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Items: 1 to 20 of 37

1.

A microRNA detection system based on padlock probes and rolling circle amplification.

Jonstrup SP, Koch J, Kjems J.

RNA. 2006 Sep;12(9):1747-52. Epub 2006 Aug 3.

2.

Method for assigning double-stranded RNA structures.

Brown TS, Bevilacqua PC.

Biotechniques. 2005 Mar;38(3):368, 370, 372. No abstract available.

3.

Analysis of T-cell receptor V beta gene repertoires after immune stimulation and in malignancy by use of padlock probes and microarrays.

Banér J, Marits P, Nilsson M, Winqvist O, Landegren U.

Clin Chem. 2005 Apr;51(4):768-75. Epub 2005 Feb 3.

4.

Insights into strand displacement and processivity from the crystal structure of the protein-primed DNA polymerase of bacteriophage phi29.

Kamtekar S, Berman AJ, Wang J, Lázaro JM, de Vega M, Blanco L, Salas M, Steitz TA.

Mol Cell. 2004 Nov 19;16(4):609-18. Erratum in: Mol Cell. 2004 Dec 22;16(6):1035-6.

5.

Studies of the specificity of deoxyribonuclease I. I. Hydrolysis of a trinucleotide.

POTTER JL, LAURILA UR, LASKOWSKI M.

J Biol Chem. 1958 Oct;233(4):915-6. No abstract available.

6.

Parallel gene analysis with allele-specific padlock probes and tag microarrays.

Banér J, Isaksson A, Waldenström E, Jarvius J, Landegren U, Nilsson M.

Nucleic Acids Res. 2003 Sep 1;31(17):e103.

7.
8.

Mechanism of action of RNase T. II. A structural and functional model of the enzyme.

Zuo Y, Deutscher MP.

J Biol Chem. 2002 Dec 20;277(51):50160-4. Epub 2002 Oct 2.

9.

The physiological role of RNase T can be explained by its unusual substrate specificity.

Zuo Y, Deutscher MP.

J Biol Chem. 2002 Aug 16;277(33):29654-61. Epub 2002 Jun 5.

10.

Detection of DNA point mutations and mRNA expression levels by rolling circle amplification in individual cells.

Christian AT, Pattee MS, Attix CM, Reed BE, Sorensen KJ, Tucker JD.

Proc Natl Acad Sci U S A. 2001 Dec 4;98(25):14238-43. Epub 2001 Nov 27.

11.

In situ detection of messenger RNA using digoxigenin-labeled oligonucleotides and rolling circle amplification.

Zhou Y, Calciano M, Hamann S, Leamon JH, Strugnell T, Christian MW, Lizardi PM.

Exp Mol Pathol. 2001 Jun;70(3):281-8.

PMID:
11418007
12.

Phi29 family of phages.

Meijer WJ, Horcajadas JA, Salas M.

Microbiol Mol Biol Rev. 2001 Jun;65(2):261-87 ; second page, table of contents.

13.

Exoribonuclease superfamilies: structural analysis and phylogenetic distribution.

Zuo Y, Deutscher MP.

Nucleic Acids Res. 2001 Mar 1;29(5):1017-26. Review.

14.

RNA-templated DNA ligation for transcript analysis.

Nilsson M, Antson DO, Barbany G, Landegren U.

Nucleic Acids Res. 2001 Jan 15;29(2):578-81.

15.
16.

The DNase activity of RNase T and its application to DNA cloning.

Zuo Y, Deutscher MP.

Nucleic Acids Res. 1999 Oct 15;27(20):4077-82.

17.

A single tyrosine prevents insertion of ribonucleotides in the eukaryotic-type phi29 DNA polymerase.

Bonnin A, Lázaro JM, Blanco L, Salas M.

J Mol Biol. 1999 Jul 2;290(1):241-51.

PMID:
10388570
18.

Identification of a potent DNase activity associated with RNase T of Escherichia coli.

Viswanathan M, Dower KW, Lovett ST.

J Biol Chem. 1998 Dec 25;273(52):35126-31.

19.

Signal amplification of padlock probes by rolling circle replication.

Banér J, Nilsson M, Mendel-Hartvig M, Landegren U.

Nucleic Acids Res. 1998 Nov 15;26(22):5073-8.

20.

Mutation detection and single-molecule counting using isothermal rolling-circle amplification.

Lizardi PM, Huang X, Zhu Z, Bray-Ward P, Thomas DC, Ward DC.

Nat Genet. 1998 Jul;19(3):225-32.

PMID:
9662393

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