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CATEGORIES:Lectures & Presentations
DESCRIPTION:Chemistry & Biochemistry Colloquium | Biomimicry with Synthetic
Receptors: Molecular Recognition\, Catalysis and Sensing\, March 20\n\nThe
Chemistry & Biochemistry colloquium series presents Dr. Richard Hooley dis
cussing "Biomimicry with Synthetic Receptors: Molecular Recognition\, Catal
ysis and Sensing"on March 20 from 4:10 to 5:05 p.m. in Walter 135.\n\n \n\n
Hooley is Professor of Chemistry at the University of California\, Riversid
e.\n\n \n\nThe host is Eric Masson.\n\n \n\nAbstract: The confined interior
spaces of self-assembled host molecules can be exploited for a variety of
catalytic processes\, as well as incorporating optical markers for biosensi
ng. Complex\, multistep processes require the binding and activation of mul
tiple different species along a reaction pathway\, which is not trivial for
rigid\, inflexible synthetic hosts. We have synthesized a variety of self-
assembled host complexes[1\,3] that present reactive functional groups to t
heir substrates\, and are capable of selective molecular recognition\, size
-selectivity and catalysis.[1-3] Selective molecular recognition of substra
tes controls the reactivity\, and the cages are capable of binding and acti
vating multiple different species along multistep reaction pathways. In add
ition\, modulation of sidechain acidity and basicity is key in enzyme mecha
nism\, controlled by hydrogen bonds (and other forces) in the superstructur
e\, and these effects can be seen in functionalized cage hosts also:[3] the
properties of complex enzymatic catalysis are displayed by simple self-ass
embled cages\, synthesized from the ground up.\n\n \n\nOther types of synth
etic hosts\, called self-folding deep cavitands\, when applied in an arraye
d\, fluorescent indicator displacement assay system can detect a variety of
biomolecules\, from steroids and drugs of abuse to post-translationally mo
dified (PTM) peptides and non-canonically folded nucleotides such as G-Quad
ruplexes[4\,5] in multiple types of biological media. Multiple recognition
mechanisms can be exploited\, either direct cavity-based binding of species
such as trimethyllysine (KMe3)\, or indirect charge-based recognition of d
ifferentially functionalized peptides or DNA G4s. The synergistic applicati
on of multiple variables in a single arrayed sensor system allows dual-mode
deep cavitands to approach levels of recognition selectivity usually only
seen with antibodies.\n\n\n\nFigure 1. Moderated basicity of Endohedral Ami
ne Groups in an Octa-Cationic Self-Assembled Cage.[3]\n\n \n\nReferences\n\
n[1] Holloway\, L.R.\; Bogie\, P.M.\; Lyon\, Y.\; Ngai\, C.\; Miller\, T.F
.\; Julian\, R.R.\; Hooley\, R.J. J. Am. Chem. Soc. 2018\, 140\, 8078.\n\n[
2] Ngai\, C.\; Sanchez-Marsetti\, C. M.\; Harman\, W.H.\; Hooley\, R.J. An
gew. Chem. Int. Ed. 2020\, 59\, 23505.\n\n[3] Ngai\, C.\; Wu\, H.-T.\; da
Camara\, B.\; Williams\, C. G.\; Mueller\, L. J.\; Julian\, R. R.\; Hooley\
, R. J. Angew. Chem. Int. Ed. 2022\, 61\, e202117011\n\n[4] Chen\, J.\; Gil
l\, A.D.\; Hickey\, B.L.\; Gao\, Z.\; Cui\, X.\; Hooley\, R.J.*\; Zhong\, W
.* J. Am. Chem. Soc. 2021\, 143\, 12791.\n\n[5] Chen\, J.\; Hickey\, B.L.\;
Wang\, L.\; Lee\, J.\; Gill\, A.D.\; Favero\, A.\; Pinalli\, R.\; Dalcanal
e\, E.\; Hooley\, R.J.*\; Zhong\, W.* Nat. Chem. 2021\, 13\, 488.
DTEND:20230320T210500Z
DTSTAMP:20241126T211134Z
DTSTART:20230320T201000Z
GEO:39.322732;-82.10287
LOCATION:Walter Hall\, 145
SEQUENCE:0
SUMMARY:Chemistry & Biochemistry Colloquium | Biomimicry with Synthetic Rec
eptors: Molecular Recognition\, Catalysis and Sensing\, March 20
UID:tag:localist.com\,2008:EventInstance_41065428538903
URL:https://calendar.ohio.edu/event/chemistry_biochemistry_colloquium_march
_20
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