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Results for "

amide bond conjugation

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Biochemical Assay Reagents (7) Fluorescent Dye (1) PROTAC Linkers (10)
By Research Areas:	Cancer (10)

Inhibitors & Agonists

Fluorescent Dyes

Targets Recommended: FAAH

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-W012001

N-Boc-7-aminoheptanoic acid	PROTAC Linkers	Cancer
Boc-7-Aminoheptanoic acid can be used as a PROTAC linker in the synthesis of PROTACs and other conjugation applications. Boc-7-Aminoheptanoic acid is an alkane chain with terminal carboxlic acid and Boc-protected amino groups. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond. The Boc group can be deprotected under mild acidic conditions to form the free amine.

HY-W105744

10-Aminodecanoic acid	PROTAC Linkers	Cancer
10-Aminodecanoic acid is an alkane chain with terminal carboxlic acid and amine groups. 10-Aminodecanoic acid can be used as a PROTAC linker in the synthesis of PROTACs and other conjugation applications. The amino group (NH2) is reactive with carboxylic acids, activated NHS esters, carbonyls (ketone, aldehyde) etc. The terminal carboxylic acid can react with primary amine groups of activated NHS ester to form a stable amide bond.

HY-W097128

Fmoc-12-aminododecanoic acid	PROTAC Linkers	Cancer
Fmoc-12-aminododecanoic acid is an alkane chain with terminal Fmoc-protected amine and carboxylic acid groups. The compound can be used as a PROTAC linker in the synthesis of PROTACs. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-W105727

9-Aminononanoic acid	PROTAC Linkers	Cancer
9-Aminononanoic acid can be used as a PROTAC linker and other conjugation in the synthesis of PROTACs. 9-Aminononanoic acid is an alkane chain with terminal carboxlic acid and amine groups. The amino group (NH2) is reactive with carboxylic acids, activated NHS esters, carbonyls (ketone, aldehyde) etc. The terminal carboxylic acid can react with primary amine groups of activated NHS ester to form a stable amide bond.

HY-W009030

N-Fmoc-8-aminooctanoic acid	PROTAC Linkers	Cancer
N-Fmoc-8-aminooctanoic acid can be used as a PROTAC linker in the synthesis of PROTACs. N-Fmoc-8-aminooctanoic acid is an alkane chain with terminal Fmoc-protected amine and carboxylic acid groups. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-W009056

Fmoc-7-amino-heptanoic acid	PROTAC Linkers	Cancer
Fmoc-7-amino-heptanoic acid is an alkane chain with terminal Fmoc-protected amine and carboxylic acid groups. Fmoc-7-amino-heptanoic acid can be used as a PROTAC linker in the synthesis of PROTACs. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-133883

Cyanine7.5 amine	Fluorescent Dye	Others
Cyanine7.5 amine is a near-infrared Cy7.5-based dye and also a substrate for amide bond coupling (Ex/Em = 788 nm/808 nm). Cyanine7.5 amine contains a free amino group and can be used for coupling with activated carboxylic acid derivatives .

HY-W089232

Boc-10-Aminodecanoic acid	PROTAC Linkers	Cancer
Boc-10-Aminodecanoic acid can be used as a PROTAC linker in the synthesis of PROTACs and other conjugation applications. Boc-10-Aminodecanoic acid is an alkane chain with terminal carboxlic acid and Boc-protected amino groups. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond. The Boc group can be deprotected under mild acidic conditions to form the free amine.

HY-D2772

5-TAMRA Cadaverine	Biochemical Assay Reagents	Others
5-TAMRA cadaverine can used to modify carboxylic acid group in the presence of activators (e.g. EDC, or DCC) or activated esters (e.g. NHS esters) through a stable amide bond. It also can be reversibly coupled to aldehydes and ketones to form a Schiff base – which can be reduced to a generate stable amine derivative by sodium borohydride (NaBH4) or sodium cyanoborohydride (NaCNH3). Although the mixed isomers of 5(6)-TAMRA cadaverine is a preferred, routinely used orange-fluorescent dye for staining proteins, it is rearly used for labeling peptides and nucleotides. Purification of 5(6)-TAMRA labeled peptide and nucleotides might be troublesome due to significant signal broadening in HPLC purification. Peptides and nucleotides labeled with a single isomer TAMRA usually give better resolution in HPLC purification that is often required in the conjugation processes.

HY-W800683

4-Azide-TFP-amide-SS-Sulfo-NHS	Biochemical Assay Reagents	Others
4-Azide-TFP-Amide-SS-Sulfo-NHS consists of an aryl azide, a cleavable disulfide bond, and an NHS ester. The aryl azide can be photo-activated with UV light (250 to 350 nm) for conjugation with biomolecules. Fluoro helps to stabilize the free radical intermediate. The NHS ester reacts with amines. The disulfide bond can be cleaved by reducing agents.

HY-W111228

Fmoc-9-Aminononanoic acid	PROTAC Linkers	Cancer
Fmoc-9-aminononanoic acid is an alkane chain with terminal Fmoc-protected amine and carboxylic acid groups. The compound can be used as a PROTAC linker in the synthesis of PROTACs and and other conjugation applications. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-W143822

6-(Tritylthio)hexanoic acid	Biochemical Assay Reagents	Others
6-(Tritylthio)hexanoic acid is a linker with a Tst group and a terminal carboxylic acid. The Tst group can be deprotected under acidic conditions to obtain the free thiol which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-W097110

Fmoc-11-aminoundecanoic acid	PROTAC Linkers	Cancer
Fmoc-11-aminoundecanoic acid can be used as a PROTAC linker in the synthesis of PROTACs and other conjugation applications. Fmoc-11-aminoundecanoic acid is an alkane chain with terminal Fmoc-protected amine and carboxylic acid groups. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-W591968

14-(Fmoc-amino)-tetradecanoic acid	PROTAC Linkers	Cancer
14-(Fmoc-amino)-tetradecanoic acid can be used as a PROTAC linker in the synthesis of PROTACs. 14-(Fmoc-amino)-tetradecanoic acid is an alkane chain with terminal Fmoc-protected amine and carboxylic acid groups. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

HY-W800632

4-Azide-TFP-amide-SS-propionic acid	Biochemical Assay Reagents	Others
4-Azide-TFP-Amide-SS-propionic acid contains an aryl azide, a cleavable disulfide bond, and a carboxylic acid. The aryl azide can be photo-activated with UV light (250 to 350 nm) for conjugation with biomolecules. Fluoro helps to stabilize the free radical intermediate. The carboxylic acid can be reacted with amines in the presence of an activator to form an amide bond. The disulfide bond can be cleaved via reducing agents.

HY-W190916

3-((2-(4-Azidobenzamido)ethyl)disulfanyl)propanoic acid	Biochemical Assay Reagents	Others
3-[[2-[(4-azidobenzoyl)amino]ethyl]dithio]propanoicacid contains an aryl azide, a cleavable disulfide bond, and a carboxylic acid. The aryl azide can be photo-activated with UV light (250 to 350 nm) for conjugation with biomolecules. The carboxylic acid can be reacted with amines in the presence of an activator to form an amide bond. The disulfide bond can be cleaved via reducing agents.

HY-W800635

4-Azide-TFP-amide-PEG4-acid	Biochemical Assay Reagents	Others
4-Azide-TFP-Amide-PEG4-acid contains an aryl azide and a carboxylic acid with a PEG spacer to increase aqueous solubility and decrease steric hinderance during ligation. The aryl azide can be photo-activated with UV light (250 to 350 nm) for conjugation with biomolecules. Fluoro helps to stabilize the free radical intermediate. The carboxylic acid can be reacted with amines in the presence of an activator to form an amide bond.

HY-W190934

Fmoc-Ala-Pro-OH	Biochemical Assay Reagents	Others
Fmoc-Ala-Pro-OH is a linker with an Fmoc-protected amine and a terminal carboxylic acid. The Fmoc group can be deprotected under basic condition to obtain the free amine which can be used for further conjugations. The terminal carboxylic acid can be reacted with primary amine groups in the presence of activators (e.g. EDC, or HATU) to form a stable amide bond.

Cat. No.	Product Name	Type

HY-133883

Cyanine7.5 amine	Fluorescent Dyes
Cyanine7.5 amine is a near-infrared Cy7.5-based dye and also a substrate for amide bond coupling (Ex/Em = 788 nm/808 nm). Cyanine7.5 amine contains a free amino group and can be used for coupling with activated carboxylic acid derivatives .

HY-D2772

5-TAMRA Cadaverine	Fluorescent Dyes
5-TAMRA cadaverine can used to modify carboxylic acid group in the presence of activators (e.g. EDC, or DCC) or activated esters (e.g. NHS esters) through a stable amide bond. It also can be reversibly coupled to aldehydes and ketones to form a Schiff base – which can be reduced to a generate stable amine derivative by sodium borohydride (NaBH4) or sodium cyanoborohydride (NaCNH3). Although the mixed isomers of 5(6)-TAMRA cadaverine is a preferred, routinely used orange-fluorescent dye for staining proteins, it is rearly used for labeling peptides and nucleotides. Purification of 5(6)-TAMRA labeled peptide and nucleotides might be troublesome due to significant signal broadening in HPLC purification. Peptides and nucleotides labeled with a single isomer TAMRA usually give better resolution in HPLC purification that is often required in the conjugation processes.

5-TAMRA Cadaverine

Fluorescent Dyes

5-TAMRA cadaverine can used to modify carboxylic acid group in the presence of activators (e.g. EDC, or DCC) or activated esters (e.g. NHS esters) through a stable amide bond. It also can be reversibly coupled to aldehydes and ketones to form a Schiff base – which can be reduced to a generate stable amine derivative by sodium borohydride (NaBH4) or sodium cyanoborohydride (NaCNH3). Although the mixed isomers of 5(6)-TAMRA cadaverine is a preferred, routinely used orange-fluorescent dye for staining proteins, it is rearly used for labeling peptides and nucleotides. Purification of 5(6)-TAMRA labeled peptide and nucleotides might be troublesome due to significant signal broadening in HPLC purification. Peptides and nucleotides labeled with a single isomer TAMRA usually give better resolution in HPLC purification that is often required in the conjugation processes.

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