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Items: 27

1.

RSC functions as an early double-strand-break sensor in the cell's response to DNA damage.

Liang B, Qiu J, Ratnakumar K, Laurent BC.

Curr Biol. 2007 Aug 21;17(16):1432-7. Epub 2007 Aug 9.

2.

Chromatin remodeling and repair of DNA double-strand breaks.

Wong LY, Recht J, Laurent BC.

J Mol Histol. 2006 Sep;37(5-7):261-9. Epub 2006 Aug 8. Review.

PMID:
17120107
3.

ATP-dependent chromatin-remodeling complexes in DNA double-strand break repair: remodeling, pairing and (re)pairing.

Huang J, Liang B, Qiu J, Laurent BC.

Cell Cycle. 2005 Dec;4(12):1713-5. Epub 2005 Dec 5.

PMID:
16294042
4.
5.

A Role for the RSC chromatin remodeler in regulating cohesion of sister chromatid arms.

Huang J, Laurent BC.

Cell Cycle. 2004 Aug;3(8):973-5. Epub 2004 Aug 8. Review.

PMID:
15254404
6.

The RSC nucleosome-remodeling complex is required for Cohesin's association with chromosome arms.

Huang J, Hsu JM, Laurent BC.

Mol Cell. 2004 Mar 12;13(5):739-50. Erratum in: Mol Cell. 2004 Jul 23;15(2):315.

7.
8.

The yeast RSC chromatin-remodeling complex is required for kinetochore function in chromosome segregation.

Hsu JM, Huang J, Meluh PB, Laurent BC.

Mol Cell Biol. 2003 May;23(9):3202-15.

9.
10.

Essential roles of Snf5p in Snf-Swi chromatin remodeling in vivo.

Geng F, Cao Y, Laurent BC.

Mol Cell Biol. 2001 Jul;21(13):4311-20.

13.

Sfh1p, a component of a novel chromatin-remodeling complex, is required for cell cycle progression.

Cao Y, Cairns BR, Kornberg RD, Laurent BC.

Mol Cell Biol. 1997 Jun;17(6):3323-34.

14.

The SNF/SWI family of global transcriptional activators.

Carlson M, Laurent BC.

Curr Opin Cell Biol. 1994 Jun;6(3):396-402. Review.

PMID:
7917331
15.

A multisubunit complex containing the SWI1/ADR6, SWI2/SNF2, SWI3, SNF5, and SNF6 gene products isolated from yeast.

Cairns BR, Kim YJ, Sayre MH, Laurent BC, Kornberg RD.

Proc Natl Acad Sci U S A. 1994 Mar 1;91(5):1950-4.

16.
17.

Role of yeast SNF and SWI proteins in transcriptional activation.

Laurent BC, Treich I, Carlson M.

Cold Spring Harb Symp Quant Biol. 1993;58:257-63. Review. No abstract available.

PMID:
7956037
18.

Cloning of human and bovine homologs of SNF2/SWI2: a global activator of transcription in yeast S. cerevisiae.

Okabe I, Bailey LC, Attree O, Srinivasan S, Perkel JM, Laurent BC, Carlson M, Nelson DL, Nussbaum RL.

Nucleic Acids Res. 1992 Sep 11;20(17):4649-55.

19.

Yeast SNF2/SWI2, SNF5, and SNF6 proteins function coordinately with the gene-specific transcriptional activators GAL4 and Bicoid.

Laurent BC, Carlson M.

Genes Dev. 1992 Sep;6(9):1707-15. Erratum in: Genes Dev 1992 Nov;6(11):2233.

20.
21.
22.

Functional interdependence of the yeast SNF2, SNF5, and SNF6 proteins in transcriptional activation.

Laurent BC, Treitel MA, Carlson M.

Proc Natl Acad Sci U S A. 1991 Apr 1;88(7):2687-91.

24.

Mutational analysis of the SNF3 glucose transporter of Saccharomyces cerevisiae.

Marshall-Carlson L, Celenza JL, Laurent BC, Carlson M.

Mol Cell Biol. 1990 Mar;10(3):1105-15.

25.

Characterization of the rat retinol-binding protein gene and its comparison to the three-dimensional structure of the protein.

Laurent BC, Nilsson MH, Båvik CO, Jones TA, Sundelin J, Peterson PA.

J Biol Chem. 1985 Sep 25;260(21):11476-80.

26.

Amino acid sequence homologies between rabbit, rat, and human serum retinol-binding proteins.

Sundelin J, Laurent BC, Anundi H, Trägårdh L, Larhammar D, Björck L, Eriksson U, Akerström B, Jones A, Newcomer M, et al.

J Biol Chem. 1985 May 25;260(10):6472-80.

27.

Whole-body leucine and muscle protein kinetics in rats fed varying protein intakes.

Laurent BC, Moldawer LL, Young VR, Bistrian BR, Blackburn GL.

Am J Physiol. 1984 May;246(5 Pt 1):E444-51.

PMID:
6426316

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