Azido-PEG2-t-Boc-hydrazide is a PEG derivative containing an azide group and a Boc-protected hydrazide. The azide group can react with alkyne groups, BCN, and DBCO via Click Chemistry to yield a stable triazole linkage. The Boc can be deprotected under mild acidic conditions to form a reactive hydrazide, which can then be coupled with various carbonyl groups.

t-boc-N-amido-PEG9-azide is a PEG derivative containing an azide group and Boc-protected amino group. The azide group can react with alkyne, BCN, DBCO via Click Chemistry to yield a stable triazole linkage. The Boc group can be deprotected under mild acidic conditions to form the free amine.

t-boc-N-amido-PEG7-azide is a PEG derivative containing an azide group and Boc-protected amino group. The azide group can react with alkyne, BCN, DBCO via Click Chemistry to yield a stable triazole linkage. The Boc group can be deprotected under mild acidic conditions to form the free amine.

t-Boc-N-amido-PEG5-NHS ester is a PEG derivative containing an NHS ester and a Boc-protected amino group. The NHS ester can be used to label the primary amines (-NH2) of proteins, amine-modified oligonucleotides, and other amine-containing molecules.

t-Boc-N-amido-PEG7-acid is a PEG derivative containing a terminal carboxylic acid and Boc-protected amino group. The terminal carboxylic acid can be reacted with primary amine groups in the presence of activators (e.g. EDC, or DCC) to form a stable amide bond. The Boc group can be deprotected under mild acidic conditions to form the free amine.

Bis-PEG10-acid is a PEG derivative containing two terminal carboxylic acid groups. The terminal carboxylic acids can be reacted with primary amine groups in the presence of activators (e.g. EDC, or DCC) to form a stable amide bond. PEG Linkers may be useful in the development of antibody drug conjugates (ADCs).

N-(Azido-PEG3)-N-Biotin-PEG4-methyl ester is a Biotin PEG Linker. PEG Linkers may be useful in the development of antibody drug conjugates.

2-(Biotin-amido)-1,3-bis(carboxylethoxy)propane is a Biotin PEG Linker. PEG Linkers may be useful in the development of antibody drug conjugates.

N-(Biotin-PEG4)-N-bis(PEG4-acid) HCl salt is a PEG Linker. PEG Linkers may be useful in the development of antibody drug conjugates.

N-(Biotin)-N-bis(PEG1-alcohol) is a PEG Linker. PEG Linkers may be useful in the development of antibody drug conjugates.

N-(Propargyl-PEG4)-biocytin is a biotin PEG derivative containing a carboxylic group and an alkyne group. Reaction of carboxylic with primary amino (-NH2) forms stable, irreversible amide bonds. The alkyne group can react with azide moiety in Cu(I)-catalyzed Click Chemistry reaction to form a stable triazole linkage. The hydrophilic PEG spacer increases solubility in aqueous media and increases membrane impermeability of the molecules conjugated to the biotin compound.

N-(Azido-PEG4)-biocytin is a biotin PEG derivative containing a carboxylic group and an azide group. Reaction of carboxylic with primary amino (-NH2) forms stable, irreversible amide bonds. The azide group can react with alkyne moiety in Cu(I)-catalyzed Click Chemistry reaction or DBCO moiety in copper-free Click Chemistry reaction to form a stable triazole linkage. The hydrophilic PEG spacer increases solubility in aqueous media and increases membrane impermeability of the molecules conjugated to the biotin compound.

Dde Biotin-PEG4-Picolyl azide is a cleavable reagent containing a biotin moiety and a picolyl azide moiety which can be conjugated with alkyne-containing biomolecules. This biotin reagent incorporates a copper-chelating motif that dramatically accelerates the Cu(I)-catalyzed Click Chemistry. Dde protecting group allows efficient release of captured biotinylated molecules from streptavidin under mild conditions with hydrazine.

Biotin-PEG12-TFP ester with primary amino (-NH2) forms stable, irreversible amide bonds. The hydrophilic PEG spacer arm imparts water solubility that is transferred to the biotinylated molecule. Therefore, Biotin-PEG-TFP esters may be useful in the development of antibody drug conjugates.

Biotin-PEG6-NHS ester is PEG derivative containing a biotin group and an NHS ester group. The NHS group reacts specifically and efficiently with lysine and N-terminal amino groups at pH 7-9 to form stable amide bonds. PEG Linkers may be useful in the development of antibody drug conjugates.

Benzyloxy carbonyl-PEG3-NHS ester is a Benzyl PEG Linker. PEG Linkers may be useful in the development of antibody drug conjugates.

Benzyloxy carbonyl-PEG3-acid is a Benzyl PEG Linker. PEG Linkers may be useful in the development of antibody drug conjugates.

N-(Aminooxy-PEG3)-N-bis(PEG4-t-butyl ester) is an Aminooxy PEG Linker. Aminooxy-PEG can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage.

Fmoc-aminooxy-PEG12-acid is an Aminooxy PEG Linker. Aminooxy PEGs may be useful in bioconjugation experiments.

t-Boc-Aminooxy-PEG3-oxyamine is an Aminooxy PEG Linker. These PEG Linkers may be useful in bioconjugation experiments.

t-Boc-Aminooxy-PEG7-methane is a crosslinker containing a t-Boc-aminooxy group and a methane group. The protected amine can be deprotected under mild acidic conditions. Aminooxy PEG Linkers may be useful in bioconjugation experiments.

t-Boc-Aminooxy-PEG4-azide is a crosslinker containing a t-Boc-aminooxy group and an azide group. The azide group can react with alkyne, BCN, DBCO via Click Chemistry to yield a stable triazole linkage. Aminooxy PEG Linkers may be useful in bioconjugation experiments.

t-Boc-Aminooxy-PEG1-azide is a crosslinker containing a t-Boc-aminooxy group and an azide group. The azide group can react with alkyne, BCN, DBCO via Click Chemistry to yield a stable triazole linkage. Aminooxy PEG Linkers may be useful in bioconjugation experiments.

t-Boc-Aminooxy-PEG2-CH2CO2H is a PEG derivative containing a Boc-protected aminooxy group and a terminal carboxylic acid. The terminal carboxylic acid can be reacted with primary amine groups in the presence of activators (e.g. EDC, or DCC) to form a stable amide bond. PEG Linkers may be useful in bioconjugation.

Aminooxy-PEG3-NH-Boc is an Aminooxy PEG Linker. Aminooxy-PEG can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage. PEG Linkers may be useful in the development of antibody drug conjugates and drug delivery methods.

Aminooxy-PEG3-methyl ester is a PEG derivative containing an aminooxy group and a methyl ester. The aminooxy group can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage.

Aminooxy-PEG4-CH2CO2tBu is a PEG derivative containing an aminooxy group and a t-butyl protected carboxyl group. The aminooxy group can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage. The t-butyl protected carboxyl group can be deprotected under acidic conditions.

Aminooxy-PEG4-t-butyl ester is a PEG derivative containing an aminooxy group and a t-butyl ester group. The aminooxy group can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage. The t-butyl protected carboxyl group can be deprotected under acidic conditions.

Aminooxy-PEG8-methane HCl salt is a PEG derivative containing an aminooxy group and a methane group. The aminooxy group can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage.

Aminooxy-PEG4-azide is a PEG derivative containing an aminooxy group and an azide group. The aminooxy group can be used in bioconjugation. It reacts with an aldehyde to form an oxime bond. If a reductant is used, it will form a hydroxylamine linkage. The azide group can react with alkyne, BCN, DBCO via Click Chemistry to yield a stable triazole linkage.