Amino Acid Derivatives

Amino Acid Derivatives are bioactive molecules formed through chemical modifications or metabolic transformations of amino acids. They are widely present in living organisms and play crucial roles in physiological, psychological, and athletic performance.
The functions of these derivatives primarily include enhancing energy supply, regulating neurotransmitters, promoting fat metabolism, and reducing muscle damage. For example, creatine can increase muscle strength, enhance ATP resynthesis, and improve short-duration high-intensity exercise performance; tyrosine, as a precursor of dopamine and norepinephrine, helps enhance cognitive function and improve mood, particularly in sleep deprivation conditions, exhibiting anti-fatigue effects; carnitine facilitates fatty acid oxidation in the heart and skeletal muscles, improving endurance performance; HMB (β-hydroxy-β-methylbutyrate) reduces muscle breakdown and promotes muscle mass gain; while taurine exhibits antioxidant and antihypertensive properties and reduces oxidative stress induced by exercise.
Metabolic abnormalities or improper supplementation of amino acid derivatives may be associated with various diseases. For instance, tyrosine metabolism disorders can disrupt neurotransmitter balance, potentially leading to depression or stress-related disorders; elevated ADMA (asymmetric dimethylarginine) levels can inhibit nitric oxide synthesis, increasing the risk of cardiovascular diseases; carnitine deficiency is linked to certain genetic muscle disorders, impairing fat metabolism and energy production. Additionally, HMB may help slow muscle loss under specific conditions, while taurine intake is associated with improved cardiovascular health. Although some of the effects of these derivatives remain debated, they hold significant potential applications in sports nutrition, neurological regulation, and metabolic health.

References:

[1]. Luckose F, et al. Effects of amino acid derivatives on physical, mental, and physiological activities. Crit Rev Food Sci Nutr. 2015;55(13):1793-807. [Content Brief]

Amino Acid Derivatives Related Products (1606):

By Effects:	Inhibitor (1) Chemical (1)

Cat. No.	Product Name	Effect	Purity	Chemical Structure

HY-W548477

H-Lys(Fmoc)-OH hydrochloride		99.15%
H-Lys(Fmoc)-OH hydrochloride is an amino acid derivative with an Fmoc protecting group, which can be used to synthesize diacylated GLP-1 derivatives with antidiabetic activity.

HY-W011778

H-Tyr(H2PO3)-OH		99.59%
H-Tyr(H2PO3)-OH is a tyrosine derivative.

HY-W012966

3-Amino-2-hydroxypropanoic acid		98.0%
3-Amino-2-hydroxypropanoic acid is a serine derivative.

HY-W009328

Z-Asp-OMe		99.75%
Z-Asp-OMe is an aspartic acid derivative.

HY-149449

Poly-L-γ-glutamic acid sodium
Poly-L-γ-glutamic acid sodium is a high molecular weight polymer composed of glutamic acid linked by γ-amino and carboxyl groups to form peptide bonds. Poly-L-γ-glutamic acid sodium protects bacteria from bacteriophage infection. Poly-L-γ-glutamic acid sodium plays an important role as a carrier material in compound delivery systems.

HY-W141934S

N-Valerylglycine-d₂
N-Valerylglycine-d₂ is the deuterated labeled N-Valerylglycine (HY-W141934). N-Valerylglycine is a Glycine (HY-Y0966) derivative.

HY-131618

Hippuryl-Arg		99.89%
Hippuryl-Arg (Bz-Gly-Arg) is a substrate used for fluorescence detection and is commonly used in biochemical studies, especially in studying enzyme activity. The phenylalanine portion of Hippuryl-Arg is connected by an aromatic side chain, which allows it to be detected under ultraviolet light. Hippuryl-Arg is used to detect enzymes that recognize and cut peptide bonds containing arginine.

HY-P10493A

NY-ESO-1 (157-165) peptide TFA
NY-ESO-1 (157-165) peptide (TFA) is a peptide fragment from NY-ESO-1 protein. NY-ESO-1 (157-165) peptide (TFA) can activate the immune system, especially for HLA-A2 positive individuals, it can be recognized by CD8+ T cells, thus triggering an immune response. NY-ESO-1 (157-165) peptide (TFA) is expressed in a variety of tumors and can be used as a target for tumor immunotherapy.

HY-W005720

H-Phg(4-Cl)-OH		98.85%
H-Phg(4-Cl)-OH (L-4-Chlorophenylglycine) is a Glycine (HY-Y0966) derivative.

HY-W016835

(2S,3S)-2-Acetamido-3-methylpentanoic acid
(2S,3S)-2-Acetamido-3-methylpentanoic acid is an isoleucine derivative.

HY-W068839

L-Phenylalanyl-L-leucine		98.02%
L-Phenylalanyl-L-leucine is a leucine derivative.

HY-60256

(R)-Pyrrolidine-3-carboxylic acid
(R)-Pyrrolidine-3-carboxylic acid is a proline derivative.

HY-W008958

Fmoc-MeSer(Bzl)-OH		99.80%
Fmoc-MeSer(Bzl)-OH is a serine derivative.

HY-W010825

Fmoc-Phe(2-Br)-OH
Fmoc-Phe(2-Br)-OH is a phenylalanine derivative.

HY-W011321

Boc-2-Nal-OH		98.84%
Boc-2-Nal-OH is an alanine derivative.

HY-W011280

(S)-2-(2-(1H-Indol-3-yl)acetamido)-3-phenylpropanoic acid
(S)-2-(2-(1H-Indol-3-yl)acetamido)-3-phenylpropanoic acid is a phenylalanine derivative.

HY-W041866

Boc-Phe(3-Br)-OH		99.85%
Boc-Phe(3-Br)-OH is a phenylalanine derivative.

HY-138106

Fmoc-D-Cit-OH
Fmoc-D-Cit-OH is citrulline with an Fmoc protecting group, which can be used to synthesize bioactive peptide mimetics, such as H-Dmt-D-Cit-Aba-b-Ala-NMe-30,50-(CF3)2-Bn and H-Dmt-D-Cit-Aba-b-Ala-NMe-Bn with neurokinin-1 antagonist activity.

HY-W041857

Boc-Cys(tBu)-OH
Boc-Cys(tBu)-OH is a cysteine derivative.

HY-W008255

Z-Glu-OBzl		99.99%
Z-Glu-OBzl is a glutamic acid derivative.

Name
Email *

	Sorry, but the email address you supplied was invalid.