Biology Reference
In-Depth Information
74. Bianco PR, Kowalczykowski SC. Translocation step size and mechanism of the RecBC DNA
helicase.
Nature
2000;
:368-72.
75. Brower-Toland BD, Smith CL, Yeh RC, Lis JT, Peterson CL, Wang MD. Mechanical
disruption of individual nucleosomes reveals a reversible multistage release of DNA.
Proc
Natl Acad Sci USA
2002;
405
:1960-5.
76. Perkins TT, Li HW, Dalal RV, Gelles J, Block SM. Forward and reverse motion of single
RecBCD molecules on DNA.
Biophys J
2004;
99
:1640-8.
77. Skinner GM, Baumann CG, Quinn DM, Molloy JE, Hoggett JG. Promoter binding, initiation,
and elongation by bacteriophage T7 RNA polymerase. A single-molecule view of the tran-
scription cycle.
J Biol Chem
2004;
86
:3239-44.
78. van Oijen AM, Blainey PC, Crampton DJ, Richardson CC, Ellenberger T, Xie XS. Single-
molecule kinetics of lambda exonuclease reveal base dependence and dynamic disorder.
Science
2003;
279
:1235-8.
79. Abbondanzieri EA, Greenleaf WJ, Shaevitz JW, Landick R, Block SM. Direct observation of
base-pair stepping by RNA polymerase.
Nature
2005;
301
:460-5.
80. Lee JB, Hite RK, Hamdan SM, Xie XS, Richardson CC, van Oijen AM. DNA primase acts as a
molecular brake in DNA replication.
Nature
2006;
438
:621-4.
81. Strick TR, Croquette V, Bensimon D. Single-molecule analysis of DNA uncoiling by a type II
topoisomerase.
Nature
2000;
439
:901-4.
82. Allemand JF, Bensimon D, Jullien L, Bensimon A, Croquette V. pH-dependent specific
binding and combing of DNA.
Biophys J
1997;
404
:2064-70.
83. Lyon WA, Fang MM, Haskins WE, Nie S. A dual-beam optical microscope for observation
and cleavage of single DNA molecules.
Anal Chem
1998;
73
:1743-8.
84. Graneli A, Yeykal CC, Prasad TK, Greene EC. Organized arrays of individual DNA molecules
tethered to supported lipid bilayers.
Langmuir
2006;
70
:292-9.
85. Wang H, Tessmer I, Croteau DL, Erie DA, Van Houten B. Functional characterization and
atomic force microscopy of a DNA repair protein conjugated to a quantum dot.
Nano Lett
2008;
22
:1631-7.
86. Pinaud F, Clarke S, Sittner A, Dahan M. Probing cellular events, one quantum dot at a time.
Nat Methods
2010;
8
:275-85.
87. Medintz IL, Uyeda HT, Goldman ER, Mattoussi H. Quantum dot bioconjugates for imaging,
labelling and sensing.
Nat Mater
2005;
7
:435-46.
88. Clarke S, Pinaud F, Beutel O, You C, Piehler J, Dahan M. Covalent monofunctionalization of
peptide-coated quantum dots for single-molecule assays.
Nano Lett
2010;
4
:2147-54.
89. DeRocco V, Anderson T, Piehler J, Erie DA, Weninger K. Four-color single-molecule fluo-
rescence with noncovalent dye labeling to monitor dynamic multimolecular complexes.
Biotechniques
2010;
10
:807-16.
90. Roullier V, Clarke S, You C, Pinaud F, Gouzer GG, Schaible D, et al. High-affinity labeling
and tracking of individual histidine-tagged proteins in live cells using Ni2
49
รพ
tris-nitrilotriacetic
:1228-34.
91. You C, Wilmes S, Beutel O, Lochte S, Podoplelowa Y, Roder F, et al. Self-controlled
monofunctionalization of quantum dots for multiplexed protein tracking in live cells.
Ange-
wandte Chemie
2010;
acid quantum dot conjugates.
Nano Lett
2009;
9
:4108-12 (International ed. in English).
92. Orren DK, Sancar A. The (A)BC excinuclease of Escherichia coli has only the UvrB and UvrC
subunits in the incision complex.
Proc Natl Acad Sci USA
1989;
49
:5237-41.
93. Orren DK, Sancar A. Formation and enzymatic properties of the UvrB.DNA complex.
J Biol
Chem
1990;
86
:15796-803.
94. Wang H, Lu M, Tang MS, Van Houten B, Ross JB, Weinfeld M, et al. DNA wrapping is
required for DNA damage recognition in the Escherichia coli DNA nucleotide excision repair
pathway.
Proc Natl Acad Sci USA
2009;
265
:12849-54.
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