menu
    • menu

    Find Phenylalanine manufacturers, exporters & distributors on PharmaCompass

    AbbVie CDMO has been working with global companies to develop, manufacture & scale biopharmaceutical products.

    Virtual Booth

    Contact Supplier

    dksh-m-2025-05-26

    Virtual Booth

    Contact Supplier

    dmfs-not-supported-m-2025-05-19

    Virtual Booth

    Contact Supplier

    TAPI, a leading global supplier of APIs, provides over 350 products and customized CDMO solutions for every stage of development.

    Virtual Booth

    Contact Supplier

    LEBSA- Your strategic API source for niche molecules.

    Virtual Booth

    Contact Supplier

    jdmfs-not-supported-m-2025-04-28

    Virtual Booth

    Contact Supplier

    ACTIVE PHARMA INGREDIENTS

    FINISHED DOSAGE FORMULATIONS

    RELATED EXCIPIENT COMPANIES

    EXCIPIENTS BY APPLICATIONS

    DIGITAL CONTENT

    MARKET PLACE

    REF. STANDARDS & IMPURITIES

    PharmaCompass

    Synopsis

    Product SearchProduct Search

    Synopsis

    ACTIVE PHARMA INGREDIENTS

    12

    API Suppliers

    API Suppliers

    6

    USDMF

    US DMFs Filed

    5

    CEP/COS

    CEP/COS Certifications

    5

    JDMF

    JDMFs Filed

    0

    EU WC

    EU WC

    0

    KDMF

    KDMF

    4

    NDC API

    NDC API

    0

    VMF

    NDC API

    3

    Listed Suppliers

    Other Suppliers

    0INTERMEDIATES

    REF. STANDARDS OR IMPURITIES

    0

    EDQM

    0

    USP

    0

    JP

    6

    Others

    FINISHED DOSAGE FORMULATIONS

    60

    FDF Dossiers

    FDF Dossiers

    0

    FDA Orange Book

    FDA (Orange Book)

    0

    Europe

    Europe

    25

    Canada

    Canada

    1

    Australia

    Australia

    34

    South Africa

    South Africa

    0

    Listed Dossiers

    Listed Dossiers

    0 DRUGS IN DEVELOPMENT

    FDF Dossiers

    DRUG PRODUCT COMPOSITIONS

    21RELATED EXCIPIENT COMPANIES

    27EXCIPIENTS BY APPLICATIONS

    PATENTS & EXCLUSIVITIES

    0

    US Patents

    0

    US Exclusivities

    0

    Health Canada Patents

    API REF. PRICE (USD/KG)

    $
    $ 104

    GLOBAL SALES INFORMATION

    US Medicaid

    NA

    Annual Reports

    NA

    Regulatory FDF Prices

    NA

    API/FDF Prices: Book a Demo to
    explore the features and consider
    upgrading later

    MARKET PLACE

    10

    API

    0

    FDF

    DIGITAL CONTENT

    0

    Data Compilation #PharmaFlow

    0

    Stock Recap #PipelineProspector

    0

    Weekly News Recap #Phispers

    9

    News #PharmaBuzz

    Chemistry

    Click the arrow to open the dropdown
    read-moreClick the button for full data set
    read-moreClick the button for full data set
    Also known as: 63-91-2, 3-phenyl-l-alanine, (2s)-2-amino-3-phenylpropanoic acid, (s)-2-amino-3-phenylpropanoic acid, (s)-phenylalanine, (s)-2-amino-3-phenylpropionic acid
    Molecular Formula
    C9H11NO2
    Molecular Weight
    165.19  g/mol
    InChI Key
    COLNVLDHVKWLRT-QMMMGPOBSA-N
    FDA UNII
    47E5O17Y3R
    Phenylalanine
    An essential aromatic amino acid that is a precursor of MELANIN; DOPAMINE; noradrenalin (NOREPINEPHRINE), and THYROXINE.
    1 2D Structure

    Phenylalanine

    2 Identification
    2.1 Computed Descriptors
    2.1.1 IUPAC Name
    (2S)-2-amino-3-phenylpropanoic acid
    2.1.2 InChI
    InChI=1S/C9H11NO2/c10-8(9(11)12)6-7-4-2-1-3-5-7/h1-5,8H,6,10H2,(H,11,12)/t8-/m0/s1
    2.1.3 InChI Key
    COLNVLDHVKWLRT-QMMMGPOBSA-N
    2.1.4 Canonical SMILES
    C1=CC=C(C=C1)CC(C(=O)O)N
    2.1.5 Isomeric SMILES
    C1=CC=C(C=C1)C[C@@H](C(=O)O)N
    2.2 Other Identifiers
    2.2.1 UNII
    47E5O17Y3R
    2.3 Synonyms
    2.3.1 MeSH Synonyms

    1. Endorphenyl

    2. L-isomer Phenylalanine

    3. Phenylalanine, L Isomer

    4. Phenylalanine, L-isomer

    2.3.2 Depositor-Supplied Synonyms

    1. 63-91-2

    2. 3-phenyl-l-alanine

    3. (2s)-2-amino-3-phenylpropanoic Acid

    4. (s)-2-amino-3-phenylpropanoic Acid

    5. (s)-phenylalanine

    6. (s)-2-amino-3-phenylpropionic Acid

    7. Beta-phenyl-l-alanine

    8. (l)-phenylalanine

    9. 3-phenylalanine

    10. H-phe-oh

    11. Antibiotic Fn 1636

    12. L-alanine, Phenyl-

    13. Alanine, 3-phenyl-

    14. L-antibiotic Fn 1636

    15. (s)-alpha-amino-beta-phenylpropionic Acid

    16. L-alanine, 3-phenyl-

    17. Phenylalanine (van)

    18. Fenilalanina [spanish]

    19. Phenylalaninum [latin]

    20. (s)-alpha-aminohydrocinnamic Acid

    21. Alanine, Phenyl-, L-

    22. Fema No. 3585

    23. (s)-(-)-phenylalanine

    24. Beta-phenylalnine, (-)-

    25. (s)-alpha-amino-benzenepropanoic Acid

    26. Phenylalanine, L-

    27. Hydrocinnamic Acid, Alpha-amino-

    28. 2-amino-3-phenylpropionic Acid, L-

    29. Phenylalanine [usan:inn:jan]

    30. Hsdb 1825

    31. Alpha-aminohydrocinnamic Acid, L-

    32. Alpha-amino-beta-phenylpropionic Acid, L-

    33. Benzenepropanoic Acid, Alpha-amino-, (s)-

    34. Fenilalanina

    35. Phe

    36. Alpha-aminohydrocinnamic Acid

    37. Endophenyl

    38. Nsc 79477

    39. L-phe

    40. Laevo-phenyl Alanine

    41. 67675-33-6

    42. L-phenylalinine

    43. Chembl301523

    44. Chebi:17295

    45. 47e5o17y3r

    46. Nsc-79477

    47. Phenylalaninum

    48. Mfcd00064227

    49. Phenylalamine

    50. Phenylalanine (l-phenylalanine)

    51. Alanine, Phenyl-

    52. .beta.-phenylalanine

    53. Phenyl-.alpha.-alanine

    54. L-.beta.-phenylalanine

    55. .beta.-phenyl-l-alanine

    56. (-)-.beta.-phenylalanine

    57. Einecs 200-568-1

    58. .alpha.-aminohydrocinnamic Acid

    59. .beta.-phenyl-.alpha.-alanine

    60. Phenylalanine (usp/inn)

    61. L-phenylaniline

    62. Hydrocinnamic Acid, .alpha.-amino-

    63. Unii-47e5o17y3r

    64. Ccris 4254

    65. .beta.-phenyl-.alpha.-alanine, L-

    66. L-phenyl Alanine

    67. Pheoh

    68. 1usi

    69. Nci9959

    70. (-)-phenylalanine

    71. .alpha.-amino-.beta.-phenylpropionic Acid

    72. Racemic Phenylalanine

    73. Phenylalanine [usan:usp:inn:jan]

    74. 1f2p

    75. Alpha-aminohydrocinnamate

    76. (-)-beta-phenylalanine

    77. L-phenylalanine, 99%

    78. Beta-phenyl-alpha-alanine

    79. L-phenylalanine (jp17)

    80. Phenylalanine [ii]

    81. Phenylalanine [mi]

    82. Bmse000045

    83. Bmse000900

    84. Bmse000921

    85. Bmse001016

    86. Phenylalanine [inn]

    87. Schembl8119

    88. Ncistruc1_000204

    89. Ncistruc2_000248

    90. H-phe-2-chlorotrityl Resin

    91. Phenylalanine [hsdb]

    92. Phenylalanine [inci]

    93. Phenylalanine [usan]

    94. L-(-)-phenylalanine

    95. Phenylalanine [vandf]

    96. (s)-alpha-aminohydrocinnamate

    97. L-phenylalanine (h-phe-oh)

    98. L-phenylalanine [fcc]

    99. L-phenylalanine [jan]

    100. Phenylalanine [mart.]

    101. L-2-amino-3-phenylpropionate

    102. L-phenylalanine [fhfi]

    103. L-phenylalanine, 99%, Fcc

    104. Phenylalanine [who-dd]

    105. Gtpl3313

    106. (s)-alpha-aminobenzenepropanoate

    107. 3-amino-4-phenyl-butanoic Acid

    108. Dtxsid4040763

    109. (s)-2-amino-3-phenylpropanoate

    110. Bdbm18073

    111. (s)-2-amino-3-phenylpropionate

    112. 1f9436b3-8b0d-4ac6-a004-4249b0bda436

    113. L-phenylalanine [usp-rs]

    114. L-phenylalanine Non-animal Source

    115. (s)-alpha-amino-benzenepropanoate

    116. L-2-amino-3-phenylpropionic Acid

    117. Zinc105196

    118. Hy-n0215

    119. L-2-amino-3-phenyl-propionic Acid

    120. Phenylalanine [ep Monograph]

    121. (s)-alpha-aminobenzenepropanoic Acid

    122. Ac8117

    123. Ccg-37572

    124. Ncgc00013103

    125. Phenylalanine [usp Monograph]

    126. L-[2,3,4,5,6-3h]phenylalanine

    127. (s)-alpha-amino-beta-phenylpropionate

    128. Akos010373257

    129. Akos015853585

    130. (s)-.alpha.-aminobenzenepropanoic Acid

    131. Db00120

    132. L-phenylalanine, Vetec(tm), 98.5%

    133. L-phenylalanine, Reagent Grade, >=98%

    134. Leucine Impurity C [ep Impurity]

    135. Ncgc00013103-02

    136. Ncgc00013103-03

    137. Ncgc00013103-04

    138. Ncgc00013103-05

    139. Ncgc00095047-01

    140. Ncgc00095047-02

    141. Ncgc00095047-03

    142. Ncgc00095047-04

    143. Ac-22417

    144. As-14129

    145. Bp-20538

    146. Tyrosine Impurity A [ep Impurity]

    147. Db-029978

    148. L-phenylalanine, 99%, Natural, Fcc, Fg

    149. Am20060774

    150. Nateglinide Impurity D [ep Impurity]

    151. P0134

    152. Benzenepropanoic Acid, .alpha.-amino-, (s)-

    153. L-phenylalanine, Bioultra, >=99.0% (nt)

    154. 63p912

    155. A20654

    156. C00079

    157. D00021

    158. M02961

    159. L-phenylalanine, Saj Special Grade, >=99.0%

    160. Q170545

    161. L-.alpha.-amino-.beta.-phenylpropionic Acid

    162. L-phenylalanine, Vetec(tm) Reagent Grade, >=98%

    163. Q-201326

    164. L-phenylalanine, Cell Culture Reagent (h-l-phe-oh)

    165. Lysine Hydrochloride Impurity B [ep Impurity]

    166. F0001-2360

    167. Z1258578341

    168. L-phenylalanine, Certified Reference Material, Tracecert(r)

    169. Phenylalanine, European Pharmacopoeia (ep) Reference Standard

    170. 3-(2-aminoethyl)-1,3-thiazolidine-2,4-dionehydrochloride

    171. L-phenylalanine, United States Pharmacopeia (usp) Reference Standard

    172. L(-)-phenylalanine; Beta-phenylalanine;dl-2-amino-3-phenylpropanoic Acid;

    173. L-phenylalanine, Analytical Standard, For Nitrogen Determination According To Kjeldahl Method

    174. L-phenylalanine, Pharmaceutical Secondary Standard; Certified Reference Material

    175. L-phenylalanine, From Non-animal Source, Meets Ep, Jp, Usp Testing Specifications, Suitable For Cell Culture, 98.5-101.0%

    176. L-phenylalanine, Pharmagrade, Ajinomoto, Ep, Jp, Usp, Manufactured Under Appropriate Gmp Controls For Pharma Or Biopharmaceutical Production, Suitable For Cell Culture

    2.4 Create Date
    2004-09-16
    3 Chemical and Physical Properties
    Molecular Weight 165.19 g/mol
    Molecular Formula C9H11NO2
    XLogP3-1.5
    Hydrogen Bond Donor Count2
    Hydrogen Bond Acceptor Count3
    Rotatable Bond Count3
    Exact Mass165.078978594 g/mol
    Monoisotopic Mass165.078978594 g/mol
    Topological Polar Surface Area63.3 Ų
    Heavy Atom Count12
    Formal Charge0
    Complexity153
    Isotope Atom Count0
    Defined Atom Stereocenter Count1
    Undefined Atom Stereocenter Count0
    Defined Bond Stereocenter Count0
    Undefined Bond Stereocenter Count0
    Covalently Bonded Unit Count1
    4 Drug and Medication Information
    4.1 Therapeutic Uses

    An essential aromatic amino acid that is a precursor of MELANIN; DOPAMINE; noradrenalin (NOREPINEPHRINE), and THYROXINE.

    National Library of Medicine's Medical Subject Headings online file (MeSH, 1999)

    /EXPTL TREATMENT/ There is no totally effective treatment for vitiligo (localised hypopigmentation). Oral or topical photochemotherapy with psoralens is generally considered to be the best available treatment, but experimental therapy includes UVA phototherapy with phenylalanine. Use of phenylalanine in oral doses of up to 100 mg/kg with UVA/sunlight led to beneficial results in more than 90% of 200 patients with vitiligo. Greatest benefit was noted in early disease, but prolonged use still induced repigmentation in long-standing cases. Repigmentation occurred mainly in areas rich in follicles. Such therapy is contra-indicated in phenylketonuria and in pregnancy. Similarly a further open study reported responses in 94 of 149 patients receiving 50 to 100 mg/kg daily of phenylalanine plus twice weekly UVA treatment. However, only 22% of responders had repigmentation in more than 60% of the affected area. Higher doses did not seem to be more effective than 50 mg/kg daily. Another group reported on 6 years of experience of treatment of vitiligo using 50 or 100 mg/kg daily of phenylalanine, with application of 10% phenylalanine gel and daily sun exposure. Although not ideal, they considered the treatment useful, especially for its ability to rapidly repigment the face. The same group performed an open study, adding topical 0.025% clobetasol propionate, and ultraviolet exposure during autumn and winter; 65.5% of patients achieved 100% repigmentation on the face.

    Sweetman SC (ed), Martindale: The Complete Drug Reference. London: Pharmaceutical Press (2009), p.1960.

    /Experimental Therapy/ L-Phenylalanine (Phe), is a potent releaser of the satiety hormone, cholecystokinin (CCK) and previous studies, conducted primarily in men, show that ingestion of Phe reduces energy intake. The objective of the current study was to test the effects of Phe on energy intake in overweight and obese women. Subjects (n =3 2) received three treatments (high-dose (10 g Phe), low-dose (5 g Phe and 5 g glucose) or control (10 g glucose)) 20 min before an ad libitum lunch and dinner meal in a within-subjects', counterbalanced, double-blind study. No effect of Phe was found; however, interactions with dietary restraint status were detected in post-hoc analyses.

    PMID:18342398 Pohle-Krauza RJ, et al; Appetite 51 (1): 111-9 (2008).

    /Experimental Therapy/ L-phenylalanine in combination with 0.025% clobetasol propionate and sunlight during sunny months or UVA lamps in winter, appears to improve evolutive vitiligo without side effects, and therefore is especially recommended on the face or for children.

    PMID:12847735 Camacho F, Mazuecos J; J Drugs Dermatol 1 (2): 127-31 (2002).

    For more Therapeutic Uses (Complete) data for (L)-Phenylalanine (7 total), please visit the HSDB record page.

    4.2 Drug Warning

    Overweight and obese women (n = 32) received three treatments (high-dose (10 g Phe), low-dose (5 g Phe and 5 g glucose) or control (10 g glucose)) 20 min before an ad libitum lunch and dinner meal. High-dose Phe increased ratings of nausea.

    PMID:18342398 Pohle-Krauza RJ, et al; Appetite 51 (1): 111-9 (2008).

    4.3 Drug Indication

    L-phenylalanine may be helpful in some with depression. It may also be useful in the treatment of vitiligo. There is some evidence that L-phenylalanine may exacerbate tardive dyskinesia in some schizophrenic patients and in some who have used neuroleptic drugs.

    5 Pharmacology and Biochemistry
    5.1 Pharmacology

    Used by the brain to produce Norepinephrine, a chemical that transmits signals between nerve cells and the brain; keeps you awake and alert; reduces hunger pains; functions as an antidepressant and helps improve memory.

    5.2 Absorption, Distribution and Excretion

    Absorption

    Absorbed from the small intestine by a sodium dependent active transport process.

    ... It diffuses across placental membrane reaching higher fetal than maternal levels. In rhesus monkey when serum maternal levels are 1-2 mg/100 mL near full term there is an approx 1.5:1 diffusion rate, but when maternal levels ... high (25 mg/100 mL) fetal serum ... reach 45 mg/100 mL to detriment of fetus. /Phenylalanine/

    Rossoff, I.S. Handbook of Veterinary Drugs. New York: Springer Publishing Company, 1974., p. 448

    Although the free amino acids dissolved in the body fluids are only a very small proportion of the body's total mass of amino acids, they are very important for the nutritional and metabolic control of the body's proteins. ... Although the plasma compartment is most easily sampled, the concentration of most amino acids is higher in tissue intracellular pools. Typically, large neutral amino acids, such as leucine and phenylalanine, are essentially in equilibrium with the plasma. Others, notably glutamine, glutamic acid, and glycine, are 10- to 50-fold more concentrated in the intracellular pool. Dietary variations or pathological conditions can result in substantial changes in the concentrations of the individual free amino acids in both the plasma and tissue pools.

    NAS, Food and Nutrition Board, Institute of Medicine; Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids (Macronutrients). National Academy Press, Washington, D.C., pg. 596, 2009. Available from, as of March 10, 2010: https://www.nap.edu/catalog/10490.html

    Table: Comparison of the Pool Sizes of Free and Protein-Bound Amino Acids in Rat Muscle [Table#3670]

    NAS, Food and Nutrition Board, Institute of Medicine; Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids (Macronutrients). National Academy Press, Washington, D.C., pg. 597, 2009. Available from, as of March 10, 2010: https://www.nap.edu/catalog/10490.html

    [Table#3670]

    After ingestion, proteins are denatured by the acid in the stomach, where they are also cleaved into smaller peptides by the enzyme pepsin, which is activated by the increase in stomach acidity that occurs on feeding. The proteins and peptides then pass into the small intestine, where the peptide bonds are hydrolyzed by a variety of enzymes. These bondspecific enzymes originate in the pancreas and include trypsin, chymotrypsins, elastase, and carboxypeptidases. The resultant mixture of free amino acids and small peptides is then transported into the mucosal cells by a number of carrier systems for specific amino acids and for di- and tri-peptides, each specific for a limited range of peptide substrates. After intracellular hydrolysis of the absorbed peptides, the free amino acids are then secreted into the portal blood by other specific carrier systems in the mucosal cell or are further metabolized within the cell itself. Absorbed amino acids pass into the liver, where a portion of the amino acids are taken up and used; the remainder pass through into the systemic circulation and are utilized by the peripheral tissues. /Amino acids/

    NAS, Food and Nutrition Board, Institute of Medicine; Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids (Macronutrients). National Academy Press, Washington, D.C., pg. 599, 2009. Available from, as of March 10, 2010: https://www.nap.edu/catalog/10490.html

    For more Absorption, Distribution and Excretion (Complete) data for (L)-Phenylalanine (13 total), please visit the HSDB record page.

    5.3 Metabolism/Metabolites

    Hepatic. L-phenylalanine that is not metabolized in the liver is distributed via the systemic circulation to the various tissues of the body, where it undergoes metabolic reactions similar to those that take place in the liver.

    Pathways of amino acid metabolism- L-phenylalanine; product of oxidative deamination or transamination: phenylpyruvic acid. Product of decarboxylation: phenylethylamine. Phenylalanine to tyrosine.

    Fenaroli's Handbook of Flavor Ingredients. Volume 2. Edited, translated, and revised by T.E. Furia and N. Bellanca. 2nd ed. Cleveland: The Chemical Rubber Co., 1975., p. 831

    L-Phenylalanine yields in man: N-acetyl-L-phenylalanine; benzoic acid; probably in man, 2,5-dihydroxy-L-phenylalanine. /From table/

    Goodwin, B.L. Handbook of Intermediary Metabolism of Aromatic Compounds. New York: Wiley, 1976., p. 15

    L-Phenylalanine yields in man: phenethylamine; phenylpyruvic acid; L-tyrosine. /From table/

    Goodwin, B.L. Handbook of Intermediary Metabolism of Aromatic Compounds. New York: Wiley, 1976., p. 16

    L-Phenylalanine yields L-m-tyrosine in rat. /From table/

    Goodwin, B.L. Handbook of Intermediary Metabolism of Aromatic Compounds. New York: Wiley, 1976., p. 16

    For more Metabolism/Metabolites (Complete) data for (L)-Phenylalanine (12 total), please visit the HSDB record page.

    5.4 Mechanism of Action

    The supposed antidepressant effects of L-phenylalanine may be due to its role as a precursor in the synthesis of the neurotransmitters norepinephrine and dopamine. Elevated brain norepinephrine and dopamine levels are thought to be associated with antidepressant effects.
    The mechanism of L-phenylalanine's possible antivitiligo activity is not well understood. It is thought that L-phenylalanine may stimulate the production of melanin in the affected skin

    Amino acids are selected for protein synthesis by binding with transfer RNA (tRNA) in the cell cytoplasm. The information on the amino acid sequence of each individual protein is contained in the sequence of nucleotides in the messenger RNA (mRNA) molecules, which are synthesized in the nucleus from regions of DNA by the process of transcription. The mRNA molecules then interact with various tRNA molecules attached to specific amino acids in the cytoplasm to synthesize the specific protein by linking together individual amino acids; this process, known as translation, is regulated by amino acids (e.g., leucine), and hormones. Which specific proteins are expressed in any particular cell and the relative rates at which the different cellular proteins are synthesized, are determined by the relative abundances of the different mRNAs and the availability of specific tRNA-amino acid combinations, and hence by the rate of transcription and the stability of the messages. From a nutritional and metabolic point of view, it is important to recognize that protein synthesis is a continuing process that takes place in most cells of the body. In a steady state, when neither net growth nor protein loss is occurring, protein synthesis is balanced by an equal amount of protein degradation. The major consequence of inadequate protein intakes, or diets low or lacking in specific indispensable amino acids relative to other amino acids (often termed limiting amino acids), is a shift in this balance so that rates of synthesis of some body proteins decrease while protein degradation continues, thus providing an endogenous source of those amino acids most in need. /Amino acids/

    NAS, Food and Nutrition Board, Institute of Medicine; Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids (Macronutrients). National Academy Press, Washington, D.C., pg. 601-602, 2009. Available from, as of March 10, 2010: https://www.nap.edu/catalog/10490.html

    The mechanism of intracellular protein degradation, by which protein is hydrolyzed to free amino acids, is more complex and is not as well characterized at the mechanistic level as that of synthesis. A wide variety of different enzymes that are capable of splitting peptide bonds are present in cells. However, the bulk of cellular proteolysis seems to be shared between two multienzyme systems: the lysosomal and proteasomal systems. The lysosome is a membrane-enclosed vesicle inside the cell that contains a variety of proteolytic enzymes and operates mostly at acid pH. Volumes of the cytoplasm are engulfed (autophagy) and are then subjected to the action of the protease enzymes at high concentration. This system is thought to be relatively unselective in most cases, although it can also degrade specific intracellular proteins. The system is highly regulated by hormones such as insulin and glucocorticoids, and by amino acids. The second system is the ATP-dependent ubiquitin-proteasome system, which is present in the cytoplasm. The first step is to join molecules of ubiquitin, a basic 76-amino acid peptide, to lysine residues in the target protein. Several enzymes are involved in this process, which selectively targets proteins for degradation by a second component, the proteasome. /Amino acids/

    NAS, Food and Nutrition Board, Institute of Medicine; Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids (Macronutrients). National Academy Press, Washington, D.C., pg. 602, 2009. Available from, as of March 10, 2010: https://www.nap.edu/catalog/10490.html

    Related Excipient Companies

    Upload your portfolio for free, ask us

    Excipients by Applications

    Click here to find the perfect excipient manufacturers by their capabilities

    Parenteral

    read-more
    read-more

    Topical

    read-more
    read-more

    Emulsifying Agents

    read-more
    read-more

    Thickeners and Stabilizers

    read-more
    read-more

    Taste Masking

    read-more
    read-more

    Rheology Modifiers

    read-more
    read-more

    Coating Systems & Additives

    read-more
    read-more

    API Stability Enhancers

    read-more
    read-more

    Solubilizers

    read-more
    read-more

    Controlled & Modified Release

    read-more
    read-more

    Film Formers & Plasticizers

    read-more
    read-more

    Fillers, Diluents & Binders

    read-more
    read-more

    Digital Content read-more

    Create Content with PharmaCompass, ask us

    NEWS #PharmaBuzz

    read-more
    read-more

    Market Place

    Do you need sourcing support? Ask us

    REF. STANDARDS & IMPURITIES

    Upload your portfolio for free, ask us

    ABOUT THIS PAGE

    Looking for 63-91-2 / Phenylalanine API manufacturers, exporters & distributors?

    Phenylalanine manufacturers, exporters & distributors 1

    34

    PharmaCompass offers a list of Phenylalanine API manufacturers, exporters & distributors, which can be sorted by GMP, USDMF, JDMF, KDMF, CEP (COS), WC, Price,and more, enabling you to easily find the right Phenylalanine manufacturer or Phenylalanine supplier for your needs.

    Send us enquiries for free, and we will assist you in establishing a direct connection with your preferred Phenylalanine manufacturer or Phenylalanine supplier.

    PharmaCompass also assists you with knowing the Phenylalanine API Price utilized in the formulation of products. Phenylalanine API Price is not always fixed or binding as the Phenylalanine Price is obtained through a variety of data sources. The Phenylalanine Price can also vary due to multiple factors, including market conditions, regulatory modifications, or negotiated pricing deals.

    API | Excipient name

    Phenylalanine

    Synonyms

    L-phenylalanine, 63-91-2, 3-phenyl-l-alanine, (2s)-2-amino-3-phenylpropanoic acid, (s)-2-amino-3-phenylpropanoic acid, (s)-phenylalanine

    Cas Number

    63-91-2

    Unique Ingredient Identifier (UNII)

    47E5O17Y3R

    About Phenylalanine

    An essential aromatic amino acid that is a precursor of MELANIN; DOPAMINE; noradrenalin (NOREPINEPHRINE), and THYROXINE.

    fenilalanina Manufacturers

    A fenilalanina manufacturer is defined as any person or entity involved in the manufacture, preparation, processing, compounding or propagation of fenilalanina, including repackagers and relabelers. The FDA regulates fenilalanina manufacturers to ensure that their products comply with relevant laws and regulations and are safe and effective to use. fenilalanina API Manufacturers are required to adhere to Good Manufacturing Practices (GMP) to ensure that their products are consistently manufactured to meet established quality criteria.

    click here to find a list of fenilalanina manufacturers with USDMF, JDMF, KDMF, CEP, GMP, COA and API Price related information on PhamaCompass.

    fenilalanina Suppliers

    A fenilalanina supplier is an individual or a company that provides fenilalanina active pharmaceutical ingredient (API) or fenilalanina finished formulations upon request. The fenilalanina suppliers may include fenilalanina API manufacturers, exporters, distributors and traders.

    click here to find a list of fenilalanina suppliers with USDMF, JDMF, KDMF, CEP, GMP, COA and API Price related information on PharmaCompass.

    fenilalanina USDMF

    A fenilalanina DMF (Drug Master File) is a document detailing the whole manufacturing process of fenilalanina active pharmaceutical ingredient (API) in detail. Different forms of fenilalanina DMFs exist exist since differing nations have different regulations, such as fenilalanina USDMF, ASMF (EDMF), JDMF, CDMF, etc.

    A fenilalanina DMF submitted to regulatory agencies in the US is known as a USDMF. fenilalanina USDMF includes data on fenilalanina's chemical properties, information on the facilities and procedures used, and details about packaging and storage. The fenilalanina USDMF is kept confidential to protect the manufacturer’s intellectual property.

    click here to find a list of fenilalanina suppliers with USDMF on PharmaCompass.

    fenilalanina JDMF

    The Pharmaceuticals and Medical Devices Agency (PMDA) established the Japan Drug Master File (JDMF), also known as the Master File (MF), to permit Japanese and foreign manufacturers of drug substances, intermediates, excipients, raw materials, and packaging materials (‘Products’) to voluntarily register confidential information about the production and management of their products in Japan.

    The fenilalanina Drug Master File in Japan (fenilalanina JDMF) empowers fenilalanina API manufacturers to present comprehensive information (e.g., production methods, data, etc.) to the review authority, i.e., PMDA (Pharmaceuticals & Medical Devices Agency).

    PMDA reviews the fenilalanina JDMF during the approval evaluation for pharmaceutical products. At the time of fenilalanina JDMF registration, PMDA checks if the format is accurate, if the necessary items have been included (application), and if data has been attached.

    click here to find a list of fenilalanina suppliers with JDMF on PharmaCompass.

    fenilalanina CEP

    A fenilalanina CEP of the European Pharmacopoeia monograph is often referred to as a fenilalanina Certificate of Suitability (COS). The purpose of a fenilalanina CEP is to show that the European Pharmacopoeia monograph adequately controls the purity of fenilalanina EP produced by a given manufacturer. Suppliers of raw materials can prove the suitability of fenilalanina to their clients by showing that a fenilalanina CEP has been issued for it. The manufacturer submits a fenilalanina CEP (COS) as part of the market authorization procedure, and it takes on the role of a fenilalanina CEP holder for the record. Additionally, the data presented in the fenilalanina CEP (COS) is managed confidentially and offers a centralized system acknowledged by numerous nations, exactly like the fenilalanina DMF.

    A fenilalanina CEP (COS) is recognised by all 36 nations that make up the European Pharmacopoeia Convention. fenilalanina CEPs may be accepted in nations that are not members of the Ph. Eur. at the discretion of the authorities there.

    click here to find a list of fenilalanina suppliers with CEP (COS) on PharmaCompass.

    fenilalanina NDC

    National Drug Code is a comprehensive database maintained by the FDA that contains information on all drugs marketed in the US. This directory includes information about finished drug products, unfinished drug products, and compounded drug products, including those containing fenilalanina as an active pharmaceutical ingredient (API).

    Finished drug products

    The FDA updates the NDC directory daily. The NDC numbers for fenilalanina API and other APIs are published in this directory by the FDA.

    Unfinished drugs

    The NDC unfinished drugs database includes product listing information submitted for all unfinished drugs, such as active pharmaceutical ingredients (APIs), drugs intended for further processing and bulk drug substances for compounding.

    Pharmaceutical companies that manufacture fenilalanina as an active pharmaceutical ingredient (API) must furnish the FDA with an updated record of all drugs that they produce, prepare, propagate, compound, or process for commercial distribution in the US at their facilities.

    Compounded drug products

    The NDC directory also contains data on finished compounded human drug products that contain fenilalanina and are produced by outsourcing facilities. While these outsourcing facilities are not mandated to assign a fenilalanina NDC to their finished compounded human drug products, they may choose to do so.

    click here to find a list of fenilalanina suppliers with NDC on PharmaCompass.

    fenilalanina GMP

    fenilalanina Active pharmaceutical ingredient (API) is produced in GMP-certified manufacturing facility.

    GMP stands for Good Manufacturing Practices, which is a system used in the pharmaceutical industry to make sure that goods are regularly produced and monitored in accordance with quality standards. The FDA’s current Good Manufacturing Practices requirements are referred to as cGMP or current GMP which indicates that the company follows the most recent GMP specifications. The World Health Organization (WHO) has its own set of GMP guidelines, called the WHO GMP. Different countries can also set their own guidelines for GMP like China (Chinese GMP) or the EU (EU GMP).

    PharmaCompass offers a list of fenilalanina GMP manufacturers, exporters & distributors, which can be sorted by USDMF, JDMF, KDMF, CEP (COS), WC, API price, and more, enabling you to easily find the right fenilalanina GMP manufacturer or fenilalanina GMP API supplier for your needs.

    fenilalanina CoA

    A fenilalanina CoA (Certificate of Analysis) is a formal document that attests to fenilalanina's compliance with fenilalanina specifications and serves as a tool for batch-level quality control.

    fenilalanina CoA mostly includes findings from lab analyses of a specific batch. For each fenilalanina CoA document that a company creates, the USFDA specifies specific requirements, such as supplier information, material identification, transportation data, evidence of conformity and signature data.

    fenilalanina may be tested according to a variety of international standards, such as European Pharmacopoeia (fenilalanina EP), fenilalanina JP (Japanese Pharmacopeia) and the US Pharmacopoeia (fenilalanina USP).

    Inform the supplier about your product requirements, specifying if you need a product with particular monograph like EP (Ph. Eur.), USP, JP, BP, or any other quality. In addition, clarify whether you need hydrochloride (HCl), anhydricum, base, micronisatum or a specific level of purity. To find reputable suppliers, utilize the filters and select those certified by GMP, FDA, or any other certification as per your requirement.
    For your convenience, we have listed synonyms and CAS numbers to help you find the best supplier. The use of synonyms and CAS numbers can be helpful in identifying potential suppliers, but it is crucial to note that they might not always indicate the exact same product. It is important to confirm the product details with the supplier before making a purchase to ensure that it meets your requirements.
    Ask Us for Pharmaceutical Supplier and Partner
    Ask Us, Find A Supplier / Partner
    No Commissions, No Strings Attached, Get Connected for FREE

    What are you looking for?

    How can we help you?

    The request can't be empty

    Please read our Privacy Policy carefully

    You must agree to the privacy policy

    The name can't be empty
    The company can't be empty.
    The email can't be empty Please enter a valid email.
    The mobile can't be empty

    Market Place

    Market Place

    PharmaCompass

    Home

    Market Place

    Menu

    Post Enquiry

    Post Enquiry

    Market Place

    Market Place

    Search