuronal survival, development, function and plasticity.8 Recently, involvement of NGF in processes not involving neuronal cells has been shown, such as asthma,9 psoriasis10 and wound healing.11 The biological effects of NGF are mediated by two receptors: TrkA, which is specific for NGF, and p75NTR, which binds all the neurotrophins.12

Supplier :

Alomone Labs

Target :

p75NTR, TrkA receptors

Long Description :

Native Mouse Nerve Growth Factor

Short Description :

Native Mouse Nerve Growth Factor

MW :

26 kDa

Synonyms :

Nerve Growth Factor 2.5S

Effective Concentration :

EC50 = 0.7 nM

Activity :

NGF is purified in three forms: the 7S, 2.5S and β. The 2.5S form is 9 amino acids shorter than the β form because of proteolysis that occurs during the purification process1. NGF has been shown to regulate neuronal survival, development, function and plasticity2. The biological effects of NGF are mediated by two receptors: TrkA, which is specific for NGF, and p75NTR, which binds all the neurotrophins3.

Storage of solutions :

Lead Time :

1-2 Business Days

Country of origin :

Israel/IL

Purity :

>95% (HPLC)

CAS No :

93928-24-6

Form :

Lyophilized

Comment :

Contact Alomone Labs for technical support and product customization

Is Toxin :

UNSPSC :

12352202

Bioassay Tested :

yes

more info or order :

Alomone Labs product webpage