Biomedical Engineering Reference
In-Depth Information
Shima T, Hampel F, Gladysz J (2004) Molecular Gyroscopes: {Fe(CO)
3
} and {Fe(CO)
2
(NO)}+
Rotators Encased in Three-Spoke Stators; Facile Assembly by Alkene Metatheses. Angew
Chem Int Ed 43:5537.
Shinkai S, Ikeda M, Sugasaki A, Takeuchi M (2001) Positive Allosteric Systems Designed on
Dynamic Supramolecular Scaffolds: Toward Switching and Amplifi cation of Guest Affi nity
and Selectivity. Acc Chem Res 34:494-503.
Smalley R (2001) “Of chemistry, love and nanobots - How soon will we see the nanometer-scale
robots envisaged by K. Eric Drexler and other molecular nanotechologists? The simple answer
is never”. Sci Am 285:76-77.
Soong R, Bachand G, Neves H, Olkhovets A, Craighead H, Montemagno C (2000) Powering an
inorganic nanodevice with a biomolecular motor. Science 290:1555.
Steed J, Atwood J (2000) Supramolecular Chemistry. New York: Wiley.
Steed J, Atwood J (2004) Enclyclopedia of Supramolecular Chemistry. New York: Dekker.
Steinberg-Yfrach G, Liddell P, Hung S, Moore A, Gust D, Moore T (1997) Conversion of light
enery to proton potential in liposomes by artifi cial photosynthetic reaction centers. Nature
385:239-241.
Steinberg-Yfrach G, Rigaud J, Durantini E, Moore A, Gust D, Moore T (1998) Lightdriven pro-
duction of ATP catalysed by F0F1- ATP synthase in an artifi cial photosynthetic membrane.
Nature 392:479.
Stock D, Leslie A, Walker J (1999) Molecular Architecture of the Rotary Motor in ATP Synthase.
Science 286:700.
Svoboda K, Schmidt C, Schnapp B, Block S (1993) Direct observation of kinesin stepping by opti-
cal trapping interferometry. Nature 365.
Ter Wiel MKJ, Van Delden RA, Meetsma A, Feringa BL (2003) Increased Speed of Rotation for
the Smallest Light-Driven Molecular Motor. J Am Chem Soc 125:15076-15086.
Tseng H, Vignon S, Stoddart J (2003) Toward Chemically Controlled Nanoscale Molecular
Machinery. Angew Chem Int Ed 42:1491-1495.
Tseng H, Vignon S, Celestre P, Perkins J, Jeppesen J, Di Fabio A, Ballardini R, Gandolfi M,
Venturi M, Balzani V, Stoddart J (2004) Redox-Controllable Amphiphilic [2]Rotaxanes. Chem
Eur J 10:155-172.
Vale R, Milligan R (2000) The way things move: Looking under the hood of molecular motor
proteins. Science 288:89-95.
Van Delden R, Koumura N, Schoevaars A, Meetsma A, Feringa B (2003) A donor-acceptor substituted
molecular motor: Unidirectional rotation driven by visible light. Org Biomol Chem 1:33-35.
Visscher K, Schnitzer M, Block SN (1999) Single kinesin molecules studied with a molecular
force clamp. Nature 400:184-189.
Walker J (1998) ATP Synthesis by Rotary Catalysis (Nobel lecture). Angew Chem Int Ed Engl
37:2308.
Wang Q, Qu D, Ren J, Chen K, Tian H (2004) A lockable light-driven molecular shuttle with a
fl ourescent signal. Angew Chem Int Ed 43:2661.
Willner I, Pardo-Yssar V, Katz E, Ranjit K (2001) A photoactivated 'molecular train' for optoelec-
tronic applications: light-stimulated translocation of a beta.-cyclodextrin receptor within a
stoppered azobenzene-alkyl chain supramolecular monolayer assembly on a Au-electrode. J
Electroanal Chem 497:172-177.
Xi J, Schmidt J, Montemagno C (2005) Self-assembled microdevices driven by muscle. Nature
Mater 4:180-184.
Yan H, Zhang X, Shen Z, Seeman N (2002) A robust DNA mechanical device controlled by
hybridization topology. Nature 415:62-65.
Yasuda R, Noji H, Kinosita KJ, Yoshida M (1998) F1-ATPase Is a Highly Effi cient Molecular
Motor that Rotates with Discrete 120° Steps. Cell 93:1117-1124.
Yasuda R, Noji H, Yoshida M, Kinosita K, Itoh HN (2001) Resolution of distinct rotational
substeps by submillisecond kinetic analysis of F1-ATPase. Nature 210:898-904.
Yidiz A, Tomishige M, Vale R, Selvin P (2004) Kinesin walks hand-over-hand. Science
303:676-678.
