Catalog Number: 10-1034-xx

Description: 4-Thio-dT-CE Phosphoramidite

The C-nucleoside 2’-deoxypseudouridine, in contrast to dU, forms stable C:pseudoU-A triplets. 2-Aminopurine lacks groups critical for hydrogen bonding and is a mildly fluorescent base.

Demand for sulfur modified bases continues to expand for investigations of oligonucleotide structure, but primarily for cross-linking purposes. 6-Thio-dG, 4-Thio-dT and 4-thio-dU are very useful modifications for photo cross-linking and photoaffinity labelling experiments. Oligos containing 2-thio-dT are useful in examining protein-DNA interaction by acting as photosensitizing probes. The thiocarbonyl group in 2-thio-dT is especially interesting in that it is available to react with compounds associating with the minor groove of DNA. 2-Amino-A forms a very stable base pair with T containing three hydrogen bonds but the stability of the base pair with 2-thio-T is greatly diminished. Due to steric interactions between the 2-thio group of thymidine and the 2-amino group of 2-amino-A, the base pair contains only a single hydrogen bond. Oligos containing 2-amino-dA and 2-thio-dT exhibit high affinity for natural oligonucleotides but show little affinity for other similar oligos even of a complementary sequence.

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MSDS

Glen Report 8.2: TRANSCRIPTION TERMINATOR, 2-THIO- AND 4-THIO-THYMIDINE

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6-Thio-dG, 4-Thio-dT and 4-Thio-dU are protected as the S-cyanoethyl ether which is stable during synthesis and readily removed by ammonium hydroxide.  It is critical to add 50mM sodium hydrosulfide (NaSH) to the ammonium hydroxide used for deprotection.  Especially if room temperature deprotection is carried out, this technique radically reduces the level of ammonolysis which would lead to undesired aminated bases.  Moreover, it is also desirable to remove the cyanoethyl protecting group (1M DBU in acetonitrile, 2-5h/RT) prior to the ammonium hydroxide cleavage and deprotection.

Frequently Asked Technical Question

QUESTION: Can 4-thiodU be used for crosslinking and how is it prepared?

RESPONSE:4-thioU is efficiently activated for crosslinking by exposure to long-wavelength UV light for up to 10 minutes. Crosslinks are formed with RNA and proteins.

Oligonucleotides containing 4-thiodU (10-1051) and 4-thioT (10-1033) can be produced from the triazole modified phosphoramidites using the convertible nucleoside strategy (1,2). However, we now offer the nuclesides 4-thio-dT (10-1034), 4-thio-dU (10-1052), 2-thio-dT (10-1036), and 4-thio-U (10-3052) for direct incorporation into oligonucleotides and the convertible monomers have been discontinued. A further enhancement of this strategy used 4-thioxU as an intermediated in the preparation of thiocarbonyl crosslinkers (3).

FERENCE(S):
(1) Y.Z. Xu, Q. Zheng, and P.F. Swann, J. Org. Chem., 1992, 57, 3841.
(2) The Glen Report, 1993, 6.1, 1, and references cited therein.
(3) R.S. Coleman and J.M. Siedlecki, Journal of the American Chemical Society, 1992, 114, 9229-9230.

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DILUTION/COUPLING DATA

The table below shows pack size data and, for solutions, dilutions and approximate couplings based on normal priming procedures.

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