Biophysical studies of the interaction of peptides with model membranes provide a simple yet effective approach to understand the transport of peptides and peptide based drug carriers across the cell membrane. Herein, the authors discuss the use of self-assembled monolayers fabricated from the full membrane-spanning thiol (FMST) 3-((14-((4′-((5-methyl-1-phenyl-35-(phytanyl)oxy-6,9,12,15,18,21,24,27,30,33,37-undecaoxa-2,3-dithiahenpentacontan-51-yl)oxy)-[1,1′-biphenyl]-4-yl)oxy)tetradecyl)oxy)-2-(phytanyl)oxy glycerol for ultrahigh vacuum (UHV) based experiments. UHV-based methods such as electron spectroscopy and mass spectrometry can provide important information about how peptides bind and interact with membranes, especially with the hydrophobic core of a lipid bilayer. Near-edge x-ray absorption fine structure spectra and x-ray photoelectron spectroscopy (XPS) data showed that FMST forms UHV-stable and ordered films on gold. XPS and time of flight secondary ion mass spectrometry depth profiles indicated that a proline-rich amphipathic cell-penetrating peptide, known as sweet arrow peptide is located at the outer perimeter of the model membrane.

1.
J. C.
Conboy
,
S.
Liu
,
D. F.
O'Brien
, and
S. S.
Saavedra
,
Biomacromolecules
4
,
841
(
2003
).
2.
R.
Michel
 et al,
Langmuir
24
,
4901
(
2008
).
3.
W.
Knoll
,
I.
Köper
,
R. L.
Naumann
, and
E.-K.
Sinner
,
Electrochim. Acta
53
,
6680
(
2008
).
4.
B. D.
Ratner
and
D. G.
Castner
,
Surface Analysis—The Principal Techniques
, edited by
J. C.
Vickerman
and
I.
Gilmore
(
Wiley
,
Chichester
,
2009
), pp.
47
112
.
5.
J. E.
Baio
,
T.
Weidner
,
G.
Interlandi
,
C.
Mendoza-Barrera
,
H. E.
Canavan
,
R.
Michel
, and
D. G.
Castner
,
J. Vac. Sci. Technol., B
29
,
4D113
(
2011
).
6.
A. M.
Belu
,
D. J.
Graham
, and
D. G.
Castner
,
Biomaterials
24
,
3635
(
2003
).
7.
J. E.
Baio
,
T.
Weidner
, and
D. G.
Castner
,
Proteins at Interfaces III
, edited by
T. A.
Horbett
and
J. L.
Brash
(
American Chemical Society
,
Washington, D.C.
2013
), pp.
761
779
.
8.
J. E.
Baio
,
T.
Weidner
,
L.
Baugh
,
L. J.
Gamble
,
P. S.
Stayton
, and
D. G.
Castner
,
Langmuir
28
,
2107
(
2012
).
9.
L.
Baugh
,
T.
Weidner
,
J. E.
Baio
,
P. C.
Nguyen
,
L. J.
Gamble
,
P. S.
Stayton
, and
D. G.
Castner
,
Langmuir
26
,
16434
(
2010
).
10.
J. E.
Baio
,
F.
Cheng
,
D. M.
Ratner
,
P. S.
Stayton
, and
D. G.
Castner
,
J. Biomed. Mater. Res. A
97A
,
1
(
2011
).
11.
J. E.
Baio
,
T.
Weidner
,
N. T.
Samuel
,
K.
McCrea
,
L.
Baugh
,
P. S.
Stayton
, and
D. G.
Castner
,
J. Vac. Sci. Technol., B
28
,
C5D1
(
2010
).
12.
J. E.
Baio
,
T.
Weidner
,
D.
Ramey
,
L.
Pruzinsky
, and
D. G.
Castner
,
Biointerphases
8
,
18
(
2013
).
13.
J.
Stöhr
,
NEXAFS Spectroscopy
(
Springer-Verlag
,
Berlin
,
2000
).
14.
T.
Weidner
,
M.
Dubey
,
N. F.
Breen
,
J.
Ash
,
J. E.
Baio
,
C.
Jaye
,
D. A.
Fischer
,
G. P.
Drobny
, and
D. G.
Castner
,
J. Am. Chem. Soc.
134
,
8750
(
2012
).
15.
E.
Koren
and
V. P.
Torchilin
,
Trends Mol. Med.
18
,
385
(
2012
).
16.
F.
Milletti
,
Drug Discovery Today
17
,
850
(
2012
).
17.
F.
Madani
,
S.
Lindberg
,
U.
Langel
,
S.
Futaki
, and
A.
Graslund
,
J. Biophys.
2011
,
414729
.
18.
S.
Pujals
,
J.
Fernandez-Carneado
,
C.
Lopez-Iglesias
,
M. J.
Kogan
, and
E.
Giralt
,
Biochim. Biophys. Acta
1758
,
264
(
2006
).
19.
S. D.
Conner
and
S. L.
Schmid
,
Nature
422
,
37
(
2003
).
20.
S.
Pujals
and
E.
Giralt
,
Adv. Drug Delivery Rev.
60
,
473
(
2008
).
21.
M.
Scocchi
,
A.
Tossi
, and
R.
Gennaro
,
Cell Mol. Life Sci.
68
,
2317
(
2011
).
22.
I.
Martin
,
M.
Teixido
, and
E.
Giralt
,
ChemBioChem
12
,
896
(
2011
).
23.
M.
Lelle
,
S. U.
Frick
,
K.
Steinbrink
, and
K.
Peneva
,
J. Pept. Sci.
20
,
323
(
2014
).
24.
L.
Pelkmans
and
A.
Helenius
,
Traffic
3
,
311
(
2002
).
25.
J. S.
Apte
,
G.
Collier
,
R. A.
Latour
,
L. J.
Gamble
, and
D. G.
Castner
,
Langmuir
26
,
3423
(
2010
).
26.
T.
Weidner
,
J. S.
Apte
,
L. J.
Gamble
, and
D. G.
Castner
,
Langmuir
26
,
3433
(
2010
).
27.
N. F.
Breen
,
T.
Weidner
,
K.
Li
,
D. G.
Castner
, and
G. P.
Drobny
,
J Am. Chem. Soc.
131
,
14148
(
2009
).
28.
K. P.
Fears
,
T. D.
Clark
, and
D. Y.
Petrovykh
,
J. Am. Chem. Soc.
135
,
15040
(
2013
).
29.
J.
Thome
,
M.
Himmelhaus
,
M.
Zharnikov
, and
M.
Grunze
,
Langmuir
14
,
7435
(
1998
).
30.
C. L. A.
Lamont
and
J.
Wilkes
,
Langmuir
15
,
2037
(
1999
).
31.
D. A.
Outka
,
J.
Stöhr
,
J. P.
Rabe
, and
J. D.
Swalen
,
J. Chem. Phys.
88
,
4076
(
1988
).
32.
P.
Väterlein
,
R.
Fink
,
E.
Umbach
, and
W.
Wurth
,
J. Chem. Phys.
108
,
3313
(
1998
).
33.
K.
Weiss
,
P. S.
Bagus
, and
C.
Wöll
,
J. Chem. Phys.
111
,
6834
(
1999
).
34.
D.
Wacker
,
K.
Weiss
,
U.
Kazmaier
, and
C.
Wöll
,
Langmuir
13
,
6689
(
1997
).
35.
H.-J.
Himmel
,
A.
Terfort
, and
C.
Wöll
,
J. Am. Chem. Soc.
120
,
12069
(
1998
).
36.
F.
Schreiber
,
Prog. Surf. Sci.
65
,
151
(
2000
).
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