Serine phosphate | Solubility of Things

Identification

Molecular formula

C₃H₈NO₆P

CAS number

407-41-0

IUPAC name

2-amino-3-phosphonooxy-propanoic acid

State

Serine phosphate is generally found as a solid at room temperature under normal atmospheric conditions.

Melting point (Celsius)

213.00

Melting point (Kelvin)

486.00

Boiling point (Celsius)

360.00

Boiling point (Kelvin)

633.00

General information

Molecular weight

185.06g/mol

Molar mass

185.0570g/mol

Density

1.5730g/cm³

Appearence

Serine phosphate is typically a crystalline powder that is white to off-white in appearance.

Comment on solubility

Solubility of 2-amino-3-phosphonooxy-propanoic acid

2-amino-3-phosphonooxy-propanoic acid, with the chemical formula C₃H₈NO₆P, is known for its remarkable solubility characteristics, particularly in aqueous environments. This compound belongs to a class of organic molecules that exhibit both acidic and polar properties, which greatly influence their solubility.

Key Points on Solubility:

High Solubility in Water: The presence of multiple hydroxyl (-OH) groups and a phosphonate functional group enhances its ability to interact with water molecules, leading to high solubility.
Acidic Behavior: As an acid, it can dissociate in solution, further facilitating solubility through ionic interactions.
Impact of pH: The solubility may vary with pH—becoming more soluble in acidic conditions due to increased protonation of basic groups.

In summary, the solubility of 2-amino-3-phosphonooxy-propanoic acid is primarily governed by its functional groups that enhance interactions with polar solvents. This solubility characteristic makes it a valuable compound in areas such as biochemistry and pharmaceuticals, where its solubility profile can significantly impact its functionality.

Interesting facts

Interesting Facts About 2-Amino-3-phosphonooxy-propanoic Acid

2-Amino-3-phosphonooxy-propanoic acid, commonly known as APPA, is a fascinating chemical compound that plays a unique role in the realm of molecular biology and medicinal chemistry. Here are some intriguing aspects:

Neurotransmitter Influence: APPA is a structural analog of glutamate, which is one of the primary neurotransmitters in the human brain. This similarity allows it to interact with glutamate receptors, providing significant insights into neuropharmacology.
Potential Therapeutic Uses: Due to its ability to modulate neurotransmitter systems, APPA has garnered interest for its potential use in treating neurodegenerative diseases such as Alzheimer's and Parkinson's. Research is ongoing to uncover its full therapeutic capabilities.
Role in Agriculture: APPA also finds applications in agriculture as it has been shown to exhibit growth-promoting effects on plants, possibly by influencing amino acid metabolism or interacting with plant hormones.
Chemical Synthesis: The synthesis of APPA can be complex and often involves multi-step organic reactions. Understanding these processes can provide vital knowledge about amino acid modifications and related chemical properties.
Research Application: Scientists utilize APPA in various research studies to explore its interactions within biological systems. Its ability to mimic natural substrates makes it a valuable tool for dissecting signaling pathways.

The exploration of 2-amino-3-phosphonooxy-propanoic acid is just beginning, and as our understanding of its properties and interactions deepens, it may open new doors in both science and medicine. As noted by researchers, "The subtle changes in molecular structure can yield profound differences in activity, making the study of compounds like APPA incredibly rewarding."

Whether you are a chemistry student or a seasoned scientist, the potential of APPA offers an exciting glimpse into the dynamic world of chemical research.

Synonyms

17885-08-4

dl-O-Phosphoserine

O-Phospho-DL-serine

DL-Serine dihydrogen phosphate

Serophen

serine phosphate

Energoserina

o-Phosphonoserine

phosphorylserine

serine, O-phosphono-

DL-O-Phosphorylserine

DL-Serine monophosphoric acid

P-serine

DL-Phosphoserine

2-amino-3-phosphonooxypropanoic acid

3-phospho-1-serine

DL-O-Serine phosphate

2-amino-3-(phosphonooxy)propanoic acid

DL-Serine, dihydrogen phosphate (ester)

3-phospho-serine

6GV29P6OZA

serine-3-phosphate

H-D-Ser(POH)-OH

DL-Serine monophosphorate

DL-2-Amino-3-hydroxypropanoic acid 3-phosphate

NSC-90791

PHOSPHOSERINE, DL-

H-DL-Ser(H2PO3)-OH

CHEBI:37712

SERINE PHOSPHATE [WHO-DD]

H-Ser(POH)-OH

(RS)-2-AMINO-3-PHOSPHONOOXY PROPANOIC ACID

SERINE, DIHYDROGEN PHOSPHATE (ESTER), DL-

seryl phosphate

L-Serine, dihydrogen phosphate (ester)

DL-SOP

UNII-6GV29P6OZA

o-phosphoserin

P-ser

serine-3-p

3-P-serine

EINECS 241-834-7

MFCD00021723

NSC 90791

SCHEMBL6847

2-amino-3-(oxyphosphinyloxyphosphinyl)propanoic acid

CHEMBL180002

DTXSID00859358

2-Amino-3-(phosphonooxy)propanoate

NSC90791

DL-Serine dihydrogen phosphoric acid

AKOS015998288

FP49586

HY-15130

O-Phospho-DL-serine, >=98.0% (NT)

(R)-2-amino-3-(phosphonooxy)propanoicacid

DB-044343

CS-0003781

NS00014359

Serine, dihydrogen phosphate (ester) (9CI)

DL-Serine, dihydrogen phosphoric acid (ester)

F82024

DL-Ser(H2PO3)-OH;DL-Serine monophosphoric acid

L000353

Serine, dihydrogen phosphate (ester), DL- (8CI)

SR-01000075466

SR-01000075466-1

241-834-7