Chemistry:Pentosidine

Pentosidine
Names
	Systematic IUPAC name (2S)-2-Amino-6-(2-{[(4S)-4-amino-4-carboxybutyl]amino}-4H-imidazo[4,5-b]pyridin-4-yl)hexanoic acid
Identifiers
CAS Number	124505-87-9 ;
3D model (JSmol)	Interactive image;
ChEBI	CHEBI:59951 ;
ChemSpider	106787 ;
PubChem CID	119593;
UNII	BJ4I2X2CQJ ;
	InChI InChI=1S/C17H26N6O4/c18-11(15(24)25)5-1-2-9-23-10-4-7-13-14(23)22-17(21-13)20-8-3-6-12(19)16(26)27/h4,7,10-12H,1-3,5-6,8-9,18-19H2,(H,20,21)(H,24,25)(H,26,27)/t11-,12-/m0/s1 Key: AYEKKSTZQYEZPU-RYUDHWBXSA-N ; InChI=1/C17H26N6O4/c18-11(15(24)25)5-1-2-9-23-10-4-7-13-14(23)22-17(21-13)20-8-3-6-12(19)16(26)27/h4,7,10-12H,1-3,5-6,8-9,18-19H2,(H,20,21)(H,24,25)(H,26,27)/t11-,12-/m0/s1 Key: AYEKKSTZQYEZPU-RYUDHWBXBF;
	SMILES C1=CN(C2=NC(=NC2=C1)NCCC[C@@H](C(=O)O)N)CCCC[C@@H](C(=O)O)N;
Properties
Chemical formula	C17H26N6O4
Molar mass	378.433 g·mol−1
Density	1.47 g/cm3
	Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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	Infobox references

Pentosidine is a biomarker for advanced glycation endproducts, or AGEs. It is a well characterized and easily detected member of this large class of compounds.

Background

AGEs are biochemicals formed continuously under normal circumstances, but more rapidly under a variety of stresses, especially oxidative stress and hyperglycemia. They serve as markers of stress and act as toxins themselves. Pentosidine is typical of the class, except that it fluoresces, which allows it to be seen and measured easily. Because it is well characterized, it is often studied to provide new insight into the biochemistry of AGE compounds in general.

Biochemistry

Derived from ribose, a pentose, pentosidine forms fluorescent cross-links between the arginine and lysine residues in collagen. It is formed in a reaction of the amino acids with the Maillard reaction products of ribose.^[1]

Although it is present only in trace concentrations among tissue proteins, it is useful for assessing cumulative damage to proteins—advanced glycation endproducts—by non-enzymatic browning reactions with carbohydrates.^[2]Cite error: Closing </ref> missing for <ref> tag

References

↑ "Renal catabolism of advanced glycation end products: The fate of pentosidine". Kidney International 53 (2): 416–422. 1998. doi:10.1046/j.1523-1755.1998.00756.x. PMID 9461101. http://www.nature.com/ki/journal/v53/n2/pdf/4490049a.pdf.
↑ DG Dyer; JA Blackledge; SR Thorpe; JW Baynes (Jun 1991). "Formation of pentosidine during nonenzymatic browning of proteins by glucose. Identification of glucose and other carbohydrates as possible precursors of pentosidine in vivo". J. Biol. Chem. 266 (18): 11654–11660. doi:10.1016/S0021-9258(18)99007-1. PMID 1904867. http://www.jbc.org/cgi/content/abstract/266/18/11654. Retrieved 2007-12-14.

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Original source: https://en.wikipedia.org/wiki/Pentosidine. Read more

[Miyata-1] "Renal catabolism of advanced glycation end products: The fate of pentosidine". Kidney International 53 (2): 416–422. 1998. doi:10.1046/j.1523-1755.1998.00756.x. PMID 9461101. http://www.nature.com/ki/journal/v53/n2/pdf/4490049a.pdf.

[Dyer1-2] DG Dyer; JA Blackledge; SR Thorpe; JW Baynes (Jun 1991). "Formation of pentosidine during nonenzymatic browning of proteins by glucose. Identification of glucose and other carbohydrates as possible precursors of pentosidine in vivo". J. Biol. Chem. 266 (18): 11654–11660. doi:10.1016/S0021-9258(18)99007-1. PMID 1904867. http://www.jbc.org/cgi/content/abstract/266/18/11654. Retrieved 2007-12-14.

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