Interesting facts
Interesting Facts about 4-aminohex-5-enoic acid
4-aminohex-5-enoic acid is a fascinating compound that carries significant implications in various fields, including biochemistry and materials science. Here are some intriguing aspects of this compound:
- Amino Acid Derivative: This compound is a derivative of the amino acid class, specifically playing a crucial role in the biosynthesis of certain peptides and proteins. It showcases how structural variations in amino acids can lead to diverse biochemical functions.
- Role in Biochemical Pathways: Research indicates that 4-aminohex-5-enoic acid can be involved in metabolic pathways, influencing the synthesis of neurotransmitters and hormones, thereby impacting physiological functions.
- Potential For Polymer Applications: The unique structural features of this compound open avenues for its use in polymer chemistry. Its ability to form strong bonds makes it an attractive candidate for developing high-performance materials.
- Research & Development: Scientists are actively exploring the therapeutic potential of this compound. For instance, its interactions with specific enzymes or receptors could lead to innovations in drug design and delivery mechanisms.
- Symbol of Structural Complexity: The configuration of 4-aminohex-5-enoic acid exemplifies the complexity of organic compounds, where small changes in the molecular structure can significantly affect chemical reactivity and biological interactions.
In summary, the study of 4-aminohex-5-enoic acid not only enhances our understanding of amino acids but also bridges the gap between biochemical research and material design. As quote from a famous chemist puts it, "The beauty of chemistry lies in its ability to transform the ordinary into the extraordinary."
Synonyms
vigabatrin
4-aminohex-5-enoic acid
60643-86-9
68506-86-5
Sabril
gamma-Vinyl GABA
4-Amino-5-hexenoic acid
Vigabatrine
gamma-Vinyl-GABA
5-Hexenoic acid, 4-amino-
gamma Vinyl GABA
Vigabatrina
Vigabatrinum
Vigabatrine [French]
Vigabatrinum [Latin]
Vigabatrina [Spanish]
MDL-71754
gamma-Vinyl-gamma-Aminobutyric Acid
Sabril (TN)
RMI-71754
CPP-109
Vigabatrin [USAN:INN:BAN]
C6H11NO2
GVG
(+/-)-Vigabatrin
MDL 71754
RMI 71754
CPP109
Kigabeq
MDL 71,754
(+/-)-4-aminohex-5-enoic acid
VINYL GAMMA-AMINOBUTYRIC ACID
GR120KRT6K
Vigabatrin [INN]
(+/-)-gamma-Vinyl GABA
VIGAFYDE
(1)-4-Aminohex-5-enoic acid
DTXSID4041153
CHEBI:63638
CPP 109
VIGABATRIN [MI]
VIGABATRIN [JAN]
EINECS 270-929-6
MFCD00274577
VIGABATRIN [USAN]
VIGABATRIN [VANDF]
VIGABATRIN [MART.]
VIGABATRIN [USP-RS]
VIGABATRIN [WHO-DD]
(+/-)-gamma-Vinyl-GABA
CHEMBL89598
DTXCID2021153
VIGABATRIN [ORANGE BOOK]
HSDB 8395
VIGABATRIN [EP MONOGRAPH]
VIGABATRIN [USP MONOGRAPH]
Vigabatrine (French)
Vigabatrinum (Latin)
Vigabatrina (Spanish)
NCGC00016087-06
Sabrilex
VIGABATRIN (MART.)
VIGABATRIN (USP-RS)
4-aminohex-5-enoic acid/S(+)-Gamma-VIGABATRIN
VIGABATRIN (EP MONOGRAPH)
VIGABATRIN (USP MONOGRAPH)
RMI-71890
Hexenoic acid, 4-amino
SR-01000075653
gamma Vinyl gamma Aminobutyric Acid
UNII-GR120KRT6K
(+-)-gamma-Vinyl GABA
4-Amino-hex-5-enoic acid
Sabrilan
rac-Vigabatrin
Vigabatrin?
MFCD00274076
(R,S)-4-Amino-5-hexenoic acid
Prestwick_837
-Vinyl-GABA
VIGADRONE
VIGPODER
.gamma.-vinyl GABA
.gamma.-Vinyl-GABA
Spectrum_000368
SpecPlus_000664
(y)-gamma-Vinyl GABA
Prestwick0_000501
Prestwick1_000501
Prestwick2_000501
Prestwick3_000501
Spectrum3_001825
Vigafyde (oral solution)
(?)-gamma-Vinyl GABA
Biomol-NT_000247
V 8261
vigabatrin for oral solution
Lopac0_001277
M071754
SCHEMBL26714
BSPBio_000421
BSPBio_003469
KBioSS_000848
Vigabatrin (JAN/USP/INN)
(A+/-)-gamma-Vinyl GABA
DivK1c_006760
SPECTRUM1502036
SPBio_002342
(+/-)-4-Aminohexenoic acid
BPBio1_000465
BPBio1_000925
GTPL4821
Vinyl .gamma.-aminobutyric Acid
KBio1_001704
KBio2_000848
KBio2_003416
KBio2_005984
KBio3_002973
VIGABATRIN, (+/-)-
N03AG04
HMS1569F03
HMS2094M21
HMS2096F03
HMS3263P16
BCP16220
Tox21_110301
Tox21_501277
BDBM50118886
EX-A11014
HB0868
AKOS015854596
CCG-205350
CS-0791
DB01080
FV61480
LP01277
SDCCGSBI-0051243.P004
.gamma.-Vinyl-.gamma.-aminobutyric acid
NCGC00016087-03
NCGC00016087-04
NCGC00016087-05
NCGC00016087-07
NCGC00016087-08
NCGC00016087-09
NCGC00016087-11
NCGC00016087-22
NCGC00024802-02
NCGC00024802-03
NCGC00024802-04
NCGC00024802-05
NCGC00024802-06
NCGC00261962-01
AS-11778
HY-15399
SY263247
SBI-0051243.P003
( inverted question mark)-gamma-Vinyl GABA
CAS-68506-86-5
DB-117820
AB00053309
EU-0101277
gamma-Vinyl GABA; 4-Amino-5-hexenoic acid
NS00000678
C07500
D00535
EN300-245587
AB00053309_04
Q421663
SR-01000075653-1
SR-01000075653-4
SR-01000075653-6
BRD-A07893380-001-01-6
BRD-A07893380-213-01-7
Z1255431434
Vigabatrin, European Pharmacopoeia (EP) Reference Standard
Vigabatrin, United States Pharmacopeia (USP) Reference Standard
637-414-1
Solubility of 4-aminohex-5-enoic acid (C9H17NO2)
4-aminohex-5-enoic acid, a compound with both a hydrophobic hydrocarbon chain and a hydrophilic amino and carboxylic acid functional groups, exhibits unique solubility properties. It's important to understand the factors influencing its solubility:
In water, 4-aminohex-5-enoic acid is expected to be fairly soluble, which can be attributed to its polar nature. However, the solubility in non-polar solvents is likely to be very low, demonstrating the compound's amphiphilic character. As a primary takeaway, it's key to remember that:
This unique balance of properties underlines the importance of solvent selection in applications involving 4-aminohex-5-enoic acid.