Interesting facts
Interesting Facts about Oxamic Acid
Oxamic acid, a fascinating compound derived from oxalic acid, is identified by its unique chemical characteristics and applications. Here are some intriguing insights into this compound:
- Biochemical Significance: Oxamic acid plays a pivotal role in biological systems, often involved in the metabolism of nitrogen-containing compounds.
- Research Potential: Due to its structural similarities with other carboxylic acids, oxamic acid is studied for potential applications in drug design and organic synthesis.
- While being a natural derivative: This compound may provide valuable information regarding the biochemical pathways in various organisms.
- Environmental Impact: Its pathways can lead to crucial insights about the nitrogen cycle, enhancing the understanding of ecological processes.
- Literature Review: Researchers frequently analyze oxamic acid in studies concerning amino acid synthesis and enzymatic reactions, making it a subject of great importance.
- Analytical Applications: Its presence can be detected and quantified using various modern analytical techniques such as chromatography and spectroscopy.
In summary, oxamic acid is more than just a simple carboxylic acid. Its involvement in biochemical processes and potential for research make it an exciting compound within the realms of chemistry and environmental science. The phrase "Chemistry is the art of understanding and manipulating the matter," truly embodies the study of oxamic acid, showcasing its significance in various scientific facets.
Synonyms
OXAMIC ACID
471-47-6
2-Amino-2-oxoacetic acid
oxamate
Acetic acid, aminooxo-
Oxalamic acid
Oxalic acid monoamide
Aminooxoacetic acid
Glycine, 2-oxo-
Oxamidic acid
amino(oxo)acetic acid
carbamoylformic acid
Formic acid, (aminocarbonyl)-
Glyoxylic acid, amino-
Formic acid, carbamoyl-
Oxamate, (aminocarbonyl)-
MFCD00008006
QU60N5OPLG
CHEBI:18058
NSC-47001
66257-53-2
Oxamate (repellent)
C2H3NO3
OXM
NSC-49416
NSC-53102
UNII-QU60N5OPLG
Oxamate (insect repellant)
carboxy amide
Oxalic monoamide
Oxamate, 3
EINECS 207-443-0
NSC 47001
AI3-52243
Oxamic acid, >=98%
OXAMIC ACID [MI]
IN-18474 oxamic acid
Lopac0_000913
KBioGR_002316
KBioSS_002318
CHEMBL15976
Acetic acid, 2-amino-2-oxo-
DTXSID6060052
BDBM23222
KBio2_002316
KBio2_004884
KBio2_007452
KBio3_002796
cMAP_000019
NSC47001
AKOS009156490
CS-W013748
DB03940
FO72064
SDCCGSBI-0050888.P002
AS-58193
SY012751
DB-051431
NS00004646
O0084
A10798
C01444
EN300-113507
Q27094801
0DF4C36B-13CB-4AB3-8E3A-62D7C14449F1
Z424779074
HGY
Solubility of Oxamic Acid (C2H3NO3)
Oxamic acid, with the chemical formula C2H3NO3, exhibits notable solubility characteristics that are of particular interest in various chemical applications. Here are some key points regarding its solubility:
In summary, the solubility of oxamic acid in water and organic solvents, along with its behavior under different temperatures and pH levels, contribute significantly to its chemical reactivity and practical applications. Its ability to dissolve in various media not only facilitates chemical reactions but also makes it a candidate for further study in areas such as pharmaceuticals and biochemistry.