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Merck

399275

Nω-Hydroxy-nor-L-arginine diacetate Salt

≥97% (TLC), Arginase inhibitor, solid

Synonyme(s) :

Nω-Hydroxy-nor-L-arginine, Diacetate Salt, nor-NOHA, 2CH3CO2H, L-2-Amino-(4-(2ʹ-hydroxyguanidino)butyric Acid, 2CH3CO2H

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A propos de cet article

Formule empirique (notation de Hill) :
C5H12N4O3 · 2C2H4O2
Numéro CAS:
189302-40-7
Poids moléculaire :
296.28
MDL number:
MFCD01318777
UNSPSC Code:
12352209
NACRES:
NA.77

Principaux documents

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Nom du produit

Nω-Hydroxy-nor-L-arginine, Diacetate Salt, A potent, selective, competitive, and high affinity inhibitor of arginase.

SMILES string

N(O)\C(=N\CC[C@H](N)C(=O)O)\N.OC(=O)C.OC(=O)C

InChI key

PQFYTZJPYBMTCT-QTNFYWBSSA-N

assay

≥97% (TLC)

form

solid

potency

2 μM IC50

manufacturer/tradename

Calbiochem®

storage condition

OK to freeze
desiccated (hygroscopic)

color

off-white

solubility

water: 50 mg/mL

shipped in

ambient

storage temp.

−20°C

Quality Level

100

Catégories apparentées

Biochem/physiol Actions

Primary Target
arginase from rat liver
Secondary Target
mouse macrophages (IC₅₀ = 50 µM)

Disclaimer

Toxicity: Standard Handling (A)

General description

A potent, selective, competitive, and high affinity inhibitor of arginase. Shown to inhibit arginase from rat liver (IC50 = 2 µM) and mouse macrophages (IC50 = 50 µM). Shown to specifically interact with the manganese-cluster of the enzyme active site. Does not function as a substrate or as an inhibitor for NOS. Hence, nor-NOHA may be a useful tool to study the interplays between arginase and NOS.

Other Notes

Gobert, A.P., et al. 2000. Infect. Immun. 68, 4653.
Meurs, H., et al. 2000. Br. J. Pharmacol. 130, 1793.
Moali, C., et al. 2000. Biochemistry 39, 8208.
Tenu, J.P. et al. 1999. Nitric Oxide 3, 427.
Moali, C., et al. 1998. Biochemistry 37, 10453.
Custot, J., et al. 1997. J. Am. Chem. Soc. 119, 4086.

Packaging

Packaged under inert gas

Preparation Note

Following reconstitution, aliquot and freeze (-20°C). Stock solutions are stable for up to 6 months at -20°C.

Legal Information

CALBIOCHEM is a registered trademark of Merck KGaA, Darmstadt, Germany

Classe de stockage

11 - Combustible Solids

wgk

WGK 1

flash_point_f

Not applicable

flash_point_c

Not applicable

Certificats d'analyse (COA)

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Jun Zhu et al.
Investigative ophthalmology & visual science, 62(7), 3-3 (2021-06-02)
To investigate the effects of ex vivo-induced bone marrow myeloid-derived suppressor cells (BM-MDSCs) on allogeneic immune responses in corneal transplantation. Bone marrow cells from C57BL/6J (B6) mice were cultured with IL-6 and GM-CSF for four days. The ex vivo induction
Rashi Sehgal et al.
Frontiers in immunology, 13, 828949-828949 (2022-06-21)
Decompensated cirrhosis patients are more prone to bacterial infections. Myeloid-derived suppressor cells (MDSCs) expand in sepsis patients and disrupt immune cell functions. Granulocyte-macrophage colony-stimulating factor (GM-CSF) therapy helps in restoring immune cell functions and resolving infections. Its role in MDSC
Alessandra Sacchi et al.
Cell death & disease, 11(10), 921-921 (2020-10-29)
The immunological mechanisms underlying the clinical presentation of SARS-CoV-2 infection and those influencing the disease outcome remain to be defined. Myeloid-derived suppressor cells (MDSC) have been described to be highly increased during COVID-19, however, their role remains elusive. We performed
Máté Kiss et al.
Cancer immunology research, 9(3), 309-323 (2020-12-29)
IL1β is a central mediator of inflammation. Secretion of IL1β typically requires proteolytic maturation by the inflammasome and formation of membrane pores by gasdermin D (GSDMD). Emerging evidence suggests an important role for IL1β in promoting cancer progression in patients

Contenu apparenté

Pathways and Biomarkers of Oxidative Stress

"Aging: getting older, exhibiting the signs of age, the decline in the physical (and mental) well-being over time, leading to death. Since the beginning of time, man has been obsessed with trying to slow down, stop, or even reverse the signs of aging. Many have gone as far as experimenting with nutritional regimens, eccentric exercises, fantastic rituals, and naturally occurring or synthetic wonder-elements to evade the signs of normal aging. Biologically speaking, what is aging? And what does the latest research tell us about the possibility of discovering the elusive “fountain of youth”? Many advances in our understanding of aging have come from systematic scientific research, and perhaps it holds the key to immortality. Scientifically, aging can be defined as a systems-wide decline in organismal function that occurs over time. This decline occurs as a result of numerous events in the organism, and these events can be classified into nine “hallmarks” of aging, as proposed by López-Otin et al. (2013). Several of the pathologies associated with aging are a direct result of these events going to extremes and may also involve aberrant activation of proliferation signals or hyperactivity. The hallmarks of aging have been defined based on their fulfillment of specific aging related criteria, such as manifestation during normal aging, acceleration of aging if experimentally induced or aggravated, and retardation of aging if prevented or blocked, resulting in increased lifespan. The nine hallmarks of aging are genomic instability, telomere attrition, epigenetic alterations, loss of proteostasis, deregulated nutrient sensing, mitochondrial dysfunction, cellular senescence, stem cell exhaustion, and altered intercellular communication. The biological processes underlying aging are complex. By understanding the hallmarks in greater detail, we can get closer to developing intervention strategies that can make the aging process less of a decline, and more of a recline."

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