DTSSP (3,3'-dithiobis(sulfosuccinimidyl propionate))

Citations & References (5)

Thermo Scientific™

DTSSP (3,3'-dithiobis(sulfosuccinimidyl propionate))

Thermo Scientific Pierce DTSSP is a popular water-soluble crosslinker that contains amine-reactive NHS-ester ends around an 8-atom spacer arm, whoseRead more

Catalog Number	Quantity
21578	50 mg

Catalog number 21578

Price (JPY)

36,800

Quantity:

50 mg

Request bulk or custom format

Thermo Scientific Pierce DTSSP is a popular water-soluble crosslinker that contains amine-reactive NHS-ester ends around an 8-atom spacer arm, whose central disulfide bond can be cleaved with reducing agents.

DTSSP is 3,3'-Dithiobis(sulfosuccinimidylpropionate), which contains an amine-reactive N-hydroxysulfosuccinimide (sulfo-NHS) ester at each end of an 8-carbon spacer arm. Sulfo-NHS esters react with primary amines at pH 7-9 to form stable amide bonds, along with release of the N-hydroxysulfosuccinimide leaving group. Proteins, including antibodies, generally have several primary amines in the side chain of lysine (K) residues and the N-terminus of each polypeptide that are available as targets for sulfo-NHS-ester crosslinking reagents. DSS, the non-sulfonated analog of DTSSP is also available for applications that require a membrane-permeable crosslinker.

Features of DTSSP:

• Reactive groups: sulfo-NHS ester (both ends)
• Reactive towards: amino groups (primary amines)
• Sulfo-NHS ester reacts rapidly with any primary amine-containing molecule
• Disulfide bond in the spacer arm is readily cleaved by 10-50 mM DTT or TCEP at pH 8.5
• Spacer arm also easily cleaved with reducing SDS-PAGE sample loading
• Cleavable crosslinker allows separation of crosslinked products
• Water-soluble; compare with DSP
• Membrane-impermeable, allowing for cell surface labeling

Applications:
• Chemical crosslinking of cell surface proteins prior to cell lysis and immunoprecipitation
• 'Fix' protein interactions to allow identification of weak or transient protein interactions
• Protein crosslinking to create bioconjugates via single-step reactions
• Immobilize proteins onto amine-coated surfaces

Properties of DTSSP
• Alternative names: Sulfo-DSP
• Molecular weight: 608.51
• Spacer arm length: 12.0 Å (8 atoms)
• Reactive groups: Sulfo-NHS esters, react with primary amines at pH 7.0–9.0

DTSSP Specifications
We manufacture DTSSP to the highest specifications to produce the most specific bioconjugates, ensure the integrity of your data and to provide you with the highest degree of consistency. Each lot of DTSSP is tested to meet the following minimum specifications:
• Solubility: > 6 mg/mL in DI water
• Identity: IR scan shows only peaks characteristic of the structure and functional groups of DTSSP
• Purity: > 80% by quantitative NMR (the highest standard for crosslinker purity)

Product References:
Crosslinker Application Guide -- search for recent literature references for this product

Related Products
DTSSP (3,3'-dithiobis(sulfosuccinimidyl propionate))
DSP (dithiobis(succinimidyl propionate)), Lomant's Reagent
DSS (disuccinimidyl suberate)

For Research Use Only. Not for use in diagnostic procedures.

Specifications

Cell PermeabilityNo

DescriptionDTSSP

FormPowder

Labeling MethodChemical Labeling

Molecular Weight (g/mol)608.51

PEGylatedNo

Product LinePierce

Quantity50 mg

Reactive MoietySulfo-NHS Ester

Shipping ConditionAmbient

SolubilityWater

Spacer Arm Length12.0 Å

Water SolubleYes

Chemical ReactivityAmine-Amine

CleavableBy Thiols

Crosslinker TypeHomobifunctional

FormatStandard

Product TypeCrosslinker

SpacerMedium (10 to 30 Å)

Unit SizeEach

Contents & Storage

Upon receipt store desiccated at 4°C.

Frequently asked questions (FAQs)

Can you provide the shelf-life for DTSSP (3,3'-dithiobis(sulfosuccinimidyl propionate))?

DTSSP (3,3'-dithiobis(sulfosuccinimidyl propionate)) is covered under our general 1-year warranty and is guaranteed to be fully functional for 12 months from the date of shipment, if stored as recommended. Please see section 8.1 of our Terms & Conditions of Sale (https://www.thermofisher.com/content/dam/LifeTech/Documents/PDFs/Terms-and-Conditions-of-Sale.pdf) for more details.

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

What is the difference between a homo- and a hetero- bifunctional cross-linker?

A homobifunctional cross-linker has the same reactive group on both ends, for example two amine-reactive groups. It is used in a one-step conjugation where the two molecules are mixed prior to the addition of the cross-linker. This leads to less efficient cross-linking because polymers can easily be created. A heterobifunctional cross-linker has two different reactive groups, for example an amine-reactive group on one end and a sulhydryl reactive group on the other. These can be used in two-step conjugations by reacting the fIrst end with the molecule containing its reactive group, and then adding the molecule that is reactive towards the other end. This leads to much more efficient cross-linking because polymerization does not occur.

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

Citations & References (5)

Citations & References

Abstract

HIV envelope-mediated, CCR5/a4ß7-dependent killing of CD4-negative ?d T cells which are lost during progression to AIDS.

Authors:Li H, Pauza CD

Journal:Blood

PubMed ID:21926353

'HIV infects and replicates in CD4+ T cells but effects on host immunity and disease also involve depletion, hyper-activation, and modification of CD4-negative cell populations. In particular, the depletion of CD4-negative ?d T cells is common to all HIV+ individuals. We found that soluble or cell-associated envelope glycoproteins from CCR5-tropic ... More

Adaptor autoregulation promotes coordinated binding within clathrin coats.

Authors:Hung CW, Aoh QL, Joglekar AP, Payne GS, Duncan MC

Journal:J Biol Chem

PubMed ID:22457357

Membrane traffic is an essential process that allows protein and lipid exchange between the endocytic, lysosomal, and secretory compartments. Clathrin-mediated traffic between the trans-Golgi network and endosomes mediates responses to the environment through the sorting of biosynthetic and endocytic protein cargo. Traffic through this pathway is initiated by the controlled ... More

A nucleotide phosphatase activity in the nucleotide binding domain of an orphan resistance protein from rice.

Authors:Fenyk S, Campillo Ade S, Pohl E, Hussey PJ, Cann MJ

Journal:J Biol Chem

PubMed ID:22157756

Plant resistance proteins (R-proteins) are key components of the plant immune system activated in response to a plethora of different pathogens. R-proteins are P-loop NTPase superfamily members, and current models describe their main function as ATPases in defense signaling pathways. Here we show that a subset of R-proteins have evolved ... More

Surface-affinity profiling to identify host-pathogen interactions.

Authors:Boleij A, Laarakkers CM, Gloerich J, Swinkels DW, Tjalsma H

Journal:Infect Immun

PubMed ID:21947776

Proteolytic treatment of intact bacterial cells has proven to be a convenient approach for the identification of surface-exposed proteins. This class of proteins directly interacts with the outside world, for instance, during adherence to human epithelial cells. Here, we aimed to identify host receptor proteins by introducing a preincubation step ... More

Psb27, a transiently associated protein, binds to the chlorophyll binding protein CP43 in photosystem II assembly intermediates.

Authors:Liu H, Huang RY, Chen J, Gross ML, Pakrasi HB

Journal:Proc Natl Acad Sci U S A

PubMed ID:22031695

Photosystem II (PSII), a large multisubunit pigment-protein complex localized in the thylakoid membrane of cyanobacteria and chloroplasts, mediates light-driven evolution of oxygen from water. Recently, a high-resolution X-ray structure of the mature PSII complex has become available. Two PSII polypeptides, D1 and CP43, provide many of the ligands to an ... More